void free(void *ptr);
#define MALLOC(a, _) malloc(a)
+#define do_MALLOC(a, _b, _c) malloc(a)
#define FREE(p) if ((unsigned long)(p) > 4096) { free(p); }
#define DO_ASSERT(a) (void)(a)
#define CHECK(a)
ty elems[]; \
}; \
typedef struct name##array * name##Array; \
- static inline name##Array init_##name##Array(size_t arr_len) { \
- name##Array arr = (name##Array)MALLOC(arr_len * sizeof(ty) + sizeof(uint32_t), "##name array init"); \
+ static inline name##Array init_##name##Array(size_t arr_len, int lineno) { \
+ name##Array arr = (name##Array)do_MALLOC(arr_len * sizeof(ty) + sizeof(uint32_t), #name" array init", lineno); \
arr->arr_len = arr_len; \
return arr; \
}
typedef charArray jstring;
static inline jstring str_ref_to_ts(const char* chars, size_t len) {
- charArray arr = init_charArray(len);
+ charArray arr = init_charArray(len, __LINE__);
memcpy(arr->elems, chars, len);
return arr;
}
void __attribute__((export_name("TS_free"))) TS_free(uint32_t ptr) {
FREE((void*)ptr);
}
+
+jstring __attribute__((export_name("TS_get_ldk_c_bindings_version"))) TS_get_ldk_c_bindings_version() {
+ const char *res = check_get_ldk_bindings_version();
+ if (res == NULL) return NULL;
+ return str_ref_to_ts(res, strlen(res));
+}
+jstring __attribute__((export_name("TS_get_ldk_version"))) get_ldk_version() {
+ const char *res = check_get_ldk_version();
+ if (res == NULL) return NULL;
+ return str_ref_to_ts(res, strlen(res));
+}
+#include "version.c"
static inline struct LDKThirtyTwoBytes ThirtyTwoBytes_clone(const struct LDKThirtyTwoBytes *orig) { struct LDKThirtyTwoBytes ret; memcpy(ret.data, orig->data, 32); return ret; }
static inline LDKAccessError LDKAccessError_from_js(int32_t ord) {
switch (ord) {
struct LDKCVec_u8Z TxOut_get_script_pubkey (struct LDKTxOut* thing) { return CVec_u8Z_clone(&thing->script_pubkey);}int8_tArray __attribute__((export_name("TS_TxOut_get_script_pubkey"))) TS_TxOut_get_script_pubkey(uint32_t thing) {
LDKTxOut* thing_conv = (LDKTxOut*)(thing & ~1);
LDKCVec_u8Z ret_var = TxOut_get_script_pubkey(thing_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_get_ok"))) TS_CResult_ChannelConfigDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelConfigDecodeErrorZ* owner_conv = (LDKCResult_ChannelConfigDecodeErrorZ*)(owner & ~1);
LDKChannelConfig ret_var = CResult_ChannelConfigDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_get_err"))) TS_CResult_ChannelConfigDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelConfigDecodeErrorZ* owner_conv = (LDKCResult_ChannelConfigDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelConfigDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_get_ok"))) TS_CResult_OutPointDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_OutPointDecodeErrorZ* owner_conv = (LDKCResult_OutPointDecodeErrorZ*)(owner & ~1);
LDKOutPoint ret_var = CResult_OutPointDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_get_err"))) TS_CResult_OutPointDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_OutPointDecodeErrorZ* owner_conv = (LDKCResult_OutPointDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_OutPointDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
int8_tArray __attribute__((export_name("TS_CResult_SecretKeyErrorZ_get_ok"))) TS_CResult_SecretKeyErrorZ_get_ok(uint32_t owner) {
LDKCResult_SecretKeyErrorZ* owner_conv = (LDKCResult_SecretKeyErrorZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, CResult_SecretKeyErrorZ_get_ok(owner_conv).bytes, 32);
return ret_arr;
}
}
int8_tArray __attribute__((export_name("TS_CResult_PublicKeyErrorZ_get_ok"))) TS_CResult_PublicKeyErrorZ_get_ok(uint32_t owner) {
LDKCResult_PublicKeyErrorZ* owner_conv = (LDKCResult_PublicKeyErrorZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, CResult_PublicKeyErrorZ_get_ok(owner_conv).compressed_form, 33);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_get_ok"))) TS_CResult_TxCreationKeysDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_TxCreationKeysDecodeErrorZ* owner_conv = (LDKCResult_TxCreationKeysDecodeErrorZ*)(owner & ~1);
LDKTxCreationKeys ret_var = CResult_TxCreationKeysDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_get_err"))) TS_CResult_TxCreationKeysDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_TxCreationKeysDecodeErrorZ* owner_conv = (LDKCResult_TxCreationKeysDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_TxCreationKeysDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_get_ok"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelPublicKeysDecodeErrorZ* owner_conv = (LDKCResult_ChannelPublicKeysDecodeErrorZ*)(owner & ~1);
LDKChannelPublicKeys ret_var = CResult_ChannelPublicKeysDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_get_err"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelPublicKeysDecodeErrorZ* owner_conv = (LDKCResult_ChannelPublicKeysDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelPublicKeysDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_get_ok"))) TS_CResult_TxCreationKeysErrorZ_get_ok(uint32_t owner) {
LDKCResult_TxCreationKeysErrorZ* owner_conv = (LDKCResult_TxCreationKeysErrorZ*)(owner & ~1);
LDKTxCreationKeys ret_var = CResult_TxCreationKeysErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_get_ok"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* owner_conv = (LDKCResult_HTLCOutputInCommitmentDecodeErrorZ*)(owner & ~1);
LDKHTLCOutputInCommitment ret_var = CResult_HTLCOutputInCommitmentDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_get_err"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* owner_conv = (LDKCResult_HTLCOutputInCommitmentDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_HTLCOutputInCommitmentDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_get_ok"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* owner_conv = (LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ*)(owner & ~1);
LDKCounterpartyChannelTransactionParameters ret_var = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_get_err"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* owner_conv = (LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_get_ok"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelTransactionParametersDecodeErrorZ* owner_conv = (LDKCResult_ChannelTransactionParametersDecodeErrorZ*)(owner & ~1);
LDKChannelTransactionParameters ret_var = CResult_ChannelTransactionParametersDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_get_err"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelTransactionParametersDecodeErrorZ* owner_conv = (LDKCResult_ChannelTransactionParametersDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelTransactionParametersDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_get_ok"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* owner_conv = (LDKCResult_HolderCommitmentTransactionDecodeErrorZ*)(owner & ~1);
LDKHolderCommitmentTransaction ret_var = CResult_HolderCommitmentTransactionDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_get_err"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* owner_conv = (LDKCResult_HolderCommitmentTransactionDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_HolderCommitmentTransactionDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_get_ok"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* owner_conv = (LDKCResult_BuiltCommitmentTransactionDecodeErrorZ*)(owner & ~1);
LDKBuiltCommitmentTransaction ret_var = CResult_BuiltCommitmentTransactionDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_get_err"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* owner_conv = (LDKCResult_BuiltCommitmentTransactionDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_BuiltCommitmentTransactionDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_TrustedClosingTransactionNoneZ_get_ok"))) TS_CResult_TrustedClosingTransactionNoneZ_get_ok(uint32_t owner) {
LDKCResult_TrustedClosingTransactionNoneZ* owner_conv = (LDKCResult_TrustedClosingTransactionNoneZ*)(owner & ~1);
LDKTrustedClosingTransaction ret_var = *CResult_TrustedClosingTransactionNoneZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner & ~1;
+ ret_ref = (uintptr_t)ret_var.inner & ~1;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_get_ok"))) TS_CResult_CommitmentTransactionDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_CommitmentTransactionDecodeErrorZ* owner_conv = (LDKCResult_CommitmentTransactionDecodeErrorZ*)(owner & ~1);
LDKCommitmentTransaction ret_var = CResult_CommitmentTransactionDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_get_err"))) TS_CResult_CommitmentTransactionDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_CommitmentTransactionDecodeErrorZ* owner_conv = (LDKCResult_CommitmentTransactionDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_CommitmentTransactionDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_TrustedCommitmentTransactionNoneZ_get_ok"))) TS_CResult_TrustedCommitmentTransactionNoneZ_get_ok(uint32_t owner) {
LDKCResult_TrustedCommitmentTransactionNoneZ* owner_conv = (LDKCResult_TrustedCommitmentTransactionNoneZ*)(owner & ~1);
LDKTrustedCommitmentTransaction ret_var = *CResult_TrustedCommitmentTransactionNoneZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner & ~1;
+ ret_ref = (uintptr_t)ret_var.inner & ~1;
return ret_ref;
}
LDKCResult_CVec_SignatureZNoneZ* owner_conv = (LDKCResult_CVec_SignatureZNoneZ*)(owner & ~1);
LDKCVec_SignatureZ ret_var = CResult_CVec_SignatureZNoneZ_get_ok(owner_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
- int8_tArray ret_conv_12_arr = init_int8_tArray(64);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_var.data[m].compact_form, 64);
ret_arr_ptr[m] = ret_conv_12_arr;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_get_ok"))) TS_CResult_ShutdownScriptDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ShutdownScriptDecodeErrorZ* owner_conv = (LDKCResult_ShutdownScriptDecodeErrorZ*)(owner & ~1);
LDKShutdownScript ret_var = CResult_ShutdownScriptDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_get_err"))) TS_CResult_ShutdownScriptDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ShutdownScriptDecodeErrorZ* owner_conv = (LDKCResult_ShutdownScriptDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ShutdownScriptDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_get_ok"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_get_ok(uint32_t owner) {
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* owner_conv = (LDKCResult_ShutdownScriptInvalidShutdownScriptZ*)(owner & ~1);
LDKShutdownScript ret_var = CResult_ShutdownScriptInvalidShutdownScriptZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_get_err"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_get_err(uint32_t owner) {
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* owner_conv = (LDKCResult_ShutdownScriptInvalidShutdownScriptZ*)(owner & ~1);
LDKInvalidShutdownScript ret_var = CResult_ShutdownScriptInvalidShutdownScriptZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCVec_u8Z ret_ref;
ret_ref.datalen = ret->arr_len;
ret_ref.data = MALLOC(ret_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(ret_ref.data, ret->elems, ret_ref.datalen);
+ memcpy(ret_ref.data, ret->elems, ret_ref.datalen); FREE(ret);
return ret_ref;
}
static void LDKType_JCalls_cloned(LDKType* new_obj) {
return (long)res_ptr;
}
int16_t __attribute__((export_name("TS_Type_type_id"))) TS_Type_type_id(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKType* this_arg_conv = (LDKType*)this_arg_ptr;
int16_t ret_val = (this_arg_conv->type_id)(this_arg_conv->this_arg);
}
jstring __attribute__((export_name("TS_Type_debug_str"))) TS_Type_debug_str(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKType* this_arg_conv = (LDKType*)this_arg_ptr;
LDKStr ret_str = (this_arg_conv->debug_str)(this_arg_conv->this_arg);
}
int8_tArray __attribute__((export_name("TS_Type_write"))) TS_Type_write(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKType* this_arg_conv = (LDKType*)this_arg_ptr;
LDKCVec_u8Z ret_var = (this_arg_conv->write)(this_arg_conv->this_arg);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
assert(obj->tag == LDKCOption_TypeZ_Some);
LDKType* some_ret = MALLOC(sizeof(LDKType), "LDKType");
*some_ret = Type_clone(&obj->some);
- return (uint64_t)some_ret;
+ return (uintptr_t)some_ret;
}
static inline struct LDKCOption_TypeZ CResult_COption_TypeZDecodeErrorZ_get_ok(LDKCResult_COption_TypeZDecodeErrorZ *NONNULL_PTR owner){
CHECK(owner->result_ok);
LDKCResult_COption_TypeZDecodeErrorZ* owner_conv = (LDKCResult_COption_TypeZDecodeErrorZ*)(owner & ~1);
LDKCOption_TypeZ *ret_copy = MALLOC(sizeof(LDKCOption_TypeZ), "LDKCOption_TypeZ");
*ret_copy = CResult_COption_TypeZDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_get_err"))) TS_CResult_COption_TypeZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_COption_TypeZDecodeErrorZ* owner_conv = (LDKCResult_COption_TypeZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_COption_TypeZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_get_ok"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* owner_conv = (LDKCResult_ChannelMonitorUpdateDecodeErrorZ*)(owner & ~1);
LDKChannelMonitorUpdate ret_var = CResult_ChannelMonitorUpdateDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_get_err"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* owner_conv = (LDKCResult_ChannelMonitorUpdateDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelMonitorUpdateDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKMonitorEvent *obj = (LDKMonitorEvent*)(ptr & ~1);
assert(obj->tag == LDKMonitorEvent_HTLCEvent);
LDKHTLCUpdate htlc_event_var = obj->htlc_event;
- uint64_t htlc_event_ref = 0;
- CHECK((((uint64_t)htlc_event_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&htlc_event_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t htlc_event_ref = 0;
+ CHECK((((uintptr_t)htlc_event_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&htlc_event_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(htlc_event_var);
- htlc_event_ref = (uint64_t)htlc_event_var.inner & ~1;
+ htlc_event_ref = (uintptr_t)htlc_event_var.inner & ~1;
return htlc_event_ref;
}
uint32_t __attribute__((export_name("TS_LDKMonitorEvent_CommitmentTxConfirmed_get_commitment_tx_confirmed"))) TS_LDKMonitorEvent_CommitmentTxConfirmed_get_commitment_tx_confirmed(uint32_t ptr) {
LDKMonitorEvent *obj = (LDKMonitorEvent*)(ptr & ~1);
assert(obj->tag == LDKMonitorEvent_CommitmentTxConfirmed);
LDKOutPoint commitment_tx_confirmed_var = obj->commitment_tx_confirmed;
- uint64_t commitment_tx_confirmed_ref = 0;
- CHECK((((uint64_t)commitment_tx_confirmed_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&commitment_tx_confirmed_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t commitment_tx_confirmed_ref = 0;
+ CHECK((((uintptr_t)commitment_tx_confirmed_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&commitment_tx_confirmed_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(commitment_tx_confirmed_var);
- commitment_tx_confirmed_ref = (uint64_t)commitment_tx_confirmed_var.inner & ~1;
+ commitment_tx_confirmed_ref = (uintptr_t)commitment_tx_confirmed_var.inner & ~1;
return commitment_tx_confirmed_ref;
}
uint32_t __attribute__((export_name("TS_LDKMonitorEvent_UpdateCompleted_get_funding_txo"))) TS_LDKMonitorEvent_UpdateCompleted_get_funding_txo(uint32_t ptr) {
LDKMonitorEvent *obj = (LDKMonitorEvent*)(ptr & ~1);
assert(obj->tag == LDKMonitorEvent_UpdateCompleted);
LDKOutPoint funding_txo_var = obj->update_completed.funding_txo;
- uint64_t funding_txo_ref = 0;
- CHECK((((uint64_t)funding_txo_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&funding_txo_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t funding_txo_ref = 0;
+ CHECK((((uintptr_t)funding_txo_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&funding_txo_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(funding_txo_var);
- funding_txo_ref = (uint64_t)funding_txo_var.inner & ~1;
+ funding_txo_ref = (uintptr_t)funding_txo_var.inner & ~1;
return funding_txo_ref;
}
int64_t __attribute__((export_name("TS_LDKMonitorEvent_UpdateCompleted_get_monitor_update_id"))) TS_LDKMonitorEvent_UpdateCompleted_get_monitor_update_id(uint32_t ptr) {
LDKMonitorEvent *obj = (LDKMonitorEvent*)(ptr & ~1);
assert(obj->tag == LDKMonitorEvent_UpdateFailed);
LDKOutPoint update_failed_var = obj->update_failed;
- uint64_t update_failed_ref = 0;
- CHECK((((uint64_t)update_failed_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&update_failed_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t update_failed_ref = 0;
+ CHECK((((uintptr_t)update_failed_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&update_failed_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(update_failed_var);
- update_failed_ref = (uint64_t)update_failed_var.inner & ~1;
+ update_failed_ref = (uintptr_t)update_failed_var.inner & ~1;
return update_failed_ref;
}
uint32_t __attribute__((export_name("TS_LDKCOption_MonitorEventZ_ty_from_ptr"))) TS_LDKCOption_MonitorEventZ_ty_from_ptr(uint32_t ptr) {
uint32_t __attribute__((export_name("TS_LDKCOption_MonitorEventZ_Some_get_some"))) TS_LDKCOption_MonitorEventZ_Some_get_some(uint32_t ptr) {
LDKCOption_MonitorEventZ *obj = (LDKCOption_MonitorEventZ*)(ptr & ~1);
assert(obj->tag == LDKCOption_MonitorEventZ_Some);
- uint64_t some_ref = ((uint64_t)&obj->some) | 1;
+ uintptr_t some_ref = ((uintptr_t)&obj->some) | 1;
return some_ref;
}
static inline struct LDKCOption_MonitorEventZ CResult_COption_MonitorEventZDecodeErrorZ_get_ok(LDKCResult_COption_MonitorEventZDecodeErrorZ *NONNULL_PTR owner){
LDKCResult_COption_MonitorEventZDecodeErrorZ* owner_conv = (LDKCResult_COption_MonitorEventZDecodeErrorZ*)(owner & ~1);
LDKCOption_MonitorEventZ *ret_copy = MALLOC(sizeof(LDKCOption_MonitorEventZ), "LDKCOption_MonitorEventZ");
*ret_copy = CResult_COption_MonitorEventZDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_get_err"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_COption_MonitorEventZDecodeErrorZ* owner_conv = (LDKCResult_COption_MonitorEventZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_COption_MonitorEventZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_get_ok"))) TS_CResult_HTLCUpdateDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_HTLCUpdateDecodeErrorZ* owner_conv = (LDKCResult_HTLCUpdateDecodeErrorZ*)(owner & ~1);
LDKHTLCUpdate ret_var = CResult_HTLCUpdateDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_get_err"))) TS_CResult_HTLCUpdateDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_HTLCUpdateDecodeErrorZ* owner_conv = (LDKCResult_HTLCUpdateDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_HTLCUpdateDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_C2Tuple_OutPointScriptZ_get_a"))) TS_C2Tuple_OutPointScriptZ_get_a(uint32_t owner) {
LDKC2Tuple_OutPointScriptZ* owner_conv = (LDKC2Tuple_OutPointScriptZ*)(owner & ~1);
LDKOutPoint ret_var = C2Tuple_OutPointScriptZ_get_a(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
int8_tArray __attribute__((export_name("TS_C2Tuple_OutPointScriptZ_get_b"))) TS_C2Tuple_OutPointScriptZ_get_b(uint32_t owner) {
LDKC2Tuple_OutPointScriptZ* owner_conv = (LDKC2Tuple_OutPointScriptZ*)(owner & ~1);
LDKCVec_u8Z ret_var = C2Tuple_OutPointScriptZ_get_b(owner_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
int8_tArray __attribute__((export_name("TS_C2Tuple_u32ScriptZ_get_b"))) TS_C2Tuple_u32ScriptZ_get_b(uint32_t owner) {
LDKC2Tuple_u32ScriptZ* owner_conv = (LDKC2Tuple_u32ScriptZ*)(owner & ~1);
LDKCVec_u8Z ret_var = C2Tuple_u32ScriptZ_get_b(owner_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
}
int8_tArray __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_get_a"))) TS_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_get_a(uint32_t owner) {
LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ* owner_conv = (LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_get_a(owner_conv).data, 32);
return ret_arr;
}
LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ* owner_conv = (LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ*)(owner & ~1);
LDKCVec_C2Tuple_u32ScriptZZ ret_var = C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_get_b(owner_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t v = 0; v < ret_var.datalen; v++) {
LDKC2Tuple_u32ScriptZ* ret_conv_21_conv = &ret_var.data[v];
// Warning: we really need to clone here, but no clone is available for LDKC2Tuple_u32ScriptZ
- ret_arr_ptr[v] = ((uint64_t)ret_conv_21_conv) | 1;
+ ret_arr_ptr[v] = ((uintptr_t)ret_conv_21_conv) | 1;
}
return ret_arr;
int8_tArray __attribute__((export_name("TS_LDKPaymentPurpose_InvoicePayment_get_payment_preimage"))) TS_LDKPaymentPurpose_InvoicePayment_get_payment_preimage(uint32_t ptr) {
LDKPaymentPurpose *obj = (LDKPaymentPurpose*)(ptr & ~1);
assert(obj->tag == LDKPaymentPurpose_InvoicePayment);
- int8_tArray payment_preimage_arr = init_int8_tArray(32);
+ int8_tArray payment_preimage_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_preimage_arr->elems, obj->invoice_payment.payment_preimage.data, 32);
return payment_preimage_arr;
}
int8_tArray __attribute__((export_name("TS_LDKPaymentPurpose_InvoicePayment_get_payment_secret"))) TS_LDKPaymentPurpose_InvoicePayment_get_payment_secret(uint32_t ptr) {
LDKPaymentPurpose *obj = (LDKPaymentPurpose*)(ptr & ~1);
assert(obj->tag == LDKPaymentPurpose_InvoicePayment);
- int8_tArray payment_secret_arr = init_int8_tArray(32);
+ int8_tArray payment_secret_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_secret_arr->elems, obj->invoice_payment.payment_secret.data, 32);
return payment_secret_arr;
}
int8_tArray __attribute__((export_name("TS_LDKPaymentPurpose_SpontaneousPayment_get_spontaneous_payment"))) TS_LDKPaymentPurpose_SpontaneousPayment_get_spontaneous_payment(uint32_t ptr) {
LDKPaymentPurpose *obj = (LDKPaymentPurpose*)(ptr & ~1);
assert(obj->tag == LDKPaymentPurpose_SpontaneousPayment);
- int8_tArray spontaneous_payment_arr = init_int8_tArray(32);
+ int8_tArray spontaneous_payment_arr = init_int8_tArray(32, __LINE__);
memcpy(spontaneous_payment_arr->elems, obj->spontaneous_payment.data, 32);
return spontaneous_payment_arr;
}
LDKNetworkUpdate *obj = (LDKNetworkUpdate*)(ptr & ~1);
assert(obj->tag == LDKNetworkUpdate_ChannelUpdateMessage);
LDKChannelUpdate msg_var = obj->channel_update_message.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int64_t __attribute__((export_name("TS_LDKNetworkUpdate_ChannelClosed_get_short_channel_id"))) TS_LDKNetworkUpdate_ChannelClosed_get_short_channel_id(uint32_t ptr) {
int8_tArray __attribute__((export_name("TS_LDKNetworkUpdate_NodeFailure_get_node_id"))) TS_LDKNetworkUpdate_NodeFailure_get_node_id(uint32_t ptr) {
LDKNetworkUpdate *obj = (LDKNetworkUpdate*)(ptr & ~1);
assert(obj->tag == LDKNetworkUpdate_NodeFailure);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->node_failure.node_id.compressed_form, 33);
return node_id_arr;
}
uint32_t __attribute__((export_name("TS_LDKCOption_NetworkUpdateZ_Some_get_some"))) TS_LDKCOption_NetworkUpdateZ_Some_get_some(uint32_t ptr) {
LDKCOption_NetworkUpdateZ *obj = (LDKCOption_NetworkUpdateZ*)(ptr & ~1);
assert(obj->tag == LDKCOption_NetworkUpdateZ_Some);
- uint64_t some_ref = ((uint64_t)&obj->some) | 1;
+ uintptr_t some_ref = ((uintptr_t)&obj->some) | 1;
return some_ref;
}
static inline LDKCVec_RouteHopZ CVec_RouteHopZ_clone(const LDKCVec_RouteHopZ *orig) {
LDKSpendableOutputDescriptor *obj = (LDKSpendableOutputDescriptor*)(ptr & ~1);
assert(obj->tag == LDKSpendableOutputDescriptor_StaticOutput);
LDKOutPoint outpoint_var = obj->static_output.outpoint;
- uint64_t outpoint_ref = 0;
- CHECK((((uint64_t)outpoint_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&outpoint_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t outpoint_ref = 0;
+ CHECK((((uintptr_t)outpoint_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&outpoint_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(outpoint_var);
- outpoint_ref = (uint64_t)outpoint_var.inner & ~1;
+ outpoint_ref = (uintptr_t)outpoint_var.inner & ~1;
return outpoint_ref;
}
uint32_t __attribute__((export_name("TS_LDKSpendableOutputDescriptor_StaticOutput_get_output"))) TS_LDKSpendableOutputDescriptor_StaticOutput_get_output(uint32_t ptr) {
LDKSpendableOutputDescriptor *obj = (LDKSpendableOutputDescriptor*)(ptr & ~1);
assert(obj->tag == LDKSpendableOutputDescriptor_StaticOutput);
- uint64_t output_ref = ((uint64_t)&obj->static_output.output) | 1;
- return (uint64_t)output_ref;
+ uintptr_t output_ref = ((uintptr_t)&obj->static_output.output) | 1;
+ return (uintptr_t)output_ref;
}
uint32_t __attribute__((export_name("TS_LDKSpendableOutputDescriptor_DelayedPaymentOutput_get_delayed_payment_output"))) TS_LDKSpendableOutputDescriptor_DelayedPaymentOutput_get_delayed_payment_output(uint32_t ptr) {
LDKSpendableOutputDescriptor *obj = (LDKSpendableOutputDescriptor*)(ptr & ~1);
assert(obj->tag == LDKSpendableOutputDescriptor_DelayedPaymentOutput);
LDKDelayedPaymentOutputDescriptor delayed_payment_output_var = obj->delayed_payment_output;
- uint64_t delayed_payment_output_ref = 0;
- CHECK((((uint64_t)delayed_payment_output_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&delayed_payment_output_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t delayed_payment_output_ref = 0;
+ CHECK((((uintptr_t)delayed_payment_output_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&delayed_payment_output_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(delayed_payment_output_var);
- delayed_payment_output_ref = (uint64_t)delayed_payment_output_var.inner & ~1;
+ delayed_payment_output_ref = (uintptr_t)delayed_payment_output_var.inner & ~1;
return delayed_payment_output_ref;
}
uint32_t __attribute__((export_name("TS_LDKSpendableOutputDescriptor_StaticPaymentOutput_get_static_payment_output"))) TS_LDKSpendableOutputDescriptor_StaticPaymentOutput_get_static_payment_output(uint32_t ptr) {
LDKSpendableOutputDescriptor *obj = (LDKSpendableOutputDescriptor*)(ptr & ~1);
assert(obj->tag == LDKSpendableOutputDescriptor_StaticPaymentOutput);
LDKStaticPaymentOutputDescriptor static_payment_output_var = obj->static_payment_output;
- uint64_t static_payment_output_ref = 0;
- CHECK((((uint64_t)static_payment_output_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&static_payment_output_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t static_payment_output_ref = 0;
+ CHECK((((uintptr_t)static_payment_output_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&static_payment_output_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(static_payment_output_var);
- static_payment_output_ref = (uint64_t)static_payment_output_var.inner & ~1;
+ static_payment_output_ref = (uintptr_t)static_payment_output_var.inner & ~1;
return static_payment_output_ref;
}
static inline LDKCVec_SpendableOutputDescriptorZ CVec_SpendableOutputDescriptorZ_clone(const LDKCVec_SpendableOutputDescriptorZ *orig) {
int8_tArray __attribute__((export_name("TS_LDKEvent_FundingGenerationReady_get_temporary_channel_id"))) TS_LDKEvent_FundingGenerationReady_get_temporary_channel_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_FundingGenerationReady);
- int8_tArray temporary_channel_id_arr = init_int8_tArray(32);
+ int8_tArray temporary_channel_id_arr = init_int8_tArray(32, __LINE__);
memcpy(temporary_channel_id_arr->elems, obj->funding_generation_ready.temporary_channel_id.data, 32);
return temporary_channel_id_arr;
}
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_FundingGenerationReady);
LDKCVec_u8Z output_script_var = obj->funding_generation_ready.output_script;
- int8_tArray output_script_arr = init_int8_tArray(output_script_var.datalen);
+ int8_tArray output_script_arr = init_int8_tArray(output_script_var.datalen, __LINE__);
memcpy(output_script_arr->elems, output_script_var.data, output_script_var.datalen);
return output_script_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentReceived_get_payment_hash"))) TS_LDKEvent_PaymentReceived_get_payment_hash(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentReceived);
- int8_tArray payment_hash_arr = init_int8_tArray(32);
+ int8_tArray payment_hash_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_hash_arr->elems, obj->payment_received.payment_hash.data, 32);
return payment_hash_arr;
}
uint32_t __attribute__((export_name("TS_LDKEvent_PaymentReceived_get_purpose"))) TS_LDKEvent_PaymentReceived_get_purpose(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentReceived);
- uint64_t purpose_ref = ((uint64_t)&obj->payment_received.purpose) | 1;
+ uintptr_t purpose_ref = ((uintptr_t)&obj->payment_received.purpose) | 1;
return purpose_ref;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentSent_get_payment_id"))) TS_LDKEvent_PaymentSent_get_payment_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentSent);
- int8_tArray payment_id_arr = init_int8_tArray(32);
+ int8_tArray payment_id_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_id_arr->elems, obj->payment_sent.payment_id.data, 32);
return payment_id_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentSent_get_payment_preimage"))) TS_LDKEvent_PaymentSent_get_payment_preimage(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentSent);
- int8_tArray payment_preimage_arr = init_int8_tArray(32);
+ int8_tArray payment_preimage_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_preimage_arr->elems, obj->payment_sent.payment_preimage.data, 32);
return payment_preimage_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentSent_get_payment_hash"))) TS_LDKEvent_PaymentSent_get_payment_hash(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentSent);
- int8_tArray payment_hash_arr = init_int8_tArray(32);
+ int8_tArray payment_hash_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_hash_arr->elems, obj->payment_sent.payment_hash.data, 32);
return payment_hash_arr;
}
uint32_t __attribute__((export_name("TS_LDKEvent_PaymentSent_get_fee_paid_msat"))) TS_LDKEvent_PaymentSent_get_fee_paid_msat(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentSent);
- uint64_t fee_paid_msat_ref = ((uint64_t)&obj->payment_sent.fee_paid_msat) | 1;
+ uintptr_t fee_paid_msat_ref = ((uintptr_t)&obj->payment_sent.fee_paid_msat) | 1;
return fee_paid_msat_ref;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentPathFailed_get_payment_id"))) TS_LDKEvent_PaymentPathFailed_get_payment_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathFailed);
- int8_tArray payment_id_arr = init_int8_tArray(32);
+ int8_tArray payment_id_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_id_arr->elems, obj->payment_path_failed.payment_id.data, 32);
return payment_id_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentPathFailed_get_payment_hash"))) TS_LDKEvent_PaymentPathFailed_get_payment_hash(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathFailed);
- int8_tArray payment_hash_arr = init_int8_tArray(32);
+ int8_tArray payment_hash_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_hash_arr->elems, obj->payment_path_failed.payment_hash.data, 32);
return payment_hash_arr;
}
uint32_t __attribute__((export_name("TS_LDKEvent_PaymentPathFailed_get_network_update"))) TS_LDKEvent_PaymentPathFailed_get_network_update(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathFailed);
- uint64_t network_update_ref = ((uint64_t)&obj->payment_path_failed.network_update) | 1;
+ uintptr_t network_update_ref = ((uintptr_t)&obj->payment_path_failed.network_update) | 1;
return network_update_ref;
}
jboolean __attribute__((export_name("TS_LDKEvent_PaymentPathFailed_get_all_paths_failed"))) TS_LDKEvent_PaymentPathFailed_get_all_paths_failed(uint32_t ptr) {
assert(obj->tag == LDKEvent_PaymentPathFailed);
LDKCVec_RouteHopZ path_var = obj->payment_path_failed.path;
uint32_tArray path_arr = NULL;
- path_arr = init_uint32_tArray(path_var.datalen);
+ path_arr = init_uint32_tArray(path_var.datalen, __LINE__);
uint32_t *path_arr_ptr = (uint32_t*)(((uint8_t*)path_arr) + 4);
for (size_t k = 0; k < path_var.datalen; k++) {
LDKRouteHop path_conv_10_var = path_var.data[k];
- uint64_t path_conv_10_ref = 0;
- CHECK((((uint64_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t path_conv_10_ref = 0;
+ CHECK((((uintptr_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(path_conv_10_var);
- path_conv_10_ref = (uint64_t)path_conv_10_var.inner & ~1;
+ path_conv_10_ref = (uintptr_t)path_conv_10_var.inner & ~1;
path_arr_ptr[k] = path_conv_10_ref;
}
uint32_t __attribute__((export_name("TS_LDKEvent_PaymentPathFailed_get_short_channel_id"))) TS_LDKEvent_PaymentPathFailed_get_short_channel_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathFailed);
- uint64_t short_channel_id_ref = ((uint64_t)&obj->payment_path_failed.short_channel_id) | 1;
+ uintptr_t short_channel_id_ref = ((uintptr_t)&obj->payment_path_failed.short_channel_id) | 1;
return short_channel_id_ref;
}
uint32_t __attribute__((export_name("TS_LDKEvent_PaymentPathFailed_get_retry"))) TS_LDKEvent_PaymentPathFailed_get_retry(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathFailed);
LDKRouteParameters retry_var = obj->payment_path_failed.retry;
- uint64_t retry_ref = 0;
- if ((uint64_t)retry_var.inner > 4096) {
- CHECK((((uint64_t)retry_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&retry_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t retry_ref = 0;
+ if ((uintptr_t)retry_var.inner > 4096) {
+ CHECK((((uintptr_t)retry_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&retry_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(retry_var);
- retry_ref = (uint64_t)retry_var.inner & ~1;
+ retry_ref = (uintptr_t)retry_var.inner & ~1;
}
return retry_ref;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentFailed_get_payment_id"))) TS_LDKEvent_PaymentFailed_get_payment_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentFailed);
- int8_tArray payment_id_arr = init_int8_tArray(32);
+ int8_tArray payment_id_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_id_arr->elems, obj->payment_failed.payment_id.data, 32);
return payment_id_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentFailed_get_payment_hash"))) TS_LDKEvent_PaymentFailed_get_payment_hash(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentFailed);
- int8_tArray payment_hash_arr = init_int8_tArray(32);
+ int8_tArray payment_hash_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_hash_arr->elems, obj->payment_failed.payment_hash.data, 32);
return payment_hash_arr;
}
assert(obj->tag == LDKEvent_SpendableOutputs);
LDKCVec_SpendableOutputDescriptorZ outputs_var = obj->spendable_outputs.outputs;
uint32_tArray outputs_arr = NULL;
- outputs_arr = init_uint32_tArray(outputs_var.datalen);
+ outputs_arr = init_uint32_tArray(outputs_var.datalen, __LINE__);
uint32_t *outputs_arr_ptr = (uint32_t*)(((uint8_t*)outputs_arr) + 4);
for (size_t b = 0; b < outputs_var.datalen; b++) {
- uint64_t outputs_conv_27_ref = ((uint64_t)&outputs_var.data[b]) | 1;
+ uintptr_t outputs_conv_27_ref = ((uintptr_t)&outputs_var.data[b]) | 1;
outputs_arr_ptr[b] = outputs_conv_27_ref;
}
uint32_t __attribute__((export_name("TS_LDKEvent_PaymentForwarded_get_fee_earned_msat"))) TS_LDKEvent_PaymentForwarded_get_fee_earned_msat(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentForwarded);
- uint64_t fee_earned_msat_ref = ((uint64_t)&obj->payment_forwarded.fee_earned_msat) | 1;
+ uintptr_t fee_earned_msat_ref = ((uintptr_t)&obj->payment_forwarded.fee_earned_msat) | 1;
return fee_earned_msat_ref;
}
jboolean __attribute__((export_name("TS_LDKEvent_PaymentForwarded_get_claim_from_onchain_tx"))) TS_LDKEvent_PaymentForwarded_get_claim_from_onchain_tx(uint32_t ptr) {
int8_tArray __attribute__((export_name("TS_LDKEvent_ChannelClosed_get_channel_id"))) TS_LDKEvent_ChannelClosed_get_channel_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_ChannelClosed);
- int8_tArray channel_id_arr = init_int8_tArray(32);
+ int8_tArray channel_id_arr = init_int8_tArray(32, __LINE__);
memcpy(channel_id_arr->elems, obj->channel_closed.channel_id.data, 32);
return channel_id_arr;
}
uint32_t __attribute__((export_name("TS_LDKEvent_ChannelClosed_get_reason"))) TS_LDKEvent_ChannelClosed_get_reason(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_ChannelClosed);
- uint64_t reason_ref = ((uint64_t)&obj->channel_closed.reason) | 1;
+ uintptr_t reason_ref = ((uintptr_t)&obj->channel_closed.reason) | 1;
return reason_ref;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_DiscardFunding_get_channel_id"))) TS_LDKEvent_DiscardFunding_get_channel_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_DiscardFunding);
- int8_tArray channel_id_arr = init_int8_tArray(32);
+ int8_tArray channel_id_arr = init_int8_tArray(32, __LINE__);
memcpy(channel_id_arr->elems, obj->discard_funding.channel_id.data, 32);
return channel_id_arr;
}
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_DiscardFunding);
LDKTransaction transaction_var = obj->discard_funding.transaction;
- int8_tArray transaction_arr = init_int8_tArray(transaction_var.datalen);
+ int8_tArray transaction_arr = init_int8_tArray(transaction_var.datalen, __LINE__);
memcpy(transaction_arr->elems, transaction_var.data, transaction_var.datalen);
return transaction_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentPathSuccessful_get_payment_id"))) TS_LDKEvent_PaymentPathSuccessful_get_payment_id(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathSuccessful);
- int8_tArray payment_id_arr = init_int8_tArray(32);
+ int8_tArray payment_id_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_id_arr->elems, obj->payment_path_successful.payment_id.data, 32);
return payment_id_arr;
}
int8_tArray __attribute__((export_name("TS_LDKEvent_PaymentPathSuccessful_get_payment_hash"))) TS_LDKEvent_PaymentPathSuccessful_get_payment_hash(uint32_t ptr) {
LDKEvent *obj = (LDKEvent*)(ptr & ~1);
assert(obj->tag == LDKEvent_PaymentPathSuccessful);
- int8_tArray payment_hash_arr = init_int8_tArray(32);
+ int8_tArray payment_hash_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_hash_arr->elems, obj->payment_path_successful.payment_hash.data, 32);
return payment_hash_arr;
}
assert(obj->tag == LDKEvent_PaymentPathSuccessful);
LDKCVec_RouteHopZ path_var = obj->payment_path_successful.path;
uint32_tArray path_arr = NULL;
- path_arr = init_uint32_tArray(path_var.datalen);
+ path_arr = init_uint32_tArray(path_var.datalen, __LINE__);
uint32_t *path_arr_ptr = (uint32_t*)(((uint8_t*)path_arr) + 4);
for (size_t k = 0; k < path_var.datalen; k++) {
LDKRouteHop path_conv_10_var = path_var.data[k];
- uint64_t path_conv_10_ref = 0;
- CHECK((((uint64_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t path_conv_10_ref = 0;
+ CHECK((((uintptr_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(path_conv_10_var);
- path_conv_10_ref = (uint64_t)path_conv_10_var.inner & ~1;
+ path_conv_10_ref = (uintptr_t)path_conv_10_var.inner & ~1;
path_arr_ptr[k] = path_conv_10_ref;
}
static inline uintptr_t C2Tuple_usizeTransactionZ_get_a(LDKC2Tuple_usizeTransactionZ *NONNULL_PTR owner){
return owner->a;
}
-int64_t __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_get_a"))) TS_C2Tuple_usizeTransactionZ_get_a(uint32_t owner) {
+intptr_t __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_get_a"))) TS_C2Tuple_usizeTransactionZ_get_a(uint32_t owner) {
LDKC2Tuple_usizeTransactionZ* owner_conv = (LDKC2Tuple_usizeTransactionZ*)(owner & ~1);
- int64_t ret_val = C2Tuple_usizeTransactionZ_get_a(owner_conv);
+ intptr_t ret_val = C2Tuple_usizeTransactionZ_get_a(owner_conv);
return ret_val;
}
int8_tArray __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_get_b"))) TS_C2Tuple_usizeTransactionZ_get_b(uint32_t owner) {
LDKC2Tuple_usizeTransactionZ* owner_conv = (LDKC2Tuple_usizeTransactionZ*)(owner & ~1);
LDKTransaction ret_var = C2Tuple_usizeTransactionZ_get_b(owner_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
LDKC2Tuple_u32TxOutZ* owner_conv = (LDKC2Tuple_u32TxOutZ*)(owner & ~1);
LDKTxOut* ret_ref = MALLOC(sizeof(LDKTxOut), "LDKTxOut");
*ret_ref = C2Tuple_u32TxOutZ_get_b(owner_conv);
- return (uint64_t)ret_ref;
+ return (uintptr_t)ret_ref;
}
static inline LDKCVec_C2Tuple_u32TxOutZZ CVec_C2Tuple_u32TxOutZZ_clone(const LDKCVec_C2Tuple_u32TxOutZZ *orig) {
}
int8_tArray __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_get_a"))) TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_get_a(uint32_t owner) {
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* owner_conv = (LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_get_a(owner_conv).data, 32);
return ret_arr;
}
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* owner_conv = (LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ*)(owner & ~1);
LDKCVec_C2Tuple_u32TxOutZZ ret_var = C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_get_b(owner_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t u = 0; u < ret_var.datalen; u++) {
LDKC2Tuple_u32TxOutZ* ret_conv_20_conv = MALLOC(sizeof(LDKC2Tuple_u32TxOutZ), "LDKC2Tuple_u32TxOutZ");
*ret_conv_20_conv = ret_var.data[u];
- ret_arr_ptr[u] = ((uint64_t)ret_conv_20_conv);
+ ret_arr_ptr[u] = ((uintptr_t)ret_conv_20_conv);
}
FREE(ret_var.data);
}
int8_tArray __attribute__((export_name("TS_C2Tuple_SignatureCVec_SignatureZZ_get_a"))) TS_C2Tuple_SignatureCVec_SignatureZZ_get_a(uint32_t owner) {
LDKC2Tuple_SignatureCVec_SignatureZZ* owner_conv = (LDKC2Tuple_SignatureCVec_SignatureZZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, C2Tuple_SignatureCVec_SignatureZZ_get_a(owner_conv).compact_form, 64);
return ret_arr;
}
LDKC2Tuple_SignatureCVec_SignatureZZ* owner_conv = (LDKC2Tuple_SignatureCVec_SignatureZZ*)(owner & ~1);
LDKCVec_SignatureZ ret_var = C2Tuple_SignatureCVec_SignatureZZ_get_b(owner_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
- int8_tArray ret_conv_12_arr = init_int8_tArray(64);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_var.data[m].compact_form, 64);
ret_arr_ptr[m] = ret_conv_12_arr;
}
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* owner_conv = (LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ*)(owner & ~1);
LDKC2Tuple_SignatureCVec_SignatureZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_SignatureCVec_SignatureZZ), "LDKC2Tuple_SignatureCVec_SignatureZZ");
*ret_conv = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_get_ok(owner_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
static inline void CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_get_err(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ *NONNULL_PTR owner){
}
int8_tArray __attribute__((export_name("TS_CResult_SignatureNoneZ_get_ok"))) TS_CResult_SignatureNoneZ_get_ok(uint32_t owner) {
LDKCResult_SignatureNoneZ* owner_conv = (LDKCResult_SignatureNoneZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, CResult_SignatureNoneZ_get_ok(owner_conv).compact_form, 64);
return ret_arr;
}
int8_tArray ret = (int8_tArray)js_invoke_function_1(j_calls->instance_ptr, 3, (uint32_t)idx);
LDKPublicKey ret_ref;
CHECK(ret->arr_len == 33);
- memcpy(ret_ref.compressed_form, ret->elems, 33);
+ memcpy(ret_ref.compressed_form, ret->elems, 33); FREE(ret);
return ret_ref;
}
LDKThirtyTwoBytes release_commitment_secret_LDKBaseSign_jcall(const void* this_arg, uint64_t idx) {
int8_tArray ret = (int8_tArray)js_invoke_function_1(j_calls->instance_ptr, 4, (uint32_t)idx);
LDKThirtyTwoBytes ret_ref;
CHECK(ret->arr_len == 32);
- memcpy(ret_ref.data, ret->elems, 32);
+ memcpy(ret_ref.data, ret->elems, 32); FREE(ret);
return ret_ref;
}
LDKCResult_NoneNoneZ validate_holder_commitment_LDKBaseSign_jcall(const void* this_arg, const LDKHolderCommitmentTransaction * holder_tx) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKHolderCommitmentTransaction holder_tx_var = *holder_tx;
- uint64_t holder_tx_ref = 0;
+ uintptr_t holder_tx_ref = 0;
holder_tx_var = HolderCommitmentTransaction_clone(holder_tx);
- CHECK((((uint64_t)holder_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&holder_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)holder_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&holder_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(holder_tx_var);
- holder_tx_ref = (uint64_t)holder_tx_var.inner;
+ holder_tx_ref = (uintptr_t)holder_tx_var.inner;
if (holder_tx_var.is_owned) {
holder_tx_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 5, (uint32_t)holder_tx_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneNoneZ ret_conv = *(LDKCResult_NoneNoneZ*)(ret_ptr);
FREE((void*)ret);
int8_tArray ret = (int8_tArray)js_invoke_function_0(j_calls->instance_ptr, 6);
LDKThirtyTwoBytes ret_ref;
CHECK(ret->arr_len == 32);
- memcpy(ret_ref.data, ret->elems, 32);
+ memcpy(ret_ref.data, ret->elems, 32); FREE(ret);
return ret_ref;
}
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ sign_counterparty_commitment_LDKBaseSign_jcall(const void* this_arg, const LDKCommitmentTransaction * commitment_tx) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKCommitmentTransaction commitment_tx_var = *commitment_tx;
- uint64_t commitment_tx_ref = 0;
+ uintptr_t commitment_tx_ref = 0;
commitment_tx_var = CommitmentTransaction_clone(commitment_tx);
- CHECK((((uint64_t)commitment_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&commitment_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)commitment_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&commitment_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(commitment_tx_var);
- commitment_tx_ref = (uint64_t)commitment_tx_var.inner;
+ commitment_tx_ref = (uintptr_t)commitment_tx_var.inner;
if (commitment_tx_var.is_owned) {
commitment_tx_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 7, (uint32_t)commitment_tx_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ ret_conv = *(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ*)(ret_ptr);
FREE((void*)ret);
}
LDKCResult_NoneNoneZ validate_counterparty_revocation_LDKBaseSign_jcall(const void* this_arg, uint64_t idx, const uint8_t (* secret)[32]) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
- int8_tArray secret_arr = init_int8_tArray(32);
+ int8_tArray secret_arr = init_int8_tArray(32, __LINE__);
memcpy(secret_arr->elems, *secret, 32);
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 8, (uint32_t)idx, (uint32_t)secret_arr);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneNoneZ ret_conv = *(LDKCResult_NoneNoneZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ sign_holder_commitment_and_htlcs_LDKBaseSign_jcall(const void* this_arg, const LDKHolderCommitmentTransaction * commitment_tx) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKHolderCommitmentTransaction commitment_tx_var = *commitment_tx;
- uint64_t commitment_tx_ref = 0;
+ uintptr_t commitment_tx_ref = 0;
commitment_tx_var = HolderCommitmentTransaction_clone(commitment_tx);
- CHECK((((uint64_t)commitment_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&commitment_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)commitment_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&commitment_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(commitment_tx_var);
- commitment_tx_ref = (uint64_t)commitment_tx_var.inner;
+ commitment_tx_ref = (uintptr_t)commitment_tx_var.inner;
if (commitment_tx_var.is_owned) {
commitment_tx_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 9, (uint32_t)commitment_tx_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ ret_conv = *(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_SignatureNoneZ sign_justice_revoked_output_LDKBaseSign_jcall(const void* this_arg, LDKTransaction justice_tx, uintptr_t input, uint64_t amount, const uint8_t (* per_commitment_key)[32]) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKTransaction justice_tx_var = justice_tx;
- int8_tArray justice_tx_arr = init_int8_tArray(justice_tx_var.datalen);
+ int8_tArray justice_tx_arr = init_int8_tArray(justice_tx_var.datalen, __LINE__);
memcpy(justice_tx_arr->elems, justice_tx_var.data, justice_tx_var.datalen);
Transaction_free(justice_tx_var);
- int8_tArray per_commitment_key_arr = init_int8_tArray(32);
+ int8_tArray per_commitment_key_arr = init_int8_tArray(32, __LINE__);
memcpy(per_commitment_key_arr->elems, *per_commitment_key, 32);
uint32_t ret = js_invoke_function_4(j_calls->instance_ptr, 10, (uint32_t)justice_tx_arr, (uint32_t)input, (uint32_t)amount, (uint32_t)per_commitment_key_arr);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_SignatureNoneZ ret_conv = *(LDKCResult_SignatureNoneZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_SignatureNoneZ sign_justice_revoked_htlc_LDKBaseSign_jcall(const void* this_arg, LDKTransaction justice_tx, uintptr_t input, uint64_t amount, const uint8_t (* per_commitment_key)[32], const LDKHTLCOutputInCommitment * htlc) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKTransaction justice_tx_var = justice_tx;
- int8_tArray justice_tx_arr = init_int8_tArray(justice_tx_var.datalen);
+ int8_tArray justice_tx_arr = init_int8_tArray(justice_tx_var.datalen, __LINE__);
memcpy(justice_tx_arr->elems, justice_tx_var.data, justice_tx_var.datalen);
Transaction_free(justice_tx_var);
- int8_tArray per_commitment_key_arr = init_int8_tArray(32);
+ int8_tArray per_commitment_key_arr = init_int8_tArray(32, __LINE__);
memcpy(per_commitment_key_arr->elems, *per_commitment_key, 32);
LDKHTLCOutputInCommitment htlc_var = *htlc;
- uint64_t htlc_ref = 0;
+ uintptr_t htlc_ref = 0;
htlc_var = HTLCOutputInCommitment_clone(htlc);
- CHECK((((uint64_t)htlc_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&htlc_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)htlc_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&htlc_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(htlc_var);
- htlc_ref = (uint64_t)htlc_var.inner;
+ htlc_ref = (uintptr_t)htlc_var.inner;
if (htlc_var.is_owned) {
htlc_ref |= 1;
}
uint32_t ret = js_invoke_function_5(j_calls->instance_ptr, 11, (uint32_t)justice_tx_arr, (uint32_t)input, (uint32_t)amount, (uint32_t)per_commitment_key_arr, (uint32_t)htlc_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_SignatureNoneZ ret_conv = *(LDKCResult_SignatureNoneZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_SignatureNoneZ sign_counterparty_htlc_transaction_LDKBaseSign_jcall(const void* this_arg, LDKTransaction htlc_tx, uintptr_t input, uint64_t amount, LDKPublicKey per_commitment_point, const LDKHTLCOutputInCommitment * htlc) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKTransaction htlc_tx_var = htlc_tx;
- int8_tArray htlc_tx_arr = init_int8_tArray(htlc_tx_var.datalen);
+ int8_tArray htlc_tx_arr = init_int8_tArray(htlc_tx_var.datalen, __LINE__);
memcpy(htlc_tx_arr->elems, htlc_tx_var.data, htlc_tx_var.datalen);
Transaction_free(htlc_tx_var);
- int8_tArray per_commitment_point_arr = init_int8_tArray(33);
+ int8_tArray per_commitment_point_arr = init_int8_tArray(33, __LINE__);
memcpy(per_commitment_point_arr->elems, per_commitment_point.compressed_form, 33);
LDKHTLCOutputInCommitment htlc_var = *htlc;
- uint64_t htlc_ref = 0;
+ uintptr_t htlc_ref = 0;
htlc_var = HTLCOutputInCommitment_clone(htlc);
- CHECK((((uint64_t)htlc_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&htlc_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)htlc_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&htlc_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(htlc_var);
- htlc_ref = (uint64_t)htlc_var.inner;
+ htlc_ref = (uintptr_t)htlc_var.inner;
if (htlc_var.is_owned) {
htlc_ref |= 1;
}
uint32_t ret = js_invoke_function_5(j_calls->instance_ptr, 12, (uint32_t)htlc_tx_arr, (uint32_t)input, (uint32_t)amount, (uint32_t)per_commitment_point_arr, (uint32_t)htlc_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_SignatureNoneZ ret_conv = *(LDKCResult_SignatureNoneZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_SignatureNoneZ sign_closing_transaction_LDKBaseSign_jcall(const void* this_arg, const LDKClosingTransaction * closing_tx) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKClosingTransaction closing_tx_var = *closing_tx;
- uint64_t closing_tx_ref = 0;
+ uintptr_t closing_tx_ref = 0;
closing_tx_var = ClosingTransaction_clone(closing_tx);
- CHECK((((uint64_t)closing_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&closing_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)closing_tx_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&closing_tx_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(closing_tx_var);
- closing_tx_ref = (uint64_t)closing_tx_var.inner;
+ closing_tx_ref = (uintptr_t)closing_tx_var.inner;
if (closing_tx_var.is_owned) {
closing_tx_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 13, (uint32_t)closing_tx_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_SignatureNoneZ ret_conv = *(LDKCResult_SignatureNoneZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_SignatureNoneZ sign_channel_announcement_LDKBaseSign_jcall(const void* this_arg, const LDKUnsignedChannelAnnouncement * msg) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKUnsignedChannelAnnouncement msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = UnsignedChannelAnnouncement_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 14, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_SignatureNoneZ ret_conv = *(LDKCResult_SignatureNoneZ*)(ret_ptr);
FREE((void*)ret);
void ready_channel_LDKBaseSign_jcall(void* this_arg, const LDKChannelTransactionParameters * channel_parameters) {
LDKBaseSign_JCalls *j_calls = (LDKBaseSign_JCalls*) this_arg;
LDKChannelTransactionParameters channel_parameters_var = *channel_parameters;
- uint64_t channel_parameters_ref = 0;
+ uintptr_t channel_parameters_ref = 0;
channel_parameters_var = ChannelTransactionParameters_clone(channel_parameters);
- CHECK((((uint64_t)channel_parameters_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&channel_parameters_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)channel_parameters_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&channel_parameters_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(channel_parameters_var);
- channel_parameters_ref = (uint64_t)channel_parameters_var.inner;
+ channel_parameters_ref = (uintptr_t)channel_parameters_var.inner;
if (channel_parameters_var.is_owned) {
channel_parameters_ref |= 1;
}
return (long)res_ptr;
}
int8_tArray __attribute__((export_name("TS_BaseSign_get_per_commitment_point"))) TS_BaseSign_get_per_commitment_point(uint32_t this_arg, int64_t idx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, (this_arg_conv->get_per_commitment_point)(this_arg_conv->this_arg, idx).compressed_form, 33);
return ret_arr;
}
int8_tArray __attribute__((export_name("TS_BaseSign_release_commitment_secret"))) TS_BaseSign_release_commitment_secret(uint32_t this_arg, int64_t idx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, (this_arg_conv->release_commitment_secret)(this_arg_conv->this_arg, idx).data, 32);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_BaseSign_validate_holder_commitment"))) TS_BaseSign_validate_holder_commitment(uint32_t this_arg, uint32_t holder_tx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKHolderCommitmentTransaction holder_tx_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(holder_tx_conv);
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = (this_arg_conv->validate_holder_commitment)(this_arg_conv->this_arg, &holder_tx_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_BaseSign_channel_keys_id"))) TS_BaseSign_channel_keys_id(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, (this_arg_conv->channel_keys_id)(this_arg_conv->this_arg).data, 32);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_BaseSign_sign_counterparty_commitment"))) TS_BaseSign_sign_counterparty_commitment(uint32_t this_arg, uint32_t commitment_tx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKCommitmentTransaction commitment_tx_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(commitment_tx_conv);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ), "LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ");
*ret_conv = (this_arg_conv->sign_counterparty_commitment)(this_arg_conv->this_arg, &commitment_tx_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_BaseSign_validate_counterparty_revocation"))) TS_BaseSign_validate_counterparty_revocation(uint32_t this_arg, int64_t idx, int8_tArray secret) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
unsigned char secret_arr[32];
CHECK(secret->arr_len == 32);
- memcpy(secret_arr, secret->elems, 32);
+ memcpy(secret_arr, secret->elems, 32); FREE(secret);
unsigned char (*secret_ref)[32] = &secret_arr;
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = (this_arg_conv->validate_counterparty_revocation)(this_arg_conv->this_arg, idx, secret_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_BaseSign_sign_holder_commitment_and_htlcs"))) TS_BaseSign_sign_holder_commitment_and_htlcs(uint32_t this_arg, uint32_t commitment_tx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKHolderCommitmentTransaction commitment_tx_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(commitment_tx_conv);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ), "LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ");
*ret_conv = (this_arg_conv->sign_holder_commitment_and_htlcs)(this_arg_conv->this_arg, &commitment_tx_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-uint32_t __attribute__((export_name("TS_BaseSign_sign_justice_revoked_output"))) TS_BaseSign_sign_justice_revoked_output(uint32_t this_arg, int8_tArray justice_tx, int64_t input, int64_t amount, int8_tArray per_commitment_key) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+uint32_t __attribute__((export_name("TS_BaseSign_sign_justice_revoked_output"))) TS_BaseSign_sign_justice_revoked_output(uint32_t this_arg, int8_tArray justice_tx, intptr_t input, int64_t amount, int8_tArray per_commitment_key) {
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKTransaction justice_tx_ref;
justice_tx_ref.datalen = justice_tx->arr_len;
justice_tx_ref.data = MALLOC(justice_tx_ref.datalen, "LDKTransaction Bytes");
- memcpy(justice_tx_ref.data, justice_tx->elems, justice_tx_ref.datalen);
+ memcpy(justice_tx_ref.data, justice_tx->elems, justice_tx_ref.datalen); FREE(justice_tx);
justice_tx_ref.data_is_owned = true;
unsigned char per_commitment_key_arr[32];
CHECK(per_commitment_key->arr_len == 32);
- memcpy(per_commitment_key_arr, per_commitment_key->elems, 32);
+ memcpy(per_commitment_key_arr, per_commitment_key->elems, 32); FREE(per_commitment_key);
unsigned char (*per_commitment_key_ref)[32] = &per_commitment_key_arr;
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = (this_arg_conv->sign_justice_revoked_output)(this_arg_conv->this_arg, justice_tx_ref, input, amount, per_commitment_key_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-uint32_t __attribute__((export_name("TS_BaseSign_sign_justice_revoked_htlc"))) TS_BaseSign_sign_justice_revoked_htlc(uint32_t this_arg, int8_tArray justice_tx, int64_t input, int64_t amount, int8_tArray per_commitment_key, uint32_t htlc) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+uint32_t __attribute__((export_name("TS_BaseSign_sign_justice_revoked_htlc"))) TS_BaseSign_sign_justice_revoked_htlc(uint32_t this_arg, int8_tArray justice_tx, intptr_t input, int64_t amount, int8_tArray per_commitment_key, uint32_t htlc) {
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKTransaction justice_tx_ref;
justice_tx_ref.datalen = justice_tx->arr_len;
justice_tx_ref.data = MALLOC(justice_tx_ref.datalen, "LDKTransaction Bytes");
- memcpy(justice_tx_ref.data, justice_tx->elems, justice_tx_ref.datalen);
+ memcpy(justice_tx_ref.data, justice_tx->elems, justice_tx_ref.datalen); FREE(justice_tx);
justice_tx_ref.data_is_owned = true;
unsigned char per_commitment_key_arr[32];
CHECK(per_commitment_key->arr_len == 32);
- memcpy(per_commitment_key_arr, per_commitment_key->elems, 32);
+ memcpy(per_commitment_key_arr, per_commitment_key->elems, 32); FREE(per_commitment_key);
unsigned char (*per_commitment_key_ref)[32] = &per_commitment_key_arr;
LDKHTLCOutputInCommitment htlc_conv;
htlc_conv.inner = (void*)(htlc & (~1));
CHECK_INNER_FIELD_ACCESS_OR_NULL(htlc_conv);
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = (this_arg_conv->sign_justice_revoked_htlc)(this_arg_conv->this_arg, justice_tx_ref, input, amount, per_commitment_key_ref, &htlc_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-uint32_t __attribute__((export_name("TS_BaseSign_sign_counterparty_htlc_transaction"))) TS_BaseSign_sign_counterparty_htlc_transaction(uint32_t this_arg, int8_tArray htlc_tx, int64_t input, int64_t amount, int8_tArray per_commitment_point, uint32_t htlc) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+uint32_t __attribute__((export_name("TS_BaseSign_sign_counterparty_htlc_transaction"))) TS_BaseSign_sign_counterparty_htlc_transaction(uint32_t this_arg, int8_tArray htlc_tx, intptr_t input, int64_t amount, int8_tArray per_commitment_point, uint32_t htlc) {
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKTransaction htlc_tx_ref;
htlc_tx_ref.datalen = htlc_tx->arr_len;
htlc_tx_ref.data = MALLOC(htlc_tx_ref.datalen, "LDKTransaction Bytes");
- memcpy(htlc_tx_ref.data, htlc_tx->elems, htlc_tx_ref.datalen);
+ memcpy(htlc_tx_ref.data, htlc_tx->elems, htlc_tx_ref.datalen); FREE(htlc_tx);
htlc_tx_ref.data_is_owned = true;
LDKPublicKey per_commitment_point_ref;
CHECK(per_commitment_point->arr_len == 33);
- memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33);
+ memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33); FREE(per_commitment_point);
LDKHTLCOutputInCommitment htlc_conv;
htlc_conv.inner = (void*)(htlc & (~1));
htlc_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(htlc_conv);
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = (this_arg_conv->sign_counterparty_htlc_transaction)(this_arg_conv->this_arg, htlc_tx_ref, input, amount, per_commitment_point_ref, &htlc_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_BaseSign_sign_closing_transaction"))) TS_BaseSign_sign_closing_transaction(uint32_t this_arg, uint32_t closing_tx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKClosingTransaction closing_tx_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(closing_tx_conv);
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = (this_arg_conv->sign_closing_transaction)(this_arg_conv->this_arg, &closing_tx_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_BaseSign_sign_channel_announcement"))) TS_BaseSign_sign_channel_announcement(uint32_t this_arg, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKUnsignedChannelAnnouncement msg_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = (this_arg_conv->sign_channel_announcement)(this_arg_conv->this_arg, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_BaseSign_ready_channel"))) TS_BaseSign_ready_channel(uint32_t this_arg, uint32_t channel_parameters) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKChannelTransactionParameters channel_parameters_conv;
return this_arg->pubkeys;
}
uint32_t __attribute__((export_name("TS_BaseSign_get_pubkeys"))) TS_BaseSign_get_pubkeys(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBaseSign* this_arg_conv = (LDKBaseSign*)this_arg_ptr;
LDKChannelPublicKeys ret_var = LDKBaseSign_set_get_pubkeys(this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCVec_u8Z ret_ref;
ret_ref.datalen = ret->arr_len;
ret_ref.data = MALLOC(ret_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(ret_ref.data, ret->elems, ret_ref.datalen);
+ memcpy(ret_ref.data, ret->elems, ret_ref.datalen); FREE(ret);
return ret_ref;
}
static void LDKSign_JCalls_cloned(LDKSign* new_obj) {
return (long)res_ptr;
}
int8_tArray __attribute__((export_name("TS_Sign_write"))) TS_Sign_write(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKSign* this_arg_conv = (LDKSign*)this_arg_ptr;
LDKCVec_u8Z ret_var = (this_arg_conv->write)(this_arg_conv->this_arg);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
}
int8_tArray __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_get_a"))) TS_C2Tuple_BlockHashChannelMonitorZ_get_a(uint32_t owner) {
LDKC2Tuple_BlockHashChannelMonitorZ* owner_conv = (LDKC2Tuple_BlockHashChannelMonitorZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_BlockHashChannelMonitorZ_get_a(owner_conv).data, 32);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_get_b"))) TS_C2Tuple_BlockHashChannelMonitorZ_get_b(uint32_t owner) {
LDKC2Tuple_BlockHashChannelMonitorZ* owner_conv = (LDKC2Tuple_BlockHashChannelMonitorZ*)(owner & ~1);
LDKChannelMonitor ret_var = C2Tuple_BlockHashChannelMonitorZ_get_b(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* owner_conv = (LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ*)(owner & ~1);
LDKC2Tuple_BlockHashChannelMonitorZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_BlockHashChannelMonitorZ), "LDKC2Tuple_BlockHashChannelMonitorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_get_ok(owner_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
static inline struct LDKDecodeError CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_get_err(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ *NONNULL_PTR owner){
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_get_err"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* owner_conv = (LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_get_ok"))) TS_CResult_RouteHopDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RouteHopDecodeErrorZ* owner_conv = (LDKCResult_RouteHopDecodeErrorZ*)(owner & ~1);
LDKRouteHop ret_var = CResult_RouteHopDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_get_err"))) TS_CResult_RouteHopDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RouteHopDecodeErrorZ* owner_conv = (LDKCResult_RouteHopDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RouteHopDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_get_ok"))) TS_CResult_RouteDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RouteDecodeErrorZ* owner_conv = (LDKCResult_RouteDecodeErrorZ*)(owner & ~1);
LDKRoute ret_var = CResult_RouteDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_get_err"))) TS_CResult_RouteDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RouteDecodeErrorZ* owner_conv = (LDKCResult_RouteDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RouteDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_get_ok"))) TS_CResult_RouteParametersDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RouteParametersDecodeErrorZ* owner_conv = (LDKCResult_RouteParametersDecodeErrorZ*)(owner & ~1);
LDKRouteParameters ret_var = CResult_RouteParametersDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_get_err"))) TS_CResult_RouteParametersDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RouteParametersDecodeErrorZ* owner_conv = (LDKCResult_RouteParametersDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RouteParametersDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_get_ok"))) TS_CResult_PayeeDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_PayeeDecodeErrorZ* owner_conv = (LDKCResult_PayeeDecodeErrorZ*)(owner & ~1);
LDKPayee ret_var = CResult_PayeeDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_get_err"))) TS_CResult_PayeeDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_PayeeDecodeErrorZ* owner_conv = (LDKCResult_PayeeDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_PayeeDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_get_ok"))) TS_CResult_RouteHintDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RouteHintDecodeErrorZ* owner_conv = (LDKCResult_RouteHintDecodeErrorZ*)(owner & ~1);
LDKRouteHint ret_var = CResult_RouteHintDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_get_err"))) TS_CResult_RouteHintDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RouteHintDecodeErrorZ* owner_conv = (LDKCResult_RouteHintDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RouteHintDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_get_ok"))) TS_CResult_RouteHintHopDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RouteHintHopDecodeErrorZ* owner_conv = (LDKCResult_RouteHintHopDecodeErrorZ*)(owner & ~1);
LDKRouteHintHop ret_var = CResult_RouteHintHopDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_get_err"))) TS_CResult_RouteHintHopDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RouteHintHopDecodeErrorZ* owner_conv = (LDKCResult_RouteHintHopDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RouteHintHopDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteLightningErrorZ_get_ok"))) TS_CResult_RouteLightningErrorZ_get_ok(uint32_t owner) {
LDKCResult_RouteLightningErrorZ* owner_conv = (LDKCResult_RouteLightningErrorZ*)(owner & ~1);
LDKRoute ret_var = CResult_RouteLightningErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RouteLightningErrorZ_get_err"))) TS_CResult_RouteLightningErrorZ_get_err(uint32_t owner) {
LDKCResult_RouteLightningErrorZ* owner_conv = (LDKCResult_RouteLightningErrorZ*)(owner & ~1);
LDKLightningError ret_var = CResult_RouteLightningErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NoneLightningErrorZ_get_err"))) TS_CResult_NoneLightningErrorZ_get_err(uint32_t owner) {
LDKCResult_NoneLightningErrorZ* owner_conv = (LDKCResult_NoneLightningErrorZ*)(owner & ~1);
LDKLightningError ret_var = CResult_NoneLightningErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
int8_tArray __attribute__((export_name("TS_C2Tuple_PublicKeyTypeZ_get_a"))) TS_C2Tuple_PublicKeyTypeZ_get_a(uint32_t owner) {
LDKC2Tuple_PublicKeyTypeZ* owner_conv = (LDKC2Tuple_PublicKeyTypeZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, C2Tuple_PublicKeyTypeZ_get_a(owner_conv).compressed_form, 33);
return ret_arr;
}
LDKC2Tuple_PublicKeyTypeZ* owner_conv = (LDKC2Tuple_PublicKeyTypeZ*)(owner & ~1);
LDKType* ret_ret = MALLOC(sizeof(LDKType), "LDKType");
*ret_ret = C2Tuple_PublicKeyTypeZ_get_b(owner_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
static inline LDKCVec_C2Tuple_PublicKeyTypeZZ CVec_C2Tuple_PublicKeyTypeZZ_clone(const LDKCVec_C2Tuple_PublicKeyTypeZZ *orig) {
LDKErrorAction *obj = (LDKErrorAction*)(ptr & ~1);
assert(obj->tag == LDKErrorAction_DisconnectPeer);
LDKErrorMessage msg_var = obj->disconnect_peer.msg;
- uint64_t msg_ref = 0;
- if ((uint64_t)msg_var.inner > 4096) {
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ if ((uintptr_t)msg_var.inner > 4096) {
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
}
return msg_ref;
}
LDKErrorAction *obj = (LDKErrorAction*)(ptr & ~1);
assert(obj->tag == LDKErrorAction_SendErrorMessage);
LDKErrorMessage msg_var = obj->send_error_message.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
uint32_t __attribute__((export_name("TS_LDKMessageSendEvent_ty_from_ptr"))) TS_LDKMessageSendEvent_ty_from_ptr(uint32_t ptr) {
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendAcceptChannel_get_node_id"))) TS_LDKMessageSendEvent_SendAcceptChannel_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendAcceptChannel);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_accept_channel.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendAcceptChannel);
LDKAcceptChannel msg_var = obj->send_accept_channel.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendOpenChannel_get_node_id"))) TS_LDKMessageSendEvent_SendOpenChannel_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendOpenChannel);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_open_channel.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendOpenChannel);
LDKOpenChannel msg_var = obj->send_open_channel.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendFundingCreated_get_node_id"))) TS_LDKMessageSendEvent_SendFundingCreated_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendFundingCreated);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_funding_created.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendFundingCreated);
LDKFundingCreated msg_var = obj->send_funding_created.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendFundingSigned_get_node_id"))) TS_LDKMessageSendEvent_SendFundingSigned_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendFundingSigned);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_funding_signed.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendFundingSigned);
LDKFundingSigned msg_var = obj->send_funding_signed.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendFundingLocked_get_node_id"))) TS_LDKMessageSendEvent_SendFundingLocked_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendFundingLocked);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_funding_locked.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendFundingLocked);
LDKFundingLocked msg_var = obj->send_funding_locked.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendAnnouncementSignatures_get_node_id"))) TS_LDKMessageSendEvent_SendAnnouncementSignatures_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendAnnouncementSignatures);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_announcement_signatures.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendAnnouncementSignatures);
LDKAnnouncementSignatures msg_var = obj->send_announcement_signatures.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_UpdateHTLCs_get_node_id"))) TS_LDKMessageSendEvent_UpdateHTLCs_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_UpdateHTLCs);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->update_htl_cs.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_UpdateHTLCs);
LDKCommitmentUpdate updates_var = obj->update_htl_cs.updates;
- uint64_t updates_ref = 0;
- CHECK((((uint64_t)updates_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&updates_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t updates_ref = 0;
+ CHECK((((uintptr_t)updates_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&updates_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(updates_var);
- updates_ref = (uint64_t)updates_var.inner & ~1;
+ updates_ref = (uintptr_t)updates_var.inner & ~1;
return updates_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendRevokeAndACK_get_node_id"))) TS_LDKMessageSendEvent_SendRevokeAndACK_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendRevokeAndACK);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_revoke_and_ack.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendRevokeAndACK);
LDKRevokeAndACK msg_var = obj->send_revoke_and_ack.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendClosingSigned_get_node_id"))) TS_LDKMessageSendEvent_SendClosingSigned_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendClosingSigned);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_closing_signed.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendClosingSigned);
LDKClosingSigned msg_var = obj->send_closing_signed.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendShutdown_get_node_id"))) TS_LDKMessageSendEvent_SendShutdown_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendShutdown);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_shutdown.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendShutdown);
LDKShutdown msg_var = obj->send_shutdown.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendChannelReestablish_get_node_id"))) TS_LDKMessageSendEvent_SendChannelReestablish_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendChannelReestablish);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_channel_reestablish.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendChannelReestablish);
LDKChannelReestablish msg_var = obj->send_channel_reestablish.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
uint32_t __attribute__((export_name("TS_LDKMessageSendEvent_BroadcastChannelAnnouncement_get_msg"))) TS_LDKMessageSendEvent_BroadcastChannelAnnouncement_get_msg(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_BroadcastChannelAnnouncement);
LDKChannelAnnouncement msg_var = obj->broadcast_channel_announcement.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
uint32_t __attribute__((export_name("TS_LDKMessageSendEvent_BroadcastChannelAnnouncement_get_update_msg"))) TS_LDKMessageSendEvent_BroadcastChannelAnnouncement_get_update_msg(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_BroadcastChannelAnnouncement);
LDKChannelUpdate update_msg_var = obj->broadcast_channel_announcement.update_msg;
- uint64_t update_msg_ref = 0;
- CHECK((((uint64_t)update_msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&update_msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t update_msg_ref = 0;
+ CHECK((((uintptr_t)update_msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&update_msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(update_msg_var);
- update_msg_ref = (uint64_t)update_msg_var.inner & ~1;
+ update_msg_ref = (uintptr_t)update_msg_var.inner & ~1;
return update_msg_ref;
}
uint32_t __attribute__((export_name("TS_LDKMessageSendEvent_BroadcastNodeAnnouncement_get_msg"))) TS_LDKMessageSendEvent_BroadcastNodeAnnouncement_get_msg(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_BroadcastNodeAnnouncement);
LDKNodeAnnouncement msg_var = obj->broadcast_node_announcement.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
uint32_t __attribute__((export_name("TS_LDKMessageSendEvent_BroadcastChannelUpdate_get_msg"))) TS_LDKMessageSendEvent_BroadcastChannelUpdate_get_msg(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_BroadcastChannelUpdate);
LDKChannelUpdate msg_var = obj->broadcast_channel_update.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendChannelUpdate_get_node_id"))) TS_LDKMessageSendEvent_SendChannelUpdate_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendChannelUpdate);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_channel_update.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendChannelUpdate);
LDKChannelUpdate msg_var = obj->send_channel_update.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_HandleError_get_node_id"))) TS_LDKMessageSendEvent_HandleError_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_HandleError);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->handle_error.node_id.compressed_form, 33);
return node_id_arr;
}
uint32_t __attribute__((export_name("TS_LDKMessageSendEvent_HandleError_get_action"))) TS_LDKMessageSendEvent_HandleError_get_action(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_HandleError);
- uint64_t action_ref = ((uint64_t)&obj->handle_error.action) | 1;
+ uintptr_t action_ref = ((uintptr_t)&obj->handle_error.action) | 1;
return action_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendChannelRangeQuery_get_node_id"))) TS_LDKMessageSendEvent_SendChannelRangeQuery_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendChannelRangeQuery);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_channel_range_query.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendChannelRangeQuery);
LDKQueryChannelRange msg_var = obj->send_channel_range_query.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendShortIdsQuery_get_node_id"))) TS_LDKMessageSendEvent_SendShortIdsQuery_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendShortIdsQuery);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_short_ids_query.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendShortIdsQuery);
LDKQueryShortChannelIds msg_var = obj->send_short_ids_query.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
int8_tArray __attribute__((export_name("TS_LDKMessageSendEvent_SendReplyChannelRange_get_node_id"))) TS_LDKMessageSendEvent_SendReplyChannelRange_get_node_id(uint32_t ptr) {
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendReplyChannelRange);
- int8_tArray node_id_arr = init_int8_tArray(33);
+ int8_tArray node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(node_id_arr->elems, obj->send_reply_channel_range.node_id.compressed_form, 33);
return node_id_arr;
}
LDKMessageSendEvent *obj = (LDKMessageSendEvent*)(ptr & ~1);
assert(obj->tag == LDKMessageSendEvent_SendReplyChannelRange);
LDKReplyChannelRange msg_var = obj->send_reply_channel_range.msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner & ~1;
+ msg_ref = (uintptr_t)msg_var.inner & ~1;
return msg_ref;
}
static inline LDKCVec_MessageSendEventZ CVec_MessageSendEventZ_clone(const LDKCVec_MessageSendEventZ *orig) {
uint32_t __attribute__((export_name("TS_CResult_boolLightningErrorZ_get_err"))) TS_CResult_boolLightningErrorZ_get_err(uint32_t owner) {
LDKCResult_boolLightningErrorZ* owner_conv = (LDKCResult_boolLightningErrorZ*)(owner & ~1);
LDKLightningError ret_var = CResult_boolLightningErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_a"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_a(uint32_t owner) {
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* owner_conv = (LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(owner & ~1);
LDKChannelAnnouncement ret_var = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_a(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_b"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_b(uint32_t owner) {
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* owner_conv = (LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(owner & ~1);
LDKChannelUpdate ret_var = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_b(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_c"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_c(uint32_t owner) {
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* owner_conv = (LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(owner & ~1);
LDKChannelUpdate ret_var = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_get_c(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
int8_tArray __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_get_ok"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_get_ok(uint32_t owner) {
LDKCResult_CVec_u8ZPeerHandleErrorZ* owner_conv = (LDKCResult_CVec_u8ZPeerHandleErrorZ*)(owner & ~1);
LDKCVec_u8Z ret_var = CResult_CVec_u8ZPeerHandleErrorZ_get_ok(owner_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_get_err"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_get_err(uint32_t owner) {
LDKCResult_CVec_u8ZPeerHandleErrorZ* owner_conv = (LDKCResult_CVec_u8ZPeerHandleErrorZ*)(owner & ~1);
LDKPeerHandleError ret_var = CResult_CVec_u8ZPeerHandleErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_get_err"))) TS_CResult_NonePeerHandleErrorZ_get_err(uint32_t owner) {
LDKCResult_NonePeerHandleErrorZ* owner_conv = (LDKCResult_NonePeerHandleErrorZ*)(owner & ~1);
LDKPeerHandleError ret_var = CResult_NonePeerHandleErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_get_err"))) TS_CResult_boolPeerHandleErrorZ_get_err(uint32_t owner) {
LDKCResult_boolPeerHandleErrorZ* owner_conv = (LDKCResult_boolPeerHandleErrorZ*)(owner & ~1);
LDKPeerHandleError ret_var = CResult_boolPeerHandleErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCResult_TxOutAccessErrorZ* owner_conv = (LDKCResult_TxOutAccessErrorZ*)(owner & ~1);
LDKTxOut* ret_ref = MALLOC(sizeof(LDKTxOut), "LDKTxOut");
*ret_ref = CResult_TxOutAccessErrorZ_get_ok(owner_conv);
- return (uint64_t)ret_ref;
+ return (uintptr_t)ret_ref;
}
static inline enum LDKAccessError CResult_TxOutAccessErrorZ_get_err(LDKCResult_TxOutAccessErrorZ *NONNULL_PTR owner){
LDKC2Tuple_usizeTransactionZ* some_conv = MALLOC(sizeof(LDKC2Tuple_usizeTransactionZ), "LDKC2Tuple_usizeTransactionZ");
*some_conv = obj->some;
*some_conv = C2Tuple_usizeTransactionZ_clone(some_conv);
- return ((uint64_t)some_conv);
+ return ((uintptr_t)some_conv);
}
uint32_t __attribute__((export_name("TS_LDKCOption_ClosureReasonZ_ty_from_ptr"))) TS_LDKCOption_ClosureReasonZ_ty_from_ptr(uint32_t ptr) {
LDKCOption_ClosureReasonZ *obj = (LDKCOption_ClosureReasonZ*)(ptr & ~1);
uint32_t __attribute__((export_name("TS_LDKCOption_ClosureReasonZ_Some_get_some"))) TS_LDKCOption_ClosureReasonZ_Some_get_some(uint32_t ptr) {
LDKCOption_ClosureReasonZ *obj = (LDKCOption_ClosureReasonZ*)(ptr & ~1);
assert(obj->tag == LDKCOption_ClosureReasonZ_Some);
- uint64_t some_ref = ((uint64_t)&obj->some) | 1;
+ uintptr_t some_ref = ((uintptr_t)&obj->some) | 1;
return some_ref;
}
static inline struct LDKCOption_ClosureReasonZ CResult_COption_ClosureReasonZDecodeErrorZ_get_ok(LDKCResult_COption_ClosureReasonZDecodeErrorZ *NONNULL_PTR owner){
LDKCResult_COption_ClosureReasonZDecodeErrorZ* owner_conv = (LDKCResult_COption_ClosureReasonZDecodeErrorZ*)(owner & ~1);
LDKCOption_ClosureReasonZ *ret_copy = MALLOC(sizeof(LDKCOption_ClosureReasonZ), "LDKCOption_ClosureReasonZ");
*ret_copy = CResult_COption_ClosureReasonZDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_get_err"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_COption_ClosureReasonZDecodeErrorZ* owner_conv = (LDKCResult_COption_ClosureReasonZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_COption_ClosureReasonZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_LDKCOption_EventZ_Some_get_some"))) TS_LDKCOption_EventZ_Some_get_some(uint32_t ptr) {
LDKCOption_EventZ *obj = (LDKCOption_EventZ*)(ptr & ~1);
assert(obj->tag == LDKCOption_EventZ_Some);
- uint64_t some_ref = ((uint64_t)&obj->some) | 1;
+ uintptr_t some_ref = ((uintptr_t)&obj->some) | 1;
return some_ref;
}
static inline struct LDKCOption_EventZ CResult_COption_EventZDecodeErrorZ_get_ok(LDKCResult_COption_EventZDecodeErrorZ *NONNULL_PTR owner){
LDKCResult_COption_EventZDecodeErrorZ* owner_conv = (LDKCResult_COption_EventZDecodeErrorZ*)(owner & ~1);
LDKCOption_EventZ *ret_copy = MALLOC(sizeof(LDKCOption_EventZ), "LDKCOption_EventZ");
*ret_copy = CResult_COption_EventZDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_get_err"))) TS_CResult_COption_EventZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_COption_EventZDecodeErrorZ* owner_conv = (LDKCResult_COption_EventZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_COption_EventZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_get_ok"))) TS_CResult_NodeIdDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_NodeIdDecodeErrorZ* owner_conv = (LDKCResult_NodeIdDecodeErrorZ*)(owner & ~1);
LDKNodeId ret_var = CResult_NodeIdDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_get_err"))) TS_CResult_NodeIdDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NodeIdDecodeErrorZ* owner_conv = (LDKCResult_NodeIdDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NodeIdDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* owner_conv = (LDKCResult_COption_NetworkUpdateZDecodeErrorZ*)(owner & ~1);
LDKCOption_NetworkUpdateZ *ret_copy = MALLOC(sizeof(LDKCOption_NetworkUpdateZ), "LDKCOption_NetworkUpdateZ");
*ret_copy = CResult_COption_NetworkUpdateZDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_get_err"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* owner_conv = (LDKCResult_COption_NetworkUpdateZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_COption_NetworkUpdateZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
LDKCResult_TxOutAccessErrorZ get_utxo_LDKAccess_jcall(const void* this_arg, const uint8_t (* genesis_hash)[32], uint64_t short_channel_id) {
LDKAccess_JCalls *j_calls = (LDKAccess_JCalls*) this_arg;
- int8_tArray genesis_hash_arr = init_int8_tArray(32);
+ int8_tArray genesis_hash_arr = init_int8_tArray(32, __LINE__);
memcpy(genesis_hash_arr->elems, *genesis_hash, 32);
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 17, (uint32_t)genesis_hash_arr, (uint32_t)short_channel_id);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_TxOutAccessErrorZ ret_conv = *(LDKCResult_TxOutAccessErrorZ*)(ret_ptr);
FREE((void*)ret);
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_Access_get_utxo"))) TS_Access_get_utxo(uint32_t this_arg, int8_tArray genesis_hash, int64_t short_channel_id) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKAccess* this_arg_conv = (LDKAccess*)this_arg_ptr;
unsigned char genesis_hash_arr[32];
CHECK(genesis_hash->arr_len == 32);
- memcpy(genesis_hash_arr, genesis_hash->elems, 32);
+ memcpy(genesis_hash_arr, genesis_hash->elems, 32); FREE(genesis_hash);
unsigned char (*genesis_hash_ref)[32] = &genesis_hash_arr;
LDKCResult_TxOutAccessErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxOutAccessErrorZ), "LDKCResult_TxOutAccessErrorZ");
*ret_conv = (this_arg_conv->get_utxo)(this_arg_conv->this_arg, genesis_hash_ref, short_channel_id);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_LDKCOption_AccessZ_ty_from_ptr"))) TS_LDKCOption_AccessZ_ty_from_ptr(uint32_t ptr) {
LDKAccess* some_ret = MALLOC(sizeof(LDKAccess), "LDKAccess");
*some_ret = obj->some;
// Warning: We likely need to clone here, but no clone is available, so we just do it for Java instances
- return (uint64_t)some_ret;
+ return (uintptr_t)some_ret;
}
static inline struct LDKDirectionalChannelInfo CResult_DirectionalChannelInfoDecodeErrorZ_get_ok(LDKCResult_DirectionalChannelInfoDecodeErrorZ *NONNULL_PTR owner){
CHECK(owner->result_ok);
uint32_t __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_get_ok"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_DirectionalChannelInfoDecodeErrorZ* owner_conv = (LDKCResult_DirectionalChannelInfoDecodeErrorZ*)(owner & ~1);
LDKDirectionalChannelInfo ret_var = CResult_DirectionalChannelInfoDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_get_err"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_DirectionalChannelInfoDecodeErrorZ* owner_conv = (LDKCResult_DirectionalChannelInfoDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_DirectionalChannelInfoDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_get_ok"))) TS_CResult_ChannelInfoDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelInfoDecodeErrorZ* owner_conv = (LDKCResult_ChannelInfoDecodeErrorZ*)(owner & ~1);
LDKChannelInfo ret_var = CResult_ChannelInfoDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_get_err"))) TS_CResult_ChannelInfoDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelInfoDecodeErrorZ* owner_conv = (LDKCResult_ChannelInfoDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelInfoDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_get_ok"))) TS_CResult_RoutingFeesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RoutingFeesDecodeErrorZ* owner_conv = (LDKCResult_RoutingFeesDecodeErrorZ*)(owner & ~1);
LDKRoutingFees ret_var = CResult_RoutingFeesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_get_err"))) TS_CResult_RoutingFeesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RoutingFeesDecodeErrorZ* owner_conv = (LDKCResult_RoutingFeesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RoutingFeesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
int8_tArray __attribute__((export_name("TS_LDKNetAddress_IPv4_get_addr"))) TS_LDKNetAddress_IPv4_get_addr(uint32_t ptr) {
LDKNetAddress *obj = (LDKNetAddress*)(ptr & ~1);
assert(obj->tag == LDKNetAddress_IPv4);
- int8_tArray addr_arr = init_int8_tArray(4);
+ int8_tArray addr_arr = init_int8_tArray(4, __LINE__);
memcpy(addr_arr->elems, obj->i_pv4.addr.data, 4);
return addr_arr;
}
int8_tArray __attribute__((export_name("TS_LDKNetAddress_IPv6_get_addr"))) TS_LDKNetAddress_IPv6_get_addr(uint32_t ptr) {
LDKNetAddress *obj = (LDKNetAddress*)(ptr & ~1);
assert(obj->tag == LDKNetAddress_IPv6);
- int8_tArray addr_arr = init_int8_tArray(16);
+ int8_tArray addr_arr = init_int8_tArray(16, __LINE__);
memcpy(addr_arr->elems, obj->i_pv6.addr.data, 16);
return addr_arr;
}
int8_tArray __attribute__((export_name("TS_LDKNetAddress_OnionV2_get_onion_v2"))) TS_LDKNetAddress_OnionV2_get_onion_v2(uint32_t ptr) {
LDKNetAddress *obj = (LDKNetAddress*)(ptr & ~1);
assert(obj->tag == LDKNetAddress_OnionV2);
- int8_tArray onion_v2_arr = init_int8_tArray(12);
+ int8_tArray onion_v2_arr = init_int8_tArray(12, __LINE__);
memcpy(onion_v2_arr->elems, obj->onion_v2.data, 12);
return onion_v2_arr;
}
int8_tArray __attribute__((export_name("TS_LDKNetAddress_OnionV3_get_ed25519_pubkey"))) TS_LDKNetAddress_OnionV3_get_ed25519_pubkey(uint32_t ptr) {
LDKNetAddress *obj = (LDKNetAddress*)(ptr & ~1);
assert(obj->tag == LDKNetAddress_OnionV3);
- int8_tArray ed25519_pubkey_arr = init_int8_tArray(32);
+ int8_tArray ed25519_pubkey_arr = init_int8_tArray(32, __LINE__);
memcpy(ed25519_pubkey_arr->elems, obj->onion_v3.ed25519_pubkey.data, 32);
return ed25519_pubkey_arr;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_get_ok"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* owner_conv = (LDKCResult_NodeAnnouncementInfoDecodeErrorZ*)(owner & ~1);
LDKNodeAnnouncementInfo ret_var = CResult_NodeAnnouncementInfoDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_get_err"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* owner_conv = (LDKCResult_NodeAnnouncementInfoDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NodeAnnouncementInfoDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_get_ok"))) TS_CResult_NodeInfoDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_NodeInfoDecodeErrorZ* owner_conv = (LDKCResult_NodeInfoDecodeErrorZ*)(owner & ~1);
LDKNodeInfo ret_var = CResult_NodeInfoDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_get_err"))) TS_CResult_NodeInfoDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NodeInfoDecodeErrorZ* owner_conv = (LDKCResult_NodeInfoDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NodeInfoDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_get_ok"))) TS_CResult_NetworkGraphDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_NetworkGraphDecodeErrorZ* owner_conv = (LDKCResult_NetworkGraphDecodeErrorZ*)(owner & ~1);
LDKNetworkGraph ret_var = CResult_NetworkGraphDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_get_err"))) TS_CResult_NetworkGraphDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NetworkGraphDecodeErrorZ* owner_conv = (LDKCResult_NetworkGraphDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NetworkGraphDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
assert(obj->tag == LDKCOption_CVec_NetAddressZZ_Some);
LDKCVec_NetAddressZ some_var = obj->some;
uint32_tArray some_arr = NULL;
- some_arr = init_uint32_tArray(some_var.datalen);
+ some_arr = init_uint32_tArray(some_var.datalen, __LINE__);
uint32_t *some_arr_ptr = (uint32_t*)(((uint8_t*)some_arr) + 4);
for (size_t m = 0; m < some_var.datalen; m++) {
- uint64_t some_conv_12_ref = ((uint64_t)&some_var.data[m]) | 1;
+ uintptr_t some_conv_12_ref = ((uintptr_t)&some_var.data[m]) | 1;
some_arr_ptr[m] = some_conv_12_ref;
}
uint32_t __attribute__((export_name("TS_CResult_ScoringParametersDecodeErrorZ_get_ok"))) TS_CResult_ScoringParametersDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ScoringParametersDecodeErrorZ* owner_conv = (LDKCResult_ScoringParametersDecodeErrorZ*)(owner & ~1);
LDKScoringParameters ret_var = *CResult_ScoringParametersDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner & ~1;
+ ret_ref = (uintptr_t)ret_var.inner & ~1;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_ScoringParametersDecodeErrorZ_get_err"))) TS_CResult_ScoringParametersDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ScoringParametersDecodeErrorZ* owner_conv = (LDKCResult_ScoringParametersDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ScoringParametersDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InitFeaturesDecodeErrorZ_get_ok"))) TS_CResult_InitFeaturesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_InitFeaturesDecodeErrorZ* owner_conv = (LDKCResult_InitFeaturesDecodeErrorZ*)(owner & ~1);
LDKInitFeatures ret_var = CResult_InitFeaturesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InitFeaturesDecodeErrorZ_get_err"))) TS_CResult_InitFeaturesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_InitFeaturesDecodeErrorZ* owner_conv = (LDKCResult_InitFeaturesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_InitFeaturesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelFeaturesDecodeErrorZ_get_ok"))) TS_CResult_ChannelFeaturesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelFeaturesDecodeErrorZ* owner_conv = (LDKCResult_ChannelFeaturesDecodeErrorZ*)(owner & ~1);
LDKChannelFeatures ret_var = CResult_ChannelFeaturesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelFeaturesDecodeErrorZ_get_err"))) TS_CResult_ChannelFeaturesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelFeaturesDecodeErrorZ* owner_conv = (LDKCResult_ChannelFeaturesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelFeaturesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeFeaturesDecodeErrorZ_get_ok"))) TS_CResult_NodeFeaturesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_NodeFeaturesDecodeErrorZ* owner_conv = (LDKCResult_NodeFeaturesDecodeErrorZ*)(owner & ~1);
LDKNodeFeatures ret_var = CResult_NodeFeaturesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeFeaturesDecodeErrorZ_get_err"))) TS_CResult_NodeFeaturesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NodeFeaturesDecodeErrorZ* owner_conv = (LDKCResult_NodeFeaturesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NodeFeaturesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InvoiceFeaturesDecodeErrorZ_get_ok"))) TS_CResult_InvoiceFeaturesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_InvoiceFeaturesDecodeErrorZ* owner_conv = (LDKCResult_InvoiceFeaturesDecodeErrorZ*)(owner & ~1);
LDKInvoiceFeatures ret_var = CResult_InvoiceFeaturesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InvoiceFeaturesDecodeErrorZ_get_err"))) TS_CResult_InvoiceFeaturesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_InvoiceFeaturesDecodeErrorZ* owner_conv = (LDKCResult_InvoiceFeaturesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_InvoiceFeaturesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTypeFeaturesDecodeErrorZ_get_ok"))) TS_CResult_ChannelTypeFeaturesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelTypeFeaturesDecodeErrorZ* owner_conv = (LDKCResult_ChannelTypeFeaturesDecodeErrorZ*)(owner & ~1);
LDKChannelTypeFeatures ret_var = CResult_ChannelTypeFeaturesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTypeFeaturesDecodeErrorZ_get_err"))) TS_CResult_ChannelTypeFeaturesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelTypeFeaturesDecodeErrorZ* owner_conv = (LDKCResult_ChannelTypeFeaturesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelTypeFeaturesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCResult_NetAddressDecodeErrorZ* owner_conv = (LDKCResult_NetAddressDecodeErrorZ*)(owner & ~1);
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = CResult_NetAddressDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_get_err"))) TS_CResult_NetAddressDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NetAddressDecodeErrorZ* owner_conv = (LDKCResult_NetAddressDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NetAddressDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_get_ok"))) TS_CResult_AcceptChannelDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_AcceptChannelDecodeErrorZ* owner_conv = (LDKCResult_AcceptChannelDecodeErrorZ*)(owner & ~1);
LDKAcceptChannel ret_var = CResult_AcceptChannelDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_get_err"))) TS_CResult_AcceptChannelDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_AcceptChannelDecodeErrorZ* owner_conv = (LDKCResult_AcceptChannelDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_AcceptChannelDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_get_ok"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_AnnouncementSignaturesDecodeErrorZ* owner_conv = (LDKCResult_AnnouncementSignaturesDecodeErrorZ*)(owner & ~1);
LDKAnnouncementSignatures ret_var = CResult_AnnouncementSignaturesDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_get_err"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_AnnouncementSignaturesDecodeErrorZ* owner_conv = (LDKCResult_AnnouncementSignaturesDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_AnnouncementSignaturesDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_get_ok"))) TS_CResult_ChannelReestablishDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelReestablishDecodeErrorZ* owner_conv = (LDKCResult_ChannelReestablishDecodeErrorZ*)(owner & ~1);
LDKChannelReestablish ret_var = CResult_ChannelReestablishDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_get_err"))) TS_CResult_ChannelReestablishDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelReestablishDecodeErrorZ* owner_conv = (LDKCResult_ChannelReestablishDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelReestablishDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_get_ok"))) TS_CResult_ClosingSignedDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ClosingSignedDecodeErrorZ* owner_conv = (LDKCResult_ClosingSignedDecodeErrorZ*)(owner & ~1);
LDKClosingSigned ret_var = CResult_ClosingSignedDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_get_err"))) TS_CResult_ClosingSignedDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ClosingSignedDecodeErrorZ* owner_conv = (LDKCResult_ClosingSignedDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ClosingSignedDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_get_ok"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* owner_conv = (LDKCResult_ClosingSignedFeeRangeDecodeErrorZ*)(owner & ~1);
LDKClosingSignedFeeRange ret_var = CResult_ClosingSignedFeeRangeDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_get_err"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* owner_conv = (LDKCResult_ClosingSignedFeeRangeDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ClosingSignedFeeRangeDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_get_ok"))) TS_CResult_CommitmentSignedDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_CommitmentSignedDecodeErrorZ* owner_conv = (LDKCResult_CommitmentSignedDecodeErrorZ*)(owner & ~1);
LDKCommitmentSigned ret_var = CResult_CommitmentSignedDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_get_err"))) TS_CResult_CommitmentSignedDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_CommitmentSignedDecodeErrorZ* owner_conv = (LDKCResult_CommitmentSignedDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_CommitmentSignedDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_get_ok"))) TS_CResult_FundingCreatedDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_FundingCreatedDecodeErrorZ* owner_conv = (LDKCResult_FundingCreatedDecodeErrorZ*)(owner & ~1);
LDKFundingCreated ret_var = CResult_FundingCreatedDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_get_err"))) TS_CResult_FundingCreatedDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_FundingCreatedDecodeErrorZ* owner_conv = (LDKCResult_FundingCreatedDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_FundingCreatedDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_get_ok"))) TS_CResult_FundingSignedDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_FundingSignedDecodeErrorZ* owner_conv = (LDKCResult_FundingSignedDecodeErrorZ*)(owner & ~1);
LDKFundingSigned ret_var = CResult_FundingSignedDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_get_err"))) TS_CResult_FundingSignedDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_FundingSignedDecodeErrorZ* owner_conv = (LDKCResult_FundingSignedDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_FundingSignedDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_get_ok"))) TS_CResult_FundingLockedDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_FundingLockedDecodeErrorZ* owner_conv = (LDKCResult_FundingLockedDecodeErrorZ*)(owner & ~1);
LDKFundingLocked ret_var = CResult_FundingLockedDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_get_err"))) TS_CResult_FundingLockedDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_FundingLockedDecodeErrorZ* owner_conv = (LDKCResult_FundingLockedDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_FundingLockedDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InitDecodeErrorZ_get_ok"))) TS_CResult_InitDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_InitDecodeErrorZ* owner_conv = (LDKCResult_InitDecodeErrorZ*)(owner & ~1);
LDKInit ret_var = CResult_InitDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InitDecodeErrorZ_get_err"))) TS_CResult_InitDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_InitDecodeErrorZ* owner_conv = (LDKCResult_InitDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_InitDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_get_ok"))) TS_CResult_OpenChannelDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_OpenChannelDecodeErrorZ* owner_conv = (LDKCResult_OpenChannelDecodeErrorZ*)(owner & ~1);
LDKOpenChannel ret_var = CResult_OpenChannelDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_get_err"))) TS_CResult_OpenChannelDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_OpenChannelDecodeErrorZ* owner_conv = (LDKCResult_OpenChannelDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_OpenChannelDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_get_ok"))) TS_CResult_RevokeAndACKDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_RevokeAndACKDecodeErrorZ* owner_conv = (LDKCResult_RevokeAndACKDecodeErrorZ*)(owner & ~1);
LDKRevokeAndACK ret_var = CResult_RevokeAndACKDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_get_err"))) TS_CResult_RevokeAndACKDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_RevokeAndACKDecodeErrorZ* owner_conv = (LDKCResult_RevokeAndACKDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_RevokeAndACKDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_get_ok"))) TS_CResult_ShutdownDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ShutdownDecodeErrorZ* owner_conv = (LDKCResult_ShutdownDecodeErrorZ*)(owner & ~1);
LDKShutdown ret_var = CResult_ShutdownDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_get_err"))) TS_CResult_ShutdownDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ShutdownDecodeErrorZ* owner_conv = (LDKCResult_ShutdownDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ShutdownDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_get_ok"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UpdateFailHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateFailHTLCDecodeErrorZ*)(owner & ~1);
LDKUpdateFailHTLC ret_var = CResult_UpdateFailHTLCDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_get_err"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UpdateFailHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateFailHTLCDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UpdateFailHTLCDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_get_ok"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ*)(owner & ~1);
LDKUpdateFailMalformedHTLC ret_var = CResult_UpdateFailMalformedHTLCDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_get_err"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UpdateFailMalformedHTLCDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_get_ok"))) TS_CResult_UpdateFeeDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UpdateFeeDecodeErrorZ* owner_conv = (LDKCResult_UpdateFeeDecodeErrorZ*)(owner & ~1);
LDKUpdateFee ret_var = CResult_UpdateFeeDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_get_err"))) TS_CResult_UpdateFeeDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UpdateFeeDecodeErrorZ* owner_conv = (LDKCResult_UpdateFeeDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UpdateFeeDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_get_ok"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateFulfillHTLCDecodeErrorZ*)(owner & ~1);
LDKUpdateFulfillHTLC ret_var = CResult_UpdateFulfillHTLCDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_get_err"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateFulfillHTLCDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UpdateFulfillHTLCDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_get_ok"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UpdateAddHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateAddHTLCDecodeErrorZ*)(owner & ~1);
LDKUpdateAddHTLC ret_var = CResult_UpdateAddHTLCDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_get_err"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UpdateAddHTLCDecodeErrorZ* owner_conv = (LDKCResult_UpdateAddHTLCDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UpdateAddHTLCDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_PingDecodeErrorZ_get_ok"))) TS_CResult_PingDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_PingDecodeErrorZ* owner_conv = (LDKCResult_PingDecodeErrorZ*)(owner & ~1);
LDKPing ret_var = CResult_PingDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_PingDecodeErrorZ_get_err"))) TS_CResult_PingDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_PingDecodeErrorZ* owner_conv = (LDKCResult_PingDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_PingDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_PongDecodeErrorZ_get_ok"))) TS_CResult_PongDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_PongDecodeErrorZ* owner_conv = (LDKCResult_PongDecodeErrorZ*)(owner & ~1);
LDKPong ret_var = CResult_PongDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_PongDecodeErrorZ_get_err"))) TS_CResult_PongDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_PongDecodeErrorZ* owner_conv = (LDKCResult_PongDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_PongDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_get_ok"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ*)(owner & ~1);
LDKUnsignedChannelAnnouncement ret_var = CResult_UnsignedChannelAnnouncementDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_get_err"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UnsignedChannelAnnouncementDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_get_ok"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_ChannelAnnouncementDecodeErrorZ*)(owner & ~1);
LDKChannelAnnouncement ret_var = CResult_ChannelAnnouncementDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_get_err"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_ChannelAnnouncementDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelAnnouncementDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_get_ok"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* owner_conv = (LDKCResult_UnsignedChannelUpdateDecodeErrorZ*)(owner & ~1);
LDKUnsignedChannelUpdate ret_var = CResult_UnsignedChannelUpdateDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_get_err"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* owner_conv = (LDKCResult_UnsignedChannelUpdateDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UnsignedChannelUpdateDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_get_ok"))) TS_CResult_ChannelUpdateDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ChannelUpdateDecodeErrorZ* owner_conv = (LDKCResult_ChannelUpdateDecodeErrorZ*)(owner & ~1);
LDKChannelUpdate ret_var = CResult_ChannelUpdateDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_get_err"))) TS_CResult_ChannelUpdateDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ChannelUpdateDecodeErrorZ* owner_conv = (LDKCResult_ChannelUpdateDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ChannelUpdateDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_get_ok"))) TS_CResult_ErrorMessageDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ErrorMessageDecodeErrorZ* owner_conv = (LDKCResult_ErrorMessageDecodeErrorZ*)(owner & ~1);
LDKErrorMessage ret_var = CResult_ErrorMessageDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_get_err"))) TS_CResult_ErrorMessageDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ErrorMessageDecodeErrorZ* owner_conv = (LDKCResult_ErrorMessageDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ErrorMessageDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_get_ok"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ*)(owner & ~1);
LDKUnsignedNodeAnnouncement ret_var = CResult_UnsignedNodeAnnouncementDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_get_err"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_UnsignedNodeAnnouncementDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_get_ok"))) TS_CResult_NodeAnnouncementDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_NodeAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_NodeAnnouncementDecodeErrorZ*)(owner & ~1);
LDKNodeAnnouncement ret_var = CResult_NodeAnnouncementDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_get_err"))) TS_CResult_NodeAnnouncementDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_NodeAnnouncementDecodeErrorZ* owner_conv = (LDKCResult_NodeAnnouncementDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_NodeAnnouncementDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_get_ok"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_QueryShortChannelIdsDecodeErrorZ* owner_conv = (LDKCResult_QueryShortChannelIdsDecodeErrorZ*)(owner & ~1);
LDKQueryShortChannelIds ret_var = CResult_QueryShortChannelIdsDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_get_err"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_QueryShortChannelIdsDecodeErrorZ* owner_conv = (LDKCResult_QueryShortChannelIdsDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_QueryShortChannelIdsDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_get_ok"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* owner_conv = (LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ*)(owner & ~1);
LDKReplyShortChannelIdsEnd ret_var = CResult_ReplyShortChannelIdsEndDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_get_err"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* owner_conv = (LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ReplyShortChannelIdsEndDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_get_ok"))) TS_CResult_QueryChannelRangeDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_QueryChannelRangeDecodeErrorZ* owner_conv = (LDKCResult_QueryChannelRangeDecodeErrorZ*)(owner & ~1);
LDKQueryChannelRange ret_var = CResult_QueryChannelRangeDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_get_err"))) TS_CResult_QueryChannelRangeDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_QueryChannelRangeDecodeErrorZ* owner_conv = (LDKCResult_QueryChannelRangeDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_QueryChannelRangeDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_get_ok"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_ReplyChannelRangeDecodeErrorZ* owner_conv = (LDKCResult_ReplyChannelRangeDecodeErrorZ*)(owner & ~1);
LDKReplyChannelRange ret_var = CResult_ReplyChannelRangeDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_get_err"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_ReplyChannelRangeDecodeErrorZ* owner_conv = (LDKCResult_ReplyChannelRangeDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_ReplyChannelRangeDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_get_ok"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_GossipTimestampFilterDecodeErrorZ* owner_conv = (LDKCResult_GossipTimestampFilterDecodeErrorZ*)(owner & ~1);
LDKGossipTimestampFilter ret_var = CResult_GossipTimestampFilterDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_get_err"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_GossipTimestampFilterDecodeErrorZ* owner_conv = (LDKCResult_GossipTimestampFilterDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_GossipTimestampFilterDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_get_ok"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* owner_conv = (LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ*)(owner & ~1);
LDKDelayedPaymentOutputDescriptor ret_var = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_get_err"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* owner_conv = (LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_get_ok"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* owner_conv = (LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ*)(owner & ~1);
LDKStaticPaymentOutputDescriptor ret_var = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_get_err"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* owner_conv = (LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* owner_conv = (LDKCResult_SpendableOutputDescriptorDecodeErrorZ*)(owner & ~1);
LDKSpendableOutputDescriptor *ret_copy = MALLOC(sizeof(LDKSpendableOutputDescriptor), "LDKSpendableOutputDescriptor");
*ret_copy = CResult_SpendableOutputDescriptorDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_get_err"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* owner_conv = (LDKCResult_SpendableOutputDescriptorDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_SpendableOutputDescriptorDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCResult_SignDecodeErrorZ* owner_conv = (LDKCResult_SignDecodeErrorZ*)(owner & ~1);
LDKSign* ret_ret = MALLOC(sizeof(LDKSign), "LDKSign");
*ret_ret = CResult_SignDecodeErrorZ_get_ok(owner_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
static inline struct LDKDecodeError CResult_SignDecodeErrorZ_get_err(LDKCResult_SignDecodeErrorZ *NONNULL_PTR owner){
uint32_t __attribute__((export_name("TS_CResult_SignDecodeErrorZ_get_err"))) TS_CResult_SignDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_SignDecodeErrorZ* owner_conv = (LDKCResult_SignDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_SignDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
int8_tArray __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_get_ok"))) TS_CResult_RecoverableSignatureNoneZ_get_ok(uint32_t owner) {
LDKCResult_RecoverableSignatureNoneZ* owner_conv = (LDKCResult_RecoverableSignatureNoneZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(68);
+ int8_tArray ret_arr = init_int8_tArray(68, __LINE__);
memcpy(ret_arr->elems, CResult_RecoverableSignatureNoneZ_get_ok(owner_conv).serialized_form, 68);
return ret_arr;
}
LDKCResult_CVec_CVec_u8ZZNoneZ* owner_conv = (LDKCResult_CVec_CVec_u8ZZNoneZ*)(owner & ~1);
LDKCVec_CVec_u8ZZ ret_var = CResult_CVec_CVec_u8ZZNoneZ_get_ok(owner_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
LDKCVec_u8Z ret_conv_12_var = ret_var.data[m];
- int8_tArray ret_conv_12_arr = init_int8_tArray(ret_conv_12_var.datalen);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(ret_conv_12_var.datalen, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_conv_12_var.data, ret_conv_12_var.datalen);
CVec_u8Z_free(ret_conv_12_var);
ret_arr_ptr[m] = ret_conv_12_arr;
uint32_t __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_get_ok"))) TS_CResult_InMemorySignerDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_InMemorySignerDecodeErrorZ* owner_conv = (LDKCResult_InMemorySignerDecodeErrorZ*)(owner & ~1);
LDKInMemorySigner ret_var = CResult_InMemorySignerDecodeErrorZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_get_err"))) TS_CResult_InMemorySignerDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_InMemorySignerDecodeErrorZ* owner_conv = (LDKCResult_InMemorySignerDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_InMemorySignerDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
int8_tArray __attribute__((export_name("TS_CResult_TransactionNoneZ_get_ok"))) TS_CResult_TransactionNoneZ_get_ok(uint32_t owner) {
LDKCResult_TransactionNoneZ* owner_conv = (LDKCResult_TransactionNoneZ*)(owner & ~1);
LDKTransaction ret_var = CResult_TransactionNoneZ_get_ok(owner_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
}
void register_tx_LDKFilter_jcall(const void* this_arg, const uint8_t (* txid)[32], LDKu8slice script_pubkey) {
LDKFilter_JCalls *j_calls = (LDKFilter_JCalls*) this_arg;
- int8_tArray txid_arr = init_int8_tArray(32);
+ int8_tArray txid_arr = init_int8_tArray(32, __LINE__);
memcpy(txid_arr->elems, *txid, 32);
LDKu8slice script_pubkey_var = script_pubkey;
- int8_tArray script_pubkey_arr = init_int8_tArray(script_pubkey_var.datalen);
+ int8_tArray script_pubkey_arr = init_int8_tArray(script_pubkey_var.datalen, __LINE__);
memcpy(script_pubkey_arr->elems, script_pubkey_var.data, script_pubkey_var.datalen);
js_invoke_function_2(j_calls->instance_ptr, 18, (uint32_t)txid_arr, (uint32_t)script_pubkey_arr);
}
LDKCOption_C2Tuple_usizeTransactionZZ register_output_LDKFilter_jcall(const void* this_arg, LDKWatchedOutput output) {
LDKFilter_JCalls *j_calls = (LDKFilter_JCalls*) this_arg;
LDKWatchedOutput output_var = output;
- uint64_t output_ref = 0;
- CHECK((((uint64_t)output_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&output_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t output_ref = 0;
+ CHECK((((uintptr_t)output_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&output_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(output_var);
- output_ref = (uint64_t)output_var.inner;
+ output_ref = (uintptr_t)output_var.inner;
if (output_var.is_owned) {
output_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 19, (uint32_t)output_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCOption_C2Tuple_usizeTransactionZZ ret_conv = *(LDKCOption_C2Tuple_usizeTransactionZZ*)(ret_ptr);
FREE((void*)ret);
return (long)res_ptr;
}
void __attribute__((export_name("TS_Filter_register_tx"))) TS_Filter_register_tx(uint32_t this_arg, int8_tArray txid, int8_tArray script_pubkey) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKFilter* this_arg_conv = (LDKFilter*)this_arg_ptr;
unsigned char txid_arr[32];
CHECK(txid->arr_len == 32);
- memcpy(txid_arr, txid->elems, 32);
+ memcpy(txid_arr, txid->elems, 32); FREE(txid);
unsigned char (*txid_ref)[32] = &txid_arr;
LDKu8slice script_pubkey_ref;
script_pubkey_ref.datalen = script_pubkey->arr_len;
- script_pubkey_ref.data = script_pubkey->elems;
+ script_pubkey_ref.data = script_pubkey->elems /* XXX script_pubkey leaks */;
(this_arg_conv->register_tx)(this_arg_conv->this_arg, txid_ref, script_pubkey_ref);
}
uint32_t __attribute__((export_name("TS_Filter_register_output"))) TS_Filter_register_output(uint32_t this_arg, uint32_t output) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKFilter* this_arg_conv = (LDKFilter*)this_arg_ptr;
LDKWatchedOutput output_conv;
output_conv = WatchedOutput_clone(&output_conv);
LDKCOption_C2Tuple_usizeTransactionZZ *ret_copy = MALLOC(sizeof(LDKCOption_C2Tuple_usizeTransactionZZ), "LDKCOption_C2Tuple_usizeTransactionZZ");
*ret_copy = (this_arg_conv->register_output)(this_arg_conv->this_arg, output_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKFilter* some_ret = MALLOC(sizeof(LDKFilter), "LDKFilter");
*some_ret = obj->some;
// Warning: We likely need to clone here, but no clone is available, so we just do it for Java instances
- return (uint64_t)some_ret;
+ return (uintptr_t)some_ret;
}
static inline struct LDKLockedChannelMonitor *CResult_LockedChannelMonitorNoneZ_get_ok(LDKCResult_LockedChannelMonitorNoneZ *NONNULL_PTR owner){
CHECK(owner->result_ok);
uint32_t __attribute__((export_name("TS_CResult_LockedChannelMonitorNoneZ_get_ok"))) TS_CResult_LockedChannelMonitorNoneZ_get_ok(uint32_t owner) {
LDKCResult_LockedChannelMonitorNoneZ* owner_conv = (LDKCResult_LockedChannelMonitorNoneZ*)(owner & ~1);
LDKLockedChannelMonitor ret_var = *CResult_LockedChannelMonitorNoneZ_get_ok(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner & ~1;
+ ret_ref = (uintptr_t)ret_var.inner & ~1;
return ret_ref;
}
LDKAPIError *obj = (LDKAPIError*)(ptr & ~1);
assert(obj->tag == LDKAPIError_IncompatibleShutdownScript);
LDKShutdownScript script_var = obj->incompatible_shutdown_script.script;
- uint64_t script_ref = 0;
- CHECK((((uint64_t)script_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&script_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t script_ref = 0;
+ CHECK((((uintptr_t)script_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&script_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(script_var);
- script_ref = (uint64_t)script_var.inner & ~1;
+ script_ref = (uintptr_t)script_var.inner & ~1;
return script_ref;
}
static inline void CResult_NoneAPIErrorZ_get_ok(LDKCResult_NoneAPIErrorZ *NONNULL_PTR owner){
LDKCResult_NoneAPIErrorZ* owner_conv = (LDKCResult_NoneAPIErrorZ*)(owner & ~1);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = CResult_NoneAPIErrorZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
}
int8_tArray __attribute__((export_name("TS_CResult__u832APIErrorZ_get_ok"))) TS_CResult__u832APIErrorZ_get_ok(uint32_t owner) {
LDKCResult__u832APIErrorZ* owner_conv = (LDKCResult__u832APIErrorZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, CResult__u832APIErrorZ_get_ok(owner_conv).data, 32);
return ret_arr;
}
LDKCResult__u832APIErrorZ* owner_conv = (LDKCResult__u832APIErrorZ*)(owner & ~1);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = CResult__u832APIErrorZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_LDKPaymentSendFailure_ParameterError_get_parameter_error"))) TS_LDKPaymentSendFailure_ParameterError_get_parameter_error(uint32_t ptr) {
LDKPaymentSendFailure *obj = (LDKPaymentSendFailure*)(ptr & ~1);
assert(obj->tag == LDKPaymentSendFailure_ParameterError);
- uint64_t parameter_error_ref = ((uint64_t)&obj->parameter_error) | 1;
+ uintptr_t parameter_error_ref = ((uintptr_t)&obj->parameter_error) | 1;
return parameter_error_ref;
}
uint32_tArray __attribute__((export_name("TS_LDKPaymentSendFailure_PathParameterError_get_path_parameter_error"))) TS_LDKPaymentSendFailure_PathParameterError_get_path_parameter_error(uint32_t ptr) {
assert(obj->tag == LDKPaymentSendFailure_PathParameterError);
LDKCVec_CResult_NoneAPIErrorZZ path_parameter_error_var = obj->path_parameter_error;
uint32_tArray path_parameter_error_arr = NULL;
- path_parameter_error_arr = init_uint32_tArray(path_parameter_error_var.datalen);
+ path_parameter_error_arr = init_uint32_tArray(path_parameter_error_var.datalen, __LINE__);
uint32_t *path_parameter_error_arr_ptr = (uint32_t*)(((uint8_t*)path_parameter_error_arr) + 4);
for (size_t w = 0; w < path_parameter_error_var.datalen; w++) {
LDKCResult_NoneAPIErrorZ* path_parameter_error_conv_22_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*path_parameter_error_conv_22_conv = path_parameter_error_var.data[w];
*path_parameter_error_conv_22_conv = CResult_NoneAPIErrorZ_clone(path_parameter_error_conv_22_conv);
- path_parameter_error_arr_ptr[w] = (uint64_t)path_parameter_error_conv_22_conv;
+ path_parameter_error_arr_ptr[w] = (uintptr_t)path_parameter_error_conv_22_conv;
}
return path_parameter_error_arr;
assert(obj->tag == LDKPaymentSendFailure_AllFailedRetrySafe);
LDKCVec_APIErrorZ all_failed_retry_safe_var = obj->all_failed_retry_safe;
uint32_tArray all_failed_retry_safe_arr = NULL;
- all_failed_retry_safe_arr = init_uint32_tArray(all_failed_retry_safe_var.datalen);
+ all_failed_retry_safe_arr = init_uint32_tArray(all_failed_retry_safe_var.datalen, __LINE__);
uint32_t *all_failed_retry_safe_arr_ptr = (uint32_t*)(((uint8_t*)all_failed_retry_safe_arr) + 4);
for (size_t k = 0; k < all_failed_retry_safe_var.datalen; k++) {
- uint64_t all_failed_retry_safe_conv_10_ref = ((uint64_t)&all_failed_retry_safe_var.data[k]) | 1;
+ uintptr_t all_failed_retry_safe_conv_10_ref = ((uintptr_t)&all_failed_retry_safe_var.data[k]) | 1;
all_failed_retry_safe_arr_ptr[k] = all_failed_retry_safe_conv_10_ref;
}
assert(obj->tag == LDKPaymentSendFailure_PartialFailure);
LDKCVec_CResult_NoneAPIErrorZZ results_var = obj->partial_failure.results;
uint32_tArray results_arr = NULL;
- results_arr = init_uint32_tArray(results_var.datalen);
+ results_arr = init_uint32_tArray(results_var.datalen, __LINE__);
uint32_t *results_arr_ptr = (uint32_t*)(((uint8_t*)results_arr) + 4);
for (size_t w = 0; w < results_var.datalen; w++) {
LDKCResult_NoneAPIErrorZ* results_conv_22_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*results_conv_22_conv = results_var.data[w];
*results_conv_22_conv = CResult_NoneAPIErrorZ_clone(results_conv_22_conv);
- results_arr_ptr[w] = (uint64_t)results_conv_22_conv;
+ results_arr_ptr[w] = (uintptr_t)results_conv_22_conv;
}
return results_arr;
LDKPaymentSendFailure *obj = (LDKPaymentSendFailure*)(ptr & ~1);
assert(obj->tag == LDKPaymentSendFailure_PartialFailure);
LDKRouteParameters failed_paths_retry_var = obj->partial_failure.failed_paths_retry;
- uint64_t failed_paths_retry_ref = 0;
- if ((uint64_t)failed_paths_retry_var.inner > 4096) {
- CHECK((((uint64_t)failed_paths_retry_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&failed_paths_retry_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t failed_paths_retry_ref = 0;
+ if ((uintptr_t)failed_paths_retry_var.inner > 4096) {
+ CHECK((((uintptr_t)failed_paths_retry_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&failed_paths_retry_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(failed_paths_retry_var);
- failed_paths_retry_ref = (uint64_t)failed_paths_retry_var.inner & ~1;
+ failed_paths_retry_ref = (uintptr_t)failed_paths_retry_var.inner & ~1;
}
return failed_paths_retry_ref;
}
int8_tArray __attribute__((export_name("TS_LDKPaymentSendFailure_PartialFailure_get_payment_id"))) TS_LDKPaymentSendFailure_PartialFailure_get_payment_id(uint32_t ptr) {
LDKPaymentSendFailure *obj = (LDKPaymentSendFailure*)(ptr & ~1);
assert(obj->tag == LDKPaymentSendFailure_PartialFailure);
- int8_tArray payment_id_arr = init_int8_tArray(32);
+ int8_tArray payment_id_arr = init_int8_tArray(32, __LINE__);
memcpy(payment_id_arr->elems, obj->partial_failure.payment_id.data, 32);
return payment_id_arr;
}
}
int8_tArray __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_get_ok"))) TS_CResult_PaymentIdPaymentSendFailureZ_get_ok(uint32_t owner) {
LDKCResult_PaymentIdPaymentSendFailureZ* owner_conv = (LDKCResult_PaymentIdPaymentSendFailureZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, CResult_PaymentIdPaymentSendFailureZ_get_ok(owner_conv).data, 32);
return ret_arr;
}
LDKCResult_PaymentIdPaymentSendFailureZ* owner_conv = (LDKCResult_PaymentIdPaymentSendFailureZ*)(owner & ~1);
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = CResult_PaymentIdPaymentSendFailureZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKCResult_NonePaymentSendFailureZ* owner_conv = (LDKCResult_NonePaymentSendFailureZ*)(owner & ~1);
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = CResult_NonePaymentSendFailureZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
}
int8_tArray __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentIdZ_get_a"))) TS_C2Tuple_PaymentHashPaymentIdZ_get_a(uint32_t owner) {
LDKC2Tuple_PaymentHashPaymentIdZ* owner_conv = (LDKC2Tuple_PaymentHashPaymentIdZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_PaymentHashPaymentIdZ_get_a(owner_conv).data, 32);
return ret_arr;
}
}
int8_tArray __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentIdZ_get_b"))) TS_C2Tuple_PaymentHashPaymentIdZ_get_b(uint32_t owner) {
LDKC2Tuple_PaymentHashPaymentIdZ* owner_conv = (LDKC2Tuple_PaymentHashPaymentIdZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_PaymentHashPaymentIdZ_get_b(owner_conv).data, 32);
return ret_arr;
}
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* owner_conv = (LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ*)(owner & ~1);
LDKC2Tuple_PaymentHashPaymentIdZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentIdZ), "LDKC2Tuple_PaymentHashPaymentIdZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_get_ok(owner_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
static inline struct LDKPaymentSendFailure CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_get_err(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ *NONNULL_PTR owner){
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* owner_conv = (LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ*)(owner & ~1);
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
}
int8_tArray __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentSecretZ_get_a"))) TS_C2Tuple_PaymentHashPaymentSecretZ_get_a(uint32_t owner) {
LDKC2Tuple_PaymentHashPaymentSecretZ* owner_conv = (LDKC2Tuple_PaymentHashPaymentSecretZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_PaymentHashPaymentSecretZ_get_a(owner_conv).data, 32);
return ret_arr;
}
}
int8_tArray __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentSecretZ_get_b"))) TS_C2Tuple_PaymentHashPaymentSecretZ_get_b(uint32_t owner) {
LDKC2Tuple_PaymentHashPaymentSecretZ* owner_conv = (LDKC2Tuple_PaymentHashPaymentSecretZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_PaymentHashPaymentSecretZ_get_b(owner_conv).data, 32);
return ret_arr;
}
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* owner_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ*)(owner & ~1);
LDKC2Tuple_PaymentHashPaymentSecretZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentSecretZ), "LDKC2Tuple_PaymentHashPaymentSecretZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_get_ok(owner_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
static inline void CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_get_err(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ *NONNULL_PTR owner){
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* owner_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ*)(owner & ~1);
LDKC2Tuple_PaymentHashPaymentSecretZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentSecretZ), "LDKC2Tuple_PaymentHashPaymentSecretZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_get_ok(owner_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
static inline struct LDKAPIError CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_get_err(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ *NONNULL_PTR owner){
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* owner_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ*)(owner & ~1);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
}
int8_tArray __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_get_ok"))) TS_CResult_PaymentSecretNoneZ_get_ok(uint32_t owner) {
LDKCResult_PaymentSecretNoneZ* owner_conv = (LDKCResult_PaymentSecretNoneZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, CResult_PaymentSecretNoneZ_get_ok(owner_conv).data, 32);
return ret_arr;
}
}
int8_tArray __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_get_ok"))) TS_CResult_PaymentSecretAPIErrorZ_get_ok(uint32_t owner) {
LDKCResult_PaymentSecretAPIErrorZ* owner_conv = (LDKCResult_PaymentSecretAPIErrorZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, CResult_PaymentSecretAPIErrorZ_get_ok(owner_conv).data, 32);
return ret_arr;
}
LDKCResult_PaymentSecretAPIErrorZ* owner_conv = (LDKCResult_PaymentSecretAPIErrorZ*)(owner & ~1);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = CResult_PaymentSecretAPIErrorZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
}
int8_tArray __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_get_ok"))) TS_CResult_PaymentPreimageAPIErrorZ_get_ok(uint32_t owner) {
LDKCResult_PaymentPreimageAPIErrorZ* owner_conv = (LDKCResult_PaymentPreimageAPIErrorZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, CResult_PaymentPreimageAPIErrorZ_get_ok(owner_conv).data, 32);
return ret_arr;
}
LDKCResult_PaymentPreimageAPIErrorZ* owner_conv = (LDKCResult_PaymentPreimageAPIErrorZ*)(owner & ~1);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = CResult_PaymentPreimageAPIErrorZ_get_err(owner_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKCResult_NoneChannelMonitorUpdateErrZ watch_channel_LDKWatch_jcall(const void* this_arg, LDKOutPoint funding_txo, LDKChannelMonitor monitor) {
LDKWatch_JCalls *j_calls = (LDKWatch_JCalls*) this_arg;
LDKOutPoint funding_txo_var = funding_txo;
- uint64_t funding_txo_ref = 0;
- CHECK((((uint64_t)funding_txo_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&funding_txo_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t funding_txo_ref = 0;
+ CHECK((((uintptr_t)funding_txo_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&funding_txo_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(funding_txo_var);
- funding_txo_ref = (uint64_t)funding_txo_var.inner;
+ funding_txo_ref = (uintptr_t)funding_txo_var.inner;
if (funding_txo_var.is_owned) {
funding_txo_ref |= 1;
}
LDKChannelMonitor monitor_var = monitor;
- uint64_t monitor_ref = 0;
- CHECK((((uint64_t)monitor_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&monitor_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t monitor_ref = 0;
+ CHECK((((uintptr_t)monitor_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&monitor_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(monitor_var);
- monitor_ref = (uint64_t)monitor_var.inner;
+ monitor_ref = (uintptr_t)monitor_var.inner;
if (monitor_var.is_owned) {
monitor_ref |= 1;
}
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 20, (uint32_t)funding_txo_ref, (uint32_t)monitor_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneChannelMonitorUpdateErrZ ret_conv = *(LDKCResult_NoneChannelMonitorUpdateErrZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_NoneChannelMonitorUpdateErrZ update_channel_LDKWatch_jcall(const void* this_arg, LDKOutPoint funding_txo, LDKChannelMonitorUpdate update) {
LDKWatch_JCalls *j_calls = (LDKWatch_JCalls*) this_arg;
LDKOutPoint funding_txo_var = funding_txo;
- uint64_t funding_txo_ref = 0;
- CHECK((((uint64_t)funding_txo_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&funding_txo_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t funding_txo_ref = 0;
+ CHECK((((uintptr_t)funding_txo_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&funding_txo_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(funding_txo_var);
- funding_txo_ref = (uint64_t)funding_txo_var.inner;
+ funding_txo_ref = (uintptr_t)funding_txo_var.inner;
if (funding_txo_var.is_owned) {
funding_txo_ref |= 1;
}
LDKChannelMonitorUpdate update_var = update;
- uint64_t update_ref = 0;
- CHECK((((uint64_t)update_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&update_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t update_ref = 0;
+ CHECK((((uintptr_t)update_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&update_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(update_var);
- update_ref = (uint64_t)update_var.inner;
+ update_ref = (uintptr_t)update_var.inner;
if (update_var.is_owned) {
update_ref |= 1;
}
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 21, (uint32_t)funding_txo_ref, (uint32_t)update_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneChannelMonitorUpdateErrZ ret_conv = *(LDKCResult_NoneChannelMonitorUpdateErrZ*)(ret_ptr);
FREE((void*)ret);
ret_constr.data = MALLOC(ret_constr.datalen * sizeof(LDKMonitorEvent), "LDKCVec_MonitorEventZ Elements");
else
ret_constr.data = NULL;
- uint32_t* ret_vals = ret->elems;
+ uint32_t* ret_vals = ret->elems /* XXX ret leaks */;
for (size_t o = 0; o < ret_constr.datalen; o++) {
uint32_t ret_conv_14 = ret_vals[o];
- void* ret_conv_14_ptr = (void*)(((uint64_t)ret_conv_14) & ~1);
+ void* ret_conv_14_ptr = (void*)(((uintptr_t)ret_conv_14) & ~1);
CHECK_ACCESS(ret_conv_14_ptr);
LDKMonitorEvent ret_conv_14_conv = *(LDKMonitorEvent*)(ret_conv_14_ptr);
FREE((void*)ret_conv_14);
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_Watch_watch_channel"))) TS_Watch_watch_channel(uint32_t this_arg, uint32_t funding_txo, uint32_t monitor) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKWatch* this_arg_conv = (LDKWatch*)this_arg_ptr;
LDKOutPoint funding_txo_conv;
monitor_conv = ChannelMonitor_clone(&monitor_conv);
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = (this_arg_conv->watch_channel)(this_arg_conv->this_arg, funding_txo_conv, monitor_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_Watch_update_channel"))) TS_Watch_update_channel(uint32_t this_arg, uint32_t funding_txo, uint32_t update) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKWatch* this_arg_conv = (LDKWatch*)this_arg_ptr;
LDKOutPoint funding_txo_conv;
update_conv = ChannelMonitorUpdate_clone(&update_conv);
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = (this_arg_conv->update_channel)(this_arg_conv->this_arg, funding_txo_conv, update_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_tArray __attribute__((export_name("TS_Watch_release_pending_monitor_events"))) TS_Watch_release_pending_monitor_events(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKWatch* this_arg_conv = (LDKWatch*)this_arg_ptr;
LDKCVec_MonitorEventZ ret_var = (this_arg_conv->release_pending_monitor_events)(this_arg_conv->this_arg);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t o = 0; o < ret_var.datalen; o++) {
LDKMonitorEvent *ret_conv_14_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_conv_14_copy = ret_var.data[o];
- uint64_t ret_conv_14_ref = (uint64_t)ret_conv_14_copy;
+ uintptr_t ret_conv_14_ref = (uintptr_t)ret_conv_14_copy;
ret_arr_ptr[o] = ret_conv_14_ref;
}
void broadcast_transaction_LDKBroadcasterInterface_jcall(const void* this_arg, LDKTransaction tx) {
LDKBroadcasterInterface_JCalls *j_calls = (LDKBroadcasterInterface_JCalls*) this_arg;
LDKTransaction tx_var = tx;
- int8_tArray tx_arr = init_int8_tArray(tx_var.datalen);
+ int8_tArray tx_arr = init_int8_tArray(tx_var.datalen, __LINE__);
memcpy(tx_arr->elems, tx_var.data, tx_var.datalen);
Transaction_free(tx_var);
js_invoke_function_1(j_calls->instance_ptr, 23, (uint32_t)tx_arr);
return (long)res_ptr;
}
void __attribute__((export_name("TS_BroadcasterInterface_broadcast_transaction"))) TS_BroadcasterInterface_broadcast_transaction(uint32_t this_arg, int8_tArray tx) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKBroadcasterInterface* this_arg_conv = (LDKBroadcasterInterface*)this_arg_ptr;
LDKTransaction tx_ref;
tx_ref.datalen = tx->arr_len;
tx_ref.data = MALLOC(tx_ref.datalen, "LDKTransaction Bytes");
- memcpy(tx_ref.data, tx->elems, tx_ref.datalen);
+ memcpy(tx_ref.data, tx->elems, tx_ref.datalen); FREE(tx);
tx_ref.data_is_owned = true;
(this_arg_conv->broadcast_transaction)(this_arg_conv->this_arg, tx_ref);
}
int8_tArray ret = (int8_tArray)js_invoke_function_0(j_calls->instance_ptr, 24);
LDKSecretKey ret_ref;
CHECK(ret->arr_len == 32);
- memcpy(ret_ref.bytes, ret->elems, 32);
+ memcpy(ret_ref.bytes, ret->elems, 32); FREE(ret);
return ret_ref;
}
LDKCVec_u8Z get_destination_script_LDKKeysInterface_jcall(const void* this_arg) {
LDKCVec_u8Z ret_ref;
ret_ref.datalen = ret->arr_len;
ret_ref.data = MALLOC(ret_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(ret_ref.data, ret->elems, ret_ref.datalen);
+ memcpy(ret_ref.data, ret->elems, ret_ref.datalen); FREE(ret);
return ret_ref;
}
LDKShutdownScript get_shutdown_scriptpubkey_LDKKeysInterface_jcall(const void* this_arg) {
LDKSign get_channel_signer_LDKKeysInterface_jcall(const void* this_arg, bool inbound, uint64_t channel_value_satoshis) {
LDKKeysInterface_JCalls *j_calls = (LDKKeysInterface_JCalls*) this_arg;
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 27, (uint32_t)inbound, (uint32_t)channel_value_satoshis);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKSign ret_conv = *(LDKSign*)(ret_ptr);
FREE((void*)ret);
int8_tArray ret = (int8_tArray)js_invoke_function_0(j_calls->instance_ptr, 28);
LDKThirtyTwoBytes ret_ref;
CHECK(ret->arr_len == 32);
- memcpy(ret_ref.data, ret->elems, 32);
+ memcpy(ret_ref.data, ret->elems, 32); FREE(ret);
return ret_ref;
}
LDKCResult_SignDecodeErrorZ read_chan_signer_LDKKeysInterface_jcall(const void* this_arg, LDKu8slice reader) {
LDKKeysInterface_JCalls *j_calls = (LDKKeysInterface_JCalls*) this_arg;
LDKu8slice reader_var = reader;
- int8_tArray reader_arr = init_int8_tArray(reader_var.datalen);
+ int8_tArray reader_arr = init_int8_tArray(reader_var.datalen, __LINE__);
memcpy(reader_arr->elems, reader_var.data, reader_var.datalen);
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 29, (uint32_t)reader_arr);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_SignDecodeErrorZ ret_conv = *(LDKCResult_SignDecodeErrorZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_RecoverableSignatureNoneZ sign_invoice_LDKKeysInterface_jcall(const void* this_arg, LDKCVec_u8Z invoice_preimage) {
LDKKeysInterface_JCalls *j_calls = (LDKKeysInterface_JCalls*) this_arg;
LDKCVec_u8Z invoice_preimage_var = invoice_preimage;
- int8_tArray invoice_preimage_arr = init_int8_tArray(invoice_preimage_var.datalen);
+ int8_tArray invoice_preimage_arr = init_int8_tArray(invoice_preimage_var.datalen, __LINE__);
memcpy(invoice_preimage_arr->elems, invoice_preimage_var.data, invoice_preimage_var.datalen);
CVec_u8Z_free(invoice_preimage_var);
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 30, (uint32_t)invoice_preimage_arr);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_RecoverableSignatureNoneZ ret_conv = *(LDKCResult_RecoverableSignatureNoneZ*)(ret_ptr);
FREE((void*)ret);
int8_tArray ret = (int8_tArray)js_invoke_function_0(j_calls->instance_ptr, 31);
LDKThirtyTwoBytes ret_ref;
CHECK(ret->arr_len == 32);
- memcpy(ret_ref.data, ret->elems, 32);
+ memcpy(ret_ref.data, ret->elems, 32); FREE(ret);
return ret_ref;
}
static void LDKKeysInterface_JCalls_cloned(LDKKeysInterface* new_obj) {
return (long)res_ptr;
}
int8_tArray __attribute__((export_name("TS_KeysInterface_get_node_secret"))) TS_KeysInterface_get_node_secret(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, (this_arg_conv->get_node_secret)(this_arg_conv->this_arg).bytes, 32);
return ret_arr;
}
int8_tArray __attribute__((export_name("TS_KeysInterface_get_destination_script"))) TS_KeysInterface_get_destination_script(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
LDKCVec_u8Z ret_var = (this_arg_conv->get_destination_script)(this_arg_conv->this_arg);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_KeysInterface_get_shutdown_scriptpubkey"))) TS_KeysInterface_get_shutdown_scriptpubkey(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
LDKShutdownScript ret_var = (this_arg_conv->get_shutdown_scriptpubkey)(this_arg_conv->this_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
uint32_t __attribute__((export_name("TS_KeysInterface_get_channel_signer"))) TS_KeysInterface_get_channel_signer(uint32_t this_arg, jboolean inbound, int64_t channel_value_satoshis) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
LDKSign* ret_ret = MALLOC(sizeof(LDKSign), "LDKSign");
*ret_ret = (this_arg_conv->get_channel_signer)(this_arg_conv->this_arg, inbound, channel_value_satoshis);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
int8_tArray __attribute__((export_name("TS_KeysInterface_get_secure_random_bytes"))) TS_KeysInterface_get_secure_random_bytes(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, (this_arg_conv->get_secure_random_bytes)(this_arg_conv->this_arg).data, 32);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_KeysInterface_read_chan_signer"))) TS_KeysInterface_read_chan_signer(uint32_t this_arg, int8_tArray reader) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
LDKu8slice reader_ref;
reader_ref.datalen = reader->arr_len;
- reader_ref.data = reader->elems;
+ reader_ref.data = reader->elems /* XXX reader leaks */;
LDKCResult_SignDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SignDecodeErrorZ), "LDKCResult_SignDecodeErrorZ");
*ret_conv = (this_arg_conv->read_chan_signer)(this_arg_conv->this_arg, reader_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_KeysInterface_sign_invoice"))) TS_KeysInterface_sign_invoice(uint32_t this_arg, int8_tArray invoice_preimage) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
LDKCVec_u8Z invoice_preimage_ref;
invoice_preimage_ref.datalen = invoice_preimage->arr_len;
invoice_preimage_ref.data = MALLOC(invoice_preimage_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(invoice_preimage_ref.data, invoice_preimage->elems, invoice_preimage_ref.datalen);
+ memcpy(invoice_preimage_ref.data, invoice_preimage->elems, invoice_preimage_ref.datalen); FREE(invoice_preimage);
LDKCResult_RecoverableSignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_RecoverableSignatureNoneZ), "LDKCResult_RecoverableSignatureNoneZ");
*ret_conv = (this_arg_conv->sign_invoice)(this_arg_conv->this_arg, invoice_preimage_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_KeysInterface_get_inbound_payment_key_material"))) TS_KeysInterface_get_inbound_payment_key_material(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKKeysInterface* this_arg_conv = (LDKKeysInterface*)this_arg_ptr;
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, (this_arg_conv->get_inbound_payment_key_material)(this_arg_conv->this_arg).data, 32);
return ret_arr;
}
return (long)res_ptr;
}
int32_t __attribute__((export_name("TS_FeeEstimator_get_est_sat_per_1000_weight"))) TS_FeeEstimator_get_est_sat_per_1000_weight(uint32_t this_arg, uint32_t confirmation_target) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKFeeEstimator* this_arg_conv = (LDKFeeEstimator*)this_arg_ptr;
LDKConfirmationTarget confirmation_target_conv = LDKConfirmationTarget_from_js(confirmation_target);
void log_LDKLogger_jcall(const void* this_arg, const LDKRecord * record) {
LDKLogger_JCalls *j_calls = (LDKLogger_JCalls*) this_arg;
LDKRecord record_var = *record;
- uint64_t record_ref = 0;
+ uintptr_t record_ref = 0;
record_var = Record_clone(record);
- CHECK((((uint64_t)record_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&record_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)record_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&record_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(record_var);
- record_ref = (uint64_t)record_var.inner;
+ record_ref = (uintptr_t)record_var.inner;
if (record_var.is_owned) {
record_ref |= 1;
}
}
int8_tArray __attribute__((export_name("TS_C2Tuple_BlockHashChannelManagerZ_get_a"))) TS_C2Tuple_BlockHashChannelManagerZ_get_a(uint32_t owner) {
LDKC2Tuple_BlockHashChannelManagerZ* owner_conv = (LDKC2Tuple_BlockHashChannelManagerZ*)(owner & ~1);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, C2Tuple_BlockHashChannelManagerZ_get_a(owner_conv).data, 32);
return ret_arr;
}
uint32_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelManagerZ_get_b"))) TS_C2Tuple_BlockHashChannelManagerZ_get_b(uint32_t owner) {
LDKC2Tuple_BlockHashChannelManagerZ* owner_conv = (LDKC2Tuple_BlockHashChannelManagerZ*)(owner & ~1);
LDKChannelManager ret_var = *C2Tuple_BlockHashChannelManagerZ_get_b(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner & ~1;
+ ret_ref = (uintptr_t)ret_var.inner & ~1;
return ret_ref;
}
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_ok"))) TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_ok(uint32_t owner) {
LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* owner_conv = (LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ*)(owner & ~1);
- uint64_t ret_ret = (uint64_t)CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_ok(owner_conv) | 1;
+ uintptr_t ret_ret = (uintptr_t)CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_ok(owner_conv) | 1;
return ret_ret;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_err"))) TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_err(uint32_t owner) {
LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* owner_conv = (LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ*)(owner & ~1);
LDKDecodeError ret_var = CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_get_err(owner_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
ret_constr.data = MALLOC(ret_constr.datalen * sizeof(LDKMessageSendEvent), "LDKCVec_MessageSendEventZ Elements");
else
ret_constr.data = NULL;
- uint32_t* ret_vals = ret->elems;
+ uint32_t* ret_vals = ret->elems /* XXX ret leaks */;
for (size_t s = 0; s < ret_constr.datalen; s++) {
uint32_t ret_conv_18 = ret_vals[s];
- void* ret_conv_18_ptr = (void*)(((uint64_t)ret_conv_18) & ~1);
+ void* ret_conv_18_ptr = (void*)(((uintptr_t)ret_conv_18) & ~1);
CHECK_ACCESS(ret_conv_18_ptr);
LDKMessageSendEvent ret_conv_18_conv = *(LDKMessageSendEvent*)(ret_conv_18_ptr);
FREE((void*)ret_conv_18);
return (long)res_ptr;
}
uint32_tArray __attribute__((export_name("TS_MessageSendEventsProvider_get_and_clear_pending_msg_events"))) TS_MessageSendEventsProvider_get_and_clear_pending_msg_events(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKMessageSendEventsProvider* this_arg_conv = (LDKMessageSendEventsProvider*)this_arg_ptr;
LDKCVec_MessageSendEventZ ret_var = (this_arg_conv->get_and_clear_pending_msg_events)(this_arg_conv->this_arg);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t s = 0; s < ret_var.datalen; s++) {
LDKMessageSendEvent *ret_conv_18_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_conv_18_copy = ret_var.data[s];
- uint64_t ret_conv_18_ref = (uint64_t)ret_conv_18_copy;
+ uintptr_t ret_conv_18_ref = (uintptr_t)ret_conv_18_copy;
ret_arr_ptr[s] = ret_conv_18_ref;
}
LDKEventHandler_JCalls *j_calls = (LDKEventHandler_JCalls*) this_arg;
LDKEvent *ret_event = MALLOC(sizeof(LDKEvent), "LDKEvent ret conversion");
*ret_event = Event_clone(event);
- js_invoke_function_1(j_calls->instance_ptr, 35, (uint32_t)(uint64_t)ret_event);
+ js_invoke_function_1(j_calls->instance_ptr, 35, (uint32_t)(uintptr_t)ret_event);
}
static void LDKEventHandler_JCalls_cloned(LDKEventHandler* new_obj) {
LDKEventHandler_JCalls *j_calls = (LDKEventHandler_JCalls*) new_obj->this_arg;
return (long)res_ptr;
}
void __attribute__((export_name("TS_EventHandler_handle_event"))) TS_EventHandler_handle_event(uint32_t this_arg, uint32_t event) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKEventHandler* this_arg_conv = (LDKEventHandler*)this_arg_ptr;
LDKEvent* event_conv = (LDKEvent*)event;
LDKEventsProvider_JCalls *j_calls = (LDKEventsProvider_JCalls*) this_arg;
LDKEventHandler* handler_ret = MALLOC(sizeof(LDKEventHandler), "LDKEventHandler");
*handler_ret = handler;
- js_invoke_function_1(j_calls->instance_ptr, 36, (uint32_t)(uint64_t)handler_ret);
+ js_invoke_function_1(j_calls->instance_ptr, 36, (uint32_t)(uintptr_t)handler_ret);
}
static void LDKEventsProvider_JCalls_cloned(LDKEventsProvider* new_obj) {
LDKEventsProvider_JCalls *j_calls = (LDKEventsProvider_JCalls*) new_obj->this_arg;
return (long)res_ptr;
}
void __attribute__((export_name("TS_EventsProvider_process_pending_events"))) TS_EventsProvider_process_pending_events(uint32_t this_arg, uint32_t handler) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKEventsProvider* this_arg_conv = (LDKEventsProvider*)this_arg_ptr;
- void* handler_ptr = (void*)(((uint64_t)handler) & ~1);
+ void* handler_ptr = (void*)(((uintptr_t)handler) & ~1);
CHECK_ACCESS(handler_ptr);
LDKEventHandler handler_conv = *(LDKEventHandler*)(handler_ptr);
(this_arg_conv->process_pending_events)(this_arg_conv->this_arg, handler_conv);
void block_connected_LDKListen_jcall(const void* this_arg, LDKu8slice block, uint32_t height) {
LDKListen_JCalls *j_calls = (LDKListen_JCalls*) this_arg;
LDKu8slice block_var = block;
- int8_tArray block_arr = init_int8_tArray(block_var.datalen);
+ int8_tArray block_arr = init_int8_tArray(block_var.datalen, __LINE__);
memcpy(block_arr->elems, block_var.data, block_var.datalen);
js_invoke_function_2(j_calls->instance_ptr, 37, (uint32_t)block_arr, (uint32_t)height);
}
void block_disconnected_LDKListen_jcall(const void* this_arg, const uint8_t (* header)[80], uint32_t height) {
LDKListen_JCalls *j_calls = (LDKListen_JCalls*) this_arg;
- int8_tArray header_arr = init_int8_tArray(80);
+ int8_tArray header_arr = init_int8_tArray(80, __LINE__);
memcpy(header_arr->elems, *header, 80);
js_invoke_function_2(j_calls->instance_ptr, 38, (uint32_t)header_arr, (uint32_t)height);
}
return (long)res_ptr;
}
void __attribute__((export_name("TS_Listen_block_connected"))) TS_Listen_block_connected(uint32_t this_arg, int8_tArray block, int32_t height) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKListen* this_arg_conv = (LDKListen*)this_arg_ptr;
LDKu8slice block_ref;
block_ref.datalen = block->arr_len;
- block_ref.data = block->elems;
+ block_ref.data = block->elems /* XXX block leaks */;
(this_arg_conv->block_connected)(this_arg_conv->this_arg, block_ref, height);
}
void __attribute__((export_name("TS_Listen_block_disconnected"))) TS_Listen_block_disconnected(uint32_t this_arg, int8_tArray header, int32_t height) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKListen* this_arg_conv = (LDKListen*)this_arg_ptr;
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
(this_arg_conv->block_disconnected)(this_arg_conv->this_arg, header_ref, height);
}
}
void transactions_confirmed_LDKConfirm_jcall(const void* this_arg, const uint8_t (* header)[80], LDKCVec_C2Tuple_usizeTransactionZZ txdata, uint32_t height) {
LDKConfirm_JCalls *j_calls = (LDKConfirm_JCalls*) this_arg;
- int8_tArray header_arr = init_int8_tArray(80);
+ int8_tArray header_arr = init_int8_tArray(80, __LINE__);
memcpy(header_arr->elems, *header, 80);
LDKCVec_C2Tuple_usizeTransactionZZ txdata_var = txdata;
uint32_tArray txdata_arr = NULL;
- txdata_arr = init_uint32_tArray(txdata_var.datalen);
+ txdata_arr = init_uint32_tArray(txdata_var.datalen, __LINE__);
uint32_t *txdata_arr_ptr = (uint32_t*)(((uint8_t*)txdata_arr) + 4);
for (size_t c = 0; c < txdata_var.datalen; c++) {
LDKC2Tuple_usizeTransactionZ* txdata_conv_28_conv = MALLOC(sizeof(LDKC2Tuple_usizeTransactionZ), "LDKC2Tuple_usizeTransactionZ");
*txdata_conv_28_conv = txdata_var.data[c];
- txdata_arr_ptr[c] = ((uint64_t)txdata_conv_28_conv);
+ txdata_arr_ptr[c] = ((uintptr_t)txdata_conv_28_conv);
}
FREE(txdata_var.data);
}
void transaction_unconfirmed_LDKConfirm_jcall(const void* this_arg, const uint8_t (* txid)[32]) {
LDKConfirm_JCalls *j_calls = (LDKConfirm_JCalls*) this_arg;
- int8_tArray txid_arr = init_int8_tArray(32);
+ int8_tArray txid_arr = init_int8_tArray(32, __LINE__);
memcpy(txid_arr->elems, *txid, 32);
js_invoke_function_1(j_calls->instance_ptr, 40, (uint32_t)txid_arr);
}
void best_block_updated_LDKConfirm_jcall(const void* this_arg, const uint8_t (* header)[80], uint32_t height) {
LDKConfirm_JCalls *j_calls = (LDKConfirm_JCalls*) this_arg;
- int8_tArray header_arr = init_int8_tArray(80);
+ int8_tArray header_arr = init_int8_tArray(80, __LINE__);
memcpy(header_arr->elems, *header, 80);
js_invoke_function_2(j_calls->instance_ptr, 41, (uint32_t)header_arr, (uint32_t)height);
}
ret_constr.data = MALLOC(ret_constr.datalen * sizeof(LDKThirtyTwoBytes), "LDKCVec_TxidZ Elements");
else
ret_constr.data = NULL;
- int8_tArray* ret_vals = (void*) ret->elems;
+ int8_tArray* ret_vals = (void*) ret->elems /* XXX ret leaks */;
for (size_t m = 0; m < ret_constr.datalen; m++) {
int8_tArray ret_conv_12 = ret_vals[m];
LDKThirtyTwoBytes ret_conv_12_ref;
CHECK(ret_conv_12->arr_len == 32);
- memcpy(ret_conv_12_ref.data, ret_conv_12->elems, 32);
+ memcpy(ret_conv_12_ref.data, ret_conv_12->elems, 32); FREE(ret_conv_12);
ret_constr.data[m] = ret_conv_12_ref;
}
return ret_constr;
return (long)res_ptr;
}
void __attribute__((export_name("TS_Confirm_transactions_confirmed"))) TS_Confirm_transactions_confirmed(uint32_t this_arg, int8_tArray header, uint32_tArray txdata, int32_t height) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKConfirm* this_arg_conv = (LDKConfirm*)this_arg_ptr;
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
LDKCVec_C2Tuple_usizeTransactionZZ txdata_constr;
txdata_constr.datalen = txdata->arr_len;
txdata_constr.data = MALLOC(txdata_constr.datalen * sizeof(LDKC2Tuple_usizeTransactionZ), "LDKCVec_C2Tuple_usizeTransactionZZ Elements");
else
txdata_constr.data = NULL;
- uint32_t* txdata_vals = txdata->elems;
+ uint32_t* txdata_vals = txdata->elems /* XXX txdata leaks */;
for (size_t c = 0; c < txdata_constr.datalen; c++) {
uint32_t txdata_conv_28 = txdata_vals[c];
- void* txdata_conv_28_ptr = (void*)(((uint64_t)txdata_conv_28) & ~1);
+ void* txdata_conv_28_ptr = (void*)(((uintptr_t)txdata_conv_28) & ~1);
CHECK_ACCESS(txdata_conv_28_ptr);
LDKC2Tuple_usizeTransactionZ txdata_conv_28_conv = *(LDKC2Tuple_usizeTransactionZ*)(txdata_conv_28_ptr);
- txdata_conv_28_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uint64_t)txdata_conv_28) & ~1));
+ txdata_conv_28_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uintptr_t)txdata_conv_28) & ~1));
txdata_constr.data[c] = txdata_conv_28_conv;
}
(this_arg_conv->transactions_confirmed)(this_arg_conv->this_arg, header_ref, txdata_constr, height);
}
void __attribute__((export_name("TS_Confirm_transaction_unconfirmed"))) TS_Confirm_transaction_unconfirmed(uint32_t this_arg, int8_tArray txid) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKConfirm* this_arg_conv = (LDKConfirm*)this_arg_ptr;
unsigned char txid_arr[32];
CHECK(txid->arr_len == 32);
- memcpy(txid_arr, txid->elems, 32);
+ memcpy(txid_arr, txid->elems, 32); FREE(txid);
unsigned char (*txid_ref)[32] = &txid_arr;
(this_arg_conv->transaction_unconfirmed)(this_arg_conv->this_arg, txid_ref);
}
void __attribute__((export_name("TS_Confirm_best_block_updated"))) TS_Confirm_best_block_updated(uint32_t this_arg, int8_tArray header, int32_t height) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKConfirm* this_arg_conv = (LDKConfirm*)this_arg_ptr;
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
(this_arg_conv->best_block_updated)(this_arg_conv->this_arg, header_ref, height);
}
ptrArray __attribute__((export_name("TS_Confirm_get_relevant_txids"))) TS_Confirm_get_relevant_txids(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKConfirm* this_arg_conv = (LDKConfirm*)this_arg_ptr;
LDKCVec_TxidZ ret_var = (this_arg_conv->get_relevant_txids)(this_arg_conv->this_arg);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
- int8_tArray ret_conv_12_arr = init_int8_tArray(32);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_var.data[m].data, 32);
ret_arr_ptr[m] = ret_conv_12_arr;
}
LDKCResult_NoneChannelMonitorUpdateErrZ persist_new_channel_LDKPersist_jcall(const void* this_arg, LDKOutPoint channel_id, const LDKChannelMonitor * data, LDKMonitorUpdateId update_id) {
LDKPersist_JCalls *j_calls = (LDKPersist_JCalls*) this_arg;
LDKOutPoint channel_id_var = channel_id;
- uint64_t channel_id_ref = 0;
- CHECK((((uint64_t)channel_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&channel_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t channel_id_ref = 0;
+ CHECK((((uintptr_t)channel_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&channel_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(channel_id_var);
- channel_id_ref = (uint64_t)channel_id_var.inner;
+ channel_id_ref = (uintptr_t)channel_id_var.inner;
if (channel_id_var.is_owned) {
channel_id_ref |= 1;
}
LDKChannelMonitor data_var = *data;
- uint64_t data_ref = 0;
+ uintptr_t data_ref = 0;
data_var = ChannelMonitor_clone(data);
- CHECK((((uint64_t)data_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&data_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)data_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&data_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(data_var);
- data_ref = (uint64_t)data_var.inner;
+ data_ref = (uintptr_t)data_var.inner;
if (data_var.is_owned) {
data_ref |= 1;
}
LDKMonitorUpdateId update_id_var = update_id;
- uint64_t update_id_ref = 0;
- CHECK((((uint64_t)update_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&update_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t update_id_ref = 0;
+ CHECK((((uintptr_t)update_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&update_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(update_id_var);
- update_id_ref = (uint64_t)update_id_var.inner;
+ update_id_ref = (uintptr_t)update_id_var.inner;
if (update_id_var.is_owned) {
update_id_ref |= 1;
}
uint32_t ret = js_invoke_function_3(j_calls->instance_ptr, 43, (uint32_t)channel_id_ref, (uint32_t)data_ref, (uint32_t)update_id_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneChannelMonitorUpdateErrZ ret_conv = *(LDKCResult_NoneChannelMonitorUpdateErrZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_NoneChannelMonitorUpdateErrZ update_persisted_channel_LDKPersist_jcall(const void* this_arg, LDKOutPoint channel_id, const LDKChannelMonitorUpdate * update, const LDKChannelMonitor * data, LDKMonitorUpdateId update_id) {
LDKPersist_JCalls *j_calls = (LDKPersist_JCalls*) this_arg;
LDKOutPoint channel_id_var = channel_id;
- uint64_t channel_id_ref = 0;
- CHECK((((uint64_t)channel_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&channel_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t channel_id_ref = 0;
+ CHECK((((uintptr_t)channel_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&channel_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(channel_id_var);
- channel_id_ref = (uint64_t)channel_id_var.inner;
+ channel_id_ref = (uintptr_t)channel_id_var.inner;
if (channel_id_var.is_owned) {
channel_id_ref |= 1;
}
LDKChannelMonitorUpdate update_var = *update;
- uint64_t update_ref = 0;
- if ((uint64_t)update_var.inner > 4096) {
+ uintptr_t update_ref = 0;
+ if ((uintptr_t)update_var.inner > 4096) {
update_var = ChannelMonitorUpdate_clone(update);
- CHECK((((uint64_t)update_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&update_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)update_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&update_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(update_var);
- update_ref = (uint64_t)update_var.inner;
+ update_ref = (uintptr_t)update_var.inner;
if (update_var.is_owned) {
update_ref |= 1;
}
}
LDKChannelMonitor data_var = *data;
- uint64_t data_ref = 0;
+ uintptr_t data_ref = 0;
data_var = ChannelMonitor_clone(data);
- CHECK((((uint64_t)data_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&data_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)data_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&data_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(data_var);
- data_ref = (uint64_t)data_var.inner;
+ data_ref = (uintptr_t)data_var.inner;
if (data_var.is_owned) {
data_ref |= 1;
}
LDKMonitorUpdateId update_id_var = update_id;
- uint64_t update_id_ref = 0;
- CHECK((((uint64_t)update_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&update_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t update_id_ref = 0;
+ CHECK((((uintptr_t)update_id_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&update_id_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(update_id_var);
- update_id_ref = (uint64_t)update_id_var.inner;
+ update_id_ref = (uintptr_t)update_id_var.inner;
if (update_id_var.is_owned) {
update_id_ref |= 1;
}
uint32_t ret = js_invoke_function_4(j_calls->instance_ptr, 44, (uint32_t)channel_id_ref, (uint32_t)update_ref, (uint32_t)data_ref, (uint32_t)update_id_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneChannelMonitorUpdateErrZ ret_conv = *(LDKCResult_NoneChannelMonitorUpdateErrZ*)(ret_ptr);
FREE((void*)ret);
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_Persist_persist_new_channel"))) TS_Persist_persist_new_channel(uint32_t this_arg, uint32_t channel_id, uint32_t data, uint32_t update_id) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKPersist* this_arg_conv = (LDKPersist*)this_arg_ptr;
LDKOutPoint channel_id_conv;
update_id_conv = MonitorUpdateId_clone(&update_id_conv);
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = (this_arg_conv->persist_new_channel)(this_arg_conv->this_arg, channel_id_conv, &data_conv, update_id_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_Persist_update_persisted_channel"))) TS_Persist_update_persisted_channel(uint32_t this_arg, uint32_t channel_id, uint32_t update, uint32_t data, uint32_t update_id) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKPersist* this_arg_conv = (LDKPersist*)this_arg_ptr;
LDKOutPoint channel_id_conv;
update_id_conv = MonitorUpdateId_clone(&update_id_conv);
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = (this_arg_conv->update_persisted_channel)(this_arg_conv->this_arg, channel_id_conv, &update_conv, &data_conv, update_id_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
typedef struct LDKChannelMessageHandler_JCalls {
}
void handle_open_channel_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, LDKInitFeatures their_features, const LDKOpenChannel * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKInitFeatures their_features_var = their_features;
- uint64_t their_features_ref = 0;
- CHECK((((uint64_t)their_features_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&their_features_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t their_features_ref = 0;
+ CHECK((((uintptr_t)their_features_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&their_features_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(their_features_var);
- their_features_ref = (uint64_t)their_features_var.inner;
+ their_features_ref = (uintptr_t)their_features_var.inner;
if (their_features_var.is_owned) {
their_features_ref |= 1;
}
LDKOpenChannel msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = OpenChannel_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_accept_channel_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, LDKInitFeatures their_features, const LDKAcceptChannel * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKInitFeatures their_features_var = their_features;
- uint64_t their_features_ref = 0;
- CHECK((((uint64_t)their_features_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&their_features_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t their_features_ref = 0;
+ CHECK((((uintptr_t)their_features_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&their_features_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(their_features_var);
- their_features_ref = (uint64_t)their_features_var.inner;
+ their_features_ref = (uintptr_t)their_features_var.inner;
if (their_features_var.is_owned) {
their_features_ref |= 1;
}
LDKAcceptChannel msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = AcceptChannel_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_funding_created_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKFundingCreated * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKFundingCreated msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = FundingCreated_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_funding_signed_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKFundingSigned * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKFundingSigned msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = FundingSigned_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_funding_locked_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKFundingLocked * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKFundingLocked msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = FundingLocked_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_shutdown_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKInitFeatures * their_features, const LDKShutdown * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKInitFeatures their_features_var = *their_features;
- uint64_t their_features_ref = 0;
+ uintptr_t their_features_ref = 0;
their_features_var = InitFeatures_clone(their_features);
- CHECK((((uint64_t)their_features_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&their_features_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)their_features_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&their_features_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(their_features_var);
- their_features_ref = (uint64_t)their_features_var.inner;
+ their_features_ref = (uintptr_t)their_features_var.inner;
if (their_features_var.is_owned) {
their_features_ref |= 1;
}
LDKShutdown msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = Shutdown_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_closing_signed_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKClosingSigned * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKClosingSigned msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = ClosingSigned_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_update_add_htlc_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKUpdateAddHTLC * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKUpdateAddHTLC msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = UpdateAddHTLC_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_update_fulfill_htlc_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKUpdateFulfillHTLC * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKUpdateFulfillHTLC msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = UpdateFulfillHTLC_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_update_fail_htlc_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKUpdateFailHTLC * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKUpdateFailHTLC msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = UpdateFailHTLC_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_update_fail_malformed_htlc_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKUpdateFailMalformedHTLC * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKUpdateFailMalformedHTLC msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = UpdateFailMalformedHTLC_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_commitment_signed_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKCommitmentSigned * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKCommitmentSigned msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = CommitmentSigned_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_revoke_and_ack_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKRevokeAndACK * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKRevokeAndACK msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = RevokeAndACK_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_update_fee_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKUpdateFee * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKUpdateFee msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = UpdateFee_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_announcement_signatures_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKAnnouncementSignatures * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKAnnouncementSignatures msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = AnnouncementSignatures_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void peer_disconnected_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, bool no_connection_possible) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
js_invoke_function_2(j_calls->instance_ptr, 60, (uint32_t)their_node_id_arr, (uint32_t)no_connection_possible);
}
void peer_connected_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKInit * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKInit msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = Init_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_channel_reestablish_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKChannelReestablish * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKChannelReestablish msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = ChannelReestablish_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_channel_update_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKChannelUpdate * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKChannelUpdate msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = ChannelUpdate_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
}
void handle_error_LDKChannelMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKErrorMessage * msg) {
LDKChannelMessageHandler_JCalls *j_calls = (LDKChannelMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKErrorMessage msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = ErrorMessage_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
return (long)res_ptr;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_open_channel"))) TS_ChannelMessageHandler_handle_open_channel(uint32_t this_arg, int8_tArray their_node_id, uint32_t their_features, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKInitFeatures their_features_conv;
their_features_conv.inner = (void*)(their_features & (~1));
their_features_conv.is_owned = (their_features & 1) || (their_features == 0);
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_accept_channel"))) TS_ChannelMessageHandler_handle_accept_channel(uint32_t this_arg, int8_tArray their_node_id, uint32_t their_features, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKInitFeatures their_features_conv;
their_features_conv.inner = (void*)(their_features & (~1));
their_features_conv.is_owned = (their_features & 1) || (their_features == 0);
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_funding_created"))) TS_ChannelMessageHandler_handle_funding_created(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKFundingCreated msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_funding_signed"))) TS_ChannelMessageHandler_handle_funding_signed(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKFundingSigned msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_funding_locked"))) TS_ChannelMessageHandler_handle_funding_locked(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKFundingLocked msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_shutdown"))) TS_ChannelMessageHandler_handle_shutdown(uint32_t this_arg, int8_tArray their_node_id, uint32_t their_features, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKInitFeatures their_features_conv;
their_features_conv.inner = (void*)(their_features & (~1));
their_features_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_closing_signed"))) TS_ChannelMessageHandler_handle_closing_signed(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKClosingSigned msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_update_add_htlc"))) TS_ChannelMessageHandler_handle_update_add_htlc(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKUpdateAddHTLC msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_update_fulfill_htlc"))) TS_ChannelMessageHandler_handle_update_fulfill_htlc(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKUpdateFulfillHTLC msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_update_fail_htlc"))) TS_ChannelMessageHandler_handle_update_fail_htlc(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKUpdateFailHTLC msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_update_fail_malformed_htlc"))) TS_ChannelMessageHandler_handle_update_fail_malformed_htlc(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKUpdateFailMalformedHTLC msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_commitment_signed"))) TS_ChannelMessageHandler_handle_commitment_signed(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKCommitmentSigned msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_revoke_and_ack"))) TS_ChannelMessageHandler_handle_revoke_and_ack(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKRevokeAndACK msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_update_fee"))) TS_ChannelMessageHandler_handle_update_fee(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKUpdateFee msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_announcement_signatures"))) TS_ChannelMessageHandler_handle_announcement_signatures(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKAnnouncementSignatures msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_peer_disconnected"))) TS_ChannelMessageHandler_peer_disconnected(uint32_t this_arg, int8_tArray their_node_id, jboolean no_connection_possible) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
(this_arg_conv->peer_disconnected)(this_arg_conv->this_arg, their_node_id_ref, no_connection_possible);
}
void __attribute__((export_name("TS_ChannelMessageHandler_peer_connected"))) TS_ChannelMessageHandler_peer_connected(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKInit msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_channel_reestablish"))) TS_ChannelMessageHandler_handle_channel_reestablish(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKChannelReestablish msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_channel_update"))) TS_ChannelMessageHandler_handle_channel_update(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKChannelUpdate msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
}
void __attribute__((export_name("TS_ChannelMessageHandler_handle_error"))) TS_ChannelMessageHandler_handle_error(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKChannelMessageHandler* this_arg_conv = (LDKChannelMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKErrorMessage msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
LDKCResult_boolLightningErrorZ handle_node_announcement_LDKRoutingMessageHandler_jcall(const void* this_arg, const LDKNodeAnnouncement * msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
LDKNodeAnnouncement msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = NodeAnnouncement_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 65, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_boolLightningErrorZ ret_conv = *(LDKCResult_boolLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_boolLightningErrorZ handle_channel_announcement_LDKRoutingMessageHandler_jcall(const void* this_arg, const LDKChannelAnnouncement * msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
LDKChannelAnnouncement msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = ChannelAnnouncement_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 66, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_boolLightningErrorZ ret_conv = *(LDKCResult_boolLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
LDKCResult_boolLightningErrorZ handle_channel_update_LDKRoutingMessageHandler_jcall(const void* this_arg, const LDKChannelUpdate * msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
LDKChannelUpdate msg_var = *msg;
- uint64_t msg_ref = 0;
+ uintptr_t msg_ref = 0;
msg_var = ChannelUpdate_clone(msg);
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_1(j_calls->instance_ptr, 67, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_boolLightningErrorZ ret_conv = *(LDKCResult_boolLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
ret_constr.data = MALLOC(ret_constr.datalen * sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ), "LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ Elements");
else
ret_constr.data = NULL;
- uint32_t* ret_vals = ret->elems;
+ uint32_t* ret_vals = ret->elems /* XXX ret leaks */;
for (size_t h = 0; h < ret_constr.datalen; h++) {
uint32_t ret_conv_59 = ret_vals[h];
- void* ret_conv_59_ptr = (void*)(((uint64_t)ret_conv_59) & ~1);
+ void* ret_conv_59_ptr = (void*)(((uintptr_t)ret_conv_59) & ~1);
CHECK_ACCESS(ret_conv_59_ptr);
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ ret_conv_59_conv = *(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(ret_conv_59_ptr);
FREE((void*)ret_conv_59);
}
LDKCVec_NodeAnnouncementZ get_next_node_announcements_LDKRoutingMessageHandler_jcall(const void* this_arg, LDKPublicKey starting_point, uint8_t batch_amount) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
- int8_tArray starting_point_arr = init_int8_tArray(33);
+ int8_tArray starting_point_arr = init_int8_tArray(33, __LINE__);
memcpy(starting_point_arr->elems, starting_point.compressed_form, 33);
uint32_tArray ret = (uint32_tArray)js_invoke_function_2(j_calls->instance_ptr, 69, (uint32_t)starting_point_arr, (uint32_t)batch_amount);
LDKCVec_NodeAnnouncementZ ret_constr;
ret_constr.data = MALLOC(ret_constr.datalen * sizeof(LDKNodeAnnouncement), "LDKCVec_NodeAnnouncementZ Elements");
else
ret_constr.data = NULL;
- uint32_t* ret_vals = ret->elems;
+ uint32_t* ret_vals = ret->elems /* XXX ret leaks */;
for (size_t s = 0; s < ret_constr.datalen; s++) {
uint32_t ret_conv_18 = ret_vals[s];
LDKNodeAnnouncement ret_conv_18_conv;
}
void sync_routing_table_LDKRoutingMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, const LDKInit * init) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKInit init_var = *init;
- uint64_t init_ref = 0;
+ uintptr_t init_ref = 0;
init_var = Init_clone(init);
- CHECK((((uint64_t)init_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&init_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)init_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&init_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(init_var);
- init_ref = (uint64_t)init_var.inner;
+ init_ref = (uintptr_t)init_var.inner;
if (init_var.is_owned) {
init_ref |= 1;
}
}
LDKCResult_NoneLightningErrorZ handle_reply_channel_range_LDKRoutingMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, LDKReplyChannelRange msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKReplyChannelRange msg_var = msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 71, (uint32_t)their_node_id_arr, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneLightningErrorZ ret_conv = *(LDKCResult_NoneLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
}
LDKCResult_NoneLightningErrorZ handle_reply_short_channel_ids_end_LDKRoutingMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, LDKReplyShortChannelIdsEnd msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKReplyShortChannelIdsEnd msg_var = msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 72, (uint32_t)their_node_id_arr, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneLightningErrorZ ret_conv = *(LDKCResult_NoneLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
}
LDKCResult_NoneLightningErrorZ handle_query_channel_range_LDKRoutingMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, LDKQueryChannelRange msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKQueryChannelRange msg_var = msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 73, (uint32_t)their_node_id_arr, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneLightningErrorZ ret_conv = *(LDKCResult_NoneLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
}
LDKCResult_NoneLightningErrorZ handle_query_short_channel_ids_LDKRoutingMessageHandler_jcall(const void* this_arg, LDKPublicKey their_node_id, LDKQueryShortChannelIds msg) {
LDKRoutingMessageHandler_JCalls *j_calls = (LDKRoutingMessageHandler_JCalls*) this_arg;
- int8_tArray their_node_id_arr = init_int8_tArray(33);
+ int8_tArray their_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(their_node_id_arr->elems, their_node_id.compressed_form, 33);
LDKQueryShortChannelIds msg_var = msg;
- uint64_t msg_ref = 0;
- CHECK((((uint64_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t msg_ref = 0;
+ CHECK((((uintptr_t)msg_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&msg_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_var);
- msg_ref = (uint64_t)msg_var.inner;
+ msg_ref = (uintptr_t)msg_var.inner;
if (msg_var.is_owned) {
msg_ref |= 1;
}
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 74, (uint32_t)their_node_id_arr, (uint32_t)msg_ref);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneLightningErrorZ ret_conv = *(LDKCResult_NoneLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_node_announcement"))) TS_RoutingMessageHandler_handle_node_announcement(uint32_t this_arg, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKNodeAnnouncement msg_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = (this_arg_conv->handle_node_announcement)(this_arg_conv->this_arg, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_channel_announcement"))) TS_RoutingMessageHandler_handle_channel_announcement(uint32_t this_arg, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKChannelAnnouncement msg_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = (this_arg_conv->handle_channel_announcement)(this_arg_conv->this_arg, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_channel_update"))) TS_RoutingMessageHandler_handle_channel_update(uint32_t this_arg, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKChannelUpdate msg_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = (this_arg_conv->handle_channel_update)(this_arg_conv->this_arg, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_tArray __attribute__((export_name("TS_RoutingMessageHandler_get_next_channel_announcements"))) TS_RoutingMessageHandler_get_next_channel_announcements(uint32_t this_arg, int64_t starting_point, int8_t batch_amount) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ ret_var = (this_arg_conv->get_next_channel_announcements)(this_arg_conv->this_arg, starting_point, batch_amount);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t h = 0; h < ret_var.datalen; h++) {
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* ret_conv_59_conv = MALLOC(sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ), "LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ");
*ret_conv_59_conv = ret_var.data[h];
- ret_arr_ptr[h] = ((uint64_t)ret_conv_59_conv);
+ ret_arr_ptr[h] = ((uintptr_t)ret_conv_59_conv);
}
FREE(ret_var.data);
}
uint32_tArray __attribute__((export_name("TS_RoutingMessageHandler_get_next_node_announcements"))) TS_RoutingMessageHandler_get_next_node_announcements(uint32_t this_arg, int8_tArray starting_point, int8_t batch_amount) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKPublicKey starting_point_ref;
CHECK(starting_point->arr_len == 33);
- memcpy(starting_point_ref.compressed_form, starting_point->elems, 33);
+ memcpy(starting_point_ref.compressed_form, starting_point->elems, 33); FREE(starting_point);
LDKCVec_NodeAnnouncementZ ret_var = (this_arg_conv->get_next_node_announcements)(this_arg_conv->this_arg, starting_point_ref, batch_amount);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t s = 0; s < ret_var.datalen; s++) {
LDKNodeAnnouncement ret_conv_18_var = ret_var.data[s];
- uint64_t ret_conv_18_ref = 0;
- CHECK((((uint64_t)ret_conv_18_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_18_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_18_ref = 0;
+ CHECK((((uintptr_t)ret_conv_18_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_18_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_18_var);
- ret_conv_18_ref = (uint64_t)ret_conv_18_var.inner;
+ ret_conv_18_ref = (uintptr_t)ret_conv_18_var.inner;
if (ret_conv_18_var.is_owned) {
ret_conv_18_ref |= 1;
}
}
void __attribute__((export_name("TS_RoutingMessageHandler_sync_routing_table"))) TS_RoutingMessageHandler_sync_routing_table(uint32_t this_arg, int8_tArray their_node_id, uint32_t init) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKInit init_conv;
init_conv.inner = (void*)(init & (~1));
init_conv.is_owned = false;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_reply_channel_range"))) TS_RoutingMessageHandler_handle_reply_channel_range(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKReplyChannelRange msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = ReplyChannelRange_clone(&msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = (this_arg_conv->handle_reply_channel_range)(this_arg_conv->this_arg, their_node_id_ref, msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_reply_short_channel_ids_end"))) TS_RoutingMessageHandler_handle_reply_short_channel_ids_end(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKReplyShortChannelIdsEnd msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = ReplyShortChannelIdsEnd_clone(&msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = (this_arg_conv->handle_reply_short_channel_ids_end)(this_arg_conv->this_arg, their_node_id_ref, msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_query_channel_range"))) TS_RoutingMessageHandler_handle_query_channel_range(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKQueryChannelRange msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = QueryChannelRange_clone(&msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = (this_arg_conv->handle_query_channel_range)(this_arg_conv->this_arg, their_node_id_ref, msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_RoutingMessageHandler_handle_query_short_channel_ids"))) TS_RoutingMessageHandler_handle_query_short_channel_ids(uint32_t this_arg, int8_tArray their_node_id, uint32_t msg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKRoutingMessageHandler* this_arg_conv = (LDKRoutingMessageHandler*)this_arg_ptr;
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
LDKQueryShortChannelIds msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = QueryShortChannelIds_clone(&msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = (this_arg_conv->handle_query_short_channel_ids)(this_arg_conv->this_arg, their_node_id_ref, msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
typedef struct LDKCustomMessageReader_JCalls {
LDKCResult_COption_TypeZDecodeErrorZ read_LDKCustomMessageReader_jcall(const void* this_arg, uint16_t message_type, LDKu8slice buffer) {
LDKCustomMessageReader_JCalls *j_calls = (LDKCustomMessageReader_JCalls*) this_arg;
LDKu8slice buffer_var = buffer;
- int8_tArray buffer_arr = init_int8_tArray(buffer_var.datalen);
+ int8_tArray buffer_arr = init_int8_tArray(buffer_var.datalen, __LINE__);
memcpy(buffer_arr->elems, buffer_var.data, buffer_var.datalen);
uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 75, (uint32_t)message_type, (uint32_t)buffer_arr);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_COption_TypeZDecodeErrorZ ret_conv = *(LDKCResult_COption_TypeZDecodeErrorZ*)(ret_ptr);
FREE((void*)ret);
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_CustomMessageReader_read"))) TS_CustomMessageReader_read(uint32_t this_arg, int16_t message_type, int8_tArray buffer) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKCustomMessageReader* this_arg_conv = (LDKCustomMessageReader*)this_arg_ptr;
LDKu8slice buffer_ref;
buffer_ref.datalen = buffer->arr_len;
- buffer_ref.data = buffer->elems;
+ buffer_ref.data = buffer->elems /* XXX buffer leaks */;
LDKCResult_COption_TypeZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_TypeZDecodeErrorZ), "LDKCResult_COption_TypeZDecodeErrorZ");
*ret_conv = (this_arg_conv->read)(this_arg_conv->this_arg, message_type, buffer_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
typedef struct LDKCustomMessageHandler_JCalls {
LDKCustomMessageHandler_JCalls *j_calls = (LDKCustomMessageHandler_JCalls*) this_arg;
LDKType* msg_ret = MALLOC(sizeof(LDKType), "LDKType");
*msg_ret = msg;
- int8_tArray sender_node_id_arr = init_int8_tArray(33);
+ int8_tArray sender_node_id_arr = init_int8_tArray(33, __LINE__);
memcpy(sender_node_id_arr->elems, sender_node_id.compressed_form, 33);
- uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 76, (uint32_t)(uint64_t)msg_ret, (uint32_t)sender_node_id_arr);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ uint32_t ret = js_invoke_function_2(j_calls->instance_ptr, 76, (uint32_t)(uintptr_t)msg_ret, (uint32_t)sender_node_id_arr);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKCResult_NoneLightningErrorZ ret_conv = *(LDKCResult_NoneLightningErrorZ*)(ret_ptr);
FREE((void*)ret);
ret_constr.data = MALLOC(ret_constr.datalen * sizeof(LDKC2Tuple_PublicKeyTypeZ), "LDKCVec_C2Tuple_PublicKeyTypeZZ Elements");
else
ret_constr.data = NULL;
- uint32_t* ret_vals = ret->elems;
+ uint32_t* ret_vals = ret->elems /* XXX ret leaks */;
for (size_t z = 0; z < ret_constr.datalen; z++) {
uint32_t ret_conv_25 = ret_vals[z];
- void* ret_conv_25_ptr = (void*)(((uint64_t)ret_conv_25) & ~1);
+ void* ret_conv_25_ptr = (void*)(((uintptr_t)ret_conv_25) & ~1);
CHECK_ACCESS(ret_conv_25_ptr);
LDKC2Tuple_PublicKeyTypeZ ret_conv_25_conv = *(LDKC2Tuple_PublicKeyTypeZ*)(ret_conv_25_ptr);
FREE((void*)ret_conv_25);
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_CustomMessageHandler_handle_custom_message"))) TS_CustomMessageHandler_handle_custom_message(uint32_t this_arg, uint32_t msg, int8_tArray sender_node_id) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKCustomMessageHandler* this_arg_conv = (LDKCustomMessageHandler*)this_arg_ptr;
- void* msg_ptr = (void*)(((uint64_t)msg) & ~1);
+ void* msg_ptr = (void*)(((uintptr_t)msg) & ~1);
CHECK_ACCESS(msg_ptr);
LDKType msg_conv = *(LDKType*)(msg_ptr);
LDKPublicKey sender_node_id_ref;
CHECK(sender_node_id->arr_len == 33);
- memcpy(sender_node_id_ref.compressed_form, sender_node_id->elems, 33);
+ memcpy(sender_node_id_ref.compressed_form, sender_node_id->elems, 33); FREE(sender_node_id);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = (this_arg_conv->handle_custom_message)(this_arg_conv->this_arg, msg_conv, sender_node_id_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_tArray __attribute__((export_name("TS_CustomMessageHandler_get_and_clear_pending_msg"))) TS_CustomMessageHandler_get_and_clear_pending_msg(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKCustomMessageHandler* this_arg_conv = (LDKCustomMessageHandler*)this_arg_ptr;
LDKCVec_C2Tuple_PublicKeyTypeZZ ret_var = (this_arg_conv->get_and_clear_pending_msg)(this_arg_conv->this_arg);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t z = 0; z < ret_var.datalen; z++) {
LDKC2Tuple_PublicKeyTypeZ* ret_conv_25_conv = MALLOC(sizeof(LDKC2Tuple_PublicKeyTypeZ), "LDKC2Tuple_PublicKeyTypeZ");
*ret_conv_25_conv = ret_var.data[z];
- ret_arr_ptr[z] = ((uint64_t)ret_conv_25_conv);
+ ret_arr_ptr[z] = ((uintptr_t)ret_conv_25_conv);
}
FREE(ret_var.data);
uintptr_t send_data_LDKSocketDescriptor_jcall(void* this_arg, LDKu8slice data, bool resume_read) {
LDKSocketDescriptor_JCalls *j_calls = (LDKSocketDescriptor_JCalls*) this_arg;
LDKu8slice data_var = data;
- int8_tArray data_arr = init_int8_tArray(data_var.datalen);
+ int8_tArray data_arr = init_int8_tArray(data_var.datalen, __LINE__);
memcpy(data_arr->elems, data_var.data, data_var.datalen);
return js_invoke_function_2(j_calls->instance_ptr, 78, (uint32_t)data_arr, (uint32_t)resume_read);
}
LDKSocketDescriptor_JCalls *j_calls = (LDKSocketDescriptor_JCalls*) this_arg;
LDKSocketDescriptor *other_arg_clone = MALLOC(sizeof(LDKSocketDescriptor), "LDKSocketDescriptor");
*other_arg_clone = SocketDescriptor_clone(other_arg);
- return js_invoke_function_1(j_calls->instance_ptr, 80, (uint32_t)(uint64_t)other_arg_clone);
+ return js_invoke_function_1(j_calls->instance_ptr, 80, (uint32_t)(uintptr_t)other_arg_clone);
}
uint64_t hash_LDKSocketDescriptor_jcall(const void* this_arg) {
LDKSocketDescriptor_JCalls *j_calls = (LDKSocketDescriptor_JCalls*) this_arg;
*res_ptr = LDKSocketDescriptor_init(o);
return (long)res_ptr;
}
-int64_t __attribute__((export_name("TS_SocketDescriptor_send_data"))) TS_SocketDescriptor_send_data(uint32_t this_arg, int8_tArray data, jboolean resume_read) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+intptr_t __attribute__((export_name("TS_SocketDescriptor_send_data"))) TS_SocketDescriptor_send_data(uint32_t this_arg, int8_tArray data, jboolean resume_read) {
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKSocketDescriptor* this_arg_conv = (LDKSocketDescriptor*)this_arg_ptr;
LDKu8slice data_ref;
data_ref.datalen = data->arr_len;
- data_ref.data = data->elems;
- int64_t ret_val = (this_arg_conv->send_data)(this_arg_conv->this_arg, data_ref, resume_read);
+ data_ref.data = data->elems /* XXX data leaks */;
+ intptr_t ret_val = (this_arg_conv->send_data)(this_arg_conv->this_arg, data_ref, resume_read);
return ret_val;
}
void __attribute__((export_name("TS_SocketDescriptor_disconnect_socket"))) TS_SocketDescriptor_disconnect_socket(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKSocketDescriptor* this_arg_conv = (LDKSocketDescriptor*)this_arg_ptr;
(this_arg_conv->disconnect_socket)(this_arg_conv->this_arg);
}
int64_t __attribute__((export_name("TS_SocketDescriptor_hash"))) TS_SocketDescriptor_hash(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKSocketDescriptor* this_arg_conv = (LDKSocketDescriptor*)this_arg_ptr;
int64_t ret_val = (this_arg_conv->hash)(this_arg_conv->this_arg);
LDKScore_JCalls *j_calls = (LDKScore_JCalls*) this_arg;
LDKCOption_u64Z *channel_capacity_msat_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*channel_capacity_msat_copy = channel_capacity_msat;
- uint64_t channel_capacity_msat_ref = (uint64_t)channel_capacity_msat_copy;
+ uintptr_t channel_capacity_msat_ref = (uintptr_t)channel_capacity_msat_copy;
LDKNodeId source_var = *source;
- uint64_t source_ref = 0;
+ uintptr_t source_ref = 0;
source_var = NodeId_clone(source);
- CHECK((((uint64_t)source_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&source_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)source_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&source_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(source_var);
- source_ref = (uint64_t)source_var.inner;
+ source_ref = (uintptr_t)source_var.inner;
if (source_var.is_owned) {
source_ref |= 1;
}
LDKNodeId target_var = *target;
- uint64_t target_ref = 0;
+ uintptr_t target_ref = 0;
target_var = NodeId_clone(target);
- CHECK((((uint64_t)target_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&target_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ CHECK((((uintptr_t)target_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&target_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(target_var);
- target_ref = (uint64_t)target_var.inner;
+ target_ref = (uintptr_t)target_var.inner;
if (target_var.is_owned) {
target_ref |= 1;
}
LDKScore_JCalls *j_calls = (LDKScore_JCalls*) this_arg;
LDKCVec_RouteHopZ path_var = path;
uint32_tArray path_arr = NULL;
- path_arr = init_uint32_tArray(path_var.datalen);
+ path_arr = init_uint32_tArray(path_var.datalen, __LINE__);
uint32_t *path_arr_ptr = (uint32_t*)(((uint8_t*)path_arr) + 4);
for (size_t k = 0; k < path_var.datalen; k++) {
LDKRouteHop path_conv_10_var = path_var.data[k];
- uint64_t path_conv_10_ref = 0;
- CHECK((((uint64_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t path_conv_10_ref = 0;
+ CHECK((((uintptr_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(path_conv_10_var);
- path_conv_10_ref = (uint64_t)path_conv_10_var.inner;
+ path_conv_10_ref = (uintptr_t)path_conv_10_var.inner;
if (path_conv_10_var.is_owned) {
path_conv_10_ref |= 1;
}
LDKScore_JCalls *j_calls = (LDKScore_JCalls*) this_arg;
LDKCVec_RouteHopZ path_var = path;
uint32_tArray path_arr = NULL;
- path_arr = init_uint32_tArray(path_var.datalen);
+ path_arr = init_uint32_tArray(path_var.datalen, __LINE__);
uint32_t *path_arr_ptr = (uint32_t*)(((uint8_t*)path_arr) + 4);
for (size_t k = 0; k < path_var.datalen; k++) {
LDKRouteHop path_conv_10_var = path_var.data[k];
- uint64_t path_conv_10_ref = 0;
- CHECK((((uint64_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t path_conv_10_ref = 0;
+ CHECK((((uintptr_t)path_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&path_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(path_conv_10_var);
- path_conv_10_ref = (uint64_t)path_conv_10_var.inner;
+ path_conv_10_ref = (uintptr_t)path_conv_10_var.inner;
if (path_conv_10_var.is_owned) {
path_conv_10_ref |= 1;
}
LDKCVec_u8Z ret_ref;
ret_ref.datalen = ret->arr_len;
ret_ref.data = MALLOC(ret_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(ret_ref.data, ret->elems, ret_ref.datalen);
+ memcpy(ret_ref.data, ret->elems, ret_ref.datalen); FREE(ret);
return ret_ref;
}
static void LDKScore_JCalls_cloned(LDKScore* new_obj) {
return (long)res_ptr;
}
int64_t __attribute__((export_name("TS_Score_channel_penalty_msat"))) TS_Score_channel_penalty_msat(uint32_t this_arg, int64_t short_channel_id, int64_t send_amt_msat, uint32_t channel_capacity_msat, uint32_t source, uint32_t target) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKScore* this_arg_conv = (LDKScore*)this_arg_ptr;
- void* channel_capacity_msat_ptr = (void*)(((uint64_t)channel_capacity_msat) & ~1);
+ void* channel_capacity_msat_ptr = (void*)(((uintptr_t)channel_capacity_msat) & ~1);
CHECK_ACCESS(channel_capacity_msat_ptr);
LDKCOption_u64Z channel_capacity_msat_conv = *(LDKCOption_u64Z*)(channel_capacity_msat_ptr);
- channel_capacity_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)channel_capacity_msat) & ~1));
+ channel_capacity_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)channel_capacity_msat) & ~1));
LDKNodeId source_conv;
source_conv.inner = (void*)(source & (~1));
source_conv.is_owned = false;
}
void __attribute__((export_name("TS_Score_payment_path_failed"))) TS_Score_payment_path_failed(uint32_t this_arg, uint32_tArray path, int64_t short_channel_id) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKScore* this_arg_conv = (LDKScore*)this_arg_ptr;
LDKCVec_RouteHopZ path_constr;
path_constr.data = MALLOC(path_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
path_constr.data = NULL;
- uint32_t* path_vals = path->elems;
+ uint32_t* path_vals = path->elems /* XXX path leaks */;
for (size_t k = 0; k < path_constr.datalen; k++) {
uint32_t path_conv_10 = path_vals[k];
LDKRouteHop path_conv_10_conv;
}
void __attribute__((export_name("TS_Score_payment_path_successful"))) TS_Score_payment_path_successful(uint32_t this_arg, uint32_tArray path) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKScore* this_arg_conv = (LDKScore*)this_arg_ptr;
LDKCVec_RouteHopZ path_constr;
path_constr.data = MALLOC(path_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
path_constr.data = NULL;
- uint32_t* path_vals = path->elems;
+ uint32_t* path_vals = path->elems /* XXX path leaks */;
for (size_t k = 0; k < path_constr.datalen; k++) {
uint32_t path_conv_10 = path_vals[k];
LDKRouteHop path_conv_10_conv;
}
int8_tArray __attribute__((export_name("TS_Score_write"))) TS_Score_write(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKScore* this_arg_conv = (LDKScore*)this_arg_ptr;
LDKCVec_u8Z ret_var = (this_arg_conv->write)(this_arg_conv->this_arg);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
LDKScore lock_LDKLockableScore_jcall(const void* this_arg) {
LDKLockableScore_JCalls *j_calls = (LDKLockableScore_JCalls*) this_arg;
uint32_t ret = js_invoke_function_0(j_calls->instance_ptr, 86);
- void* ret_ptr = (void*)(((uint64_t)ret) & ~1);
+ void* ret_ptr = (void*)(((uintptr_t)ret) & ~1);
CHECK_ACCESS(ret_ptr);
LDKScore ret_conv = *(LDKScore*)(ret_ptr);// Warning: we may need a move here but no clone is available for LDKScore
return (long)res_ptr;
}
uint32_t __attribute__((export_name("TS_LockableScore_lock"))) TS_LockableScore_lock(uint32_t this_arg) {
- void* this_arg_ptr = (void*)(((uint64_t)this_arg) & ~1);
+ void* this_arg_ptr = (void*)(((uintptr_t)this_arg) & ~1);
if (!(this_arg & 1)) { CHECK_ACCESS(this_arg_ptr); }
LDKLockableScore* this_arg_conv = (LDKLockableScore*)this_arg_ptr;
LDKScore* ret_ret = MALLOC(sizeof(LDKScore), "LDKScore");
*ret_ret = (this_arg_conv->lock)(this_arg_conv->this_arg);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
jstring __attribute__((export_name("TS__ldk_get_compiled_version"))) TS__ldk_get_compiled_version() {
LDKTransaction _res_ref;
_res_ref.datalen = _res->arr_len;
_res_ref.data = MALLOC(_res_ref.datalen, "LDKTransaction Bytes");
- memcpy(_res_ref.data, _res->elems, _res_ref.datalen);
+ memcpy(_res_ref.data, _res->elems, _res_ref.datalen); FREE(_res);
_res_ref.data_is_owned = true;
Transaction_free(_res_ref);
}
LDKCVec_u8Z script_pubkey_ref;
script_pubkey_ref.datalen = script_pubkey->arr_len;
script_pubkey_ref.data = MALLOC(script_pubkey_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(script_pubkey_ref.data, script_pubkey->elems, script_pubkey_ref.datalen);
+ memcpy(script_pubkey_ref.data, script_pubkey->elems, script_pubkey_ref.datalen); FREE(script_pubkey);
LDKTxOut* ret_ref = MALLOC(sizeof(LDKTxOut), "LDKTxOut");
*ret_ref = TxOut_new(script_pubkey_ref, value);
- return (uint64_t)ret_ref;
+ return (uintptr_t)ret_ref;
}
void __attribute__((export_name("TS_TxOut_free"))) TS_TxOut_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKTxOut _res_conv = *(LDKTxOut*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t TxOut_clone_ptr(LDKTxOut *NONNULL_PTR arg) {
LDKTxOut* ret_ref = MALLOC(sizeof(LDKTxOut), "LDKTxOut");
*ret_ref = TxOut_clone(arg);
- return (uint64_t)ret_ref;
+ return (uintptr_t)ret_ref;
}
-int64_t __attribute__((export_name("TS_TxOut_clone_ptr"))) TS_TxOut_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_TxOut_clone_ptr"))) TS_TxOut_clone_ptr(uint32_t arg) {
LDKTxOut* arg_conv = (LDKTxOut*)(arg & ~1);
- int64_t ret_val = TxOut_clone_ptr(arg_conv);
+ intptr_t ret_val = TxOut_clone_ptr(arg_conv);
return ret_val;
}
LDKTxOut* orig_conv = (LDKTxOut*)(orig & ~1);
LDKTxOut* ret_ref = MALLOC(sizeof(LDKTxOut), "LDKTxOut");
*ret_ref = TxOut_clone(orig_conv);
- return (uint64_t)ret_ref;
+ return (uintptr_t)ret_ref;
}
void __attribute__((export_name("TS_Str_free"))) TS_Str_free(jstring _res) {
o_conv = ChannelConfig_clone(&o_conv);
LDKCResult_ChannelConfigDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelConfigDecodeErrorZ), "LDKCResult_ChannelConfigDecodeErrorZ");
*ret_conv = CResult_ChannelConfigDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_err"))) TS_CResult_ChannelConfigDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelConfigDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelConfigDecodeErrorZ), "LDKCResult_ChannelConfigDecodeErrorZ");
*ret_conv = CResult_ChannelConfigDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_is_ok"))) TS_CResult_ChannelConfigDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_free"))) TS_CResult_ChannelConfigDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelConfigDecodeErrorZ _res_conv = *(LDKCResult_ChannelConfigDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelConfigDecodeErrorZ_clone_ptr(LDKCResult_ChannelConfigDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelConfigDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelConfigDecodeErrorZ), "LDKCResult_ChannelConfigDecodeErrorZ");
*ret_conv = CResult_ChannelConfigDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelConfigDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelConfigDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelConfigDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelConfigDecodeErrorZ* arg_conv = (LDKCResult_ChannelConfigDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelConfigDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelConfigDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelConfigDecodeErrorZ* orig_conv = (LDKCResult_ChannelConfigDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelConfigDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelConfigDecodeErrorZ), "LDKCResult_ChannelConfigDecodeErrorZ");
*ret_conv = CResult_ChannelConfigDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_ok"))) TS_CResult_OutPointDecodeErrorZ_ok(uint32_t o) {
o_conv = OutPoint_clone(&o_conv);
LDKCResult_OutPointDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OutPointDecodeErrorZ), "LDKCResult_OutPointDecodeErrorZ");
*ret_conv = CResult_OutPointDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_err"))) TS_CResult_OutPointDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_OutPointDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OutPointDecodeErrorZ), "LDKCResult_OutPointDecodeErrorZ");
*ret_conv = CResult_OutPointDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_is_ok"))) TS_CResult_OutPointDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_free"))) TS_CResult_OutPointDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_OutPointDecodeErrorZ _res_conv = *(LDKCResult_OutPointDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_OutPointDecodeErrorZ_clone_ptr(LDKCResult_OutPointDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_OutPointDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OutPointDecodeErrorZ), "LDKCResult_OutPointDecodeErrorZ");
*ret_conv = CResult_OutPointDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_clone_ptr"))) TS_CResult_OutPointDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_OutPointDecodeErrorZ_clone_ptr"))) TS_CResult_OutPointDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_OutPointDecodeErrorZ* arg_conv = (LDKCResult_OutPointDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_OutPointDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_OutPointDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_OutPointDecodeErrorZ* orig_conv = (LDKCResult_OutPointDecodeErrorZ*)(orig & ~1);
LDKCResult_OutPointDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OutPointDecodeErrorZ), "LDKCResult_OutPointDecodeErrorZ");
*ret_conv = CResult_OutPointDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SecretKeyErrorZ_ok"))) TS_CResult_SecretKeyErrorZ_ok(int8_tArray o) {
LDKSecretKey o_ref;
CHECK(o->arr_len == 32);
- memcpy(o_ref.bytes, o->elems, 32);
+ memcpy(o_ref.bytes, o->elems, 32); FREE(o);
LDKCResult_SecretKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SecretKeyErrorZ), "LDKCResult_SecretKeyErrorZ");
*ret_conv = CResult_SecretKeyErrorZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SecretKeyErrorZ_err"))) TS_CResult_SecretKeyErrorZ_err(uint32_t e) {
LDKSecp256k1Error e_conv = LDKSecp256k1Error_from_js(e);
LDKCResult_SecretKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SecretKeyErrorZ), "LDKCResult_SecretKeyErrorZ");
*ret_conv = CResult_SecretKeyErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_SecretKeyErrorZ_is_ok"))) TS_CResult_SecretKeyErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_SecretKeyErrorZ_free"))) TS_CResult_SecretKeyErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_SecretKeyErrorZ _res_conv = *(LDKCResult_SecretKeyErrorZ*)(_res_ptr);
FREE((void*)_res);
uint32_t __attribute__((export_name("TS_CResult_PublicKeyErrorZ_ok"))) TS_CResult_PublicKeyErrorZ_ok(int8_tArray o) {
LDKPublicKey o_ref;
CHECK(o->arr_len == 33);
- memcpy(o_ref.compressed_form, o->elems, 33);
+ memcpy(o_ref.compressed_form, o->elems, 33); FREE(o);
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = CResult_PublicKeyErrorZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PublicKeyErrorZ_err"))) TS_CResult_PublicKeyErrorZ_err(uint32_t e) {
LDKSecp256k1Error e_conv = LDKSecp256k1Error_from_js(e);
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = CResult_PublicKeyErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PublicKeyErrorZ_is_ok"))) TS_CResult_PublicKeyErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PublicKeyErrorZ_free"))) TS_CResult_PublicKeyErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PublicKeyErrorZ _res_conv = *(LDKCResult_PublicKeyErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PublicKeyErrorZ_clone_ptr(LDKCResult_PublicKeyErrorZ *NONNULL_PTR arg) {
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = CResult_PublicKeyErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PublicKeyErrorZ_clone_ptr"))) TS_CResult_PublicKeyErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PublicKeyErrorZ_clone_ptr"))) TS_CResult_PublicKeyErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_PublicKeyErrorZ* arg_conv = (LDKCResult_PublicKeyErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_PublicKeyErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PublicKeyErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PublicKeyErrorZ* orig_conv = (LDKCResult_PublicKeyErrorZ*)(orig & ~1);
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = CResult_PublicKeyErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_ok"))) TS_CResult_TxCreationKeysDecodeErrorZ_ok(uint32_t o) {
o_conv = TxCreationKeys_clone(&o_conv);
LDKCResult_TxCreationKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysDecodeErrorZ), "LDKCResult_TxCreationKeysDecodeErrorZ");
*ret_conv = CResult_TxCreationKeysDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_err"))) TS_CResult_TxCreationKeysDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_TxCreationKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysDecodeErrorZ), "LDKCResult_TxCreationKeysDecodeErrorZ");
*ret_conv = CResult_TxCreationKeysDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_is_ok"))) TS_CResult_TxCreationKeysDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_free"))) TS_CResult_TxCreationKeysDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_TxCreationKeysDecodeErrorZ _res_conv = *(LDKCResult_TxCreationKeysDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_TxCreationKeysDecodeErrorZ_clone_ptr(LDKCResult_TxCreationKeysDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_TxCreationKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysDecodeErrorZ), "LDKCResult_TxCreationKeysDecodeErrorZ");
*ret_conv = CResult_TxCreationKeysDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_clone_ptr"))) TS_CResult_TxCreationKeysDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_TxCreationKeysDecodeErrorZ_clone_ptr"))) TS_CResult_TxCreationKeysDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_TxCreationKeysDecodeErrorZ* arg_conv = (LDKCResult_TxCreationKeysDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_TxCreationKeysDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_TxCreationKeysDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_TxCreationKeysDecodeErrorZ* orig_conv = (LDKCResult_TxCreationKeysDecodeErrorZ*)(orig & ~1);
LDKCResult_TxCreationKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysDecodeErrorZ), "LDKCResult_TxCreationKeysDecodeErrorZ");
*ret_conv = CResult_TxCreationKeysDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_ok"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_ok(uint32_t o) {
o_conv = ChannelPublicKeys_clone(&o_conv);
LDKCResult_ChannelPublicKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ), "LDKCResult_ChannelPublicKeysDecodeErrorZ");
*ret_conv = CResult_ChannelPublicKeysDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_err"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelPublicKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ), "LDKCResult_ChannelPublicKeysDecodeErrorZ");
*ret_conv = CResult_ChannelPublicKeysDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_is_ok"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_free"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelPublicKeysDecodeErrorZ _res_conv = *(LDKCResult_ChannelPublicKeysDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr(LDKCResult_ChannelPublicKeysDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelPublicKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ), "LDKCResult_ChannelPublicKeysDecodeErrorZ");
*ret_conv = CResult_ChannelPublicKeysDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelPublicKeysDecodeErrorZ* arg_conv = (LDKCResult_ChannelPublicKeysDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelPublicKeysDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelPublicKeysDecodeErrorZ* orig_conv = (LDKCResult_ChannelPublicKeysDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelPublicKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ), "LDKCResult_ChannelPublicKeysDecodeErrorZ");
*ret_conv = CResult_ChannelPublicKeysDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_ok"))) TS_CResult_TxCreationKeysErrorZ_ok(uint32_t o) {
o_conv = TxCreationKeys_clone(&o_conv);
LDKCResult_TxCreationKeysErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysErrorZ), "LDKCResult_TxCreationKeysErrorZ");
*ret_conv = CResult_TxCreationKeysErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_err"))) TS_CResult_TxCreationKeysErrorZ_err(uint32_t e) {
LDKSecp256k1Error e_conv = LDKSecp256k1Error_from_js(e);
LDKCResult_TxCreationKeysErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysErrorZ), "LDKCResult_TxCreationKeysErrorZ");
*ret_conv = CResult_TxCreationKeysErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_is_ok"))) TS_CResult_TxCreationKeysErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_free"))) TS_CResult_TxCreationKeysErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_TxCreationKeysErrorZ _res_conv = *(LDKCResult_TxCreationKeysErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_TxCreationKeysErrorZ_clone_ptr(LDKCResult_TxCreationKeysErrorZ *NONNULL_PTR arg) {
LDKCResult_TxCreationKeysErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysErrorZ), "LDKCResult_TxCreationKeysErrorZ");
*ret_conv = CResult_TxCreationKeysErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_clone_ptr"))) TS_CResult_TxCreationKeysErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_TxCreationKeysErrorZ_clone_ptr"))) TS_CResult_TxCreationKeysErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_TxCreationKeysErrorZ* arg_conv = (LDKCResult_TxCreationKeysErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_TxCreationKeysErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_TxCreationKeysErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_TxCreationKeysErrorZ* orig_conv = (LDKCResult_TxCreationKeysErrorZ*)(orig & ~1);
LDKCResult_TxCreationKeysErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysErrorZ), "LDKCResult_TxCreationKeysErrorZ");
*ret_conv = CResult_TxCreationKeysErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_u32Z_some"))) TS_COption_u32Z_some(int32_t o) {
LDKCOption_u32Z *ret_copy = MALLOC(sizeof(LDKCOption_u32Z), "LDKCOption_u32Z");
*ret_copy = COption_u32Z_some(o);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_u32Z_none"))) TS_COption_u32Z_none() {
LDKCOption_u32Z *ret_copy = MALLOC(sizeof(LDKCOption_u32Z), "LDKCOption_u32Z");
*ret_copy = COption_u32Z_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_u32Z_free"))) TS_COption_u32Z_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_u32Z _res_conv = *(LDKCOption_u32Z*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_u32Z_clone_ptr(LDKCOption_u32Z *NONNULL_PTR arg) {
LDKCOption_u32Z *ret_copy = MALLOC(sizeof(LDKCOption_u32Z), "LDKCOption_u32Z");
*ret_copy = COption_u32Z_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_u32Z_clone_ptr"))) TS_COption_u32Z_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_u32Z_clone_ptr"))) TS_COption_u32Z_clone_ptr(uint32_t arg) {
LDKCOption_u32Z* arg_conv = (LDKCOption_u32Z*)arg;
- int64_t ret_val = COption_u32Z_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_u32Z_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_u32Z* orig_conv = (LDKCOption_u32Z*)orig;
LDKCOption_u32Z *ret_copy = MALLOC(sizeof(LDKCOption_u32Z), "LDKCOption_u32Z");
*ret_copy = COption_u32Z_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
o_conv = HTLCOutputInCommitment_clone(&o_conv);
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ), "LDKCResult_HTLCOutputInCommitmentDecodeErrorZ");
*ret_conv = CResult_HTLCOutputInCommitmentDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_err"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ), "LDKCResult_HTLCOutputInCommitmentDecodeErrorZ");
*ret_conv = CResult_HTLCOutputInCommitmentDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_is_ok"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_free"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ _res_conv = *(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ), "LDKCResult_HTLCOutputInCommitmentDecodeErrorZ");
*ret_conv = CResult_HTLCOutputInCommitmentDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr"))) TS_CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* arg_conv = (LDKCResult_HTLCOutputInCommitmentDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_HTLCOutputInCommitmentDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* orig_conv = (LDKCResult_HTLCOutputInCommitmentDecodeErrorZ*)(orig & ~1);
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ), "LDKCResult_HTLCOutputInCommitmentDecodeErrorZ");
*ret_conv = CResult_HTLCOutputInCommitmentDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_NoneZ_some"))) TS_COption_NoneZ_some() {
o_conv = CounterpartyChannelTransactionParameters_clone(&o_conv);
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ), "LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_err"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ), "LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_is_ok"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_free"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ _res_conv = *(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ), "LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr"))) TS_CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* arg_conv = (LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* orig_conv = (LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ*)(orig & ~1);
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ), "LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_CounterpartyChannelTransactionParametersDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_ok"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_ok(uint32_t o) {
o_conv = ChannelTransactionParameters_clone(&o_conv);
LDKCResult_ChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ), "LDKCResult_ChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_ChannelTransactionParametersDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_err"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ), "LDKCResult_ChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_ChannelTransactionParametersDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_is_ok"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_free"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelTransactionParametersDecodeErrorZ _res_conv = *(LDKCResult_ChannelTransactionParametersDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr(LDKCResult_ChannelTransactionParametersDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ), "LDKCResult_ChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_ChannelTransactionParametersDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelTransactionParametersDecodeErrorZ* arg_conv = (LDKCResult_ChannelTransactionParametersDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelTransactionParametersDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelTransactionParametersDecodeErrorZ* orig_conv = (LDKCResult_ChannelTransactionParametersDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ), "LDKCResult_ChannelTransactionParametersDecodeErrorZ");
*ret_conv = CResult_ChannelTransactionParametersDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_SignatureZ_free"))) TS_CVec_SignatureZ_free(ptrArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
_res_constr.data = NULL;
- int8_tArray* _res_vals = (void*) _res->elems;
+ int8_tArray* _res_vals = (void*) _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
int8_tArray _res_conv_12 = _res_vals[m];
LDKSignature _res_conv_12_ref;
CHECK(_res_conv_12->arr_len == 64);
- memcpy(_res_conv_12_ref.compact_form, _res_conv_12->elems, 64);
+ memcpy(_res_conv_12_ref.compact_form, _res_conv_12->elems, 64); FREE(_res_conv_12);
_res_constr.data[m] = _res_conv_12_ref;
}
CVec_SignatureZ_free(_res_constr);
o_conv = HolderCommitmentTransaction_clone(&o_conv);
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ), "LDKCResult_HolderCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_HolderCommitmentTransactionDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_err"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ), "LDKCResult_HolderCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_HolderCommitmentTransactionDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_is_ok"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_free"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_HolderCommitmentTransactionDecodeErrorZ _res_conv = *(LDKCResult_HolderCommitmentTransactionDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr(LDKCResult_HolderCommitmentTransactionDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ), "LDKCResult_HolderCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_HolderCommitmentTransactionDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr"))) TS_CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* arg_conv = (LDKCResult_HolderCommitmentTransactionDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_HolderCommitmentTransactionDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* orig_conv = (LDKCResult_HolderCommitmentTransactionDecodeErrorZ*)(orig & ~1);
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ), "LDKCResult_HolderCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_HolderCommitmentTransactionDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_ok"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_ok(uint32_t o) {
o_conv = BuiltCommitmentTransaction_clone(&o_conv);
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ), "LDKCResult_BuiltCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_BuiltCommitmentTransactionDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_err"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ), "LDKCResult_BuiltCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_BuiltCommitmentTransactionDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_is_ok"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_free"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ _res_conv = *(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ), "LDKCResult_BuiltCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_BuiltCommitmentTransactionDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr"))) TS_CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* arg_conv = (LDKCResult_BuiltCommitmentTransactionDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_BuiltCommitmentTransactionDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* orig_conv = (LDKCResult_BuiltCommitmentTransactionDecodeErrorZ*)(orig & ~1);
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ), "LDKCResult_BuiltCommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_BuiltCommitmentTransactionDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TrustedClosingTransactionNoneZ_ok"))) TS_CResult_TrustedClosingTransactionNoneZ_ok(uint32_t o) {
// Warning: we need a move here but no clone is available for LDKTrustedClosingTransaction
LDKCResult_TrustedClosingTransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TrustedClosingTransactionNoneZ), "LDKCResult_TrustedClosingTransactionNoneZ");
*ret_conv = CResult_TrustedClosingTransactionNoneZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TrustedClosingTransactionNoneZ_err"))) TS_CResult_TrustedClosingTransactionNoneZ_err() {
LDKCResult_TrustedClosingTransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TrustedClosingTransactionNoneZ), "LDKCResult_TrustedClosingTransactionNoneZ");
*ret_conv = CResult_TrustedClosingTransactionNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_TrustedClosingTransactionNoneZ_is_ok"))) TS_CResult_TrustedClosingTransactionNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_TrustedClosingTransactionNoneZ_free"))) TS_CResult_TrustedClosingTransactionNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_TrustedClosingTransactionNoneZ _res_conv = *(LDKCResult_TrustedClosingTransactionNoneZ*)(_res_ptr);
FREE((void*)_res);
o_conv = CommitmentTransaction_clone(&o_conv);
LDKCResult_CommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ), "LDKCResult_CommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_CommitmentTransactionDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_err"))) TS_CResult_CommitmentTransactionDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_CommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ), "LDKCResult_CommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_CommitmentTransactionDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_is_ok"))) TS_CResult_CommitmentTransactionDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_free"))) TS_CResult_CommitmentTransactionDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_CommitmentTransactionDecodeErrorZ _res_conv = *(LDKCResult_CommitmentTransactionDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_CommitmentTransactionDecodeErrorZ_clone_ptr(LDKCResult_CommitmentTransactionDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_CommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ), "LDKCResult_CommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_CommitmentTransactionDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_clone_ptr"))) TS_CResult_CommitmentTransactionDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_CommitmentTransactionDecodeErrorZ_clone_ptr"))) TS_CResult_CommitmentTransactionDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_CommitmentTransactionDecodeErrorZ* arg_conv = (LDKCResult_CommitmentTransactionDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_CommitmentTransactionDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_CommitmentTransactionDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_CommitmentTransactionDecodeErrorZ* orig_conv = (LDKCResult_CommitmentTransactionDecodeErrorZ*)(orig & ~1);
LDKCResult_CommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ), "LDKCResult_CommitmentTransactionDecodeErrorZ");
*ret_conv = CResult_CommitmentTransactionDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TrustedCommitmentTransactionNoneZ_ok"))) TS_CResult_TrustedCommitmentTransactionNoneZ_ok(uint32_t o) {
// Warning: we need a move here but no clone is available for LDKTrustedCommitmentTransaction
LDKCResult_TrustedCommitmentTransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TrustedCommitmentTransactionNoneZ), "LDKCResult_TrustedCommitmentTransactionNoneZ");
*ret_conv = CResult_TrustedCommitmentTransactionNoneZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TrustedCommitmentTransactionNoneZ_err"))) TS_CResult_TrustedCommitmentTransactionNoneZ_err() {
LDKCResult_TrustedCommitmentTransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TrustedCommitmentTransactionNoneZ), "LDKCResult_TrustedCommitmentTransactionNoneZ");
*ret_conv = CResult_TrustedCommitmentTransactionNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_TrustedCommitmentTransactionNoneZ_is_ok"))) TS_CResult_TrustedCommitmentTransactionNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_TrustedCommitmentTransactionNoneZ_free"))) TS_CResult_TrustedCommitmentTransactionNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_TrustedCommitmentTransactionNoneZ _res_conv = *(LDKCResult_TrustedCommitmentTransactionNoneZ*)(_res_ptr);
FREE((void*)_res);
o_constr.data = MALLOC(o_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
o_constr.data = NULL;
- int8_tArray* o_vals = (void*) o->elems;
+ int8_tArray* o_vals = (void*) o->elems /* XXX o leaks */;
for (size_t m = 0; m < o_constr.datalen; m++) {
int8_tArray o_conv_12 = o_vals[m];
LDKSignature o_conv_12_ref;
CHECK(o_conv_12->arr_len == 64);
- memcpy(o_conv_12_ref.compact_form, o_conv_12->elems, 64);
+ memcpy(o_conv_12_ref.compact_form, o_conv_12->elems, 64); FREE(o_conv_12);
o_constr.data[m] = o_conv_12_ref;
}
LDKCResult_CVec_SignatureZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_SignatureZNoneZ), "LDKCResult_CVec_SignatureZNoneZ");
*ret_conv = CResult_CVec_SignatureZNoneZ_ok(o_constr);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CVec_SignatureZNoneZ_err"))) TS_CResult_CVec_SignatureZNoneZ_err() {
LDKCResult_CVec_SignatureZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_SignatureZNoneZ), "LDKCResult_CVec_SignatureZNoneZ");
*ret_conv = CResult_CVec_SignatureZNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_CVec_SignatureZNoneZ_is_ok"))) TS_CResult_CVec_SignatureZNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_CVec_SignatureZNoneZ_free"))) TS_CResult_CVec_SignatureZNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_CVec_SignatureZNoneZ _res_conv = *(LDKCResult_CVec_SignatureZNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_CVec_SignatureZNoneZ_clone_ptr(LDKCResult_CVec_SignatureZNoneZ *NONNULL_PTR arg) {
LDKCResult_CVec_SignatureZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_SignatureZNoneZ), "LDKCResult_CVec_SignatureZNoneZ");
*ret_conv = CResult_CVec_SignatureZNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_CVec_SignatureZNoneZ_clone_ptr"))) TS_CResult_CVec_SignatureZNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_CVec_SignatureZNoneZ_clone_ptr"))) TS_CResult_CVec_SignatureZNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_CVec_SignatureZNoneZ* arg_conv = (LDKCResult_CVec_SignatureZNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_CVec_SignatureZNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_CVec_SignatureZNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_CVec_SignatureZNoneZ* orig_conv = (LDKCResult_CVec_SignatureZNoneZ*)(orig & ~1);
LDKCResult_CVec_SignatureZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_SignatureZNoneZ), "LDKCResult_CVec_SignatureZNoneZ");
*ret_conv = CResult_CVec_SignatureZNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_ok"))) TS_CResult_ShutdownScriptDecodeErrorZ_ok(uint32_t o) {
o_conv = ShutdownScript_clone(&o_conv);
LDKCResult_ShutdownScriptDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptDecodeErrorZ), "LDKCResult_ShutdownScriptDecodeErrorZ");
*ret_conv = CResult_ShutdownScriptDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_err"))) TS_CResult_ShutdownScriptDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ShutdownScriptDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptDecodeErrorZ), "LDKCResult_ShutdownScriptDecodeErrorZ");
*ret_conv = CResult_ShutdownScriptDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_is_ok"))) TS_CResult_ShutdownScriptDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_free"))) TS_CResult_ShutdownScriptDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ShutdownScriptDecodeErrorZ _res_conv = *(LDKCResult_ShutdownScriptDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ShutdownScriptDecodeErrorZ_clone_ptr(LDKCResult_ShutdownScriptDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ShutdownScriptDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptDecodeErrorZ), "LDKCResult_ShutdownScriptDecodeErrorZ");
*ret_conv = CResult_ShutdownScriptDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_clone_ptr"))) TS_CResult_ShutdownScriptDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ShutdownScriptDecodeErrorZ_clone_ptr"))) TS_CResult_ShutdownScriptDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ShutdownScriptDecodeErrorZ* arg_conv = (LDKCResult_ShutdownScriptDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ShutdownScriptDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ShutdownScriptDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ShutdownScriptDecodeErrorZ* orig_conv = (LDKCResult_ShutdownScriptDecodeErrorZ*)(orig & ~1);
LDKCResult_ShutdownScriptDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptDecodeErrorZ), "LDKCResult_ShutdownScriptDecodeErrorZ");
*ret_conv = CResult_ShutdownScriptDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_ok"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_ok(uint32_t o) {
o_conv = ShutdownScript_clone(&o_conv);
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptInvalidShutdownScriptZ), "LDKCResult_ShutdownScriptInvalidShutdownScriptZ");
*ret_conv = CResult_ShutdownScriptInvalidShutdownScriptZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_err"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_err(uint32_t e) {
e_conv = InvalidShutdownScript_clone(&e_conv);
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptInvalidShutdownScriptZ), "LDKCResult_ShutdownScriptInvalidShutdownScriptZ");
*ret_conv = CResult_ShutdownScriptInvalidShutdownScriptZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_is_ok"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_free"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ShutdownScriptInvalidShutdownScriptZ _res_conv = *(LDKCResult_ShutdownScriptInvalidShutdownScriptZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr(LDKCResult_ShutdownScriptInvalidShutdownScriptZ *NONNULL_PTR arg) {
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptInvalidShutdownScriptZ), "LDKCResult_ShutdownScriptInvalidShutdownScriptZ");
*ret_conv = CResult_ShutdownScriptInvalidShutdownScriptZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr"))) TS_CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr(uint32_t arg) {
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* arg_conv = (LDKCResult_ShutdownScriptInvalidShutdownScriptZ*)(arg & ~1);
- int64_t ret_val = CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ShutdownScriptInvalidShutdownScriptZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* orig_conv = (LDKCResult_ShutdownScriptInvalidShutdownScriptZ*)(orig & ~1);
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptInvalidShutdownScriptZ), "LDKCResult_ShutdownScriptInvalidShutdownScriptZ");
*ret_conv = CResult_ShutdownScriptInvalidShutdownScriptZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_TypeZ_some"))) TS_COption_TypeZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKType o_conv = *(LDKType*)(o_ptr);
LDKCOption_TypeZ *ret_copy = MALLOC(sizeof(LDKCOption_TypeZ), "LDKCOption_TypeZ");
*ret_copy = COption_TypeZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_TypeZ_none"))) TS_COption_TypeZ_none() {
LDKCOption_TypeZ *ret_copy = MALLOC(sizeof(LDKCOption_TypeZ), "LDKCOption_TypeZ");
*ret_copy = COption_TypeZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_TypeZ_free"))) TS_COption_TypeZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_TypeZ _res_conv = *(LDKCOption_TypeZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_TypeZ_clone_ptr(LDKCOption_TypeZ *NONNULL_PTR arg) {
LDKCOption_TypeZ *ret_copy = MALLOC(sizeof(LDKCOption_TypeZ), "LDKCOption_TypeZ");
*ret_copy = COption_TypeZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_TypeZ_clone_ptr"))) TS_COption_TypeZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_TypeZ_clone_ptr"))) TS_COption_TypeZ_clone_ptr(uint32_t arg) {
LDKCOption_TypeZ* arg_conv = (LDKCOption_TypeZ*)arg;
- int64_t ret_val = COption_TypeZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_TypeZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_TypeZ* orig_conv = (LDKCOption_TypeZ*)orig;
LDKCOption_TypeZ *ret_copy = MALLOC(sizeof(LDKCOption_TypeZ), "LDKCOption_TypeZ");
*ret_copy = COption_TypeZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_ok"))) TS_CResult_COption_TypeZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKCOption_TypeZ o_conv = *(LDKCOption_TypeZ*)(o_ptr);
- o_conv = COption_TypeZ_clone((LDKCOption_TypeZ*)(((uint64_t)o) & ~1));
+ o_conv = COption_TypeZ_clone((LDKCOption_TypeZ*)(((uintptr_t)o) & ~1));
LDKCResult_COption_TypeZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_TypeZDecodeErrorZ), "LDKCResult_COption_TypeZDecodeErrorZ");
*ret_conv = CResult_COption_TypeZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_err"))) TS_CResult_COption_TypeZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_COption_TypeZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_TypeZDecodeErrorZ), "LDKCResult_COption_TypeZDecodeErrorZ");
*ret_conv = CResult_COption_TypeZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_is_ok"))) TS_CResult_COption_TypeZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_free"))) TS_CResult_COption_TypeZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_COption_TypeZDecodeErrorZ _res_conv = *(LDKCResult_COption_TypeZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_COption_TypeZDecodeErrorZ_clone_ptr(LDKCResult_COption_TypeZDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_COption_TypeZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_TypeZDecodeErrorZ), "LDKCResult_COption_TypeZDecodeErrorZ");
*ret_conv = CResult_COption_TypeZDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_TypeZDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_COption_TypeZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_TypeZDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_COption_TypeZDecodeErrorZ* arg_conv = (LDKCResult_COption_TypeZDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_COption_TypeZDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_COption_TypeZDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_COption_TypeZDecodeErrorZ* orig_conv = (LDKCResult_COption_TypeZDecodeErrorZ*)(orig & ~1);
LDKCResult_COption_TypeZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_TypeZDecodeErrorZ), "LDKCResult_COption_TypeZDecodeErrorZ");
*ret_conv = CResult_COption_TypeZDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_StringErrorZ_ok"))) TS_CResult_StringErrorZ_ok(jstring o) {
LDKStr o_conv = str_ref_to_owned_c(o);
LDKCResult_StringErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StringErrorZ), "LDKCResult_StringErrorZ");
*ret_conv = CResult_StringErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_StringErrorZ_err"))) TS_CResult_StringErrorZ_err(uint32_t e) {
LDKSecp256k1Error e_conv = LDKSecp256k1Error_from_js(e);
LDKCResult_StringErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StringErrorZ), "LDKCResult_StringErrorZ");
*ret_conv = CResult_StringErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_StringErrorZ_is_ok"))) TS_CResult_StringErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_StringErrorZ_free"))) TS_CResult_StringErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_StringErrorZ _res_conv = *(LDKCResult_StringErrorZ*)(_res_ptr);
FREE((void*)_res);
o_conv = ChannelMonitorUpdate_clone(&o_conv);
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ), "LDKCResult_ChannelMonitorUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelMonitorUpdateDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_err"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ), "LDKCResult_ChannelMonitorUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelMonitorUpdateDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_is_ok"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_free"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelMonitorUpdateDecodeErrorZ _res_conv = *(LDKCResult_ChannelMonitorUpdateDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr(LDKCResult_ChannelMonitorUpdateDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ), "LDKCResult_ChannelMonitorUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelMonitorUpdateDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* arg_conv = (LDKCResult_ChannelMonitorUpdateDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelMonitorUpdateDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* orig_conv = (LDKCResult_ChannelMonitorUpdateDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ), "LDKCResult_ChannelMonitorUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelMonitorUpdateDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_MonitorEventZ_some"))) TS_COption_MonitorEventZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKMonitorEvent o_conv = *(LDKMonitorEvent*)(o_ptr);
- o_conv = MonitorEvent_clone((LDKMonitorEvent*)(((uint64_t)o) & ~1));
+ o_conv = MonitorEvent_clone((LDKMonitorEvent*)(((uintptr_t)o) & ~1));
LDKCOption_MonitorEventZ *ret_copy = MALLOC(sizeof(LDKCOption_MonitorEventZ), "LDKCOption_MonitorEventZ");
*ret_copy = COption_MonitorEventZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_MonitorEventZ_none"))) TS_COption_MonitorEventZ_none() {
LDKCOption_MonitorEventZ *ret_copy = MALLOC(sizeof(LDKCOption_MonitorEventZ), "LDKCOption_MonitorEventZ");
*ret_copy = COption_MonitorEventZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_MonitorEventZ_free"))) TS_COption_MonitorEventZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_MonitorEventZ _res_conv = *(LDKCOption_MonitorEventZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_MonitorEventZ_clone_ptr(LDKCOption_MonitorEventZ *NONNULL_PTR arg) {
LDKCOption_MonitorEventZ *ret_copy = MALLOC(sizeof(LDKCOption_MonitorEventZ), "LDKCOption_MonitorEventZ");
*ret_copy = COption_MonitorEventZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_MonitorEventZ_clone_ptr"))) TS_COption_MonitorEventZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_MonitorEventZ_clone_ptr"))) TS_COption_MonitorEventZ_clone_ptr(uint32_t arg) {
LDKCOption_MonitorEventZ* arg_conv = (LDKCOption_MonitorEventZ*)arg;
- int64_t ret_val = COption_MonitorEventZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_MonitorEventZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_MonitorEventZ* orig_conv = (LDKCOption_MonitorEventZ*)orig;
LDKCOption_MonitorEventZ *ret_copy = MALLOC(sizeof(LDKCOption_MonitorEventZ), "LDKCOption_MonitorEventZ");
*ret_copy = COption_MonitorEventZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_ok"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKCOption_MonitorEventZ o_conv = *(LDKCOption_MonitorEventZ*)(o_ptr);
- o_conv = COption_MonitorEventZ_clone((LDKCOption_MonitorEventZ*)(((uint64_t)o) & ~1));
+ o_conv = COption_MonitorEventZ_clone((LDKCOption_MonitorEventZ*)(((uintptr_t)o) & ~1));
LDKCResult_COption_MonitorEventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_MonitorEventZDecodeErrorZ), "LDKCResult_COption_MonitorEventZDecodeErrorZ");
*ret_conv = CResult_COption_MonitorEventZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_err"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_COption_MonitorEventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_MonitorEventZDecodeErrorZ), "LDKCResult_COption_MonitorEventZDecodeErrorZ");
*ret_conv = CResult_COption_MonitorEventZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_is_ok"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_free"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_COption_MonitorEventZDecodeErrorZ _res_conv = *(LDKCResult_COption_MonitorEventZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr(LDKCResult_COption_MonitorEventZDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_COption_MonitorEventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_MonitorEventZDecodeErrorZ), "LDKCResult_COption_MonitorEventZDecodeErrorZ");
*ret_conv = CResult_COption_MonitorEventZDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_COption_MonitorEventZDecodeErrorZ* arg_conv = (LDKCResult_COption_MonitorEventZDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_COption_MonitorEventZDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_COption_MonitorEventZDecodeErrorZ* orig_conv = (LDKCResult_COption_MonitorEventZDecodeErrorZ*)(orig & ~1);
LDKCResult_COption_MonitorEventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_MonitorEventZDecodeErrorZ), "LDKCResult_COption_MonitorEventZDecodeErrorZ");
*ret_conv = CResult_COption_MonitorEventZDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_ok"))) TS_CResult_HTLCUpdateDecodeErrorZ_ok(uint32_t o) {
o_conv = HTLCUpdate_clone(&o_conv);
LDKCResult_HTLCUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCUpdateDecodeErrorZ), "LDKCResult_HTLCUpdateDecodeErrorZ");
*ret_conv = CResult_HTLCUpdateDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_err"))) TS_CResult_HTLCUpdateDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_HTLCUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCUpdateDecodeErrorZ), "LDKCResult_HTLCUpdateDecodeErrorZ");
*ret_conv = CResult_HTLCUpdateDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_is_ok"))) TS_CResult_HTLCUpdateDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_free"))) TS_CResult_HTLCUpdateDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_HTLCUpdateDecodeErrorZ _res_conv = *(LDKCResult_HTLCUpdateDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_HTLCUpdateDecodeErrorZ_clone_ptr(LDKCResult_HTLCUpdateDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_HTLCUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCUpdateDecodeErrorZ), "LDKCResult_HTLCUpdateDecodeErrorZ");
*ret_conv = CResult_HTLCUpdateDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_HTLCUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_HTLCUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_HTLCUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_HTLCUpdateDecodeErrorZ* arg_conv = (LDKCResult_HTLCUpdateDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_HTLCUpdateDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_HTLCUpdateDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_HTLCUpdateDecodeErrorZ* orig_conv = (LDKCResult_HTLCUpdateDecodeErrorZ*)(orig & ~1);
LDKCResult_HTLCUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCUpdateDecodeErrorZ), "LDKCResult_HTLCUpdateDecodeErrorZ");
*ret_conv = CResult_HTLCUpdateDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneNoneZ_ok"))) TS_CResult_NoneNoneZ_ok() {
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = CResult_NoneNoneZ_ok();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneNoneZ_err"))) TS_CResult_NoneNoneZ_err() {
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = CResult_NoneNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NoneNoneZ_is_ok"))) TS_CResult_NoneNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NoneNoneZ_free"))) TS_CResult_NoneNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NoneNoneZ _res_conv = *(LDKCResult_NoneNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NoneNoneZ_clone_ptr(LDKCResult_NoneNoneZ *NONNULL_PTR arg) {
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = CResult_NoneNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NoneNoneZ_clone_ptr"))) TS_CResult_NoneNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NoneNoneZ_clone_ptr"))) TS_CResult_NoneNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_NoneNoneZ* arg_conv = (LDKCResult_NoneNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_NoneNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NoneNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NoneNoneZ* orig_conv = (LDKCResult_NoneNoneZ*)(orig & ~1);
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = CResult_NoneNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_C2Tuple_OutPointScriptZ_new"))) TS_C2Tuple_OutPointScriptZ_new(uint32_t a, int8_tArray b) {
LDKCVec_u8Z b_ref;
b_ref.datalen = b->arr_len;
b_ref.data = MALLOC(b_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(b_ref.data, b->elems, b_ref.datalen);
+ memcpy(b_ref.data, b->elems, b_ref.datalen); FREE(b);
LDKC2Tuple_OutPointScriptZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_OutPointScriptZ), "LDKC2Tuple_OutPointScriptZ");
*ret_conv = C2Tuple_OutPointScriptZ_new(a_conv, b_ref);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_OutPointScriptZ_free"))) TS_C2Tuple_OutPointScriptZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_OutPointScriptZ _res_conv = *(LDKC2Tuple_OutPointScriptZ*)(_res_ptr);
FREE((void*)_res);
LDKCVec_u8Z b_ref;
b_ref.datalen = b->arr_len;
b_ref.data = MALLOC(b_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(b_ref.data, b->elems, b_ref.datalen);
+ memcpy(b_ref.data, b->elems, b_ref.datalen); FREE(b);
LDKC2Tuple_u32ScriptZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_u32ScriptZ), "LDKC2Tuple_u32ScriptZ");
*ret_conv = C2Tuple_u32ScriptZ_new(a, b_ref);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_u32ScriptZ_free"))) TS_C2Tuple_u32ScriptZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_u32ScriptZ _res_conv = *(LDKC2Tuple_u32ScriptZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC2Tuple_u32ScriptZ), "LDKCVec_C2Tuple_u32ScriptZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t v = 0; v < _res_constr.datalen; v++) {
uint32_t _res_conv_21 = _res_vals[v];
- void* _res_conv_21_ptr = (void*)(((uint64_t)_res_conv_21) & ~1);
+ void* _res_conv_21_ptr = (void*)(((uintptr_t)_res_conv_21) & ~1);
CHECK_ACCESS(_res_conv_21_ptr);
LDKC2Tuple_u32ScriptZ _res_conv_21_conv = *(LDKC2Tuple_u32ScriptZ*)(_res_conv_21_ptr);
FREE((void*)_res_conv_21);
uint32_t __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_new"))) TS_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_new(int8_tArray a, uint32_tArray b) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKCVec_C2Tuple_u32ScriptZZ b_constr;
b_constr.datalen = b->arr_len;
if (b_constr.datalen > 0)
b_constr.data = MALLOC(b_constr.datalen * sizeof(LDKC2Tuple_u32ScriptZ), "LDKCVec_C2Tuple_u32ScriptZZ Elements");
else
b_constr.data = NULL;
- uint32_t* b_vals = b->elems;
+ uint32_t* b_vals = b->elems /* XXX b leaks */;
for (size_t v = 0; v < b_constr.datalen; v++) {
uint32_t b_conv_21 = b_vals[v];
- void* b_conv_21_ptr = (void*)(((uint64_t)b_conv_21) & ~1);
+ void* b_conv_21_ptr = (void*)(((uintptr_t)b_conv_21) & ~1);
CHECK_ACCESS(b_conv_21_ptr);
LDKC2Tuple_u32ScriptZ b_conv_21_conv = *(LDKC2Tuple_u32ScriptZ*)(b_conv_21_ptr);
// Warning: we may need a move here but no clone is available for LDKC2Tuple_u32ScriptZ
}
LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ");
*ret_conv = C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_new(a_ref, b_constr);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_free"))) TS_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ _res_conv = *(LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ), "LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t o = 0; o < _res_constr.datalen; o++) {
uint32_t _res_conv_40 = _res_vals[o];
- void* _res_conv_40_ptr = (void*)(((uint64_t)_res_conv_40) & ~1);
+ void* _res_conv_40_ptr = (void*)(((uintptr_t)_res_conv_40) & ~1);
CHECK_ACCESS(_res_conv_40_ptr);
LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ _res_conv_40_conv = *(LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ*)(_res_conv_40_ptr);
FREE((void*)_res_conv_40);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKMonitorEvent), "LDKCVec_MonitorEventZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t o = 0; o < _res_constr.datalen; o++) {
uint32_t _res_conv_14 = _res_vals[o];
- void* _res_conv_14_ptr = (void*)(((uint64_t)_res_conv_14) & ~1);
+ void* _res_conv_14_ptr = (void*)(((uintptr_t)_res_conv_14) & ~1);
CHECK_ACCESS(_res_conv_14_ptr);
LDKMonitorEvent _res_conv_14_conv = *(LDKMonitorEvent*)(_res_conv_14_ptr);
FREE((void*)_res_conv_14);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKEvent), "LDKCVec_EventZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t h = 0; h < _res_constr.datalen; h++) {
uint32_t _res_conv_7 = _res_vals[h];
- void* _res_conv_7_ptr = (void*)(((uint64_t)_res_conv_7) & ~1);
+ void* _res_conv_7_ptr = (void*)(((uintptr_t)_res_conv_7) & ~1);
CHECK_ACCESS(_res_conv_7_ptr);
LDKEvent _res_conv_7_conv = *(LDKEvent*)(_res_conv_7_ptr);
FREE((void*)_res_conv_7);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKTransaction), "LDKCVec_TransactionZ Elements");
else
_res_constr.data = NULL;
- int8_tArray* _res_vals = (void*) _res->elems;
+ int8_tArray* _res_vals = (void*) _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
int8_tArray _res_conv_12 = _res_vals[m];
LDKTransaction _res_conv_12_ref;
_res_conv_12_ref.datalen = _res_conv_12->arr_len;
_res_conv_12_ref.data = MALLOC(_res_conv_12_ref.datalen, "LDKTransaction Bytes");
- memcpy(_res_conv_12_ref.data, _res_conv_12->elems, _res_conv_12_ref.datalen);
+ memcpy(_res_conv_12_ref.data, _res_conv_12->elems, _res_conv_12_ref.datalen); FREE(_res_conv_12);
_res_conv_12_ref.data_is_owned = true;
_res_constr.data[m] = _res_conv_12_ref;
}
static inline uintptr_t C2Tuple_usizeTransactionZ_clone_ptr(LDKC2Tuple_usizeTransactionZ *NONNULL_PTR arg) {
LDKC2Tuple_usizeTransactionZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_usizeTransactionZ), "LDKC2Tuple_usizeTransactionZ");
*ret_conv = C2Tuple_usizeTransactionZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_clone_ptr"))) TS_C2Tuple_usizeTransactionZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_clone_ptr"))) TS_C2Tuple_usizeTransactionZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_usizeTransactionZ* arg_conv = (LDKC2Tuple_usizeTransactionZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_usizeTransactionZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_usizeTransactionZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_usizeTransactionZ* orig_conv = (LDKC2Tuple_usizeTransactionZ*)(orig & ~1);
LDKC2Tuple_usizeTransactionZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_usizeTransactionZ), "LDKC2Tuple_usizeTransactionZ");
*ret_conv = C2Tuple_usizeTransactionZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-uint32_t __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_new"))) TS_C2Tuple_usizeTransactionZ_new(int64_t a, int8_tArray b) {
+uint32_t __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_new"))) TS_C2Tuple_usizeTransactionZ_new(intptr_t a, int8_tArray b) {
LDKTransaction b_ref;
b_ref.datalen = b->arr_len;
b_ref.data = MALLOC(b_ref.datalen, "LDKTransaction Bytes");
- memcpy(b_ref.data, b->elems, b_ref.datalen);
+ memcpy(b_ref.data, b->elems, b_ref.datalen); FREE(b);
b_ref.data_is_owned = true;
LDKC2Tuple_usizeTransactionZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_usizeTransactionZ), "LDKC2Tuple_usizeTransactionZ");
*ret_conv = C2Tuple_usizeTransactionZ_new(a, b_ref);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_usizeTransactionZ_free"))) TS_C2Tuple_usizeTransactionZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_usizeTransactionZ _res_conv = *(LDKC2Tuple_usizeTransactionZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC2Tuple_usizeTransactionZ), "LDKCVec_C2Tuple_usizeTransactionZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t c = 0; c < _res_constr.datalen; c++) {
uint32_t _res_conv_28 = _res_vals[c];
- void* _res_conv_28_ptr = (void*)(((uint64_t)_res_conv_28) & ~1);
+ void* _res_conv_28_ptr = (void*)(((uintptr_t)_res_conv_28) & ~1);
CHECK_ACCESS(_res_conv_28_ptr);
LDKC2Tuple_usizeTransactionZ _res_conv_28_conv = *(LDKC2Tuple_usizeTransactionZ*)(_res_conv_28_ptr);
FREE((void*)_res_conv_28);
static inline uintptr_t C2Tuple_u32TxOutZ_clone_ptr(LDKC2Tuple_u32TxOutZ *NONNULL_PTR arg) {
LDKC2Tuple_u32TxOutZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_u32TxOutZ), "LDKC2Tuple_u32TxOutZ");
*ret_conv = C2Tuple_u32TxOutZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_u32TxOutZ_clone_ptr"))) TS_C2Tuple_u32TxOutZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_u32TxOutZ_clone_ptr"))) TS_C2Tuple_u32TxOutZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_u32TxOutZ* arg_conv = (LDKC2Tuple_u32TxOutZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_u32TxOutZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_u32TxOutZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_u32TxOutZ* orig_conv = (LDKC2Tuple_u32TxOutZ*)(orig & ~1);
LDKC2Tuple_u32TxOutZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_u32TxOutZ), "LDKC2Tuple_u32TxOutZ");
*ret_conv = C2Tuple_u32TxOutZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_u32TxOutZ_new"))) TS_C2Tuple_u32TxOutZ_new(int32_t a, uint32_t b) {
- void* b_ptr = (void*)(((uint64_t)b) & ~1);
+ void* b_ptr = (void*)(((uintptr_t)b) & ~1);
CHECK_ACCESS(b_ptr);
LDKTxOut b_conv = *(LDKTxOut*)(b_ptr);
- b_conv = TxOut_clone((LDKTxOut*)(((uint64_t)b) & ~1));
+ b_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)b) & ~1));
LDKC2Tuple_u32TxOutZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_u32TxOutZ), "LDKC2Tuple_u32TxOutZ");
*ret_conv = C2Tuple_u32TxOutZ_new(a, b_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_u32TxOutZ_free"))) TS_C2Tuple_u32TxOutZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_u32TxOutZ _res_conv = *(LDKC2Tuple_u32TxOutZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC2Tuple_u32TxOutZ), "LDKCVec_C2Tuple_u32TxOutZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t u = 0; u < _res_constr.datalen; u++) {
uint32_t _res_conv_20 = _res_vals[u];
- void* _res_conv_20_ptr = (void*)(((uint64_t)_res_conv_20) & ~1);
+ void* _res_conv_20_ptr = (void*)(((uintptr_t)_res_conv_20) & ~1);
CHECK_ACCESS(_res_conv_20_ptr);
LDKC2Tuple_u32TxOutZ _res_conv_20_conv = *(LDKC2Tuple_u32TxOutZ*)(_res_conv_20_ptr);
FREE((void*)_res_conv_20);
static inline uintptr_t C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ *NONNULL_PTR arg) {
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ");
*ret_conv = C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr"))) TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr"))) TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* arg_conv = (LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* orig_conv = (LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ*)(orig & ~1);
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ");
*ret_conv = C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_new"))) TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_new(int8_tArray a, uint32_tArray b) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKCVec_C2Tuple_u32TxOutZZ b_constr;
b_constr.datalen = b->arr_len;
if (b_constr.datalen > 0)
b_constr.data = MALLOC(b_constr.datalen * sizeof(LDKC2Tuple_u32TxOutZ), "LDKCVec_C2Tuple_u32TxOutZZ Elements");
else
b_constr.data = NULL;
- uint32_t* b_vals = b->elems;
+ uint32_t* b_vals = b->elems /* XXX b leaks */;
for (size_t u = 0; u < b_constr.datalen; u++) {
uint32_t b_conv_20 = b_vals[u];
- void* b_conv_20_ptr = (void*)(((uint64_t)b_conv_20) & ~1);
+ void* b_conv_20_ptr = (void*)(((uintptr_t)b_conv_20) & ~1);
CHECK_ACCESS(b_conv_20_ptr);
LDKC2Tuple_u32TxOutZ b_conv_20_conv = *(LDKC2Tuple_u32TxOutZ*)(b_conv_20_ptr);
- b_conv_20_conv = C2Tuple_u32TxOutZ_clone((LDKC2Tuple_u32TxOutZ*)(((uint64_t)b_conv_20) & ~1));
+ b_conv_20_conv = C2Tuple_u32TxOutZ_clone((LDKC2Tuple_u32TxOutZ*)(((uintptr_t)b_conv_20) & ~1));
b_constr.data[u] = b_conv_20_conv;
}
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ");
*ret_conv = C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_new(a_ref, b_constr);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_free"))) TS_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ _res_conv = *(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t n = 0; n < _res_constr.datalen; n++) {
uint32_t _res_conv_39 = _res_vals[n];
- void* _res_conv_39_ptr = (void*)(((uint64_t)_res_conv_39) & ~1);
+ void* _res_conv_39_ptr = (void*)(((uintptr_t)_res_conv_39) & ~1);
CHECK_ACCESS(_res_conv_39_ptr);
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ _res_conv_39_conv = *(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ*)(_res_conv_39_ptr);
FREE((void*)_res_conv_39);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKThirtyTwoBytes), "LDKCVec_TxidZ Elements");
else
_res_constr.data = NULL;
- int8_tArray* _res_vals = (void*) _res->elems;
+ int8_tArray* _res_vals = (void*) _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
int8_tArray _res_conv_12 = _res_vals[m];
LDKThirtyTwoBytes _res_conv_12_ref;
CHECK(_res_conv_12->arr_len == 32);
- memcpy(_res_conv_12_ref.data, _res_conv_12->elems, 32);
+ memcpy(_res_conv_12_ref.data, _res_conv_12->elems, 32); FREE(_res_conv_12);
_res_constr.data[m] = _res_conv_12_ref;
}
CVec_TxidZ_free(_res_constr);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKBalance), "LDKCVec_BalanceZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t j = 0; j < _res_constr.datalen; j++) {
uint32_t _res_conv_9 = _res_vals[j];
- void* _res_conv_9_ptr = (void*)(((uint64_t)_res_conv_9) & ~1);
+ void* _res_conv_9_ptr = (void*)(((uintptr_t)_res_conv_9) & ~1);
CHECK_ACCESS(_res_conv_9_ptr);
LDKBalance _res_conv_9_conv = *(LDKBalance*)(_res_conv_9_ptr);
FREE((void*)_res_conv_9);
static inline uintptr_t C2Tuple_BlockHashChannelMonitorZ_clone_ptr(LDKC2Tuple_BlockHashChannelMonitorZ *NONNULL_PTR arg) {
LDKC2Tuple_BlockHashChannelMonitorZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_BlockHashChannelMonitorZ), "LDKC2Tuple_BlockHashChannelMonitorZ");
*ret_conv = C2Tuple_BlockHashChannelMonitorZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_clone_ptr"))) TS_C2Tuple_BlockHashChannelMonitorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_clone_ptr"))) TS_C2Tuple_BlockHashChannelMonitorZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_BlockHashChannelMonitorZ* arg_conv = (LDKC2Tuple_BlockHashChannelMonitorZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_BlockHashChannelMonitorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_BlockHashChannelMonitorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_BlockHashChannelMonitorZ* orig_conv = (LDKC2Tuple_BlockHashChannelMonitorZ*)(orig & ~1);
LDKC2Tuple_BlockHashChannelMonitorZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_BlockHashChannelMonitorZ), "LDKC2Tuple_BlockHashChannelMonitorZ");
*ret_conv = C2Tuple_BlockHashChannelMonitorZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_new"))) TS_C2Tuple_BlockHashChannelMonitorZ_new(int8_tArray a, uint32_t b) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKChannelMonitor b_conv;
b_conv.inner = (void*)(b & (~1));
b_conv.is_owned = (b & 1) || (b == 0);
b_conv = ChannelMonitor_clone(&b_conv);
LDKC2Tuple_BlockHashChannelMonitorZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_BlockHashChannelMonitorZ), "LDKC2Tuple_BlockHashChannelMonitorZ");
*ret_conv = C2Tuple_BlockHashChannelMonitorZ_new(a_ref, b_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_free"))) TS_C2Tuple_BlockHashChannelMonitorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_BlockHashChannelMonitorZ _res_conv = *(LDKC2Tuple_BlockHashChannelMonitorZ*)(_res_ptr);
FREE((void*)_res);
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_ok"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_BlockHashChannelMonitorZ o_conv = *(LDKC2Tuple_BlockHashChannelMonitorZ*)(o_ptr);
- o_conv = C2Tuple_BlockHashChannelMonitorZ_clone((LDKC2Tuple_BlockHashChannelMonitorZ*)(((uint64_t)o) & ~1));
+ o_conv = C2Tuple_BlockHashChannelMonitorZ_clone((LDKC2Tuple_BlockHashChannelMonitorZ*)(((uintptr_t)o) & ~1));
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_err"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_is_ok"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_free"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ _res_conv = *(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr"))) TS_CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* arg_conv = (LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* orig_conv = (LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ*)(orig & ~1);
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_ok"))) TS_CResult_RouteHopDecodeErrorZ_ok(uint32_t o) {
o_conv = RouteHop_clone(&o_conv);
LDKCResult_RouteHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHopDecodeErrorZ), "LDKCResult_RouteHopDecodeErrorZ");
*ret_conv = CResult_RouteHopDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_err"))) TS_CResult_RouteHopDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RouteHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHopDecodeErrorZ), "LDKCResult_RouteHopDecodeErrorZ");
*ret_conv = CResult_RouteHopDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_is_ok"))) TS_CResult_RouteHopDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_free"))) TS_CResult_RouteHopDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RouteHopDecodeErrorZ _res_conv = *(LDKCResult_RouteHopDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RouteHopDecodeErrorZ_clone_ptr(LDKCResult_RouteHopDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RouteHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHopDecodeErrorZ), "LDKCResult_RouteHopDecodeErrorZ");
*ret_conv = CResult_RouteHopDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_clone_ptr"))) TS_CResult_RouteHopDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RouteHopDecodeErrorZ_clone_ptr"))) TS_CResult_RouteHopDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RouteHopDecodeErrorZ* arg_conv = (LDKCResult_RouteHopDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RouteHopDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RouteHopDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RouteHopDecodeErrorZ* orig_conv = (LDKCResult_RouteHopDecodeErrorZ*)(orig & ~1);
LDKCResult_RouteHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHopDecodeErrorZ), "LDKCResult_RouteHopDecodeErrorZ");
*ret_conv = CResult_RouteHopDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_RouteHopZ_free"))) TS_CVec_RouteHopZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t k = 0; k < _res_constr.datalen; k++) {
uint32_t _res_conv_10 = _res_vals[k];
LDKRouteHop _res_conv_10_conv;
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKCVec_RouteHopZ), "LDKCVec_CVec_RouteHopZZ Elements");
else
_res_constr.data = NULL;
- uint32_tArray* _res_vals = (void*) _res->elems;
+ uint32_tArray* _res_vals = (void*) _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
uint32_tArray _res_conv_12 = _res_vals[m];
LDKCVec_RouteHopZ _res_conv_12_constr;
_res_conv_12_constr.data = MALLOC(_res_conv_12_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
_res_conv_12_constr.data = NULL;
- uint32_t* _res_conv_12_vals = _res_conv_12->elems;
+ uint32_t* _res_conv_12_vals = _res_conv_12->elems /* XXX _res_conv_12 leaks */;
for (size_t k = 0; k < _res_conv_12_constr.datalen; k++) {
uint32_t _res_conv_12_conv_10 = _res_conv_12_vals[k];
LDKRouteHop _res_conv_12_conv_10_conv;
o_conv = Route_clone(&o_conv);
LDKCResult_RouteDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteDecodeErrorZ), "LDKCResult_RouteDecodeErrorZ");
*ret_conv = CResult_RouteDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_err"))) TS_CResult_RouteDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RouteDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteDecodeErrorZ), "LDKCResult_RouteDecodeErrorZ");
*ret_conv = CResult_RouteDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_is_ok"))) TS_CResult_RouteDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_free"))) TS_CResult_RouteDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RouteDecodeErrorZ _res_conv = *(LDKCResult_RouteDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RouteDecodeErrorZ_clone_ptr(LDKCResult_RouteDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RouteDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteDecodeErrorZ), "LDKCResult_RouteDecodeErrorZ");
*ret_conv = CResult_RouteDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_clone_ptr"))) TS_CResult_RouteDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RouteDecodeErrorZ_clone_ptr"))) TS_CResult_RouteDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RouteDecodeErrorZ* arg_conv = (LDKCResult_RouteDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RouteDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RouteDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RouteDecodeErrorZ* orig_conv = (LDKCResult_RouteDecodeErrorZ*)(orig & ~1);
LDKCResult_RouteDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteDecodeErrorZ), "LDKCResult_RouteDecodeErrorZ");
*ret_conv = CResult_RouteDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_ok"))) TS_CResult_RouteParametersDecodeErrorZ_ok(uint32_t o) {
o_conv = RouteParameters_clone(&o_conv);
LDKCResult_RouteParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteParametersDecodeErrorZ), "LDKCResult_RouteParametersDecodeErrorZ");
*ret_conv = CResult_RouteParametersDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_err"))) TS_CResult_RouteParametersDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RouteParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteParametersDecodeErrorZ), "LDKCResult_RouteParametersDecodeErrorZ");
*ret_conv = CResult_RouteParametersDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_is_ok"))) TS_CResult_RouteParametersDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_free"))) TS_CResult_RouteParametersDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RouteParametersDecodeErrorZ _res_conv = *(LDKCResult_RouteParametersDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RouteParametersDecodeErrorZ_clone_ptr(LDKCResult_RouteParametersDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RouteParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteParametersDecodeErrorZ), "LDKCResult_RouteParametersDecodeErrorZ");
*ret_conv = CResult_RouteParametersDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_clone_ptr"))) TS_CResult_RouteParametersDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RouteParametersDecodeErrorZ_clone_ptr"))) TS_CResult_RouteParametersDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RouteParametersDecodeErrorZ* arg_conv = (LDKCResult_RouteParametersDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RouteParametersDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RouteParametersDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RouteParametersDecodeErrorZ* orig_conv = (LDKCResult_RouteParametersDecodeErrorZ*)(orig & ~1);
LDKCResult_RouteParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteParametersDecodeErrorZ), "LDKCResult_RouteParametersDecodeErrorZ");
*ret_conv = CResult_RouteParametersDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_RouteHintZ_free"))) TS_CVec_RouteHintZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKRouteHint), "LDKCVec_RouteHintZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t l = 0; l < _res_constr.datalen; l++) {
uint32_t _res_conv_11 = _res_vals[l];
LDKRouteHint _res_conv_11_conv;
uint32_t __attribute__((export_name("TS_COption_u64Z_some"))) TS_COption_u64Z_some(int64_t o) {
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = COption_u64Z_some(o);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_u64Z_none"))) TS_COption_u64Z_none() {
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = COption_u64Z_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_u64Z_free"))) TS_COption_u64Z_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_u64Z _res_conv = *(LDKCOption_u64Z*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_u64Z_clone_ptr(LDKCOption_u64Z *NONNULL_PTR arg) {
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = COption_u64Z_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_u64Z_clone_ptr"))) TS_COption_u64Z_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_u64Z_clone_ptr"))) TS_COption_u64Z_clone_ptr(uint32_t arg) {
LDKCOption_u64Z* arg_conv = (LDKCOption_u64Z*)arg;
- int64_t ret_val = COption_u64Z_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_u64Z_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_u64Z* orig_conv = (LDKCOption_u64Z*)orig;
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = COption_u64Z_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
o_conv = Payee_clone(&o_conv);
LDKCResult_PayeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PayeeDecodeErrorZ), "LDKCResult_PayeeDecodeErrorZ");
*ret_conv = CResult_PayeeDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_err"))) TS_CResult_PayeeDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_PayeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PayeeDecodeErrorZ), "LDKCResult_PayeeDecodeErrorZ");
*ret_conv = CResult_PayeeDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_is_ok"))) TS_CResult_PayeeDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_free"))) TS_CResult_PayeeDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PayeeDecodeErrorZ _res_conv = *(LDKCResult_PayeeDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PayeeDecodeErrorZ_clone_ptr(LDKCResult_PayeeDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_PayeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PayeeDecodeErrorZ), "LDKCResult_PayeeDecodeErrorZ");
*ret_conv = CResult_PayeeDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_clone_ptr"))) TS_CResult_PayeeDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PayeeDecodeErrorZ_clone_ptr"))) TS_CResult_PayeeDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_PayeeDecodeErrorZ* arg_conv = (LDKCResult_PayeeDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_PayeeDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PayeeDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PayeeDecodeErrorZ* orig_conv = (LDKCResult_PayeeDecodeErrorZ*)(orig & ~1);
LDKCResult_PayeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PayeeDecodeErrorZ), "LDKCResult_PayeeDecodeErrorZ");
*ret_conv = CResult_PayeeDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_RouteHintHopZ_free"))) TS_CVec_RouteHintHopZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKRouteHintHop), "LDKCVec_RouteHintHopZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t o = 0; o < _res_constr.datalen; o++) {
uint32_t _res_conv_14 = _res_vals[o];
LDKRouteHintHop _res_conv_14_conv;
o_conv = RouteHint_clone(&o_conv);
LDKCResult_RouteHintDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintDecodeErrorZ), "LDKCResult_RouteHintDecodeErrorZ");
*ret_conv = CResult_RouteHintDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_err"))) TS_CResult_RouteHintDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RouteHintDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintDecodeErrorZ), "LDKCResult_RouteHintDecodeErrorZ");
*ret_conv = CResult_RouteHintDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_is_ok"))) TS_CResult_RouteHintDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_free"))) TS_CResult_RouteHintDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RouteHintDecodeErrorZ _res_conv = *(LDKCResult_RouteHintDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RouteHintDecodeErrorZ_clone_ptr(LDKCResult_RouteHintDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RouteHintDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintDecodeErrorZ), "LDKCResult_RouteHintDecodeErrorZ");
*ret_conv = CResult_RouteHintDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_clone_ptr"))) TS_CResult_RouteHintDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RouteHintDecodeErrorZ_clone_ptr"))) TS_CResult_RouteHintDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RouteHintDecodeErrorZ* arg_conv = (LDKCResult_RouteHintDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RouteHintDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RouteHintDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RouteHintDecodeErrorZ* orig_conv = (LDKCResult_RouteHintDecodeErrorZ*)(orig & ~1);
LDKCResult_RouteHintDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintDecodeErrorZ), "LDKCResult_RouteHintDecodeErrorZ");
*ret_conv = CResult_RouteHintDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_ok"))) TS_CResult_RouteHintHopDecodeErrorZ_ok(uint32_t o) {
o_conv = RouteHintHop_clone(&o_conv);
LDKCResult_RouteHintHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintHopDecodeErrorZ), "LDKCResult_RouteHintHopDecodeErrorZ");
*ret_conv = CResult_RouteHintHopDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_err"))) TS_CResult_RouteHintHopDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RouteHintHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintHopDecodeErrorZ), "LDKCResult_RouteHintHopDecodeErrorZ");
*ret_conv = CResult_RouteHintHopDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_is_ok"))) TS_CResult_RouteHintHopDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_free"))) TS_CResult_RouteHintHopDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RouteHintHopDecodeErrorZ _res_conv = *(LDKCResult_RouteHintHopDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RouteHintHopDecodeErrorZ_clone_ptr(LDKCResult_RouteHintHopDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RouteHintHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintHopDecodeErrorZ), "LDKCResult_RouteHintHopDecodeErrorZ");
*ret_conv = CResult_RouteHintHopDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_clone_ptr"))) TS_CResult_RouteHintHopDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RouteHintHopDecodeErrorZ_clone_ptr"))) TS_CResult_RouteHintHopDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RouteHintHopDecodeErrorZ* arg_conv = (LDKCResult_RouteHintHopDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RouteHintHopDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RouteHintHopDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RouteHintHopDecodeErrorZ* orig_conv = (LDKCResult_RouteHintHopDecodeErrorZ*)(orig & ~1);
LDKCResult_RouteHintHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintHopDecodeErrorZ), "LDKCResult_RouteHintHopDecodeErrorZ");
*ret_conv = CResult_RouteHintHopDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_ChannelDetailsZ_free"))) TS_CVec_ChannelDetailsZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKChannelDetails), "LDKCVec_ChannelDetailsZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t q = 0; q < _res_constr.datalen; q++) {
uint32_t _res_conv_16 = _res_vals[q];
LDKChannelDetails _res_conv_16_conv;
o_conv = Route_clone(&o_conv);
LDKCResult_RouteLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteLightningErrorZ), "LDKCResult_RouteLightningErrorZ");
*ret_conv = CResult_RouteLightningErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RouteLightningErrorZ_err"))) TS_CResult_RouteLightningErrorZ_err(uint32_t e) {
e_conv = LightningError_clone(&e_conv);
LDKCResult_RouteLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteLightningErrorZ), "LDKCResult_RouteLightningErrorZ");
*ret_conv = CResult_RouteLightningErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RouteLightningErrorZ_is_ok"))) TS_CResult_RouteLightningErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RouteLightningErrorZ_free"))) TS_CResult_RouteLightningErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RouteLightningErrorZ _res_conv = *(LDKCResult_RouteLightningErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RouteLightningErrorZ_clone_ptr(LDKCResult_RouteLightningErrorZ *NONNULL_PTR arg) {
LDKCResult_RouteLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteLightningErrorZ), "LDKCResult_RouteLightningErrorZ");
*ret_conv = CResult_RouteLightningErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RouteLightningErrorZ_clone_ptr"))) TS_CResult_RouteLightningErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RouteLightningErrorZ_clone_ptr"))) TS_CResult_RouteLightningErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RouteLightningErrorZ* arg_conv = (LDKCResult_RouteLightningErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RouteLightningErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RouteLightningErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RouteLightningErrorZ* orig_conv = (LDKCResult_RouteLightningErrorZ*)(orig & ~1);
LDKCResult_RouteLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteLightningErrorZ), "LDKCResult_RouteLightningErrorZ");
*ret_conv = CResult_RouteLightningErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneLightningErrorZ_ok"))) TS_CResult_NoneLightningErrorZ_ok() {
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = CResult_NoneLightningErrorZ_ok();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneLightningErrorZ_err"))) TS_CResult_NoneLightningErrorZ_err(uint32_t e) {
e_conv = LightningError_clone(&e_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = CResult_NoneLightningErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NoneLightningErrorZ_is_ok"))) TS_CResult_NoneLightningErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NoneLightningErrorZ_free"))) TS_CResult_NoneLightningErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NoneLightningErrorZ _res_conv = *(LDKCResult_NoneLightningErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NoneLightningErrorZ_clone_ptr(LDKCResult_NoneLightningErrorZ *NONNULL_PTR arg) {
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = CResult_NoneLightningErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NoneLightningErrorZ_clone_ptr"))) TS_CResult_NoneLightningErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NoneLightningErrorZ_clone_ptr"))) TS_CResult_NoneLightningErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NoneLightningErrorZ* arg_conv = (LDKCResult_NoneLightningErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NoneLightningErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NoneLightningErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NoneLightningErrorZ* orig_conv = (LDKCResult_NoneLightningErrorZ*)(orig & ~1);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = CResult_NoneLightningErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
static inline uintptr_t C2Tuple_PublicKeyTypeZ_clone_ptr(LDKC2Tuple_PublicKeyTypeZ *NONNULL_PTR arg) {
LDKC2Tuple_PublicKeyTypeZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PublicKeyTypeZ), "LDKC2Tuple_PublicKeyTypeZ");
*ret_conv = C2Tuple_PublicKeyTypeZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_PublicKeyTypeZ_clone_ptr"))) TS_C2Tuple_PublicKeyTypeZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_PublicKeyTypeZ_clone_ptr"))) TS_C2Tuple_PublicKeyTypeZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_PublicKeyTypeZ* arg_conv = (LDKC2Tuple_PublicKeyTypeZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_PublicKeyTypeZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_PublicKeyTypeZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_PublicKeyTypeZ* orig_conv = (LDKC2Tuple_PublicKeyTypeZ*)(orig & ~1);
LDKC2Tuple_PublicKeyTypeZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PublicKeyTypeZ), "LDKC2Tuple_PublicKeyTypeZ");
*ret_conv = C2Tuple_PublicKeyTypeZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_PublicKeyTypeZ_new"))) TS_C2Tuple_PublicKeyTypeZ_new(int8_tArray a, uint32_t b) {
LDKPublicKey a_ref;
CHECK(a->arr_len == 33);
- memcpy(a_ref.compressed_form, a->elems, 33);
- void* b_ptr = (void*)(((uint64_t)b) & ~1);
+ memcpy(a_ref.compressed_form, a->elems, 33); FREE(a);
+ void* b_ptr = (void*)(((uintptr_t)b) & ~1);
CHECK_ACCESS(b_ptr);
LDKType b_conv = *(LDKType*)(b_ptr);
LDKC2Tuple_PublicKeyTypeZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PublicKeyTypeZ), "LDKC2Tuple_PublicKeyTypeZ");
*ret_conv = C2Tuple_PublicKeyTypeZ_new(a_ref, b_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_PublicKeyTypeZ_free"))) TS_C2Tuple_PublicKeyTypeZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_PublicKeyTypeZ _res_conv = *(LDKC2Tuple_PublicKeyTypeZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC2Tuple_PublicKeyTypeZ), "LDKCVec_C2Tuple_PublicKeyTypeZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t z = 0; z < _res_constr.datalen; z++) {
uint32_t _res_conv_25 = _res_vals[z];
- void* _res_conv_25_ptr = (void*)(((uint64_t)_res_conv_25) & ~1);
+ void* _res_conv_25_ptr = (void*)(((uintptr_t)_res_conv_25) & ~1);
CHECK_ACCESS(_res_conv_25_ptr);
LDKC2Tuple_PublicKeyTypeZ _res_conv_25_conv = *(LDKC2Tuple_PublicKeyTypeZ*)(_res_conv_25_ptr);
FREE((void*)_res_conv_25);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKMessageSendEvent), "LDKCVec_MessageSendEventZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t s = 0; s < _res_constr.datalen; s++) {
uint32_t _res_conv_18 = _res_vals[s];
- void* _res_conv_18_ptr = (void*)(((uint64_t)_res_conv_18) & ~1);
+ void* _res_conv_18_ptr = (void*)(((uintptr_t)_res_conv_18) & ~1);
CHECK_ACCESS(_res_conv_18_ptr);
LDKMessageSendEvent _res_conv_18_conv = *(LDKMessageSendEvent*)(_res_conv_18_ptr);
FREE((void*)_res_conv_18);
uint32_t __attribute__((export_name("TS_CResult_boolLightningErrorZ_ok"))) TS_CResult_boolLightningErrorZ_ok(jboolean o) {
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = CResult_boolLightningErrorZ_ok(o);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_boolLightningErrorZ_err"))) TS_CResult_boolLightningErrorZ_err(uint32_t e) {
e_conv = LightningError_clone(&e_conv);
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = CResult_boolLightningErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_boolLightningErrorZ_is_ok"))) TS_CResult_boolLightningErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_boolLightningErrorZ_free"))) TS_CResult_boolLightningErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_boolLightningErrorZ _res_conv = *(LDKCResult_boolLightningErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_boolLightningErrorZ_clone_ptr(LDKCResult_boolLightningErrorZ *NONNULL_PTR arg) {
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = CResult_boolLightningErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_boolLightningErrorZ_clone_ptr"))) TS_CResult_boolLightningErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_boolLightningErrorZ_clone_ptr"))) TS_CResult_boolLightningErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_boolLightningErrorZ* arg_conv = (LDKCResult_boolLightningErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_boolLightningErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_boolLightningErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_boolLightningErrorZ* orig_conv = (LDKCResult_boolLightningErrorZ*)(orig & ~1);
LDKCResult_boolLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolLightningErrorZ), "LDKCResult_boolLightningErrorZ");
*ret_conv = CResult_boolLightningErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
static inline uintptr_t C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ *NONNULL_PTR arg) {
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* ret_conv = MALLOC(sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ), "LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ");
*ret_conv = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr(uint32_t arg) {
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* arg_conv = (LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(arg & ~1);
- int64_t ret_val = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* orig_conv = (LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(orig & ~1);
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* ret_conv = MALLOC(sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ), "LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ");
*ret_conv = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_new"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_new(uint32_t a, uint32_t b, uint32_t c) {
c_conv = ChannelUpdate_clone(&c_conv);
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ* ret_conv = MALLOC(sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ), "LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ");
*ret_conv = C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_new(a_conv, b_conv, c_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_free"))) TS_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ _res_conv = *(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ), "LDKCVec_C3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t h = 0; h < _res_constr.datalen; h++) {
uint32_t _res_conv_59 = _res_vals[h];
- void* _res_conv_59_ptr = (void*)(((uint64_t)_res_conv_59) & ~1);
+ void* _res_conv_59_ptr = (void*)(((uintptr_t)_res_conv_59) & ~1);
CHECK_ACCESS(_res_conv_59_ptr);
LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ _res_conv_59_conv = *(LDKC3Tuple_ChannelAnnouncementChannelUpdateChannelUpdateZ*)(_res_conv_59_ptr);
FREE((void*)_res_conv_59);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKNodeAnnouncement), "LDKCVec_NodeAnnouncementZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t s = 0; s < _res_constr.datalen; s++) {
uint32_t _res_conv_18 = _res_vals[s];
LDKNodeAnnouncement _res_conv_18_conv;
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKPublicKey), "LDKCVec_PublicKeyZ Elements");
else
_res_constr.data = NULL;
- int8_tArray* _res_vals = (void*) _res->elems;
+ int8_tArray* _res_vals = (void*) _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
int8_tArray _res_conv_12 = _res_vals[m];
LDKPublicKey _res_conv_12_ref;
CHECK(_res_conv_12->arr_len == 33);
- memcpy(_res_conv_12_ref.compressed_form, _res_conv_12->elems, 33);
+ memcpy(_res_conv_12_ref.compressed_form, _res_conv_12->elems, 33); FREE(_res_conv_12);
_res_constr.data[m] = _res_conv_12_ref;
}
CVec_PublicKeyZ_free(_res_constr);
LDKCVec_u8Z _res_ref;
_res_ref.datalen = _res->arr_len;
_res_ref.data = MALLOC(_res_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(_res_ref.data, _res->elems, _res_ref.datalen);
+ memcpy(_res_ref.data, _res->elems, _res_ref.datalen); FREE(_res);
CVec_u8Z_free(_res_ref);
}
LDKCVec_u8Z o_ref;
o_ref.datalen = o->arr_len;
o_ref.data = MALLOC(o_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(o_ref.data, o->elems, o_ref.datalen);
+ memcpy(o_ref.data, o->elems, o_ref.datalen); FREE(o);
LDKCResult_CVec_u8ZPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ), "LDKCResult_CVec_u8ZPeerHandleErrorZ");
*ret_conv = CResult_CVec_u8ZPeerHandleErrorZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_err"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_err(uint32_t e) {
e_conv = PeerHandleError_clone(&e_conv);
LDKCResult_CVec_u8ZPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ), "LDKCResult_CVec_u8ZPeerHandleErrorZ");
*ret_conv = CResult_CVec_u8ZPeerHandleErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_is_ok"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_free"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_CVec_u8ZPeerHandleErrorZ _res_conv = *(LDKCResult_CVec_u8ZPeerHandleErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr(LDKCResult_CVec_u8ZPeerHandleErrorZ *NONNULL_PTR arg) {
LDKCResult_CVec_u8ZPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ), "LDKCResult_CVec_u8ZPeerHandleErrorZ");
*ret_conv = CResult_CVec_u8ZPeerHandleErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr"))) TS_CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_CVec_u8ZPeerHandleErrorZ* arg_conv = (LDKCResult_CVec_u8ZPeerHandleErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_CVec_u8ZPeerHandleErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_CVec_u8ZPeerHandleErrorZ* orig_conv = (LDKCResult_CVec_u8ZPeerHandleErrorZ*)(orig & ~1);
LDKCResult_CVec_u8ZPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ), "LDKCResult_CVec_u8ZPeerHandleErrorZ");
*ret_conv = CResult_CVec_u8ZPeerHandleErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_ok"))) TS_CResult_NonePeerHandleErrorZ_ok() {
LDKCResult_NonePeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePeerHandleErrorZ), "LDKCResult_NonePeerHandleErrorZ");
*ret_conv = CResult_NonePeerHandleErrorZ_ok();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_err"))) TS_CResult_NonePeerHandleErrorZ_err(uint32_t e) {
e_conv = PeerHandleError_clone(&e_conv);
LDKCResult_NonePeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePeerHandleErrorZ), "LDKCResult_NonePeerHandleErrorZ");
*ret_conv = CResult_NonePeerHandleErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_is_ok"))) TS_CResult_NonePeerHandleErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_free"))) TS_CResult_NonePeerHandleErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NonePeerHandleErrorZ _res_conv = *(LDKCResult_NonePeerHandleErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NonePeerHandleErrorZ_clone_ptr(LDKCResult_NonePeerHandleErrorZ *NONNULL_PTR arg) {
LDKCResult_NonePeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePeerHandleErrorZ), "LDKCResult_NonePeerHandleErrorZ");
*ret_conv = CResult_NonePeerHandleErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_clone_ptr"))) TS_CResult_NonePeerHandleErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NonePeerHandleErrorZ_clone_ptr"))) TS_CResult_NonePeerHandleErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NonePeerHandleErrorZ* arg_conv = (LDKCResult_NonePeerHandleErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NonePeerHandleErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NonePeerHandleErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NonePeerHandleErrorZ* orig_conv = (LDKCResult_NonePeerHandleErrorZ*)(orig & ~1);
LDKCResult_NonePeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePeerHandleErrorZ), "LDKCResult_NonePeerHandleErrorZ");
*ret_conv = CResult_NonePeerHandleErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_ok"))) TS_CResult_boolPeerHandleErrorZ_ok(jboolean o) {
LDKCResult_boolPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolPeerHandleErrorZ), "LDKCResult_boolPeerHandleErrorZ");
*ret_conv = CResult_boolPeerHandleErrorZ_ok(o);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_err"))) TS_CResult_boolPeerHandleErrorZ_err(uint32_t e) {
e_conv = PeerHandleError_clone(&e_conv);
LDKCResult_boolPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolPeerHandleErrorZ), "LDKCResult_boolPeerHandleErrorZ");
*ret_conv = CResult_boolPeerHandleErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_is_ok"))) TS_CResult_boolPeerHandleErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_free"))) TS_CResult_boolPeerHandleErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_boolPeerHandleErrorZ _res_conv = *(LDKCResult_boolPeerHandleErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_boolPeerHandleErrorZ_clone_ptr(LDKCResult_boolPeerHandleErrorZ *NONNULL_PTR arg) {
LDKCResult_boolPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolPeerHandleErrorZ), "LDKCResult_boolPeerHandleErrorZ");
*ret_conv = CResult_boolPeerHandleErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_clone_ptr"))) TS_CResult_boolPeerHandleErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_boolPeerHandleErrorZ_clone_ptr"))) TS_CResult_boolPeerHandleErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_boolPeerHandleErrorZ* arg_conv = (LDKCResult_boolPeerHandleErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_boolPeerHandleErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_boolPeerHandleErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_boolPeerHandleErrorZ* orig_conv = (LDKCResult_boolPeerHandleErrorZ*)(orig & ~1);
LDKCResult_boolPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolPeerHandleErrorZ), "LDKCResult_boolPeerHandleErrorZ");
*ret_conv = CResult_boolPeerHandleErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TxOutAccessErrorZ_ok"))) TS_CResult_TxOutAccessErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKTxOut o_conv = *(LDKTxOut*)(o_ptr);
- o_conv = TxOut_clone((LDKTxOut*)(((uint64_t)o) & ~1));
+ o_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)o) & ~1));
LDKCResult_TxOutAccessErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxOutAccessErrorZ), "LDKCResult_TxOutAccessErrorZ");
*ret_conv = CResult_TxOutAccessErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TxOutAccessErrorZ_err"))) TS_CResult_TxOutAccessErrorZ_err(uint32_t e) {
LDKAccessError e_conv = LDKAccessError_from_js(e);
LDKCResult_TxOutAccessErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxOutAccessErrorZ), "LDKCResult_TxOutAccessErrorZ");
*ret_conv = CResult_TxOutAccessErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_TxOutAccessErrorZ_is_ok"))) TS_CResult_TxOutAccessErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_TxOutAccessErrorZ_free"))) TS_CResult_TxOutAccessErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_TxOutAccessErrorZ _res_conv = *(LDKCResult_TxOutAccessErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_TxOutAccessErrorZ_clone_ptr(LDKCResult_TxOutAccessErrorZ *NONNULL_PTR arg) {
LDKCResult_TxOutAccessErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxOutAccessErrorZ), "LDKCResult_TxOutAccessErrorZ");
*ret_conv = CResult_TxOutAccessErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_TxOutAccessErrorZ_clone_ptr"))) TS_CResult_TxOutAccessErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_TxOutAccessErrorZ_clone_ptr"))) TS_CResult_TxOutAccessErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_TxOutAccessErrorZ* arg_conv = (LDKCResult_TxOutAccessErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_TxOutAccessErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_TxOutAccessErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_TxOutAccessErrorZ* orig_conv = (LDKCResult_TxOutAccessErrorZ*)(orig & ~1);
LDKCResult_TxOutAccessErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxOutAccessErrorZ), "LDKCResult_TxOutAccessErrorZ");
*ret_conv = CResult_TxOutAccessErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneChannelMonitorUpdateErrZ_ok"))) TS_CResult_NoneChannelMonitorUpdateErrZ_ok() {
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = CResult_NoneChannelMonitorUpdateErrZ_ok();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneChannelMonitorUpdateErrZ_err"))) TS_CResult_NoneChannelMonitorUpdateErrZ_err(uint32_t e) {
LDKChannelMonitorUpdateErr e_conv = LDKChannelMonitorUpdateErr_from_js(e);
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = CResult_NoneChannelMonitorUpdateErrZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NoneChannelMonitorUpdateErrZ_is_ok"))) TS_CResult_NoneChannelMonitorUpdateErrZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NoneChannelMonitorUpdateErrZ_free"))) TS_CResult_NoneChannelMonitorUpdateErrZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NoneChannelMonitorUpdateErrZ _res_conv = *(LDKCResult_NoneChannelMonitorUpdateErrZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NoneChannelMonitorUpdateErrZ_clone_ptr(LDKCResult_NoneChannelMonitorUpdateErrZ *NONNULL_PTR arg) {
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = CResult_NoneChannelMonitorUpdateErrZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NoneChannelMonitorUpdateErrZ_clone_ptr"))) TS_CResult_NoneChannelMonitorUpdateErrZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NoneChannelMonitorUpdateErrZ_clone_ptr"))) TS_CResult_NoneChannelMonitorUpdateErrZ_clone_ptr(uint32_t arg) {
LDKCResult_NoneChannelMonitorUpdateErrZ* arg_conv = (LDKCResult_NoneChannelMonitorUpdateErrZ*)(arg & ~1);
- int64_t ret_val = CResult_NoneChannelMonitorUpdateErrZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NoneChannelMonitorUpdateErrZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NoneChannelMonitorUpdateErrZ* orig_conv = (LDKCResult_NoneChannelMonitorUpdateErrZ*)(orig & ~1);
LDKCResult_NoneChannelMonitorUpdateErrZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneChannelMonitorUpdateErrZ), "LDKCResult_NoneChannelMonitorUpdateErrZ");
*ret_conv = CResult_NoneChannelMonitorUpdateErrZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_C2Tuple_usizeTransactionZZ_some"))) TS_COption_C2Tuple_usizeTransactionZZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_usizeTransactionZ o_conv = *(LDKC2Tuple_usizeTransactionZ*)(o_ptr);
- o_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uint64_t)o) & ~1));
+ o_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uintptr_t)o) & ~1));
LDKCOption_C2Tuple_usizeTransactionZZ *ret_copy = MALLOC(sizeof(LDKCOption_C2Tuple_usizeTransactionZZ), "LDKCOption_C2Tuple_usizeTransactionZZ");
*ret_copy = COption_C2Tuple_usizeTransactionZZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_C2Tuple_usizeTransactionZZ_none"))) TS_COption_C2Tuple_usizeTransactionZZ_none() {
LDKCOption_C2Tuple_usizeTransactionZZ *ret_copy = MALLOC(sizeof(LDKCOption_C2Tuple_usizeTransactionZZ), "LDKCOption_C2Tuple_usizeTransactionZZ");
*ret_copy = COption_C2Tuple_usizeTransactionZZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_C2Tuple_usizeTransactionZZ_free"))) TS_COption_C2Tuple_usizeTransactionZZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_C2Tuple_usizeTransactionZZ _res_conv = *(LDKCOption_C2Tuple_usizeTransactionZZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_C2Tuple_usizeTransactionZZ_clone_ptr(LDKCOption_C2Tuple_usizeTransactionZZ *NONNULL_PTR arg) {
LDKCOption_C2Tuple_usizeTransactionZZ *ret_copy = MALLOC(sizeof(LDKCOption_C2Tuple_usizeTransactionZZ), "LDKCOption_C2Tuple_usizeTransactionZZ");
*ret_copy = COption_C2Tuple_usizeTransactionZZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_C2Tuple_usizeTransactionZZ_clone_ptr"))) TS_COption_C2Tuple_usizeTransactionZZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_C2Tuple_usizeTransactionZZ_clone_ptr"))) TS_COption_C2Tuple_usizeTransactionZZ_clone_ptr(uint32_t arg) {
LDKCOption_C2Tuple_usizeTransactionZZ* arg_conv = (LDKCOption_C2Tuple_usizeTransactionZZ*)arg;
- int64_t ret_val = COption_C2Tuple_usizeTransactionZZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_C2Tuple_usizeTransactionZZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_C2Tuple_usizeTransactionZZ* orig_conv = (LDKCOption_C2Tuple_usizeTransactionZZ*)orig;
LDKCOption_C2Tuple_usizeTransactionZZ *ret_copy = MALLOC(sizeof(LDKCOption_C2Tuple_usizeTransactionZZ), "LDKCOption_C2Tuple_usizeTransactionZZ");
*ret_copy = COption_C2Tuple_usizeTransactionZZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_ClosureReasonZ_some"))) TS_COption_ClosureReasonZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKClosureReason o_conv = *(LDKClosureReason*)(o_ptr);
- o_conv = ClosureReason_clone((LDKClosureReason*)(((uint64_t)o) & ~1));
+ o_conv = ClosureReason_clone((LDKClosureReason*)(((uintptr_t)o) & ~1));
LDKCOption_ClosureReasonZ *ret_copy = MALLOC(sizeof(LDKCOption_ClosureReasonZ), "LDKCOption_ClosureReasonZ");
*ret_copy = COption_ClosureReasonZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_ClosureReasonZ_none"))) TS_COption_ClosureReasonZ_none() {
LDKCOption_ClosureReasonZ *ret_copy = MALLOC(sizeof(LDKCOption_ClosureReasonZ), "LDKCOption_ClosureReasonZ");
*ret_copy = COption_ClosureReasonZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_ClosureReasonZ_free"))) TS_COption_ClosureReasonZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_ClosureReasonZ _res_conv = *(LDKCOption_ClosureReasonZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_ClosureReasonZ_clone_ptr(LDKCOption_ClosureReasonZ *NONNULL_PTR arg) {
LDKCOption_ClosureReasonZ *ret_copy = MALLOC(sizeof(LDKCOption_ClosureReasonZ), "LDKCOption_ClosureReasonZ");
*ret_copy = COption_ClosureReasonZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_ClosureReasonZ_clone_ptr"))) TS_COption_ClosureReasonZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_ClosureReasonZ_clone_ptr"))) TS_COption_ClosureReasonZ_clone_ptr(uint32_t arg) {
LDKCOption_ClosureReasonZ* arg_conv = (LDKCOption_ClosureReasonZ*)arg;
- int64_t ret_val = COption_ClosureReasonZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_ClosureReasonZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_ClosureReasonZ* orig_conv = (LDKCOption_ClosureReasonZ*)orig;
LDKCOption_ClosureReasonZ *ret_copy = MALLOC(sizeof(LDKCOption_ClosureReasonZ), "LDKCOption_ClosureReasonZ");
*ret_copy = COption_ClosureReasonZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_ok"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKCOption_ClosureReasonZ o_conv = *(LDKCOption_ClosureReasonZ*)(o_ptr);
- o_conv = COption_ClosureReasonZ_clone((LDKCOption_ClosureReasonZ*)(((uint64_t)o) & ~1));
+ o_conv = COption_ClosureReasonZ_clone((LDKCOption_ClosureReasonZ*)(((uintptr_t)o) & ~1));
LDKCResult_COption_ClosureReasonZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_ClosureReasonZDecodeErrorZ), "LDKCResult_COption_ClosureReasonZDecodeErrorZ");
*ret_conv = CResult_COption_ClosureReasonZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_err"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_COption_ClosureReasonZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_ClosureReasonZDecodeErrorZ), "LDKCResult_COption_ClosureReasonZDecodeErrorZ");
*ret_conv = CResult_COption_ClosureReasonZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_is_ok"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_free"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_COption_ClosureReasonZDecodeErrorZ _res_conv = *(LDKCResult_COption_ClosureReasonZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr(LDKCResult_COption_ClosureReasonZDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_COption_ClosureReasonZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_ClosureReasonZDecodeErrorZ), "LDKCResult_COption_ClosureReasonZDecodeErrorZ");
*ret_conv = CResult_COption_ClosureReasonZDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_COption_ClosureReasonZDecodeErrorZ* arg_conv = (LDKCResult_COption_ClosureReasonZDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_COption_ClosureReasonZDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_COption_ClosureReasonZDecodeErrorZ* orig_conv = (LDKCResult_COption_ClosureReasonZDecodeErrorZ*)(orig & ~1);
LDKCResult_COption_ClosureReasonZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_ClosureReasonZDecodeErrorZ), "LDKCResult_COption_ClosureReasonZDecodeErrorZ");
*ret_conv = CResult_COption_ClosureReasonZDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_NetworkUpdateZ_some"))) TS_COption_NetworkUpdateZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKNetworkUpdate o_conv = *(LDKNetworkUpdate*)(o_ptr);
- o_conv = NetworkUpdate_clone((LDKNetworkUpdate*)(((uint64_t)o) & ~1));
+ o_conv = NetworkUpdate_clone((LDKNetworkUpdate*)(((uintptr_t)o) & ~1));
LDKCOption_NetworkUpdateZ *ret_copy = MALLOC(sizeof(LDKCOption_NetworkUpdateZ), "LDKCOption_NetworkUpdateZ");
*ret_copy = COption_NetworkUpdateZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_NetworkUpdateZ_none"))) TS_COption_NetworkUpdateZ_none() {
LDKCOption_NetworkUpdateZ *ret_copy = MALLOC(sizeof(LDKCOption_NetworkUpdateZ), "LDKCOption_NetworkUpdateZ");
*ret_copy = COption_NetworkUpdateZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_NetworkUpdateZ_free"))) TS_COption_NetworkUpdateZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_NetworkUpdateZ _res_conv = *(LDKCOption_NetworkUpdateZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_NetworkUpdateZ_clone_ptr(LDKCOption_NetworkUpdateZ *NONNULL_PTR arg) {
LDKCOption_NetworkUpdateZ *ret_copy = MALLOC(sizeof(LDKCOption_NetworkUpdateZ), "LDKCOption_NetworkUpdateZ");
*ret_copy = COption_NetworkUpdateZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_NetworkUpdateZ_clone_ptr"))) TS_COption_NetworkUpdateZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_NetworkUpdateZ_clone_ptr"))) TS_COption_NetworkUpdateZ_clone_ptr(uint32_t arg) {
LDKCOption_NetworkUpdateZ* arg_conv = (LDKCOption_NetworkUpdateZ*)arg;
- int64_t ret_val = COption_NetworkUpdateZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_NetworkUpdateZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_NetworkUpdateZ* orig_conv = (LDKCOption_NetworkUpdateZ*)orig;
LDKCOption_NetworkUpdateZ *ret_copy = MALLOC(sizeof(LDKCOption_NetworkUpdateZ), "LDKCOption_NetworkUpdateZ");
*ret_copy = COption_NetworkUpdateZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKSpendableOutputDescriptor), "LDKCVec_SpendableOutputDescriptorZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t b = 0; b < _res_constr.datalen; b++) {
uint32_t _res_conv_27 = _res_vals[b];
- void* _res_conv_27_ptr = (void*)(((uint64_t)_res_conv_27) & ~1);
+ void* _res_conv_27_ptr = (void*)(((uintptr_t)_res_conv_27) & ~1);
CHECK_ACCESS(_res_conv_27_ptr);
LDKSpendableOutputDescriptor _res_conv_27_conv = *(LDKSpendableOutputDescriptor*)(_res_conv_27_ptr);
FREE((void*)_res_conv_27);
}
uint32_t __attribute__((export_name("TS_COption_EventZ_some"))) TS_COption_EventZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKEvent o_conv = *(LDKEvent*)(o_ptr);
- o_conv = Event_clone((LDKEvent*)(((uint64_t)o) & ~1));
+ o_conv = Event_clone((LDKEvent*)(((uintptr_t)o) & ~1));
LDKCOption_EventZ *ret_copy = MALLOC(sizeof(LDKCOption_EventZ), "LDKCOption_EventZ");
*ret_copy = COption_EventZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_EventZ_none"))) TS_COption_EventZ_none() {
LDKCOption_EventZ *ret_copy = MALLOC(sizeof(LDKCOption_EventZ), "LDKCOption_EventZ");
*ret_copy = COption_EventZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_EventZ_free"))) TS_COption_EventZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_EventZ _res_conv = *(LDKCOption_EventZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_EventZ_clone_ptr(LDKCOption_EventZ *NONNULL_PTR arg) {
LDKCOption_EventZ *ret_copy = MALLOC(sizeof(LDKCOption_EventZ), "LDKCOption_EventZ");
*ret_copy = COption_EventZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_EventZ_clone_ptr"))) TS_COption_EventZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_EventZ_clone_ptr"))) TS_COption_EventZ_clone_ptr(uint32_t arg) {
LDKCOption_EventZ* arg_conv = (LDKCOption_EventZ*)arg;
- int64_t ret_val = COption_EventZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_EventZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_EventZ* orig_conv = (LDKCOption_EventZ*)orig;
LDKCOption_EventZ *ret_copy = MALLOC(sizeof(LDKCOption_EventZ), "LDKCOption_EventZ");
*ret_copy = COption_EventZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_ok"))) TS_CResult_COption_EventZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKCOption_EventZ o_conv = *(LDKCOption_EventZ*)(o_ptr);
- o_conv = COption_EventZ_clone((LDKCOption_EventZ*)(((uint64_t)o) & ~1));
+ o_conv = COption_EventZ_clone((LDKCOption_EventZ*)(((uintptr_t)o) & ~1));
LDKCResult_COption_EventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_EventZDecodeErrorZ), "LDKCResult_COption_EventZDecodeErrorZ");
*ret_conv = CResult_COption_EventZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_err"))) TS_CResult_COption_EventZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_COption_EventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_EventZDecodeErrorZ), "LDKCResult_COption_EventZDecodeErrorZ");
*ret_conv = CResult_COption_EventZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_is_ok"))) TS_CResult_COption_EventZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_free"))) TS_CResult_COption_EventZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_COption_EventZDecodeErrorZ _res_conv = *(LDKCResult_COption_EventZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_COption_EventZDecodeErrorZ_clone_ptr(LDKCResult_COption_EventZDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_COption_EventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_EventZDecodeErrorZ), "LDKCResult_COption_EventZDecodeErrorZ");
*ret_conv = CResult_COption_EventZDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_EventZDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_COption_EventZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_EventZDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_COption_EventZDecodeErrorZ* arg_conv = (LDKCResult_COption_EventZDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_COption_EventZDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_COption_EventZDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_COption_EventZDecodeErrorZ* orig_conv = (LDKCResult_COption_EventZDecodeErrorZ*)(orig & ~1);
LDKCResult_COption_EventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_EventZDecodeErrorZ), "LDKCResult_COption_EventZDecodeErrorZ");
*ret_conv = CResult_COption_EventZDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_ok"))) TS_CResult_NodeIdDecodeErrorZ_ok(uint32_t o) {
o_conv = NodeId_clone(&o_conv);
LDKCResult_NodeIdDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeIdDecodeErrorZ), "LDKCResult_NodeIdDecodeErrorZ");
*ret_conv = CResult_NodeIdDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_err"))) TS_CResult_NodeIdDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NodeIdDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeIdDecodeErrorZ), "LDKCResult_NodeIdDecodeErrorZ");
*ret_conv = CResult_NodeIdDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_is_ok"))) TS_CResult_NodeIdDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_free"))) TS_CResult_NodeIdDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NodeIdDecodeErrorZ _res_conv = *(LDKCResult_NodeIdDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NodeIdDecodeErrorZ_clone_ptr(LDKCResult_NodeIdDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_NodeIdDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeIdDecodeErrorZ), "LDKCResult_NodeIdDecodeErrorZ");
*ret_conv = CResult_NodeIdDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_clone_ptr"))) TS_CResult_NodeIdDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NodeIdDecodeErrorZ_clone_ptr"))) TS_CResult_NodeIdDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NodeIdDecodeErrorZ* arg_conv = (LDKCResult_NodeIdDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NodeIdDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NodeIdDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NodeIdDecodeErrorZ* orig_conv = (LDKCResult_NodeIdDecodeErrorZ*)(orig & ~1);
LDKCResult_NodeIdDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeIdDecodeErrorZ), "LDKCResult_NodeIdDecodeErrorZ");
*ret_conv = CResult_NodeIdDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_ok"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKCOption_NetworkUpdateZ o_conv = *(LDKCOption_NetworkUpdateZ*)(o_ptr);
- o_conv = COption_NetworkUpdateZ_clone((LDKCOption_NetworkUpdateZ*)(((uint64_t)o) & ~1));
+ o_conv = COption_NetworkUpdateZ_clone((LDKCOption_NetworkUpdateZ*)(((uintptr_t)o) & ~1));
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_NetworkUpdateZDecodeErrorZ), "LDKCResult_COption_NetworkUpdateZDecodeErrorZ");
*ret_conv = CResult_COption_NetworkUpdateZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_err"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_NetworkUpdateZDecodeErrorZ), "LDKCResult_COption_NetworkUpdateZDecodeErrorZ");
*ret_conv = CResult_COption_NetworkUpdateZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_is_ok"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_free"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_COption_NetworkUpdateZDecodeErrorZ _res_conv = *(LDKCResult_COption_NetworkUpdateZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr(LDKCResult_COption_NetworkUpdateZDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_NetworkUpdateZDecodeErrorZ), "LDKCResult_COption_NetworkUpdateZDecodeErrorZ");
*ret_conv = CResult_COption_NetworkUpdateZDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr"))) TS_CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* arg_conv = (LDKCResult_COption_NetworkUpdateZDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_COption_NetworkUpdateZDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* orig_conv = (LDKCResult_COption_NetworkUpdateZDecodeErrorZ*)(orig & ~1);
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_NetworkUpdateZDecodeErrorZ), "LDKCResult_COption_NetworkUpdateZDecodeErrorZ");
*ret_conv = CResult_COption_NetworkUpdateZDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_AccessZ_some"))) TS_COption_AccessZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKAccess o_conv = *(LDKAccess*)(o_ptr);
LDKCOption_AccessZ *ret_copy = MALLOC(sizeof(LDKCOption_AccessZ), "LDKCOption_AccessZ");
*ret_copy = COption_AccessZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_AccessZ_none"))) TS_COption_AccessZ_none() {
LDKCOption_AccessZ *ret_copy = MALLOC(sizeof(LDKCOption_AccessZ), "LDKCOption_AccessZ");
*ret_copy = COption_AccessZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_AccessZ_free"))) TS_COption_AccessZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_AccessZ _res_conv = *(LDKCOption_AccessZ*)(_res_ptr);
FREE((void*)_res);
o_conv = DirectionalChannelInfo_clone(&o_conv);
LDKCResult_DirectionalChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ), "LDKCResult_DirectionalChannelInfoDecodeErrorZ");
*ret_conv = CResult_DirectionalChannelInfoDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_err"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_DirectionalChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ), "LDKCResult_DirectionalChannelInfoDecodeErrorZ");
*ret_conv = CResult_DirectionalChannelInfoDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_is_ok"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_free"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_DirectionalChannelInfoDecodeErrorZ _res_conv = *(LDKCResult_DirectionalChannelInfoDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr(LDKCResult_DirectionalChannelInfoDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_DirectionalChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ), "LDKCResult_DirectionalChannelInfoDecodeErrorZ");
*ret_conv = CResult_DirectionalChannelInfoDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr"))) TS_CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_DirectionalChannelInfoDecodeErrorZ* arg_conv = (LDKCResult_DirectionalChannelInfoDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_DirectionalChannelInfoDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_DirectionalChannelInfoDecodeErrorZ* orig_conv = (LDKCResult_DirectionalChannelInfoDecodeErrorZ*)(orig & ~1);
LDKCResult_DirectionalChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ), "LDKCResult_DirectionalChannelInfoDecodeErrorZ");
*ret_conv = CResult_DirectionalChannelInfoDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_ok"))) TS_CResult_ChannelInfoDecodeErrorZ_ok(uint32_t o) {
o_conv = ChannelInfo_clone(&o_conv);
LDKCResult_ChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelInfoDecodeErrorZ), "LDKCResult_ChannelInfoDecodeErrorZ");
*ret_conv = CResult_ChannelInfoDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_err"))) TS_CResult_ChannelInfoDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelInfoDecodeErrorZ), "LDKCResult_ChannelInfoDecodeErrorZ");
*ret_conv = CResult_ChannelInfoDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_is_ok"))) TS_CResult_ChannelInfoDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_free"))) TS_CResult_ChannelInfoDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelInfoDecodeErrorZ _res_conv = *(LDKCResult_ChannelInfoDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelInfoDecodeErrorZ_clone_ptr(LDKCResult_ChannelInfoDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelInfoDecodeErrorZ), "LDKCResult_ChannelInfoDecodeErrorZ");
*ret_conv = CResult_ChannelInfoDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelInfoDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelInfoDecodeErrorZ* arg_conv = (LDKCResult_ChannelInfoDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelInfoDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelInfoDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelInfoDecodeErrorZ* orig_conv = (LDKCResult_ChannelInfoDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelInfoDecodeErrorZ), "LDKCResult_ChannelInfoDecodeErrorZ");
*ret_conv = CResult_ChannelInfoDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_ok"))) TS_CResult_RoutingFeesDecodeErrorZ_ok(uint32_t o) {
o_conv = RoutingFees_clone(&o_conv);
LDKCResult_RoutingFeesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RoutingFeesDecodeErrorZ), "LDKCResult_RoutingFeesDecodeErrorZ");
*ret_conv = CResult_RoutingFeesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_err"))) TS_CResult_RoutingFeesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RoutingFeesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RoutingFeesDecodeErrorZ), "LDKCResult_RoutingFeesDecodeErrorZ");
*ret_conv = CResult_RoutingFeesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_is_ok"))) TS_CResult_RoutingFeesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_free"))) TS_CResult_RoutingFeesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RoutingFeesDecodeErrorZ _res_conv = *(LDKCResult_RoutingFeesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RoutingFeesDecodeErrorZ_clone_ptr(LDKCResult_RoutingFeesDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RoutingFeesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RoutingFeesDecodeErrorZ), "LDKCResult_RoutingFeesDecodeErrorZ");
*ret_conv = CResult_RoutingFeesDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_clone_ptr"))) TS_CResult_RoutingFeesDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RoutingFeesDecodeErrorZ_clone_ptr"))) TS_CResult_RoutingFeesDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RoutingFeesDecodeErrorZ* arg_conv = (LDKCResult_RoutingFeesDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RoutingFeesDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RoutingFeesDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RoutingFeesDecodeErrorZ* orig_conv = (LDKCResult_RoutingFeesDecodeErrorZ*)(orig & ~1);
LDKCResult_RoutingFeesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RoutingFeesDecodeErrorZ), "LDKCResult_RoutingFeesDecodeErrorZ");
*ret_conv = CResult_RoutingFeesDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_NetAddressZ_free"))) TS_CVec_NetAddressZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKNetAddress), "LDKCVec_NetAddressZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
uint32_t _res_conv_12 = _res_vals[m];
- void* _res_conv_12_ptr = (void*)(((uint64_t)_res_conv_12) & ~1);
+ void* _res_conv_12_ptr = (void*)(((uintptr_t)_res_conv_12) & ~1);
CHECK_ACCESS(_res_conv_12_ptr);
LDKNetAddress _res_conv_12_conv = *(LDKNetAddress*)(_res_conv_12_ptr);
FREE((void*)_res_conv_12);
o_conv = NodeAnnouncementInfo_clone(&o_conv);
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ), "LDKCResult_NodeAnnouncementInfoDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementInfoDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_err"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ), "LDKCResult_NodeAnnouncementInfoDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementInfoDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_is_ok"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_free"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NodeAnnouncementInfoDecodeErrorZ _res_conv = *(LDKCResult_NodeAnnouncementInfoDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr(LDKCResult_NodeAnnouncementInfoDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ), "LDKCResult_NodeAnnouncementInfoDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementInfoDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr"))) TS_CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* arg_conv = (LDKCResult_NodeAnnouncementInfoDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NodeAnnouncementInfoDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* orig_conv = (LDKCResult_NodeAnnouncementInfoDecodeErrorZ*)(orig & ~1);
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ), "LDKCResult_NodeAnnouncementInfoDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementInfoDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_u64Z_free"))) TS_CVec_u64Z_free(int64_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
_res_constr.data = NULL;
- int64_t* _res_vals = _res->elems;
+ int64_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t i = 0; i < _res_constr.datalen; i++) {
int64_t _res_conv_8 = _res_vals[i];
_res_constr.data[i] = _res_conv_8;
o_conv = NodeInfo_clone(&o_conv);
LDKCResult_NodeInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeInfoDecodeErrorZ), "LDKCResult_NodeInfoDecodeErrorZ");
*ret_conv = CResult_NodeInfoDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_err"))) TS_CResult_NodeInfoDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NodeInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeInfoDecodeErrorZ), "LDKCResult_NodeInfoDecodeErrorZ");
*ret_conv = CResult_NodeInfoDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_is_ok"))) TS_CResult_NodeInfoDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_free"))) TS_CResult_NodeInfoDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NodeInfoDecodeErrorZ _res_conv = *(LDKCResult_NodeInfoDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NodeInfoDecodeErrorZ_clone_ptr(LDKCResult_NodeInfoDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_NodeInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeInfoDecodeErrorZ), "LDKCResult_NodeInfoDecodeErrorZ");
*ret_conv = CResult_NodeInfoDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_clone_ptr"))) TS_CResult_NodeInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NodeInfoDecodeErrorZ_clone_ptr"))) TS_CResult_NodeInfoDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NodeInfoDecodeErrorZ* arg_conv = (LDKCResult_NodeInfoDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NodeInfoDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NodeInfoDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NodeInfoDecodeErrorZ* orig_conv = (LDKCResult_NodeInfoDecodeErrorZ*)(orig & ~1);
LDKCResult_NodeInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeInfoDecodeErrorZ), "LDKCResult_NodeInfoDecodeErrorZ");
*ret_conv = CResult_NodeInfoDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_ok"))) TS_CResult_NetworkGraphDecodeErrorZ_ok(uint32_t o) {
o_conv = NetworkGraph_clone(&o_conv);
LDKCResult_NetworkGraphDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetworkGraphDecodeErrorZ), "LDKCResult_NetworkGraphDecodeErrorZ");
*ret_conv = CResult_NetworkGraphDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_err"))) TS_CResult_NetworkGraphDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NetworkGraphDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetworkGraphDecodeErrorZ), "LDKCResult_NetworkGraphDecodeErrorZ");
*ret_conv = CResult_NetworkGraphDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_is_ok"))) TS_CResult_NetworkGraphDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_free"))) TS_CResult_NetworkGraphDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NetworkGraphDecodeErrorZ _res_conv = *(LDKCResult_NetworkGraphDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NetworkGraphDecodeErrorZ_clone_ptr(LDKCResult_NetworkGraphDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_NetworkGraphDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetworkGraphDecodeErrorZ), "LDKCResult_NetworkGraphDecodeErrorZ");
*ret_conv = CResult_NetworkGraphDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_clone_ptr"))) TS_CResult_NetworkGraphDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NetworkGraphDecodeErrorZ_clone_ptr"))) TS_CResult_NetworkGraphDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NetworkGraphDecodeErrorZ* arg_conv = (LDKCResult_NetworkGraphDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NetworkGraphDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NetworkGraphDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NetworkGraphDecodeErrorZ* orig_conv = (LDKCResult_NetworkGraphDecodeErrorZ*)(orig & ~1);
LDKCResult_NetworkGraphDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetworkGraphDecodeErrorZ), "LDKCResult_NetworkGraphDecodeErrorZ");
*ret_conv = CResult_NetworkGraphDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_CVec_NetAddressZZ_some"))) TS_COption_CVec_NetAddressZZ_some(uint32_tArray o) {
o_constr.data = MALLOC(o_constr.datalen * sizeof(LDKNetAddress), "LDKCVec_NetAddressZ Elements");
else
o_constr.data = NULL;
- uint32_t* o_vals = o->elems;
+ uint32_t* o_vals = o->elems /* XXX o leaks */;
for (size_t m = 0; m < o_constr.datalen; m++) {
uint32_t o_conv_12 = o_vals[m];
- void* o_conv_12_ptr = (void*)(((uint64_t)o_conv_12) & ~1);
+ void* o_conv_12_ptr = (void*)(((uintptr_t)o_conv_12) & ~1);
CHECK_ACCESS(o_conv_12_ptr);
LDKNetAddress o_conv_12_conv = *(LDKNetAddress*)(o_conv_12_ptr);
- o_conv_12_conv = NetAddress_clone((LDKNetAddress*)(((uint64_t)o_conv_12) & ~1));
+ o_conv_12_conv = NetAddress_clone((LDKNetAddress*)(((uintptr_t)o_conv_12) & ~1));
o_constr.data[m] = o_conv_12_conv;
}
LDKCOption_CVec_NetAddressZZ *ret_copy = MALLOC(sizeof(LDKCOption_CVec_NetAddressZZ), "LDKCOption_CVec_NetAddressZZ");
*ret_copy = COption_CVec_NetAddressZZ_some(o_constr);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_CVec_NetAddressZZ_none"))) TS_COption_CVec_NetAddressZZ_none() {
LDKCOption_CVec_NetAddressZZ *ret_copy = MALLOC(sizeof(LDKCOption_CVec_NetAddressZZ), "LDKCOption_CVec_NetAddressZZ");
*ret_copy = COption_CVec_NetAddressZZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_CVec_NetAddressZZ_free"))) TS_COption_CVec_NetAddressZZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_CVec_NetAddressZZ _res_conv = *(LDKCOption_CVec_NetAddressZZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_CVec_NetAddressZZ_clone_ptr(LDKCOption_CVec_NetAddressZZ *NONNULL_PTR arg) {
LDKCOption_CVec_NetAddressZZ *ret_copy = MALLOC(sizeof(LDKCOption_CVec_NetAddressZZ), "LDKCOption_CVec_NetAddressZZ");
*ret_copy = COption_CVec_NetAddressZZ_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_CVec_NetAddressZZ_clone_ptr"))) TS_COption_CVec_NetAddressZZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_CVec_NetAddressZZ_clone_ptr"))) TS_COption_CVec_NetAddressZZ_clone_ptr(uint32_t arg) {
LDKCOption_CVec_NetAddressZZ* arg_conv = (LDKCOption_CVec_NetAddressZZ*)arg;
- int64_t ret_val = COption_CVec_NetAddressZZ_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_CVec_NetAddressZZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_CVec_NetAddressZZ* orig_conv = (LDKCOption_CVec_NetAddressZZ*)orig;
LDKCOption_CVec_NetAddressZZ *ret_copy = MALLOC(sizeof(LDKCOption_CVec_NetAddressZZ), "LDKCOption_CVec_NetAddressZZ");
*ret_copy = COption_CVec_NetAddressZZ_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
// Warning: we need a move here but no clone is available for LDKScoringParameters
LDKCResult_ScoringParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ScoringParametersDecodeErrorZ), "LDKCResult_ScoringParametersDecodeErrorZ");
*ret_conv = CResult_ScoringParametersDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ScoringParametersDecodeErrorZ_err"))) TS_CResult_ScoringParametersDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ScoringParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ScoringParametersDecodeErrorZ), "LDKCResult_ScoringParametersDecodeErrorZ");
*ret_conv = CResult_ScoringParametersDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ScoringParametersDecodeErrorZ_is_ok"))) TS_CResult_ScoringParametersDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ScoringParametersDecodeErrorZ_free"))) TS_CResult_ScoringParametersDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ScoringParametersDecodeErrorZ _res_conv = *(LDKCResult_ScoringParametersDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
o_conv = InitFeatures_clone(&o_conv);
LDKCResult_InitFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitFeaturesDecodeErrorZ), "LDKCResult_InitFeaturesDecodeErrorZ");
*ret_conv = CResult_InitFeaturesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_InitFeaturesDecodeErrorZ_err"))) TS_CResult_InitFeaturesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_InitFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitFeaturesDecodeErrorZ), "LDKCResult_InitFeaturesDecodeErrorZ");
*ret_conv = CResult_InitFeaturesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_InitFeaturesDecodeErrorZ_is_ok"))) TS_CResult_InitFeaturesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_InitFeaturesDecodeErrorZ_free"))) TS_CResult_InitFeaturesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_InitFeaturesDecodeErrorZ _res_conv = *(LDKCResult_InitFeaturesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
o_conv = ChannelFeatures_clone(&o_conv);
LDKCResult_ChannelFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelFeaturesDecodeErrorZ), "LDKCResult_ChannelFeaturesDecodeErrorZ");
*ret_conv = CResult_ChannelFeaturesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelFeaturesDecodeErrorZ_err"))) TS_CResult_ChannelFeaturesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelFeaturesDecodeErrorZ), "LDKCResult_ChannelFeaturesDecodeErrorZ");
*ret_conv = CResult_ChannelFeaturesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelFeaturesDecodeErrorZ_is_ok"))) TS_CResult_ChannelFeaturesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelFeaturesDecodeErrorZ_free"))) TS_CResult_ChannelFeaturesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelFeaturesDecodeErrorZ _res_conv = *(LDKCResult_ChannelFeaturesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
o_conv = NodeFeatures_clone(&o_conv);
LDKCResult_NodeFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeFeaturesDecodeErrorZ), "LDKCResult_NodeFeaturesDecodeErrorZ");
*ret_conv = CResult_NodeFeaturesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeFeaturesDecodeErrorZ_err"))) TS_CResult_NodeFeaturesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NodeFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeFeaturesDecodeErrorZ), "LDKCResult_NodeFeaturesDecodeErrorZ");
*ret_conv = CResult_NodeFeaturesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NodeFeaturesDecodeErrorZ_is_ok"))) TS_CResult_NodeFeaturesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NodeFeaturesDecodeErrorZ_free"))) TS_CResult_NodeFeaturesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NodeFeaturesDecodeErrorZ _res_conv = *(LDKCResult_NodeFeaturesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
o_conv = InvoiceFeatures_clone(&o_conv);
LDKCResult_InvoiceFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InvoiceFeaturesDecodeErrorZ), "LDKCResult_InvoiceFeaturesDecodeErrorZ");
*ret_conv = CResult_InvoiceFeaturesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_InvoiceFeaturesDecodeErrorZ_err"))) TS_CResult_InvoiceFeaturesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_InvoiceFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InvoiceFeaturesDecodeErrorZ), "LDKCResult_InvoiceFeaturesDecodeErrorZ");
*ret_conv = CResult_InvoiceFeaturesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_InvoiceFeaturesDecodeErrorZ_is_ok"))) TS_CResult_InvoiceFeaturesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_InvoiceFeaturesDecodeErrorZ_free"))) TS_CResult_InvoiceFeaturesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_InvoiceFeaturesDecodeErrorZ _res_conv = *(LDKCResult_InvoiceFeaturesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
o_conv = ChannelTypeFeatures_clone(&o_conv);
LDKCResult_ChannelTypeFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTypeFeaturesDecodeErrorZ), "LDKCResult_ChannelTypeFeaturesDecodeErrorZ");
*ret_conv = CResult_ChannelTypeFeaturesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelTypeFeaturesDecodeErrorZ_err"))) TS_CResult_ChannelTypeFeaturesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelTypeFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTypeFeaturesDecodeErrorZ), "LDKCResult_ChannelTypeFeaturesDecodeErrorZ");
*ret_conv = CResult_ChannelTypeFeaturesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelTypeFeaturesDecodeErrorZ_is_ok"))) TS_CResult_ChannelTypeFeaturesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelTypeFeaturesDecodeErrorZ_free"))) TS_CResult_ChannelTypeFeaturesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelTypeFeaturesDecodeErrorZ _res_conv = *(LDKCResult_ChannelTypeFeaturesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
}
uint32_t __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_ok"))) TS_CResult_NetAddressDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKNetAddress o_conv = *(LDKNetAddress*)(o_ptr);
- o_conv = NetAddress_clone((LDKNetAddress*)(((uint64_t)o) & ~1));
+ o_conv = NetAddress_clone((LDKNetAddress*)(((uintptr_t)o) & ~1));
LDKCResult_NetAddressDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetAddressDecodeErrorZ), "LDKCResult_NetAddressDecodeErrorZ");
*ret_conv = CResult_NetAddressDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_err"))) TS_CResult_NetAddressDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NetAddressDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetAddressDecodeErrorZ), "LDKCResult_NetAddressDecodeErrorZ");
*ret_conv = CResult_NetAddressDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_is_ok"))) TS_CResult_NetAddressDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_free"))) TS_CResult_NetAddressDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NetAddressDecodeErrorZ _res_conv = *(LDKCResult_NetAddressDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NetAddressDecodeErrorZ_clone_ptr(LDKCResult_NetAddressDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_NetAddressDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetAddressDecodeErrorZ), "LDKCResult_NetAddressDecodeErrorZ");
*ret_conv = CResult_NetAddressDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_clone_ptr"))) TS_CResult_NetAddressDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NetAddressDecodeErrorZ_clone_ptr"))) TS_CResult_NetAddressDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NetAddressDecodeErrorZ* arg_conv = (LDKCResult_NetAddressDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NetAddressDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NetAddressDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NetAddressDecodeErrorZ* orig_conv = (LDKCResult_NetAddressDecodeErrorZ*)(orig & ~1);
LDKCResult_NetAddressDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetAddressDecodeErrorZ), "LDKCResult_NetAddressDecodeErrorZ");
*ret_conv = CResult_NetAddressDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_UpdateAddHTLCZ_free"))) TS_CVec_UpdateAddHTLCZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKUpdateAddHTLC), "LDKCVec_UpdateAddHTLCZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t p = 0; p < _res_constr.datalen; p++) {
uint32_t _res_conv_15 = _res_vals[p];
LDKUpdateAddHTLC _res_conv_15_conv;
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKUpdateFulfillHTLC), "LDKCVec_UpdateFulfillHTLCZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t t = 0; t < _res_constr.datalen; t++) {
uint32_t _res_conv_19 = _res_vals[t];
LDKUpdateFulfillHTLC _res_conv_19_conv;
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKUpdateFailHTLC), "LDKCVec_UpdateFailHTLCZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t q = 0; q < _res_constr.datalen; q++) {
uint32_t _res_conv_16 = _res_vals[q];
LDKUpdateFailHTLC _res_conv_16_conv;
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKUpdateFailMalformedHTLC), "LDKCVec_UpdateFailMalformedHTLCZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t z = 0; z < _res_constr.datalen; z++) {
uint32_t _res_conv_25 = _res_vals[z];
LDKUpdateFailMalformedHTLC _res_conv_25_conv;
o_conv = AcceptChannel_clone(&o_conv);
LDKCResult_AcceptChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AcceptChannelDecodeErrorZ), "LDKCResult_AcceptChannelDecodeErrorZ");
*ret_conv = CResult_AcceptChannelDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_err"))) TS_CResult_AcceptChannelDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_AcceptChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AcceptChannelDecodeErrorZ), "LDKCResult_AcceptChannelDecodeErrorZ");
*ret_conv = CResult_AcceptChannelDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_is_ok"))) TS_CResult_AcceptChannelDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_free"))) TS_CResult_AcceptChannelDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_AcceptChannelDecodeErrorZ _res_conv = *(LDKCResult_AcceptChannelDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_AcceptChannelDecodeErrorZ_clone_ptr(LDKCResult_AcceptChannelDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_AcceptChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AcceptChannelDecodeErrorZ), "LDKCResult_AcceptChannelDecodeErrorZ");
*ret_conv = CResult_AcceptChannelDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_clone_ptr"))) TS_CResult_AcceptChannelDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_AcceptChannelDecodeErrorZ_clone_ptr"))) TS_CResult_AcceptChannelDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_AcceptChannelDecodeErrorZ* arg_conv = (LDKCResult_AcceptChannelDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_AcceptChannelDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_AcceptChannelDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_AcceptChannelDecodeErrorZ* orig_conv = (LDKCResult_AcceptChannelDecodeErrorZ*)(orig & ~1);
LDKCResult_AcceptChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AcceptChannelDecodeErrorZ), "LDKCResult_AcceptChannelDecodeErrorZ");
*ret_conv = CResult_AcceptChannelDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_ok"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_ok(uint32_t o) {
o_conv = AnnouncementSignatures_clone(&o_conv);
LDKCResult_AnnouncementSignaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ), "LDKCResult_AnnouncementSignaturesDecodeErrorZ");
*ret_conv = CResult_AnnouncementSignaturesDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_err"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_AnnouncementSignaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ), "LDKCResult_AnnouncementSignaturesDecodeErrorZ");
*ret_conv = CResult_AnnouncementSignaturesDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_is_ok"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_free"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_AnnouncementSignaturesDecodeErrorZ _res_conv = *(LDKCResult_AnnouncementSignaturesDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr(LDKCResult_AnnouncementSignaturesDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_AnnouncementSignaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ), "LDKCResult_AnnouncementSignaturesDecodeErrorZ");
*ret_conv = CResult_AnnouncementSignaturesDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr"))) TS_CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_AnnouncementSignaturesDecodeErrorZ* arg_conv = (LDKCResult_AnnouncementSignaturesDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_AnnouncementSignaturesDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_AnnouncementSignaturesDecodeErrorZ* orig_conv = (LDKCResult_AnnouncementSignaturesDecodeErrorZ*)(orig & ~1);
LDKCResult_AnnouncementSignaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ), "LDKCResult_AnnouncementSignaturesDecodeErrorZ");
*ret_conv = CResult_AnnouncementSignaturesDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_ok"))) TS_CResult_ChannelReestablishDecodeErrorZ_ok(uint32_t o) {
o_conv = ChannelReestablish_clone(&o_conv);
LDKCResult_ChannelReestablishDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelReestablishDecodeErrorZ), "LDKCResult_ChannelReestablishDecodeErrorZ");
*ret_conv = CResult_ChannelReestablishDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_err"))) TS_CResult_ChannelReestablishDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelReestablishDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelReestablishDecodeErrorZ), "LDKCResult_ChannelReestablishDecodeErrorZ");
*ret_conv = CResult_ChannelReestablishDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_is_ok"))) TS_CResult_ChannelReestablishDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_free"))) TS_CResult_ChannelReestablishDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelReestablishDecodeErrorZ _res_conv = *(LDKCResult_ChannelReestablishDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelReestablishDecodeErrorZ_clone_ptr(LDKCResult_ChannelReestablishDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelReestablishDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelReestablishDecodeErrorZ), "LDKCResult_ChannelReestablishDecodeErrorZ");
*ret_conv = CResult_ChannelReestablishDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelReestablishDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelReestablishDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelReestablishDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelReestablishDecodeErrorZ* arg_conv = (LDKCResult_ChannelReestablishDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelReestablishDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelReestablishDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelReestablishDecodeErrorZ* orig_conv = (LDKCResult_ChannelReestablishDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelReestablishDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelReestablishDecodeErrorZ), "LDKCResult_ChannelReestablishDecodeErrorZ");
*ret_conv = CResult_ChannelReestablishDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_ok"))) TS_CResult_ClosingSignedDecodeErrorZ_ok(uint32_t o) {
o_conv = ClosingSigned_clone(&o_conv);
LDKCResult_ClosingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedDecodeErrorZ), "LDKCResult_ClosingSignedDecodeErrorZ");
*ret_conv = CResult_ClosingSignedDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_err"))) TS_CResult_ClosingSignedDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ClosingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedDecodeErrorZ), "LDKCResult_ClosingSignedDecodeErrorZ");
*ret_conv = CResult_ClosingSignedDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_is_ok"))) TS_CResult_ClosingSignedDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_free"))) TS_CResult_ClosingSignedDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ClosingSignedDecodeErrorZ _res_conv = *(LDKCResult_ClosingSignedDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ClosingSignedDecodeErrorZ_clone_ptr(LDKCResult_ClosingSignedDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ClosingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedDecodeErrorZ), "LDKCResult_ClosingSignedDecodeErrorZ");
*ret_conv = CResult_ClosingSignedDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_clone_ptr"))) TS_CResult_ClosingSignedDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ClosingSignedDecodeErrorZ_clone_ptr"))) TS_CResult_ClosingSignedDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ClosingSignedDecodeErrorZ* arg_conv = (LDKCResult_ClosingSignedDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ClosingSignedDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ClosingSignedDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ClosingSignedDecodeErrorZ* orig_conv = (LDKCResult_ClosingSignedDecodeErrorZ*)(orig & ~1);
LDKCResult_ClosingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedDecodeErrorZ), "LDKCResult_ClosingSignedDecodeErrorZ");
*ret_conv = CResult_ClosingSignedDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_ok"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_ok(uint32_t o) {
o_conv = ClosingSignedFeeRange_clone(&o_conv);
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ), "LDKCResult_ClosingSignedFeeRangeDecodeErrorZ");
*ret_conv = CResult_ClosingSignedFeeRangeDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_err"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ), "LDKCResult_ClosingSignedFeeRangeDecodeErrorZ");
*ret_conv = CResult_ClosingSignedFeeRangeDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_is_ok"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_free"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ _res_conv = *(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ), "LDKCResult_ClosingSignedFeeRangeDecodeErrorZ");
*ret_conv = CResult_ClosingSignedFeeRangeDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr"))) TS_CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* arg_conv = (LDKCResult_ClosingSignedFeeRangeDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ClosingSignedFeeRangeDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* orig_conv = (LDKCResult_ClosingSignedFeeRangeDecodeErrorZ*)(orig & ~1);
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ), "LDKCResult_ClosingSignedFeeRangeDecodeErrorZ");
*ret_conv = CResult_ClosingSignedFeeRangeDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_ok"))) TS_CResult_CommitmentSignedDecodeErrorZ_ok(uint32_t o) {
o_conv = CommitmentSigned_clone(&o_conv);
LDKCResult_CommitmentSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentSignedDecodeErrorZ), "LDKCResult_CommitmentSignedDecodeErrorZ");
*ret_conv = CResult_CommitmentSignedDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_err"))) TS_CResult_CommitmentSignedDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_CommitmentSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentSignedDecodeErrorZ), "LDKCResult_CommitmentSignedDecodeErrorZ");
*ret_conv = CResult_CommitmentSignedDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_is_ok"))) TS_CResult_CommitmentSignedDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_free"))) TS_CResult_CommitmentSignedDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_CommitmentSignedDecodeErrorZ _res_conv = *(LDKCResult_CommitmentSignedDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_CommitmentSignedDecodeErrorZ_clone_ptr(LDKCResult_CommitmentSignedDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_CommitmentSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentSignedDecodeErrorZ), "LDKCResult_CommitmentSignedDecodeErrorZ");
*ret_conv = CResult_CommitmentSignedDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_clone_ptr"))) TS_CResult_CommitmentSignedDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_CommitmentSignedDecodeErrorZ_clone_ptr"))) TS_CResult_CommitmentSignedDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_CommitmentSignedDecodeErrorZ* arg_conv = (LDKCResult_CommitmentSignedDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_CommitmentSignedDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_CommitmentSignedDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_CommitmentSignedDecodeErrorZ* orig_conv = (LDKCResult_CommitmentSignedDecodeErrorZ*)(orig & ~1);
LDKCResult_CommitmentSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentSignedDecodeErrorZ), "LDKCResult_CommitmentSignedDecodeErrorZ");
*ret_conv = CResult_CommitmentSignedDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_ok"))) TS_CResult_FundingCreatedDecodeErrorZ_ok(uint32_t o) {
o_conv = FundingCreated_clone(&o_conv);
LDKCResult_FundingCreatedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingCreatedDecodeErrorZ), "LDKCResult_FundingCreatedDecodeErrorZ");
*ret_conv = CResult_FundingCreatedDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_err"))) TS_CResult_FundingCreatedDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_FundingCreatedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingCreatedDecodeErrorZ), "LDKCResult_FundingCreatedDecodeErrorZ");
*ret_conv = CResult_FundingCreatedDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_is_ok"))) TS_CResult_FundingCreatedDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_free"))) TS_CResult_FundingCreatedDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_FundingCreatedDecodeErrorZ _res_conv = *(LDKCResult_FundingCreatedDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_FundingCreatedDecodeErrorZ_clone_ptr(LDKCResult_FundingCreatedDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_FundingCreatedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingCreatedDecodeErrorZ), "LDKCResult_FundingCreatedDecodeErrorZ");
*ret_conv = CResult_FundingCreatedDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_clone_ptr"))) TS_CResult_FundingCreatedDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_FundingCreatedDecodeErrorZ_clone_ptr"))) TS_CResult_FundingCreatedDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_FundingCreatedDecodeErrorZ* arg_conv = (LDKCResult_FundingCreatedDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_FundingCreatedDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_FundingCreatedDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_FundingCreatedDecodeErrorZ* orig_conv = (LDKCResult_FundingCreatedDecodeErrorZ*)(orig & ~1);
LDKCResult_FundingCreatedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingCreatedDecodeErrorZ), "LDKCResult_FundingCreatedDecodeErrorZ");
*ret_conv = CResult_FundingCreatedDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_ok"))) TS_CResult_FundingSignedDecodeErrorZ_ok(uint32_t o) {
o_conv = FundingSigned_clone(&o_conv);
LDKCResult_FundingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingSignedDecodeErrorZ), "LDKCResult_FundingSignedDecodeErrorZ");
*ret_conv = CResult_FundingSignedDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_err"))) TS_CResult_FundingSignedDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_FundingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingSignedDecodeErrorZ), "LDKCResult_FundingSignedDecodeErrorZ");
*ret_conv = CResult_FundingSignedDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_is_ok"))) TS_CResult_FundingSignedDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_free"))) TS_CResult_FundingSignedDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_FundingSignedDecodeErrorZ _res_conv = *(LDKCResult_FundingSignedDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_FundingSignedDecodeErrorZ_clone_ptr(LDKCResult_FundingSignedDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_FundingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingSignedDecodeErrorZ), "LDKCResult_FundingSignedDecodeErrorZ");
*ret_conv = CResult_FundingSignedDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_clone_ptr"))) TS_CResult_FundingSignedDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_FundingSignedDecodeErrorZ_clone_ptr"))) TS_CResult_FundingSignedDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_FundingSignedDecodeErrorZ* arg_conv = (LDKCResult_FundingSignedDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_FundingSignedDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_FundingSignedDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_FundingSignedDecodeErrorZ* orig_conv = (LDKCResult_FundingSignedDecodeErrorZ*)(orig & ~1);
LDKCResult_FundingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingSignedDecodeErrorZ), "LDKCResult_FundingSignedDecodeErrorZ");
*ret_conv = CResult_FundingSignedDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_ok"))) TS_CResult_FundingLockedDecodeErrorZ_ok(uint32_t o) {
o_conv = FundingLocked_clone(&o_conv);
LDKCResult_FundingLockedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingLockedDecodeErrorZ), "LDKCResult_FundingLockedDecodeErrorZ");
*ret_conv = CResult_FundingLockedDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_err"))) TS_CResult_FundingLockedDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_FundingLockedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingLockedDecodeErrorZ), "LDKCResult_FundingLockedDecodeErrorZ");
*ret_conv = CResult_FundingLockedDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_is_ok"))) TS_CResult_FundingLockedDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_free"))) TS_CResult_FundingLockedDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_FundingLockedDecodeErrorZ _res_conv = *(LDKCResult_FundingLockedDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_FundingLockedDecodeErrorZ_clone_ptr(LDKCResult_FundingLockedDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_FundingLockedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingLockedDecodeErrorZ), "LDKCResult_FundingLockedDecodeErrorZ");
*ret_conv = CResult_FundingLockedDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_clone_ptr"))) TS_CResult_FundingLockedDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_FundingLockedDecodeErrorZ_clone_ptr"))) TS_CResult_FundingLockedDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_FundingLockedDecodeErrorZ* arg_conv = (LDKCResult_FundingLockedDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_FundingLockedDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_FundingLockedDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_FundingLockedDecodeErrorZ* orig_conv = (LDKCResult_FundingLockedDecodeErrorZ*)(orig & ~1);
LDKCResult_FundingLockedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingLockedDecodeErrorZ), "LDKCResult_FundingLockedDecodeErrorZ");
*ret_conv = CResult_FundingLockedDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_InitDecodeErrorZ_ok"))) TS_CResult_InitDecodeErrorZ_ok(uint32_t o) {
o_conv = Init_clone(&o_conv);
LDKCResult_InitDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitDecodeErrorZ), "LDKCResult_InitDecodeErrorZ");
*ret_conv = CResult_InitDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_InitDecodeErrorZ_err"))) TS_CResult_InitDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_InitDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitDecodeErrorZ), "LDKCResult_InitDecodeErrorZ");
*ret_conv = CResult_InitDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_InitDecodeErrorZ_is_ok"))) TS_CResult_InitDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_InitDecodeErrorZ_free"))) TS_CResult_InitDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_InitDecodeErrorZ _res_conv = *(LDKCResult_InitDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_InitDecodeErrorZ_clone_ptr(LDKCResult_InitDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_InitDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitDecodeErrorZ), "LDKCResult_InitDecodeErrorZ");
*ret_conv = CResult_InitDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_InitDecodeErrorZ_clone_ptr"))) TS_CResult_InitDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_InitDecodeErrorZ_clone_ptr"))) TS_CResult_InitDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_InitDecodeErrorZ* arg_conv = (LDKCResult_InitDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_InitDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_InitDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_InitDecodeErrorZ* orig_conv = (LDKCResult_InitDecodeErrorZ*)(orig & ~1);
LDKCResult_InitDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitDecodeErrorZ), "LDKCResult_InitDecodeErrorZ");
*ret_conv = CResult_InitDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_ok"))) TS_CResult_OpenChannelDecodeErrorZ_ok(uint32_t o) {
o_conv = OpenChannel_clone(&o_conv);
LDKCResult_OpenChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OpenChannelDecodeErrorZ), "LDKCResult_OpenChannelDecodeErrorZ");
*ret_conv = CResult_OpenChannelDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_err"))) TS_CResult_OpenChannelDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_OpenChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OpenChannelDecodeErrorZ), "LDKCResult_OpenChannelDecodeErrorZ");
*ret_conv = CResult_OpenChannelDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_is_ok"))) TS_CResult_OpenChannelDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_free"))) TS_CResult_OpenChannelDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_OpenChannelDecodeErrorZ _res_conv = *(LDKCResult_OpenChannelDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_OpenChannelDecodeErrorZ_clone_ptr(LDKCResult_OpenChannelDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_OpenChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OpenChannelDecodeErrorZ), "LDKCResult_OpenChannelDecodeErrorZ");
*ret_conv = CResult_OpenChannelDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_clone_ptr"))) TS_CResult_OpenChannelDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_OpenChannelDecodeErrorZ_clone_ptr"))) TS_CResult_OpenChannelDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_OpenChannelDecodeErrorZ* arg_conv = (LDKCResult_OpenChannelDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_OpenChannelDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_OpenChannelDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_OpenChannelDecodeErrorZ* orig_conv = (LDKCResult_OpenChannelDecodeErrorZ*)(orig & ~1);
LDKCResult_OpenChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OpenChannelDecodeErrorZ), "LDKCResult_OpenChannelDecodeErrorZ");
*ret_conv = CResult_OpenChannelDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_ok"))) TS_CResult_RevokeAndACKDecodeErrorZ_ok(uint32_t o) {
o_conv = RevokeAndACK_clone(&o_conv);
LDKCResult_RevokeAndACKDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RevokeAndACKDecodeErrorZ), "LDKCResult_RevokeAndACKDecodeErrorZ");
*ret_conv = CResult_RevokeAndACKDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_err"))) TS_CResult_RevokeAndACKDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_RevokeAndACKDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RevokeAndACKDecodeErrorZ), "LDKCResult_RevokeAndACKDecodeErrorZ");
*ret_conv = CResult_RevokeAndACKDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_is_ok"))) TS_CResult_RevokeAndACKDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_free"))) TS_CResult_RevokeAndACKDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RevokeAndACKDecodeErrorZ _res_conv = *(LDKCResult_RevokeAndACKDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RevokeAndACKDecodeErrorZ_clone_ptr(LDKCResult_RevokeAndACKDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_RevokeAndACKDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RevokeAndACKDecodeErrorZ), "LDKCResult_RevokeAndACKDecodeErrorZ");
*ret_conv = CResult_RevokeAndACKDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_clone_ptr"))) TS_CResult_RevokeAndACKDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RevokeAndACKDecodeErrorZ_clone_ptr"))) TS_CResult_RevokeAndACKDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_RevokeAndACKDecodeErrorZ* arg_conv = (LDKCResult_RevokeAndACKDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_RevokeAndACKDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RevokeAndACKDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RevokeAndACKDecodeErrorZ* orig_conv = (LDKCResult_RevokeAndACKDecodeErrorZ*)(orig & ~1);
LDKCResult_RevokeAndACKDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RevokeAndACKDecodeErrorZ), "LDKCResult_RevokeAndACKDecodeErrorZ");
*ret_conv = CResult_RevokeAndACKDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_ok"))) TS_CResult_ShutdownDecodeErrorZ_ok(uint32_t o) {
o_conv = Shutdown_clone(&o_conv);
LDKCResult_ShutdownDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownDecodeErrorZ), "LDKCResult_ShutdownDecodeErrorZ");
*ret_conv = CResult_ShutdownDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_err"))) TS_CResult_ShutdownDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ShutdownDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownDecodeErrorZ), "LDKCResult_ShutdownDecodeErrorZ");
*ret_conv = CResult_ShutdownDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_is_ok"))) TS_CResult_ShutdownDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_free"))) TS_CResult_ShutdownDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ShutdownDecodeErrorZ _res_conv = *(LDKCResult_ShutdownDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ShutdownDecodeErrorZ_clone_ptr(LDKCResult_ShutdownDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ShutdownDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownDecodeErrorZ), "LDKCResult_ShutdownDecodeErrorZ");
*ret_conv = CResult_ShutdownDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_clone_ptr"))) TS_CResult_ShutdownDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ShutdownDecodeErrorZ_clone_ptr"))) TS_CResult_ShutdownDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ShutdownDecodeErrorZ* arg_conv = (LDKCResult_ShutdownDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ShutdownDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ShutdownDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ShutdownDecodeErrorZ* orig_conv = (LDKCResult_ShutdownDecodeErrorZ*)(orig & ~1);
LDKCResult_ShutdownDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownDecodeErrorZ), "LDKCResult_ShutdownDecodeErrorZ");
*ret_conv = CResult_ShutdownDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_ok"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_ok(uint32_t o) {
o_conv = UpdateFailHTLC_clone(&o_conv);
LDKCResult_UpdateFailHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ), "LDKCResult_UpdateFailHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailHTLCDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_err"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UpdateFailHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ), "LDKCResult_UpdateFailHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailHTLCDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_is_ok"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_free"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UpdateFailHTLCDecodeErrorZ _res_conv = *(LDKCResult_UpdateFailHTLCDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr(LDKCResult_UpdateFailHTLCDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UpdateFailHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ), "LDKCResult_UpdateFailHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailHTLCDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UpdateFailHTLCDecodeErrorZ* arg_conv = (LDKCResult_UpdateFailHTLCDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UpdateFailHTLCDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UpdateFailHTLCDecodeErrorZ* orig_conv = (LDKCResult_UpdateFailHTLCDecodeErrorZ*)(orig & ~1);
LDKCResult_UpdateFailHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ), "LDKCResult_UpdateFailHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailHTLCDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_ok"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_ok(uint32_t o) {
o_conv = UpdateFailMalformedHTLC_clone(&o_conv);
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ), "LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailMalformedHTLCDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_err"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ), "LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailMalformedHTLCDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_is_ok"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_free"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ _res_conv = *(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ), "LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* arg_conv = (LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* orig_conv = (LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ*)(orig & ~1);
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ), "LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFailMalformedHTLCDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_ok"))) TS_CResult_UpdateFeeDecodeErrorZ_ok(uint32_t o) {
o_conv = UpdateFee_clone(&o_conv);
LDKCResult_UpdateFeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFeeDecodeErrorZ), "LDKCResult_UpdateFeeDecodeErrorZ");
*ret_conv = CResult_UpdateFeeDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_err"))) TS_CResult_UpdateFeeDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UpdateFeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFeeDecodeErrorZ), "LDKCResult_UpdateFeeDecodeErrorZ");
*ret_conv = CResult_UpdateFeeDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_is_ok"))) TS_CResult_UpdateFeeDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_free"))) TS_CResult_UpdateFeeDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UpdateFeeDecodeErrorZ _res_conv = *(LDKCResult_UpdateFeeDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UpdateFeeDecodeErrorZ_clone_ptr(LDKCResult_UpdateFeeDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UpdateFeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFeeDecodeErrorZ), "LDKCResult_UpdateFeeDecodeErrorZ");
*ret_conv = CResult_UpdateFeeDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFeeDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UpdateFeeDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFeeDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UpdateFeeDecodeErrorZ* arg_conv = (LDKCResult_UpdateFeeDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UpdateFeeDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UpdateFeeDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UpdateFeeDecodeErrorZ* orig_conv = (LDKCResult_UpdateFeeDecodeErrorZ*)(orig & ~1);
LDKCResult_UpdateFeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFeeDecodeErrorZ), "LDKCResult_UpdateFeeDecodeErrorZ");
*ret_conv = CResult_UpdateFeeDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_ok"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_ok(uint32_t o) {
o_conv = UpdateFulfillHTLC_clone(&o_conv);
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ), "LDKCResult_UpdateFulfillHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFulfillHTLCDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_err"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ), "LDKCResult_UpdateFulfillHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFulfillHTLCDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_is_ok"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_free"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UpdateFulfillHTLCDecodeErrorZ _res_conv = *(LDKCResult_UpdateFulfillHTLCDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr(LDKCResult_UpdateFulfillHTLCDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ), "LDKCResult_UpdateFulfillHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFulfillHTLCDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* arg_conv = (LDKCResult_UpdateFulfillHTLCDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UpdateFulfillHTLCDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* orig_conv = (LDKCResult_UpdateFulfillHTLCDecodeErrorZ*)(orig & ~1);
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ), "LDKCResult_UpdateFulfillHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateFulfillHTLCDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_ok"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_ok(uint32_t o) {
o_conv = UpdateAddHTLC_clone(&o_conv);
LDKCResult_UpdateAddHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ), "LDKCResult_UpdateAddHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateAddHTLCDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_err"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UpdateAddHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ), "LDKCResult_UpdateAddHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateAddHTLCDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_is_ok"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_free"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UpdateAddHTLCDecodeErrorZ _res_conv = *(LDKCResult_UpdateAddHTLCDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr(LDKCResult_UpdateAddHTLCDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UpdateAddHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ), "LDKCResult_UpdateAddHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateAddHTLCDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr"))) TS_CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UpdateAddHTLCDecodeErrorZ* arg_conv = (LDKCResult_UpdateAddHTLCDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UpdateAddHTLCDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UpdateAddHTLCDecodeErrorZ* orig_conv = (LDKCResult_UpdateAddHTLCDecodeErrorZ*)(orig & ~1);
LDKCResult_UpdateAddHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ), "LDKCResult_UpdateAddHTLCDecodeErrorZ");
*ret_conv = CResult_UpdateAddHTLCDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PingDecodeErrorZ_ok"))) TS_CResult_PingDecodeErrorZ_ok(uint32_t o) {
o_conv = Ping_clone(&o_conv);
LDKCResult_PingDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PingDecodeErrorZ), "LDKCResult_PingDecodeErrorZ");
*ret_conv = CResult_PingDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PingDecodeErrorZ_err"))) TS_CResult_PingDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_PingDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PingDecodeErrorZ), "LDKCResult_PingDecodeErrorZ");
*ret_conv = CResult_PingDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PingDecodeErrorZ_is_ok"))) TS_CResult_PingDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PingDecodeErrorZ_free"))) TS_CResult_PingDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PingDecodeErrorZ _res_conv = *(LDKCResult_PingDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PingDecodeErrorZ_clone_ptr(LDKCResult_PingDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_PingDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PingDecodeErrorZ), "LDKCResult_PingDecodeErrorZ");
*ret_conv = CResult_PingDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PingDecodeErrorZ_clone_ptr"))) TS_CResult_PingDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PingDecodeErrorZ_clone_ptr"))) TS_CResult_PingDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_PingDecodeErrorZ* arg_conv = (LDKCResult_PingDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_PingDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PingDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PingDecodeErrorZ* orig_conv = (LDKCResult_PingDecodeErrorZ*)(orig & ~1);
LDKCResult_PingDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PingDecodeErrorZ), "LDKCResult_PingDecodeErrorZ");
*ret_conv = CResult_PingDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PongDecodeErrorZ_ok"))) TS_CResult_PongDecodeErrorZ_ok(uint32_t o) {
o_conv = Pong_clone(&o_conv);
LDKCResult_PongDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PongDecodeErrorZ), "LDKCResult_PongDecodeErrorZ");
*ret_conv = CResult_PongDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PongDecodeErrorZ_err"))) TS_CResult_PongDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_PongDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PongDecodeErrorZ), "LDKCResult_PongDecodeErrorZ");
*ret_conv = CResult_PongDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PongDecodeErrorZ_is_ok"))) TS_CResult_PongDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PongDecodeErrorZ_free"))) TS_CResult_PongDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PongDecodeErrorZ _res_conv = *(LDKCResult_PongDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PongDecodeErrorZ_clone_ptr(LDKCResult_PongDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_PongDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PongDecodeErrorZ), "LDKCResult_PongDecodeErrorZ");
*ret_conv = CResult_PongDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PongDecodeErrorZ_clone_ptr"))) TS_CResult_PongDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PongDecodeErrorZ_clone_ptr"))) TS_CResult_PongDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_PongDecodeErrorZ* arg_conv = (LDKCResult_PongDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_PongDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PongDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PongDecodeErrorZ* orig_conv = (LDKCResult_PongDecodeErrorZ*)(orig & ~1);
LDKCResult_PongDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PongDecodeErrorZ), "LDKCResult_PongDecodeErrorZ");
*ret_conv = CResult_PongDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_ok"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_ok(uint32_t o) {
o_conv = UnsignedChannelAnnouncement_clone(&o_conv);
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ), "LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelAnnouncementDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_err"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ), "LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelAnnouncementDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_is_ok"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_free"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ _res_conv = *(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ), "LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* arg_conv = (LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* orig_conv = (LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ*)(orig & ~1);
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ), "LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelAnnouncementDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_ok"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_ok(uint32_t o) {
o_conv = ChannelAnnouncement_clone(&o_conv);
LDKCResult_ChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ), "LDKCResult_ChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_ChannelAnnouncementDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_err"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ), "LDKCResult_ChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_ChannelAnnouncementDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_is_ok"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_free"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelAnnouncementDecodeErrorZ _res_conv = *(LDKCResult_ChannelAnnouncementDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr(LDKCResult_ChannelAnnouncementDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ), "LDKCResult_ChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_ChannelAnnouncementDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelAnnouncementDecodeErrorZ* arg_conv = (LDKCResult_ChannelAnnouncementDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelAnnouncementDecodeErrorZ* orig_conv = (LDKCResult_ChannelAnnouncementDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ), "LDKCResult_ChannelAnnouncementDecodeErrorZ");
*ret_conv = CResult_ChannelAnnouncementDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_ok"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_ok(uint32_t o) {
o_conv = UnsignedChannelUpdate_clone(&o_conv);
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ), "LDKCResult_UnsignedChannelUpdateDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelUpdateDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_err"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ), "LDKCResult_UnsignedChannelUpdateDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelUpdateDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_is_ok"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_free"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UnsignedChannelUpdateDecodeErrorZ _res_conv = *(LDKCResult_UnsignedChannelUpdateDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr(LDKCResult_UnsignedChannelUpdateDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ), "LDKCResult_UnsignedChannelUpdateDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelUpdateDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* arg_conv = (LDKCResult_UnsignedChannelUpdateDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UnsignedChannelUpdateDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* orig_conv = (LDKCResult_UnsignedChannelUpdateDecodeErrorZ*)(orig & ~1);
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ), "LDKCResult_UnsignedChannelUpdateDecodeErrorZ");
*ret_conv = CResult_UnsignedChannelUpdateDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_ok"))) TS_CResult_ChannelUpdateDecodeErrorZ_ok(uint32_t o) {
o_conv = ChannelUpdate_clone(&o_conv);
LDKCResult_ChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelUpdateDecodeErrorZ), "LDKCResult_ChannelUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelUpdateDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_err"))) TS_CResult_ChannelUpdateDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelUpdateDecodeErrorZ), "LDKCResult_ChannelUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelUpdateDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_is_ok"))) TS_CResult_ChannelUpdateDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_free"))) TS_CResult_ChannelUpdateDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ChannelUpdateDecodeErrorZ _res_conv = *(LDKCResult_ChannelUpdateDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ChannelUpdateDecodeErrorZ_clone_ptr(LDKCResult_ChannelUpdateDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelUpdateDecodeErrorZ), "LDKCResult_ChannelUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelUpdateDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ChannelUpdateDecodeErrorZ_clone_ptr"))) TS_CResult_ChannelUpdateDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ChannelUpdateDecodeErrorZ* arg_conv = (LDKCResult_ChannelUpdateDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ChannelUpdateDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ChannelUpdateDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ChannelUpdateDecodeErrorZ* orig_conv = (LDKCResult_ChannelUpdateDecodeErrorZ*)(orig & ~1);
LDKCResult_ChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelUpdateDecodeErrorZ), "LDKCResult_ChannelUpdateDecodeErrorZ");
*ret_conv = CResult_ChannelUpdateDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_ok"))) TS_CResult_ErrorMessageDecodeErrorZ_ok(uint32_t o) {
o_conv = ErrorMessage_clone(&o_conv);
LDKCResult_ErrorMessageDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ErrorMessageDecodeErrorZ), "LDKCResult_ErrorMessageDecodeErrorZ");
*ret_conv = CResult_ErrorMessageDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_err"))) TS_CResult_ErrorMessageDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ErrorMessageDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ErrorMessageDecodeErrorZ), "LDKCResult_ErrorMessageDecodeErrorZ");
*ret_conv = CResult_ErrorMessageDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_is_ok"))) TS_CResult_ErrorMessageDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_free"))) TS_CResult_ErrorMessageDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ErrorMessageDecodeErrorZ _res_conv = *(LDKCResult_ErrorMessageDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ErrorMessageDecodeErrorZ_clone_ptr(LDKCResult_ErrorMessageDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ErrorMessageDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ErrorMessageDecodeErrorZ), "LDKCResult_ErrorMessageDecodeErrorZ");
*ret_conv = CResult_ErrorMessageDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_clone_ptr"))) TS_CResult_ErrorMessageDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ErrorMessageDecodeErrorZ_clone_ptr"))) TS_CResult_ErrorMessageDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ErrorMessageDecodeErrorZ* arg_conv = (LDKCResult_ErrorMessageDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ErrorMessageDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ErrorMessageDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ErrorMessageDecodeErrorZ* orig_conv = (LDKCResult_ErrorMessageDecodeErrorZ*)(orig & ~1);
LDKCResult_ErrorMessageDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ErrorMessageDecodeErrorZ), "LDKCResult_ErrorMessageDecodeErrorZ");
*ret_conv = CResult_ErrorMessageDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_ok"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_ok(uint32_t o) {
o_conv = UnsignedNodeAnnouncement_clone(&o_conv);
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ), "LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedNodeAnnouncementDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_err"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ), "LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedNodeAnnouncementDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_is_ok"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_free"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ _res_conv = *(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ), "LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* arg_conv = (LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* orig_conv = (LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ*)(orig & ~1);
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ), "LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_UnsignedNodeAnnouncementDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_ok"))) TS_CResult_NodeAnnouncementDecodeErrorZ_ok(uint32_t o) {
o_conv = NodeAnnouncement_clone(&o_conv);
LDKCResult_NodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ), "LDKCResult_NodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_err"))) TS_CResult_NodeAnnouncementDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_NodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ), "LDKCResult_NodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_is_ok"))) TS_CResult_NodeAnnouncementDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_free"))) TS_CResult_NodeAnnouncementDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NodeAnnouncementDecodeErrorZ _res_conv = *(LDKCResult_NodeAnnouncementDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NodeAnnouncementDecodeErrorZ_clone_ptr(LDKCResult_NodeAnnouncementDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_NodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ), "LDKCResult_NodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_NodeAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NodeAnnouncementDecodeErrorZ_clone_ptr"))) TS_CResult_NodeAnnouncementDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NodeAnnouncementDecodeErrorZ* arg_conv = (LDKCResult_NodeAnnouncementDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NodeAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NodeAnnouncementDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NodeAnnouncementDecodeErrorZ* orig_conv = (LDKCResult_NodeAnnouncementDecodeErrorZ*)(orig & ~1);
LDKCResult_NodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ), "LDKCResult_NodeAnnouncementDecodeErrorZ");
*ret_conv = CResult_NodeAnnouncementDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_ok"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_ok(uint32_t o) {
o_conv = QueryShortChannelIds_clone(&o_conv);
LDKCResult_QueryShortChannelIdsDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ), "LDKCResult_QueryShortChannelIdsDecodeErrorZ");
*ret_conv = CResult_QueryShortChannelIdsDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_err"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_QueryShortChannelIdsDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ), "LDKCResult_QueryShortChannelIdsDecodeErrorZ");
*ret_conv = CResult_QueryShortChannelIdsDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_is_ok"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_free"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_QueryShortChannelIdsDecodeErrorZ _res_conv = *(LDKCResult_QueryShortChannelIdsDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr(LDKCResult_QueryShortChannelIdsDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_QueryShortChannelIdsDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ), "LDKCResult_QueryShortChannelIdsDecodeErrorZ");
*ret_conv = CResult_QueryShortChannelIdsDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr"))) TS_CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_QueryShortChannelIdsDecodeErrorZ* arg_conv = (LDKCResult_QueryShortChannelIdsDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_QueryShortChannelIdsDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_QueryShortChannelIdsDecodeErrorZ* orig_conv = (LDKCResult_QueryShortChannelIdsDecodeErrorZ*)(orig & ~1);
LDKCResult_QueryShortChannelIdsDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ), "LDKCResult_QueryShortChannelIdsDecodeErrorZ");
*ret_conv = CResult_QueryShortChannelIdsDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_ok"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_ok(uint32_t o) {
o_conv = ReplyShortChannelIdsEnd_clone(&o_conv);
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ), "LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ");
*ret_conv = CResult_ReplyShortChannelIdsEndDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_err"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ), "LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ");
*ret_conv = CResult_ReplyShortChannelIdsEndDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_is_ok"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_free"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ _res_conv = *(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ), "LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ");
*ret_conv = CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr"))) TS_CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* arg_conv = (LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* orig_conv = (LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ*)(orig & ~1);
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ), "LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ");
*ret_conv = CResult_ReplyShortChannelIdsEndDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_ok"))) TS_CResult_QueryChannelRangeDecodeErrorZ_ok(uint32_t o) {
o_conv = QueryChannelRange_clone(&o_conv);
LDKCResult_QueryChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ), "LDKCResult_QueryChannelRangeDecodeErrorZ");
*ret_conv = CResult_QueryChannelRangeDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_err"))) TS_CResult_QueryChannelRangeDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_QueryChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ), "LDKCResult_QueryChannelRangeDecodeErrorZ");
*ret_conv = CResult_QueryChannelRangeDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_is_ok"))) TS_CResult_QueryChannelRangeDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_free"))) TS_CResult_QueryChannelRangeDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_QueryChannelRangeDecodeErrorZ _res_conv = *(LDKCResult_QueryChannelRangeDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_QueryChannelRangeDecodeErrorZ_clone_ptr(LDKCResult_QueryChannelRangeDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_QueryChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ), "LDKCResult_QueryChannelRangeDecodeErrorZ");
*ret_conv = CResult_QueryChannelRangeDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_clone_ptr"))) TS_CResult_QueryChannelRangeDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_QueryChannelRangeDecodeErrorZ_clone_ptr"))) TS_CResult_QueryChannelRangeDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_QueryChannelRangeDecodeErrorZ* arg_conv = (LDKCResult_QueryChannelRangeDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_QueryChannelRangeDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_QueryChannelRangeDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_QueryChannelRangeDecodeErrorZ* orig_conv = (LDKCResult_QueryChannelRangeDecodeErrorZ*)(orig & ~1);
LDKCResult_QueryChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ), "LDKCResult_QueryChannelRangeDecodeErrorZ");
*ret_conv = CResult_QueryChannelRangeDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_ok"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_ok(uint32_t o) {
o_conv = ReplyChannelRange_clone(&o_conv);
LDKCResult_ReplyChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ), "LDKCResult_ReplyChannelRangeDecodeErrorZ");
*ret_conv = CResult_ReplyChannelRangeDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_err"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_ReplyChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ), "LDKCResult_ReplyChannelRangeDecodeErrorZ");
*ret_conv = CResult_ReplyChannelRangeDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_is_ok"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_free"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_ReplyChannelRangeDecodeErrorZ _res_conv = *(LDKCResult_ReplyChannelRangeDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr(LDKCResult_ReplyChannelRangeDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_ReplyChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ), "LDKCResult_ReplyChannelRangeDecodeErrorZ");
*ret_conv = CResult_ReplyChannelRangeDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr"))) TS_CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_ReplyChannelRangeDecodeErrorZ* arg_conv = (LDKCResult_ReplyChannelRangeDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_ReplyChannelRangeDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_ReplyChannelRangeDecodeErrorZ* orig_conv = (LDKCResult_ReplyChannelRangeDecodeErrorZ*)(orig & ~1);
LDKCResult_ReplyChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ), "LDKCResult_ReplyChannelRangeDecodeErrorZ");
*ret_conv = CResult_ReplyChannelRangeDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_ok"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_ok(uint32_t o) {
o_conv = GossipTimestampFilter_clone(&o_conv);
LDKCResult_GossipTimestampFilterDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ), "LDKCResult_GossipTimestampFilterDecodeErrorZ");
*ret_conv = CResult_GossipTimestampFilterDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_err"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_GossipTimestampFilterDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ), "LDKCResult_GossipTimestampFilterDecodeErrorZ");
*ret_conv = CResult_GossipTimestampFilterDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_is_ok"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_free"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_GossipTimestampFilterDecodeErrorZ _res_conv = *(LDKCResult_GossipTimestampFilterDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr(LDKCResult_GossipTimestampFilterDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_GossipTimestampFilterDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ), "LDKCResult_GossipTimestampFilterDecodeErrorZ");
*ret_conv = CResult_GossipTimestampFilterDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr"))) TS_CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_GossipTimestampFilterDecodeErrorZ* arg_conv = (LDKCResult_GossipTimestampFilterDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_GossipTimestampFilterDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_GossipTimestampFilterDecodeErrorZ* orig_conv = (LDKCResult_GossipTimestampFilterDecodeErrorZ*)(orig & ~1);
LDKCResult_GossipTimestampFilterDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ), "LDKCResult_GossipTimestampFilterDecodeErrorZ");
*ret_conv = CResult_GossipTimestampFilterDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_ok"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_ok(uint32_t o) {
o_conv = DelayedPaymentOutputDescriptor_clone(&o_conv);
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_err"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_is_ok"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_free"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ _res_conv = *(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr"))) TS_CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* arg_conv = (LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* orig_conv = (LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ*)(orig & ~1);
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_DelayedPaymentOutputDescriptorDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_ok"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_ok(uint32_t o) {
o_conv = StaticPaymentOutputDescriptor_clone(&o_conv);
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_err"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_is_ok"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_free"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ _res_conv = *(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr"))) TS_CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* arg_conv = (LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* orig_conv = (LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ*)(orig & ~1);
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_StaticPaymentOutputDescriptorDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_ok"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKSpendableOutputDescriptor o_conv = *(LDKSpendableOutputDescriptor*)(o_ptr);
- o_conv = SpendableOutputDescriptor_clone((LDKSpendableOutputDescriptor*)(((uint64_t)o) & ~1));
+ o_conv = SpendableOutputDescriptor_clone((LDKSpendableOutputDescriptor*)(((uintptr_t)o) & ~1));
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ), "LDKCResult_SpendableOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_SpendableOutputDescriptorDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_err"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ), "LDKCResult_SpendableOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_SpendableOutputDescriptorDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_is_ok"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_free"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_SpendableOutputDescriptorDecodeErrorZ _res_conv = *(LDKCResult_SpendableOutputDescriptorDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr(LDKCResult_SpendableOutputDescriptorDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ), "LDKCResult_SpendableOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_SpendableOutputDescriptorDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr"))) TS_CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* arg_conv = (LDKCResult_SpendableOutputDescriptorDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_SpendableOutputDescriptorDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* orig_conv = (LDKCResult_SpendableOutputDescriptorDecodeErrorZ*)(orig & ~1);
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ), "LDKCResult_SpendableOutputDescriptorDecodeErrorZ");
*ret_conv = CResult_SpendableOutputDescriptorDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
static inline uintptr_t C2Tuple_SignatureCVec_SignatureZZ_clone_ptr(LDKC2Tuple_SignatureCVec_SignatureZZ *NONNULL_PTR arg) {
LDKC2Tuple_SignatureCVec_SignatureZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_SignatureCVec_SignatureZZ), "LDKC2Tuple_SignatureCVec_SignatureZZ");
*ret_conv = C2Tuple_SignatureCVec_SignatureZZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_SignatureCVec_SignatureZZ_clone_ptr"))) TS_C2Tuple_SignatureCVec_SignatureZZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_SignatureCVec_SignatureZZ_clone_ptr"))) TS_C2Tuple_SignatureCVec_SignatureZZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_SignatureCVec_SignatureZZ* arg_conv = (LDKC2Tuple_SignatureCVec_SignatureZZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_SignatureCVec_SignatureZZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_SignatureCVec_SignatureZZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_SignatureCVec_SignatureZZ* orig_conv = (LDKC2Tuple_SignatureCVec_SignatureZZ*)(orig & ~1);
LDKC2Tuple_SignatureCVec_SignatureZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_SignatureCVec_SignatureZZ), "LDKC2Tuple_SignatureCVec_SignatureZZ");
*ret_conv = C2Tuple_SignatureCVec_SignatureZZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_SignatureCVec_SignatureZZ_new"))) TS_C2Tuple_SignatureCVec_SignatureZZ_new(int8_tArray a, ptrArray b) {
LDKSignature a_ref;
CHECK(a->arr_len == 64);
- memcpy(a_ref.compact_form, a->elems, 64);
+ memcpy(a_ref.compact_form, a->elems, 64); FREE(a);
LDKCVec_SignatureZ b_constr;
b_constr.datalen = b->arr_len;
if (b_constr.datalen > 0)
b_constr.data = MALLOC(b_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
b_constr.data = NULL;
- int8_tArray* b_vals = (void*) b->elems;
+ int8_tArray* b_vals = (void*) b->elems /* XXX b leaks */;
for (size_t m = 0; m < b_constr.datalen; m++) {
int8_tArray b_conv_12 = b_vals[m];
LDKSignature b_conv_12_ref;
CHECK(b_conv_12->arr_len == 64);
- memcpy(b_conv_12_ref.compact_form, b_conv_12->elems, 64);
+ memcpy(b_conv_12_ref.compact_form, b_conv_12->elems, 64); FREE(b_conv_12);
b_constr.data[m] = b_conv_12_ref;
}
LDKC2Tuple_SignatureCVec_SignatureZZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_SignatureCVec_SignatureZZ), "LDKC2Tuple_SignatureCVec_SignatureZZ");
*ret_conv = C2Tuple_SignatureCVec_SignatureZZ_new(a_ref, b_constr);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_SignatureCVec_SignatureZZ_free"))) TS_C2Tuple_SignatureCVec_SignatureZZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_SignatureCVec_SignatureZZ _res_conv = *(LDKC2Tuple_SignatureCVec_SignatureZZ*)(_res_ptr);
FREE((void*)_res);
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_ok"))) TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_SignatureCVec_SignatureZZ o_conv = *(LDKC2Tuple_SignatureCVec_SignatureZZ*)(o_ptr);
- o_conv = C2Tuple_SignatureCVec_SignatureZZ_clone((LDKC2Tuple_SignatureCVec_SignatureZZ*)(((uint64_t)o) & ~1));
+ o_conv = C2Tuple_SignatureCVec_SignatureZZ_clone((LDKC2Tuple_SignatureCVec_SignatureZZ*)(((uintptr_t)o) & ~1));
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ), "LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ");
*ret_conv = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_err"))) TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_err() {
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ), "LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ");
*ret_conv = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_is_ok"))) TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_free"))) TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ _res_conv = *(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ *NONNULL_PTR arg) {
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ), "LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ");
*ret_conv = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr"))) TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr"))) TS_CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* arg_conv = (LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* orig_conv = (LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ*)(orig & ~1);
LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ), "LDKCResult_C2Tuple_SignatureCVec_SignatureZZNoneZ");
*ret_conv = CResult_C2Tuple_SignatureCVec_SignatureZZNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SignatureNoneZ_ok"))) TS_CResult_SignatureNoneZ_ok(int8_tArray o) {
LDKSignature o_ref;
CHECK(o->arr_len == 64);
- memcpy(o_ref.compact_form, o->elems, 64);
+ memcpy(o_ref.compact_form, o->elems, 64); FREE(o);
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = CResult_SignatureNoneZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SignatureNoneZ_err"))) TS_CResult_SignatureNoneZ_err() {
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = CResult_SignatureNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_SignatureNoneZ_is_ok"))) TS_CResult_SignatureNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_SignatureNoneZ_free"))) TS_CResult_SignatureNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_SignatureNoneZ _res_conv = *(LDKCResult_SignatureNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_SignatureNoneZ_clone_ptr(LDKCResult_SignatureNoneZ *NONNULL_PTR arg) {
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = CResult_SignatureNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_SignatureNoneZ_clone_ptr"))) TS_CResult_SignatureNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_SignatureNoneZ_clone_ptr"))) TS_CResult_SignatureNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_SignatureNoneZ* arg_conv = (LDKCResult_SignatureNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_SignatureNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_SignatureNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_SignatureNoneZ* orig_conv = (LDKCResult_SignatureNoneZ*)(orig & ~1);
LDKCResult_SignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_SignatureNoneZ), "LDKCResult_SignatureNoneZ");
*ret_conv = CResult_SignatureNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SignDecodeErrorZ_ok"))) TS_CResult_SignDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKSign o_conv = *(LDKSign*)(o_ptr);
LDKCResult_SignDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SignDecodeErrorZ), "LDKCResult_SignDecodeErrorZ");
*ret_conv = CResult_SignDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_SignDecodeErrorZ_err"))) TS_CResult_SignDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_SignDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SignDecodeErrorZ), "LDKCResult_SignDecodeErrorZ");
*ret_conv = CResult_SignDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_SignDecodeErrorZ_is_ok"))) TS_CResult_SignDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_SignDecodeErrorZ_free"))) TS_CResult_SignDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_SignDecodeErrorZ _res_conv = *(LDKCResult_SignDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_SignDecodeErrorZ_clone_ptr(LDKCResult_SignDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_SignDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SignDecodeErrorZ), "LDKCResult_SignDecodeErrorZ");
*ret_conv = CResult_SignDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_SignDecodeErrorZ_clone_ptr"))) TS_CResult_SignDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_SignDecodeErrorZ_clone_ptr"))) TS_CResult_SignDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_SignDecodeErrorZ* arg_conv = (LDKCResult_SignDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_SignDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_SignDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_SignDecodeErrorZ* orig_conv = (LDKCResult_SignDecodeErrorZ*)(orig & ~1);
LDKCResult_SignDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SignDecodeErrorZ), "LDKCResult_SignDecodeErrorZ");
*ret_conv = CResult_SignDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_ok"))) TS_CResult_RecoverableSignatureNoneZ_ok(int8_tArray o) {
LDKRecoverableSignature o_ref;
CHECK(o->arr_len == 68);
- memcpy(o_ref.serialized_form, o->elems, 68);
+ memcpy(o_ref.serialized_form, o->elems, 68); FREE(o);
LDKCResult_RecoverableSignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_RecoverableSignatureNoneZ), "LDKCResult_RecoverableSignatureNoneZ");
*ret_conv = CResult_RecoverableSignatureNoneZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_err"))) TS_CResult_RecoverableSignatureNoneZ_err() {
LDKCResult_RecoverableSignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_RecoverableSignatureNoneZ), "LDKCResult_RecoverableSignatureNoneZ");
*ret_conv = CResult_RecoverableSignatureNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_is_ok"))) TS_CResult_RecoverableSignatureNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_free"))) TS_CResult_RecoverableSignatureNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_RecoverableSignatureNoneZ _res_conv = *(LDKCResult_RecoverableSignatureNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_RecoverableSignatureNoneZ_clone_ptr(LDKCResult_RecoverableSignatureNoneZ *NONNULL_PTR arg) {
LDKCResult_RecoverableSignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_RecoverableSignatureNoneZ), "LDKCResult_RecoverableSignatureNoneZ");
*ret_conv = CResult_RecoverableSignatureNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_clone_ptr"))) TS_CResult_RecoverableSignatureNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_RecoverableSignatureNoneZ_clone_ptr"))) TS_CResult_RecoverableSignatureNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_RecoverableSignatureNoneZ* arg_conv = (LDKCResult_RecoverableSignatureNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_RecoverableSignatureNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_RecoverableSignatureNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_RecoverableSignatureNoneZ* orig_conv = (LDKCResult_RecoverableSignatureNoneZ*)(orig & ~1);
LDKCResult_RecoverableSignatureNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_RecoverableSignatureNoneZ), "LDKCResult_RecoverableSignatureNoneZ");
*ret_conv = CResult_RecoverableSignatureNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_CVec_u8ZZ_free"))) TS_CVec_CVec_u8ZZ_free(ptrArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKCVec_u8Z), "LDKCVec_CVec_u8ZZ Elements");
else
_res_constr.data = NULL;
- int8_tArray* _res_vals = (void*) _res->elems;
+ int8_tArray* _res_vals = (void*) _res->elems /* XXX _res leaks */;
for (size_t m = 0; m < _res_constr.datalen; m++) {
int8_tArray _res_conv_12 = _res_vals[m];
LDKCVec_u8Z _res_conv_12_ref;
_res_conv_12_ref.datalen = _res_conv_12->arr_len;
_res_conv_12_ref.data = MALLOC(_res_conv_12_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(_res_conv_12_ref.data, _res_conv_12->elems, _res_conv_12_ref.datalen);
+ memcpy(_res_conv_12_ref.data, _res_conv_12->elems, _res_conv_12_ref.datalen); FREE(_res_conv_12);
_res_constr.data[m] = _res_conv_12_ref;
}
CVec_CVec_u8ZZ_free(_res_constr);
o_constr.data = MALLOC(o_constr.datalen * sizeof(LDKCVec_u8Z), "LDKCVec_CVec_u8ZZ Elements");
else
o_constr.data = NULL;
- int8_tArray* o_vals = (void*) o->elems;
+ int8_tArray* o_vals = (void*) o->elems /* XXX o leaks */;
for (size_t m = 0; m < o_constr.datalen; m++) {
int8_tArray o_conv_12 = o_vals[m];
LDKCVec_u8Z o_conv_12_ref;
o_conv_12_ref.datalen = o_conv_12->arr_len;
o_conv_12_ref.data = MALLOC(o_conv_12_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(o_conv_12_ref.data, o_conv_12->elems, o_conv_12_ref.datalen);
+ memcpy(o_conv_12_ref.data, o_conv_12->elems, o_conv_12_ref.datalen); FREE(o_conv_12);
o_constr.data[m] = o_conv_12_ref;
}
LDKCResult_CVec_CVec_u8ZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ), "LDKCResult_CVec_CVec_u8ZZNoneZ");
*ret_conv = CResult_CVec_CVec_u8ZZNoneZ_ok(o_constr);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_CVec_CVec_u8ZZNoneZ_err"))) TS_CResult_CVec_CVec_u8ZZNoneZ_err() {
LDKCResult_CVec_CVec_u8ZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ), "LDKCResult_CVec_CVec_u8ZZNoneZ");
*ret_conv = CResult_CVec_CVec_u8ZZNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_CVec_CVec_u8ZZNoneZ_is_ok"))) TS_CResult_CVec_CVec_u8ZZNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_CVec_CVec_u8ZZNoneZ_free"))) TS_CResult_CVec_CVec_u8ZZNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_CVec_CVec_u8ZZNoneZ _res_conv = *(LDKCResult_CVec_CVec_u8ZZNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_CVec_CVec_u8ZZNoneZ_clone_ptr(LDKCResult_CVec_CVec_u8ZZNoneZ *NONNULL_PTR arg) {
LDKCResult_CVec_CVec_u8ZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ), "LDKCResult_CVec_CVec_u8ZZNoneZ");
*ret_conv = CResult_CVec_CVec_u8ZZNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_CVec_CVec_u8ZZNoneZ_clone_ptr"))) TS_CResult_CVec_CVec_u8ZZNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_CVec_CVec_u8ZZNoneZ_clone_ptr"))) TS_CResult_CVec_CVec_u8ZZNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_CVec_CVec_u8ZZNoneZ* arg_conv = (LDKCResult_CVec_CVec_u8ZZNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_CVec_CVec_u8ZZNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_CVec_CVec_u8ZZNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_CVec_CVec_u8ZZNoneZ* orig_conv = (LDKCResult_CVec_CVec_u8ZZNoneZ*)(orig & ~1);
LDKCResult_CVec_CVec_u8ZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ), "LDKCResult_CVec_CVec_u8ZZNoneZ");
*ret_conv = CResult_CVec_CVec_u8ZZNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_ok"))) TS_CResult_InMemorySignerDecodeErrorZ_ok(uint32_t o) {
o_conv = InMemorySigner_clone(&o_conv);
LDKCResult_InMemorySignerDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InMemorySignerDecodeErrorZ), "LDKCResult_InMemorySignerDecodeErrorZ");
*ret_conv = CResult_InMemorySignerDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_err"))) TS_CResult_InMemorySignerDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_InMemorySignerDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InMemorySignerDecodeErrorZ), "LDKCResult_InMemorySignerDecodeErrorZ");
*ret_conv = CResult_InMemorySignerDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_is_ok"))) TS_CResult_InMemorySignerDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_free"))) TS_CResult_InMemorySignerDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_InMemorySignerDecodeErrorZ _res_conv = *(LDKCResult_InMemorySignerDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_InMemorySignerDecodeErrorZ_clone_ptr(LDKCResult_InMemorySignerDecodeErrorZ *NONNULL_PTR arg) {
LDKCResult_InMemorySignerDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InMemorySignerDecodeErrorZ), "LDKCResult_InMemorySignerDecodeErrorZ");
*ret_conv = CResult_InMemorySignerDecodeErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_clone_ptr"))) TS_CResult_InMemorySignerDecodeErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_InMemorySignerDecodeErrorZ_clone_ptr"))) TS_CResult_InMemorySignerDecodeErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_InMemorySignerDecodeErrorZ* arg_conv = (LDKCResult_InMemorySignerDecodeErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_InMemorySignerDecodeErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_InMemorySignerDecodeErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_InMemorySignerDecodeErrorZ* orig_conv = (LDKCResult_InMemorySignerDecodeErrorZ*)(orig & ~1);
LDKCResult_InMemorySignerDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InMemorySignerDecodeErrorZ), "LDKCResult_InMemorySignerDecodeErrorZ");
*ret_conv = CResult_InMemorySignerDecodeErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_TxOutZ_free"))) TS_CVec_TxOutZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKTxOut), "LDKCVec_TxOutZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t h = 0; h < _res_constr.datalen; h++) {
uint32_t _res_conv_7 = _res_vals[h];
- void* _res_conv_7_ptr = (void*)(((uint64_t)_res_conv_7) & ~1);
+ void* _res_conv_7_ptr = (void*)(((uintptr_t)_res_conv_7) & ~1);
CHECK_ACCESS(_res_conv_7_ptr);
LDKTxOut _res_conv_7_conv = *(LDKTxOut*)(_res_conv_7_ptr);
FREE((void*)_res_conv_7);
LDKTransaction o_ref;
o_ref.datalen = o->arr_len;
o_ref.data = MALLOC(o_ref.datalen, "LDKTransaction Bytes");
- memcpy(o_ref.data, o->elems, o_ref.datalen);
+ memcpy(o_ref.data, o->elems, o_ref.datalen); FREE(o);
o_ref.data_is_owned = true;
LDKCResult_TransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TransactionNoneZ), "LDKCResult_TransactionNoneZ");
*ret_conv = CResult_TransactionNoneZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_TransactionNoneZ_err"))) TS_CResult_TransactionNoneZ_err() {
LDKCResult_TransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TransactionNoneZ), "LDKCResult_TransactionNoneZ");
*ret_conv = CResult_TransactionNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_TransactionNoneZ_is_ok"))) TS_CResult_TransactionNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_TransactionNoneZ_free"))) TS_CResult_TransactionNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_TransactionNoneZ _res_conv = *(LDKCResult_TransactionNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_TransactionNoneZ_clone_ptr(LDKCResult_TransactionNoneZ *NONNULL_PTR arg) {
LDKCResult_TransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TransactionNoneZ), "LDKCResult_TransactionNoneZ");
*ret_conv = CResult_TransactionNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_TransactionNoneZ_clone_ptr"))) TS_CResult_TransactionNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_TransactionNoneZ_clone_ptr"))) TS_CResult_TransactionNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_TransactionNoneZ* arg_conv = (LDKCResult_TransactionNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_TransactionNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_TransactionNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_TransactionNoneZ* orig_conv = (LDKCResult_TransactionNoneZ*)(orig & ~1);
LDKCResult_TransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TransactionNoneZ), "LDKCResult_TransactionNoneZ");
*ret_conv = CResult_TransactionNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_FilterZ_some"))) TS_COption_FilterZ_some(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKFilter o_conv = *(LDKFilter*)(o_ptr);
LDKCOption_FilterZ *ret_copy = MALLOC(sizeof(LDKCOption_FilterZ), "LDKCOption_FilterZ");
*ret_copy = COption_FilterZ_some(o_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_FilterZ_none"))) TS_COption_FilterZ_none() {
LDKCOption_FilterZ *ret_copy = MALLOC(sizeof(LDKCOption_FilterZ), "LDKCOption_FilterZ");
*ret_copy = COption_FilterZ_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_FilterZ_free"))) TS_COption_FilterZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_FilterZ _res_conv = *(LDKCOption_FilterZ*)(_res_ptr);
FREE((void*)_res);
// Warning: we need a move here but no clone is available for LDKLockedChannelMonitor
LDKCResult_LockedChannelMonitorNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_LockedChannelMonitorNoneZ), "LDKCResult_LockedChannelMonitorNoneZ");
*ret_conv = CResult_LockedChannelMonitorNoneZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_LockedChannelMonitorNoneZ_err"))) TS_CResult_LockedChannelMonitorNoneZ_err() {
LDKCResult_LockedChannelMonitorNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_LockedChannelMonitorNoneZ), "LDKCResult_LockedChannelMonitorNoneZ");
*ret_conv = CResult_LockedChannelMonitorNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_LockedChannelMonitorNoneZ_is_ok"))) TS_CResult_LockedChannelMonitorNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_LockedChannelMonitorNoneZ_free"))) TS_CResult_LockedChannelMonitorNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_LockedChannelMonitorNoneZ _res_conv = *(LDKCResult_LockedChannelMonitorNoneZ*)(_res_ptr);
FREE((void*)_res);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKOutPoint), "LDKCVec_OutPointZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t k = 0; k < _res_constr.datalen; k++) {
uint32_t _res_conv_10 = _res_vals[k];
LDKOutPoint _res_conv_10_conv;
uint32_t __attribute__((export_name("TS_CResult_NoneAPIErrorZ_ok"))) TS_CResult_NoneAPIErrorZ_ok() {
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = CResult_NoneAPIErrorZ_ok();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NoneAPIErrorZ_err"))) TS_CResult_NoneAPIErrorZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKAPIError e_conv = *(LDKAPIError*)(e_ptr);
- e_conv = APIError_clone((LDKAPIError*)(((uint64_t)e) & ~1));
+ e_conv = APIError_clone((LDKAPIError*)(((uintptr_t)e) & ~1));
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = CResult_NoneAPIErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NoneAPIErrorZ_is_ok"))) TS_CResult_NoneAPIErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NoneAPIErrorZ_free"))) TS_CResult_NoneAPIErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NoneAPIErrorZ _res_conv = *(LDKCResult_NoneAPIErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NoneAPIErrorZ_clone_ptr(LDKCResult_NoneAPIErrorZ *NONNULL_PTR arg) {
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = CResult_NoneAPIErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NoneAPIErrorZ_clone_ptr"))) TS_CResult_NoneAPIErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NoneAPIErrorZ_clone_ptr"))) TS_CResult_NoneAPIErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_NoneAPIErrorZ* arg_conv = (LDKCResult_NoneAPIErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_NoneAPIErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NoneAPIErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NoneAPIErrorZ* orig_conv = (LDKCResult_NoneAPIErrorZ*)(orig & ~1);
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = CResult_NoneAPIErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_COption_u16Z_some"))) TS_COption_u16Z_some(int16_t o) {
LDKCOption_u16Z *ret_copy = MALLOC(sizeof(LDKCOption_u16Z), "LDKCOption_u16Z");
*ret_copy = COption_u16Z_some(o);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_COption_u16Z_none"))) TS_COption_u16Z_none() {
LDKCOption_u16Z *ret_copy = MALLOC(sizeof(LDKCOption_u16Z), "LDKCOption_u16Z");
*ret_copy = COption_u16Z_none();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_COption_u16Z_free"))) TS_COption_u16Z_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCOption_u16Z _res_conv = *(LDKCOption_u16Z*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t COption_u16Z_clone_ptr(LDKCOption_u16Z *NONNULL_PTR arg) {
LDKCOption_u16Z *ret_copy = MALLOC(sizeof(LDKCOption_u16Z), "LDKCOption_u16Z");
*ret_copy = COption_u16Z_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_COption_u16Z_clone_ptr"))) TS_COption_u16Z_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_COption_u16Z_clone_ptr"))) TS_COption_u16Z_clone_ptr(uint32_t arg) {
LDKCOption_u16Z* arg_conv = (LDKCOption_u16Z*)arg;
- int64_t ret_val = COption_u16Z_clone_ptr(arg_conv);
+ intptr_t ret_val = COption_u16Z_clone_ptr(arg_conv);
return ret_val;
}
LDKCOption_u16Z* orig_conv = (LDKCOption_u16Z*)orig;
LDKCOption_u16Z *ret_copy = MALLOC(sizeof(LDKCOption_u16Z), "LDKCOption_u16Z");
*ret_copy = COption_u16Z_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKCResult_NoneAPIErrorZ), "LDKCVec_CResult_NoneAPIErrorZZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t w = 0; w < _res_constr.datalen; w++) {
uint32_t _res_conv_22 = _res_vals[w];
- void* _res_conv_22_ptr = (void*)(((uint64_t)_res_conv_22) & ~1);
+ void* _res_conv_22_ptr = (void*)(((uintptr_t)_res_conv_22) & ~1);
CHECK_ACCESS(_res_conv_22_ptr);
LDKCResult_NoneAPIErrorZ _res_conv_22_conv = *(LDKCResult_NoneAPIErrorZ*)(_res_conv_22_ptr);
FREE((void*)_res_conv_22);
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKAPIError), "LDKCVec_APIErrorZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t k = 0; k < _res_constr.datalen; k++) {
uint32_t _res_conv_10 = _res_vals[k];
- void* _res_conv_10_ptr = (void*)(((uint64_t)_res_conv_10) & ~1);
+ void* _res_conv_10_ptr = (void*)(((uintptr_t)_res_conv_10) & ~1);
CHECK_ACCESS(_res_conv_10_ptr);
LDKAPIError _res_conv_10_conv = *(LDKAPIError*)(_res_conv_10_ptr);
FREE((void*)_res_conv_10);
uint32_t __attribute__((export_name("TS_CResult__u832APIErrorZ_ok"))) TS_CResult__u832APIErrorZ_ok(int8_tArray o) {
LDKThirtyTwoBytes o_ref;
CHECK(o->arr_len == 32);
- memcpy(o_ref.data, o->elems, 32);
+ memcpy(o_ref.data, o->elems, 32); FREE(o);
LDKCResult__u832APIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult__u832APIErrorZ), "LDKCResult__u832APIErrorZ");
*ret_conv = CResult__u832APIErrorZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult__u832APIErrorZ_err"))) TS_CResult__u832APIErrorZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKAPIError e_conv = *(LDKAPIError*)(e_ptr);
- e_conv = APIError_clone((LDKAPIError*)(((uint64_t)e) & ~1));
+ e_conv = APIError_clone((LDKAPIError*)(((uintptr_t)e) & ~1));
LDKCResult__u832APIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult__u832APIErrorZ), "LDKCResult__u832APIErrorZ");
*ret_conv = CResult__u832APIErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult__u832APIErrorZ_is_ok"))) TS_CResult__u832APIErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult__u832APIErrorZ_free"))) TS_CResult__u832APIErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult__u832APIErrorZ _res_conv = *(LDKCResult__u832APIErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult__u832APIErrorZ_clone_ptr(LDKCResult__u832APIErrorZ *NONNULL_PTR arg) {
LDKCResult__u832APIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult__u832APIErrorZ), "LDKCResult__u832APIErrorZ");
*ret_conv = CResult__u832APIErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult__u832APIErrorZ_clone_ptr"))) TS_CResult__u832APIErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult__u832APIErrorZ_clone_ptr"))) TS_CResult__u832APIErrorZ_clone_ptr(uint32_t arg) {
LDKCResult__u832APIErrorZ* arg_conv = (LDKCResult__u832APIErrorZ*)(arg & ~1);
- int64_t ret_val = CResult__u832APIErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult__u832APIErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult__u832APIErrorZ* orig_conv = (LDKCResult__u832APIErrorZ*)(orig & ~1);
LDKCResult__u832APIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult__u832APIErrorZ), "LDKCResult__u832APIErrorZ");
*ret_conv = CResult__u832APIErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_ok"))) TS_CResult_PaymentIdPaymentSendFailureZ_ok(int8_tArray o) {
LDKThirtyTwoBytes o_ref;
CHECK(o->arr_len == 32);
- memcpy(o_ref.data, o->elems, 32);
+ memcpy(o_ref.data, o->elems, 32); FREE(o);
LDKCResult_PaymentIdPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentIdPaymentSendFailureZ), "LDKCResult_PaymentIdPaymentSendFailureZ");
*ret_conv = CResult_PaymentIdPaymentSendFailureZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_err"))) TS_CResult_PaymentIdPaymentSendFailureZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKPaymentSendFailure e_conv = *(LDKPaymentSendFailure*)(e_ptr);
- e_conv = PaymentSendFailure_clone((LDKPaymentSendFailure*)(((uint64_t)e) & ~1));
+ e_conv = PaymentSendFailure_clone((LDKPaymentSendFailure*)(((uintptr_t)e) & ~1));
LDKCResult_PaymentIdPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentIdPaymentSendFailureZ), "LDKCResult_PaymentIdPaymentSendFailureZ");
*ret_conv = CResult_PaymentIdPaymentSendFailureZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_is_ok"))) TS_CResult_PaymentIdPaymentSendFailureZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_free"))) TS_CResult_PaymentIdPaymentSendFailureZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PaymentIdPaymentSendFailureZ _res_conv = *(LDKCResult_PaymentIdPaymentSendFailureZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PaymentIdPaymentSendFailureZ_clone_ptr(LDKCResult_PaymentIdPaymentSendFailureZ *NONNULL_PTR arg) {
LDKCResult_PaymentIdPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentIdPaymentSendFailureZ), "LDKCResult_PaymentIdPaymentSendFailureZ");
*ret_conv = CResult_PaymentIdPaymentSendFailureZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_clone_ptr"))) TS_CResult_PaymentIdPaymentSendFailureZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PaymentIdPaymentSendFailureZ_clone_ptr"))) TS_CResult_PaymentIdPaymentSendFailureZ_clone_ptr(uint32_t arg) {
LDKCResult_PaymentIdPaymentSendFailureZ* arg_conv = (LDKCResult_PaymentIdPaymentSendFailureZ*)(arg & ~1);
- int64_t ret_val = CResult_PaymentIdPaymentSendFailureZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PaymentIdPaymentSendFailureZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PaymentIdPaymentSendFailureZ* orig_conv = (LDKCResult_PaymentIdPaymentSendFailureZ*)(orig & ~1);
LDKCResult_PaymentIdPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentIdPaymentSendFailureZ), "LDKCResult_PaymentIdPaymentSendFailureZ");
*ret_conv = CResult_PaymentIdPaymentSendFailureZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NonePaymentSendFailureZ_ok"))) TS_CResult_NonePaymentSendFailureZ_ok() {
LDKCResult_NonePaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePaymentSendFailureZ), "LDKCResult_NonePaymentSendFailureZ");
*ret_conv = CResult_NonePaymentSendFailureZ_ok();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_NonePaymentSendFailureZ_err"))) TS_CResult_NonePaymentSendFailureZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKPaymentSendFailure e_conv = *(LDKPaymentSendFailure*)(e_ptr);
- e_conv = PaymentSendFailure_clone((LDKPaymentSendFailure*)(((uint64_t)e) & ~1));
+ e_conv = PaymentSendFailure_clone((LDKPaymentSendFailure*)(((uintptr_t)e) & ~1));
LDKCResult_NonePaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePaymentSendFailureZ), "LDKCResult_NonePaymentSendFailureZ");
*ret_conv = CResult_NonePaymentSendFailureZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_NonePaymentSendFailureZ_is_ok"))) TS_CResult_NonePaymentSendFailureZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_NonePaymentSendFailureZ_free"))) TS_CResult_NonePaymentSendFailureZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_NonePaymentSendFailureZ _res_conv = *(LDKCResult_NonePaymentSendFailureZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_NonePaymentSendFailureZ_clone_ptr(LDKCResult_NonePaymentSendFailureZ *NONNULL_PTR arg) {
LDKCResult_NonePaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePaymentSendFailureZ), "LDKCResult_NonePaymentSendFailureZ");
*ret_conv = CResult_NonePaymentSendFailureZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_NonePaymentSendFailureZ_clone_ptr"))) TS_CResult_NonePaymentSendFailureZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_NonePaymentSendFailureZ_clone_ptr"))) TS_CResult_NonePaymentSendFailureZ_clone_ptr(uint32_t arg) {
LDKCResult_NonePaymentSendFailureZ* arg_conv = (LDKCResult_NonePaymentSendFailureZ*)(arg & ~1);
- int64_t ret_val = CResult_NonePaymentSendFailureZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_NonePaymentSendFailureZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_NonePaymentSendFailureZ* orig_conv = (LDKCResult_NonePaymentSendFailureZ*)(orig & ~1);
LDKCResult_NonePaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePaymentSendFailureZ), "LDKCResult_NonePaymentSendFailureZ");
*ret_conv = CResult_NonePaymentSendFailureZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
static inline uintptr_t C2Tuple_PaymentHashPaymentIdZ_clone_ptr(LDKC2Tuple_PaymentHashPaymentIdZ *NONNULL_PTR arg) {
LDKC2Tuple_PaymentHashPaymentIdZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentIdZ), "LDKC2Tuple_PaymentHashPaymentIdZ");
*ret_conv = C2Tuple_PaymentHashPaymentIdZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentIdZ_clone_ptr"))) TS_C2Tuple_PaymentHashPaymentIdZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentIdZ_clone_ptr"))) TS_C2Tuple_PaymentHashPaymentIdZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_PaymentHashPaymentIdZ* arg_conv = (LDKC2Tuple_PaymentHashPaymentIdZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_PaymentHashPaymentIdZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_PaymentHashPaymentIdZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_PaymentHashPaymentIdZ* orig_conv = (LDKC2Tuple_PaymentHashPaymentIdZ*)(orig & ~1);
LDKC2Tuple_PaymentHashPaymentIdZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentIdZ), "LDKC2Tuple_PaymentHashPaymentIdZ");
*ret_conv = C2Tuple_PaymentHashPaymentIdZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentIdZ_new"))) TS_C2Tuple_PaymentHashPaymentIdZ_new(int8_tArray a, int8_tArray b) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKThirtyTwoBytes b_ref;
CHECK(b->arr_len == 32);
- memcpy(b_ref.data, b->elems, 32);
+ memcpy(b_ref.data, b->elems, 32); FREE(b);
LDKC2Tuple_PaymentHashPaymentIdZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentIdZ), "LDKC2Tuple_PaymentHashPaymentIdZ");
*ret_conv = C2Tuple_PaymentHashPaymentIdZ_new(a_ref, b_ref);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentIdZ_free"))) TS_C2Tuple_PaymentHashPaymentIdZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_PaymentHashPaymentIdZ _res_conv = *(LDKC2Tuple_PaymentHashPaymentIdZ*)(_res_ptr);
FREE((void*)_res);
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_ok"))) TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_PaymentHashPaymentIdZ o_conv = *(LDKC2Tuple_PaymentHashPaymentIdZ*)(o_ptr);
- o_conv = C2Tuple_PaymentHashPaymentIdZ_clone((LDKC2Tuple_PaymentHashPaymentIdZ*)(((uint64_t)o) & ~1));
+ o_conv = C2Tuple_PaymentHashPaymentIdZ_clone((LDKC2Tuple_PaymentHashPaymentIdZ*)(((uintptr_t)o) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ), "LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_err"))) TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKPaymentSendFailure e_conv = *(LDKPaymentSendFailure*)(e_ptr);
- e_conv = PaymentSendFailure_clone((LDKPaymentSendFailure*)(((uint64_t)e) & ~1));
+ e_conv = PaymentSendFailure_clone((LDKPaymentSendFailure*)(((uintptr_t)e) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ), "LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_is_ok"))) TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_free"))) TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ _res_conv = *(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ *NONNULL_PTR arg) {
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ), "LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr"))) TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr"))) TS_CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr(uint32_t arg) {
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* arg_conv = (LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ*)(arg & ~1);
- int64_t ret_val = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* orig_conv = (LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ*)(orig & ~1);
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ), "LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
static inline uintptr_t C2Tuple_PaymentHashPaymentSecretZ_clone_ptr(LDKC2Tuple_PaymentHashPaymentSecretZ *NONNULL_PTR arg) {
LDKC2Tuple_PaymentHashPaymentSecretZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentSecretZ), "LDKC2Tuple_PaymentHashPaymentSecretZ");
*ret_conv = C2Tuple_PaymentHashPaymentSecretZ_clone(arg);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
-int64_t __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentSecretZ_clone_ptr"))) TS_C2Tuple_PaymentHashPaymentSecretZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentSecretZ_clone_ptr"))) TS_C2Tuple_PaymentHashPaymentSecretZ_clone_ptr(uint32_t arg) {
LDKC2Tuple_PaymentHashPaymentSecretZ* arg_conv = (LDKC2Tuple_PaymentHashPaymentSecretZ*)(arg & ~1);
- int64_t ret_val = C2Tuple_PaymentHashPaymentSecretZ_clone_ptr(arg_conv);
+ intptr_t ret_val = C2Tuple_PaymentHashPaymentSecretZ_clone_ptr(arg_conv);
return ret_val;
}
LDKC2Tuple_PaymentHashPaymentSecretZ* orig_conv = (LDKC2Tuple_PaymentHashPaymentSecretZ*)(orig & ~1);
LDKC2Tuple_PaymentHashPaymentSecretZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentSecretZ), "LDKC2Tuple_PaymentHashPaymentSecretZ");
*ret_conv = C2Tuple_PaymentHashPaymentSecretZ_clone(orig_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_t __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentSecretZ_new"))) TS_C2Tuple_PaymentHashPaymentSecretZ_new(int8_tArray a, int8_tArray b) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKThirtyTwoBytes b_ref;
CHECK(b->arr_len == 32);
- memcpy(b_ref.data, b->elems, 32);
+ memcpy(b_ref.data, b->elems, 32); FREE(b);
LDKC2Tuple_PaymentHashPaymentSecretZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_PaymentHashPaymentSecretZ), "LDKC2Tuple_PaymentHashPaymentSecretZ");
*ret_conv = C2Tuple_PaymentHashPaymentSecretZ_new(a_ref, b_ref);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_PaymentHashPaymentSecretZ_free"))) TS_C2Tuple_PaymentHashPaymentSecretZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_PaymentHashPaymentSecretZ _res_conv = *(LDKC2Tuple_PaymentHashPaymentSecretZ*)(_res_ptr);
FREE((void*)_res);
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_ok"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_PaymentHashPaymentSecretZ o_conv = *(LDKC2Tuple_PaymentHashPaymentSecretZ*)(o_ptr);
- o_conv = C2Tuple_PaymentHashPaymentSecretZ_clone((LDKC2Tuple_PaymentHashPaymentSecretZ*)(((uint64_t)o) & ~1));
+ o_conv = C2Tuple_PaymentHashPaymentSecretZ_clone((LDKC2Tuple_PaymentHashPaymentSecretZ*)(((uintptr_t)o) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_err"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_err() {
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_is_ok"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_free"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ _res_conv = *(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ *NONNULL_PTR arg) {
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* arg_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* orig_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ*)(orig & ~1);
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_ok"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_PaymentHashPaymentSecretZ o_conv = *(LDKC2Tuple_PaymentHashPaymentSecretZ*)(o_ptr);
- o_conv = C2Tuple_PaymentHashPaymentSecretZ_clone((LDKC2Tuple_PaymentHashPaymentSecretZ*)(((uint64_t)o) & ~1));
+ o_conv = C2Tuple_PaymentHashPaymentSecretZ_clone((LDKC2Tuple_PaymentHashPaymentSecretZ*)(((uintptr_t)o) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_err"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKAPIError e_conv = *(LDKAPIError*)(e_ptr);
- e_conv = APIError_clone((LDKAPIError*)(((uint64_t)e) & ~1));
+ e_conv = APIError_clone((LDKAPIError*)(((uintptr_t)e) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_is_ok"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_free"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ _res_conv = *(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ *NONNULL_PTR arg) {
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr"))) TS_CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* arg_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* orig_conv = (LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ*)(orig & ~1);
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ");
*ret_conv = CResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_ok"))) TS_CResult_PaymentSecretNoneZ_ok(int8_tArray o) {
LDKThirtyTwoBytes o_ref;
CHECK(o->arr_len == 32);
- memcpy(o_ref.data, o->elems, 32);
+ memcpy(o_ref.data, o->elems, 32); FREE(o);
LDKCResult_PaymentSecretNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretNoneZ), "LDKCResult_PaymentSecretNoneZ");
*ret_conv = CResult_PaymentSecretNoneZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_err"))) TS_CResult_PaymentSecretNoneZ_err() {
LDKCResult_PaymentSecretNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretNoneZ), "LDKCResult_PaymentSecretNoneZ");
*ret_conv = CResult_PaymentSecretNoneZ_err();
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_is_ok"))) TS_CResult_PaymentSecretNoneZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_free"))) TS_CResult_PaymentSecretNoneZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PaymentSecretNoneZ _res_conv = *(LDKCResult_PaymentSecretNoneZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PaymentSecretNoneZ_clone_ptr(LDKCResult_PaymentSecretNoneZ *NONNULL_PTR arg) {
LDKCResult_PaymentSecretNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretNoneZ), "LDKCResult_PaymentSecretNoneZ");
*ret_conv = CResult_PaymentSecretNoneZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_clone_ptr"))) TS_CResult_PaymentSecretNoneZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PaymentSecretNoneZ_clone_ptr"))) TS_CResult_PaymentSecretNoneZ_clone_ptr(uint32_t arg) {
LDKCResult_PaymentSecretNoneZ* arg_conv = (LDKCResult_PaymentSecretNoneZ*)(arg & ~1);
- int64_t ret_val = CResult_PaymentSecretNoneZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PaymentSecretNoneZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PaymentSecretNoneZ* orig_conv = (LDKCResult_PaymentSecretNoneZ*)(orig & ~1);
LDKCResult_PaymentSecretNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretNoneZ), "LDKCResult_PaymentSecretNoneZ");
*ret_conv = CResult_PaymentSecretNoneZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_ok"))) TS_CResult_PaymentSecretAPIErrorZ_ok(int8_tArray o) {
LDKThirtyTwoBytes o_ref;
CHECK(o->arr_len == 32);
- memcpy(o_ref.data, o->elems, 32);
+ memcpy(o_ref.data, o->elems, 32); FREE(o);
LDKCResult_PaymentSecretAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretAPIErrorZ), "LDKCResult_PaymentSecretAPIErrorZ");
*ret_conv = CResult_PaymentSecretAPIErrorZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_err"))) TS_CResult_PaymentSecretAPIErrorZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKAPIError e_conv = *(LDKAPIError*)(e_ptr);
- e_conv = APIError_clone((LDKAPIError*)(((uint64_t)e) & ~1));
+ e_conv = APIError_clone((LDKAPIError*)(((uintptr_t)e) & ~1));
LDKCResult_PaymentSecretAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretAPIErrorZ), "LDKCResult_PaymentSecretAPIErrorZ");
*ret_conv = CResult_PaymentSecretAPIErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_is_ok"))) TS_CResult_PaymentSecretAPIErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_free"))) TS_CResult_PaymentSecretAPIErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PaymentSecretAPIErrorZ _res_conv = *(LDKCResult_PaymentSecretAPIErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PaymentSecretAPIErrorZ_clone_ptr(LDKCResult_PaymentSecretAPIErrorZ *NONNULL_PTR arg) {
LDKCResult_PaymentSecretAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretAPIErrorZ), "LDKCResult_PaymentSecretAPIErrorZ");
*ret_conv = CResult_PaymentSecretAPIErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_clone_ptr"))) TS_CResult_PaymentSecretAPIErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PaymentSecretAPIErrorZ_clone_ptr"))) TS_CResult_PaymentSecretAPIErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_PaymentSecretAPIErrorZ* arg_conv = (LDKCResult_PaymentSecretAPIErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_PaymentSecretAPIErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PaymentSecretAPIErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PaymentSecretAPIErrorZ* orig_conv = (LDKCResult_PaymentSecretAPIErrorZ*)(orig & ~1);
LDKCResult_PaymentSecretAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretAPIErrorZ), "LDKCResult_PaymentSecretAPIErrorZ");
*ret_conv = CResult_PaymentSecretAPIErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_ok"))) TS_CResult_PaymentPreimageAPIErrorZ_ok(int8_tArray o) {
LDKThirtyTwoBytes o_ref;
CHECK(o->arr_len == 32);
- memcpy(o_ref.data, o->elems, 32);
+ memcpy(o_ref.data, o->elems, 32); FREE(o);
LDKCResult_PaymentPreimageAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentPreimageAPIErrorZ), "LDKCResult_PaymentPreimageAPIErrorZ");
*ret_conv = CResult_PaymentPreimageAPIErrorZ_ok(o_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_err"))) TS_CResult_PaymentPreimageAPIErrorZ_err(uint32_t e) {
- void* e_ptr = (void*)(((uint64_t)e) & ~1);
+ void* e_ptr = (void*)(((uintptr_t)e) & ~1);
CHECK_ACCESS(e_ptr);
LDKAPIError e_conv = *(LDKAPIError*)(e_ptr);
- e_conv = APIError_clone((LDKAPIError*)(((uint64_t)e) & ~1));
+ e_conv = APIError_clone((LDKAPIError*)(((uintptr_t)e) & ~1));
LDKCResult_PaymentPreimageAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentPreimageAPIErrorZ), "LDKCResult_PaymentPreimageAPIErrorZ");
*ret_conv = CResult_PaymentPreimageAPIErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_is_ok"))) TS_CResult_PaymentPreimageAPIErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_free"))) TS_CResult_PaymentPreimageAPIErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_PaymentPreimageAPIErrorZ _res_conv = *(LDKCResult_PaymentPreimageAPIErrorZ*)(_res_ptr);
FREE((void*)_res);
static inline uintptr_t CResult_PaymentPreimageAPIErrorZ_clone_ptr(LDKCResult_PaymentPreimageAPIErrorZ *NONNULL_PTR arg) {
LDKCResult_PaymentPreimageAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentPreimageAPIErrorZ), "LDKCResult_PaymentPreimageAPIErrorZ");
*ret_conv = CResult_PaymentPreimageAPIErrorZ_clone(arg);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-int64_t __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_clone_ptr"))) TS_CResult_PaymentPreimageAPIErrorZ_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CResult_PaymentPreimageAPIErrorZ_clone_ptr"))) TS_CResult_PaymentPreimageAPIErrorZ_clone_ptr(uint32_t arg) {
LDKCResult_PaymentPreimageAPIErrorZ* arg_conv = (LDKCResult_PaymentPreimageAPIErrorZ*)(arg & ~1);
- int64_t ret_val = CResult_PaymentPreimageAPIErrorZ_clone_ptr(arg_conv);
+ intptr_t ret_val = CResult_PaymentPreimageAPIErrorZ_clone_ptr(arg_conv);
return ret_val;
}
LDKCResult_PaymentPreimageAPIErrorZ* orig_conv = (LDKCResult_PaymentPreimageAPIErrorZ*)(orig & ~1);
LDKCResult_PaymentPreimageAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentPreimageAPIErrorZ), "LDKCResult_PaymentPreimageAPIErrorZ");
*ret_conv = CResult_PaymentPreimageAPIErrorZ_clone(orig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CVec_ChannelMonitorZ_free"))) TS_CVec_ChannelMonitorZ_free(uint32_tArray _res) {
_res_constr.data = MALLOC(_res_constr.datalen * sizeof(LDKChannelMonitor), "LDKCVec_ChannelMonitorZ Elements");
else
_res_constr.data = NULL;
- uint32_t* _res_vals = _res->elems;
+ uint32_t* _res_vals = _res->elems /* XXX _res leaks */;
for (size_t q = 0; q < _res_constr.datalen; q++) {
uint32_t _res_conv_16 = _res_vals[q];
LDKChannelMonitor _res_conv_16_conv;
uint32_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelManagerZ_new"))) TS_C2Tuple_BlockHashChannelManagerZ_new(int8_tArray a, uint32_t b) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKChannelManager b_conv;
b_conv.inner = (void*)(b & (~1));
b_conv.is_owned = (b & 1) || (b == 0);
// Warning: we need a move here but no clone is available for LDKChannelManager
LDKC2Tuple_BlockHashChannelManagerZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_BlockHashChannelManagerZ), "LDKC2Tuple_BlockHashChannelManagerZ");
*ret_conv = C2Tuple_BlockHashChannelManagerZ_new(a_ref, b_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
void __attribute__((export_name("TS_C2Tuple_BlockHashChannelManagerZ_free"))) TS_C2Tuple_BlockHashChannelManagerZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKC2Tuple_BlockHashChannelManagerZ _res_conv = *(LDKC2Tuple_BlockHashChannelManagerZ*)(_res_ptr);
FREE((void*)_res);
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok"))) TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok(uint32_t o) {
- void* o_ptr = (void*)(((uint64_t)o) & ~1);
+ void* o_ptr = (void*)(((uintptr_t)o) & ~1);
CHECK_ACCESS(o_ptr);
LDKC2Tuple_BlockHashChannelManagerZ o_conv = *(LDKC2Tuple_BlockHashChannelManagerZ*)(o_ptr);
// Warning: we may need a move here but no clone is available for LDKC2Tuple_BlockHashChannelManagerZ
LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok(o_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err"))) TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err(uint32_t e) {
e_conv = DecodeError_clone(&e_conv);
LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ");
*ret_conv = CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err(e_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_is_ok"))) TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_is_ok(uint32_t o) {
void __attribute__((export_name("TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_free"))) TS_CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_free(uint32_t _res) {
if ((_res & 1) != 0) return;
- void* _res_ptr = (void*)(((uint64_t)_res) & ~1);
+ void* _res_ptr = (void*)(((uintptr_t)_res) & ~1);
CHECK_ACCESS(_res_ptr);
LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ _res_conv = *(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ*)(_res_ptr);
FREE((void*)_res);
void __attribute__((export_name("TS_PaymentPurpose_free"))) TS_PaymentPurpose_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKPaymentPurpose this_ptr_conv = *(LDKPaymentPurpose*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t PaymentPurpose_clone_ptr(LDKPaymentPurpose *NONNULL_PTR arg) {
LDKPaymentPurpose *ret_copy = MALLOC(sizeof(LDKPaymentPurpose), "LDKPaymentPurpose");
*ret_copy = PaymentPurpose_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_PaymentPurpose_clone_ptr"))) TS_PaymentPurpose_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_PaymentPurpose_clone_ptr"))) TS_PaymentPurpose_clone_ptr(uint32_t arg) {
LDKPaymentPurpose* arg_conv = (LDKPaymentPurpose*)arg;
- int64_t ret_val = PaymentPurpose_clone_ptr(arg_conv);
+ intptr_t ret_val = PaymentPurpose_clone_ptr(arg_conv);
return ret_val;
}
LDKPaymentPurpose* orig_conv = (LDKPaymentPurpose*)orig;
LDKPaymentPurpose *ret_copy = MALLOC(sizeof(LDKPaymentPurpose), "LDKPaymentPurpose");
*ret_copy = PaymentPurpose_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_PaymentPurpose_invoice_payment"))) TS_PaymentPurpose_invoice_payment(int8_tArray payment_preimage, int8_tArray payment_secret) {
LDKThirtyTwoBytes payment_preimage_ref;
CHECK(payment_preimage->arr_len == 32);
- memcpy(payment_preimage_ref.data, payment_preimage->elems, 32);
+ memcpy(payment_preimage_ref.data, payment_preimage->elems, 32); FREE(payment_preimage);
LDKThirtyTwoBytes payment_secret_ref;
CHECK(payment_secret->arr_len == 32);
- memcpy(payment_secret_ref.data, payment_secret->elems, 32);
+ memcpy(payment_secret_ref.data, payment_secret->elems, 32); FREE(payment_secret);
LDKPaymentPurpose *ret_copy = MALLOC(sizeof(LDKPaymentPurpose), "LDKPaymentPurpose");
*ret_copy = PaymentPurpose_invoice_payment(payment_preimage_ref, payment_secret_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_PaymentPurpose_spontaneous_payment"))) TS_PaymentPurpose_spontaneous_payment(int8_tArray a) {
LDKThirtyTwoBytes a_ref;
CHECK(a->arr_len == 32);
- memcpy(a_ref.data, a->elems, 32);
+ memcpy(a_ref.data, a->elems, 32); FREE(a);
LDKPaymentPurpose *ret_copy = MALLOC(sizeof(LDKPaymentPurpose), "LDKPaymentPurpose");
*ret_copy = PaymentPurpose_spontaneous_payment(a_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_ClosureReason_free"))) TS_ClosureReason_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKClosureReason this_ptr_conv = *(LDKClosureReason*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t ClosureReason_clone_ptr(LDKClosureReason *NONNULL_PTR arg) {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ClosureReason_clone_ptr"))) TS_ClosureReason_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ClosureReason_clone_ptr"))) TS_ClosureReason_clone_ptr(uint32_t arg) {
LDKClosureReason* arg_conv = (LDKClosureReason*)arg;
- int64_t ret_val = ClosureReason_clone_ptr(arg_conv);
+ intptr_t ret_val = ClosureReason_clone_ptr(arg_conv);
return ret_val;
}
LDKClosureReason* orig_conv = (LDKClosureReason*)orig;
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKStr peer_msg_conv = str_ref_to_owned_c(peer_msg);
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_counterparty_force_closed(peer_msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ClosureReason_holder_force_closed"))) TS_ClosureReason_holder_force_closed() {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_holder_force_closed();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ClosureReason_cooperative_closure"))) TS_ClosureReason_cooperative_closure() {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_cooperative_closure();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ClosureReason_commitment_tx_confirmed"))) TS_ClosureReason_commitment_tx_confirmed() {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_commitment_tx_confirmed();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ClosureReason_funding_timed_out"))) TS_ClosureReason_funding_timed_out() {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_funding_timed_out();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKStr err_conv = str_ref_to_owned_c(err);
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_processing_error(err_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ClosureReason_disconnected_peer"))) TS_ClosureReason_disconnected_peer() {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_disconnected_peer();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ClosureReason_outdated_channel_manager"))) TS_ClosureReason_outdated_channel_manager() {
LDKClosureReason *ret_copy = MALLOC(sizeof(LDKClosureReason), "LDKClosureReason");
*ret_copy = ClosureReason_outdated_channel_manager();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
int8_tArray __attribute__((export_name("TS_ClosureReason_write"))) TS_ClosureReason_write(uint32_t obj) {
LDKClosureReason* obj_conv = (LDKClosureReason*)obj;
LDKCVec_u8Z ret_var = ClosureReason_write(obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ClosureReason_read"))) TS_ClosureReason_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_COption_ClosureReasonZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_ClosureReasonZDecodeErrorZ), "LDKCResult_COption_ClosureReasonZDecodeErrorZ");
*ret_conv = ClosureReason_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_Event_free"))) TS_Event_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKEvent this_ptr_conv = *(LDKEvent*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t Event_clone_ptr(LDKEvent *NONNULL_PTR arg) {
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Event_clone_ptr"))) TS_Event_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Event_clone_ptr"))) TS_Event_clone_ptr(uint32_t arg) {
LDKEvent* arg_conv = (LDKEvent*)arg;
- int64_t ret_val = Event_clone_ptr(arg_conv);
+ intptr_t ret_val = Event_clone_ptr(arg_conv);
return ret_val;
}
LDKEvent* orig_conv = (LDKEvent*)orig;
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_funding_generation_ready"))) TS_Event_funding_generation_ready(int8_tArray temporary_channel_id, int64_t channel_value_satoshis, int8_tArray output_script, int64_t user_channel_id) {
LDKThirtyTwoBytes temporary_channel_id_ref;
CHECK(temporary_channel_id->arr_len == 32);
- memcpy(temporary_channel_id_ref.data, temporary_channel_id->elems, 32);
+ memcpy(temporary_channel_id_ref.data, temporary_channel_id->elems, 32); FREE(temporary_channel_id);
LDKCVec_u8Z output_script_ref;
output_script_ref.datalen = output_script->arr_len;
output_script_ref.data = MALLOC(output_script_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(output_script_ref.data, output_script->elems, output_script_ref.datalen);
+ memcpy(output_script_ref.data, output_script->elems, output_script_ref.datalen); FREE(output_script);
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_funding_generation_ready(temporary_channel_id_ref, channel_value_satoshis, output_script_ref, user_channel_id);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_payment_received"))) TS_Event_payment_received(int8_tArray payment_hash, int64_t amt, uint32_t purpose) {
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
- void* purpose_ptr = (void*)(((uint64_t)purpose) & ~1);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
+ void* purpose_ptr = (void*)(((uintptr_t)purpose) & ~1);
CHECK_ACCESS(purpose_ptr);
LDKPaymentPurpose purpose_conv = *(LDKPaymentPurpose*)(purpose_ptr);
- purpose_conv = PaymentPurpose_clone((LDKPaymentPurpose*)(((uint64_t)purpose) & ~1));
+ purpose_conv = PaymentPurpose_clone((LDKPaymentPurpose*)(((uintptr_t)purpose) & ~1));
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_payment_received(payment_hash_ref, amt, purpose_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_payment_sent"))) TS_Event_payment_sent(int8_tArray payment_id, int8_tArray payment_preimage, int8_tArray payment_hash, uint32_t fee_paid_msat) {
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
LDKThirtyTwoBytes payment_preimage_ref;
CHECK(payment_preimage->arr_len == 32);
- memcpy(payment_preimage_ref.data, payment_preimage->elems, 32);
+ memcpy(payment_preimage_ref.data, payment_preimage->elems, 32); FREE(payment_preimage);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
- void* fee_paid_msat_ptr = (void*)(((uint64_t)fee_paid_msat) & ~1);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
+ void* fee_paid_msat_ptr = (void*)(((uintptr_t)fee_paid_msat) & ~1);
CHECK_ACCESS(fee_paid_msat_ptr);
LDKCOption_u64Z fee_paid_msat_conv = *(LDKCOption_u64Z*)(fee_paid_msat_ptr);
- fee_paid_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)fee_paid_msat) & ~1));
+ fee_paid_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)fee_paid_msat) & ~1));
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_payment_sent(payment_id_ref, payment_preimage_ref, payment_hash_ref, fee_paid_msat_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_payment_path_failed"))) TS_Event_payment_path_failed(int8_tArray payment_id, int8_tArray payment_hash, jboolean rejected_by_dest, uint32_t network_update, jboolean all_paths_failed, uint32_tArray path, uint32_t short_channel_id, uint32_t retry) {
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
- void* network_update_ptr = (void*)(((uint64_t)network_update) & ~1);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
+ void* network_update_ptr = (void*)(((uintptr_t)network_update) & ~1);
CHECK_ACCESS(network_update_ptr);
LDKCOption_NetworkUpdateZ network_update_conv = *(LDKCOption_NetworkUpdateZ*)(network_update_ptr);
- network_update_conv = COption_NetworkUpdateZ_clone((LDKCOption_NetworkUpdateZ*)(((uint64_t)network_update) & ~1));
+ network_update_conv = COption_NetworkUpdateZ_clone((LDKCOption_NetworkUpdateZ*)(((uintptr_t)network_update) & ~1));
LDKCVec_RouteHopZ path_constr;
path_constr.datalen = path->arr_len;
if (path_constr.datalen > 0)
path_constr.data = MALLOC(path_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
path_constr.data = NULL;
- uint32_t* path_vals = path->elems;
+ uint32_t* path_vals = path->elems /* XXX path leaks */;
for (size_t k = 0; k < path_constr.datalen; k++) {
uint32_t path_conv_10 = path_vals[k];
LDKRouteHop path_conv_10_conv;
path_conv_10_conv = RouteHop_clone(&path_conv_10_conv);
path_constr.data[k] = path_conv_10_conv;
}
- void* short_channel_id_ptr = (void*)(((uint64_t)short_channel_id) & ~1);
+ void* short_channel_id_ptr = (void*)(((uintptr_t)short_channel_id) & ~1);
CHECK_ACCESS(short_channel_id_ptr);
LDKCOption_u64Z short_channel_id_conv = *(LDKCOption_u64Z*)(short_channel_id_ptr);
- short_channel_id_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)short_channel_id) & ~1));
+ short_channel_id_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)short_channel_id) & ~1));
LDKRouteParameters retry_conv;
retry_conv.inner = (void*)(retry & (~1));
retry_conv.is_owned = (retry & 1) || (retry == 0);
retry_conv = RouteParameters_clone(&retry_conv);
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_payment_path_failed(payment_id_ref, payment_hash_ref, rejected_by_dest, network_update_conv, all_paths_failed, path_constr, short_channel_id_conv, retry_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_payment_failed"))) TS_Event_payment_failed(int8_tArray payment_id, int8_tArray payment_hash) {
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_payment_failed(payment_id_ref, payment_hash_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_pending_htlcs_forwardable"))) TS_Event_pending_htlcs_forwardable(int64_t time_forwardable) {
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_pending_htlcs_forwardable(time_forwardable);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
outputs_constr.data = MALLOC(outputs_constr.datalen * sizeof(LDKSpendableOutputDescriptor), "LDKCVec_SpendableOutputDescriptorZ Elements");
else
outputs_constr.data = NULL;
- uint32_t* outputs_vals = outputs->elems;
+ uint32_t* outputs_vals = outputs->elems /* XXX outputs leaks */;
for (size_t b = 0; b < outputs_constr.datalen; b++) {
uint32_t outputs_conv_27 = outputs_vals[b];
- void* outputs_conv_27_ptr = (void*)(((uint64_t)outputs_conv_27) & ~1);
+ void* outputs_conv_27_ptr = (void*)(((uintptr_t)outputs_conv_27) & ~1);
CHECK_ACCESS(outputs_conv_27_ptr);
LDKSpendableOutputDescriptor outputs_conv_27_conv = *(LDKSpendableOutputDescriptor*)(outputs_conv_27_ptr);
- outputs_conv_27_conv = SpendableOutputDescriptor_clone((LDKSpendableOutputDescriptor*)(((uint64_t)outputs_conv_27) & ~1));
+ outputs_conv_27_conv = SpendableOutputDescriptor_clone((LDKSpendableOutputDescriptor*)(((uintptr_t)outputs_conv_27) & ~1));
outputs_constr.data[b] = outputs_conv_27_conv;
}
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_spendable_outputs(outputs_constr);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_payment_forwarded"))) TS_Event_payment_forwarded(uint32_t fee_earned_msat, jboolean claim_from_onchain_tx) {
- void* fee_earned_msat_ptr = (void*)(((uint64_t)fee_earned_msat) & ~1);
+ void* fee_earned_msat_ptr = (void*)(((uintptr_t)fee_earned_msat) & ~1);
CHECK_ACCESS(fee_earned_msat_ptr);
LDKCOption_u64Z fee_earned_msat_conv = *(LDKCOption_u64Z*)(fee_earned_msat_ptr);
- fee_earned_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)fee_earned_msat) & ~1));
+ fee_earned_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)fee_earned_msat) & ~1));
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_payment_forwarded(fee_earned_msat_conv, claim_from_onchain_tx);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_channel_closed"))) TS_Event_channel_closed(int8_tArray channel_id, int64_t user_channel_id, uint32_t reason) {
LDKThirtyTwoBytes channel_id_ref;
CHECK(channel_id->arr_len == 32);
- memcpy(channel_id_ref.data, channel_id->elems, 32);
- void* reason_ptr = (void*)(((uint64_t)reason) & ~1);
+ memcpy(channel_id_ref.data, channel_id->elems, 32); FREE(channel_id);
+ void* reason_ptr = (void*)(((uintptr_t)reason) & ~1);
CHECK_ACCESS(reason_ptr);
LDKClosureReason reason_conv = *(LDKClosureReason*)(reason_ptr);
- reason_conv = ClosureReason_clone((LDKClosureReason*)(((uint64_t)reason) & ~1));
+ reason_conv = ClosureReason_clone((LDKClosureReason*)(((uintptr_t)reason) & ~1));
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_channel_closed(channel_id_ref, user_channel_id, reason_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_discard_funding"))) TS_Event_discard_funding(int8_tArray channel_id, int8_tArray transaction) {
LDKThirtyTwoBytes channel_id_ref;
CHECK(channel_id->arr_len == 32);
- memcpy(channel_id_ref.data, channel_id->elems, 32);
+ memcpy(channel_id_ref.data, channel_id->elems, 32); FREE(channel_id);
LDKTransaction transaction_ref;
transaction_ref.datalen = transaction->arr_len;
transaction_ref.data = MALLOC(transaction_ref.datalen, "LDKTransaction Bytes");
- memcpy(transaction_ref.data, transaction->elems, transaction_ref.datalen);
+ memcpy(transaction_ref.data, transaction->elems, transaction_ref.datalen); FREE(transaction);
transaction_ref.data_is_owned = true;
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_discard_funding(channel_id_ref, transaction_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Event_payment_path_successful"))) TS_Event_payment_path_successful(int8_tArray payment_id, int8_tArray payment_hash, uint32_tArray path) {
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
LDKCVec_RouteHopZ path_constr;
path_constr.datalen = path->arr_len;
if (path_constr.datalen > 0)
path_constr.data = MALLOC(path_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
path_constr.data = NULL;
- uint32_t* path_vals = path->elems;
+ uint32_t* path_vals = path->elems /* XXX path leaks */;
for (size_t k = 0; k < path_constr.datalen; k++) {
uint32_t path_conv_10 = path_vals[k];
LDKRouteHop path_conv_10_conv;
}
LDKEvent *ret_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_copy = Event_payment_path_successful(payment_id_ref, payment_hash_ref, path_constr);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
int8_tArray __attribute__((export_name("TS_Event_write"))) TS_Event_write(uint32_t obj) {
LDKEvent* obj_conv = (LDKEvent*)obj;
LDKCVec_u8Z ret_var = Event_write(obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Event_read"))) TS_Event_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_COption_EventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_EventZDecodeErrorZ), "LDKCResult_COption_EventZDecodeErrorZ");
*ret_conv = Event_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_MessageSendEvent_free"))) TS_MessageSendEvent_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKMessageSendEvent this_ptr_conv = *(LDKMessageSendEvent*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t MessageSendEvent_clone_ptr(LDKMessageSendEvent *NONNULL_PTR arg) {
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_MessageSendEvent_clone_ptr"))) TS_MessageSendEvent_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_MessageSendEvent_clone_ptr"))) TS_MessageSendEvent_clone_ptr(uint32_t arg) {
LDKMessageSendEvent* arg_conv = (LDKMessageSendEvent*)arg;
- int64_t ret_val = MessageSendEvent_clone_ptr(arg_conv);
+ intptr_t ret_val = MessageSendEvent_clone_ptr(arg_conv);
return ret_val;
}
LDKMessageSendEvent* orig_conv = (LDKMessageSendEvent*)orig;
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_accept_channel"))) TS_MessageSendEvent_send_accept_channel(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKAcceptChannel msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = AcceptChannel_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_accept_channel(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_open_channel"))) TS_MessageSendEvent_send_open_channel(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKOpenChannel msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = OpenChannel_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_open_channel(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_funding_created"))) TS_MessageSendEvent_send_funding_created(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKFundingCreated msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = FundingCreated_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_funding_created(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_funding_signed"))) TS_MessageSendEvent_send_funding_signed(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKFundingSigned msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = FundingSigned_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_funding_signed(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_funding_locked"))) TS_MessageSendEvent_send_funding_locked(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKFundingLocked msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = FundingLocked_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_funding_locked(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_announcement_signatures"))) TS_MessageSendEvent_send_announcement_signatures(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKAnnouncementSignatures msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = AnnouncementSignatures_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_announcement_signatures(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_update_htlcs"))) TS_MessageSendEvent_update_htlcs(int8_tArray node_id, uint32_t updates) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKCommitmentUpdate updates_conv;
updates_conv.inner = (void*)(updates & (~1));
updates_conv.is_owned = (updates & 1) || (updates == 0);
updates_conv = CommitmentUpdate_clone(&updates_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_update_htlcs(node_id_ref, updates_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_revoke_and_ack"))) TS_MessageSendEvent_send_revoke_and_ack(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKRevokeAndACK msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = RevokeAndACK_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_revoke_and_ack(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_closing_signed"))) TS_MessageSendEvent_send_closing_signed(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKClosingSigned msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = ClosingSigned_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_closing_signed(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_shutdown"))) TS_MessageSendEvent_send_shutdown(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKShutdown msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = Shutdown_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_shutdown(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_channel_reestablish"))) TS_MessageSendEvent_send_channel_reestablish(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKChannelReestablish msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = ChannelReestablish_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_channel_reestablish(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
update_msg_conv = ChannelUpdate_clone(&update_msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_broadcast_channel_announcement(msg_conv, update_msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
msg_conv = NodeAnnouncement_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_broadcast_node_announcement(msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
msg_conv = ChannelUpdate_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_broadcast_channel_update(msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_channel_update"))) TS_MessageSendEvent_send_channel_update(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKChannelUpdate msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = ChannelUpdate_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_channel_update(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_handle_error"))) TS_MessageSendEvent_handle_error(int8_tArray node_id, uint32_t action) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
- void* action_ptr = (void*)(((uint64_t)action) & ~1);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
+ void* action_ptr = (void*)(((uintptr_t)action) & ~1);
CHECK_ACCESS(action_ptr);
LDKErrorAction action_conv = *(LDKErrorAction*)(action_ptr);
- action_conv = ErrorAction_clone((LDKErrorAction*)(((uint64_t)action) & ~1));
+ action_conv = ErrorAction_clone((LDKErrorAction*)(((uintptr_t)action) & ~1));
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_handle_error(node_id_ref, action_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_channel_range_query"))) TS_MessageSendEvent_send_channel_range_query(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKQueryChannelRange msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = QueryChannelRange_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_channel_range_query(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_short_ids_query"))) TS_MessageSendEvent_send_short_ids_query(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKQueryShortChannelIds msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = QueryShortChannelIds_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_short_ids_query(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_MessageSendEvent_send_reply_channel_range"))) TS_MessageSendEvent_send_reply_channel_range(int8_tArray node_id, uint32_t msg) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKReplyChannelRange msg_conv;
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = (msg & 1) || (msg == 0);
msg_conv = ReplyChannelRange_clone(&msg_conv);
LDKMessageSendEvent *ret_copy = MALLOC(sizeof(LDKMessageSendEvent), "LDKMessageSendEvent");
*ret_copy = MessageSendEvent_send_reply_channel_range(node_id_ref, msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
void __attribute__((export_name("TS_MessageSendEventsProvider_free"))) TS_MessageSendEventsProvider_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKMessageSendEventsProvider this_ptr_conv = *(LDKMessageSendEventsProvider*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_EventsProvider_free"))) TS_EventsProvider_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKEventsProvider this_ptr_conv = *(LDKEventsProvider*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_EventHandler_free"))) TS_EventHandler_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKEventHandler this_ptr_conv = *(LDKEventHandler*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_APIError_free"))) TS_APIError_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKAPIError this_ptr_conv = *(LDKAPIError*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t APIError_clone_ptr(LDKAPIError *NONNULL_PTR arg) {
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_APIError_clone_ptr"))) TS_APIError_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_APIError_clone_ptr"))) TS_APIError_clone_ptr(uint32_t arg) {
LDKAPIError* arg_conv = (LDKAPIError*)arg;
- int64_t ret_val = APIError_clone_ptr(arg_conv);
+ intptr_t ret_val = APIError_clone_ptr(arg_conv);
return ret_val;
}
LDKAPIError* orig_conv = (LDKAPIError*)orig;
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKStr err_conv = str_ref_to_owned_c(err);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_apimisuse_error(err_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKStr err_conv = str_ref_to_owned_c(err);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_fee_rate_too_high(err_conv, feerate);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKStr err_conv = str_ref_to_owned_c(err);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_route_error(err_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKStr err_conv = str_ref_to_owned_c(err);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_channel_unavailable(err_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_APIError_monitor_update_failed"))) TS_APIError_monitor_update_failed() {
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_monitor_update_failed();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
script_conv = ShutdownScript_clone(&script_conv);
LDKAPIError *ret_copy = MALLOC(sizeof(LDKAPIError), "LDKAPIError");
*ret_copy = APIError_incompatible_shutdown_script(script_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_sign"))) TS_sign(int8_tArray msg, int8_tArray sk) {
LDKu8slice msg_ref;
msg_ref.datalen = msg->arr_len;
- msg_ref.data = msg->elems;
+ msg_ref.data = msg->elems /* XXX msg leaks */;
unsigned char sk_arr[32];
CHECK(sk->arr_len == 32);
- memcpy(sk_arr, sk->elems, 32);
+ memcpy(sk_arr, sk->elems, 32); FREE(sk);
unsigned char (*sk_ref)[32] = &sk_arr;
LDKCResult_StringErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StringErrorZ), "LDKCResult_StringErrorZ");
*ret_conv = sign(msg_ref, sk_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_recover_pk"))) TS_recover_pk(int8_tArray msg, jstring sig) {
LDKu8slice msg_ref;
msg_ref.datalen = msg->arr_len;
- msg_ref.data = msg->elems;
+ msg_ref.data = msg->elems /* XXX msg leaks */;
LDKStr sig_conv = str_ref_to_owned_c(sig);
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = recover_pk(msg_ref, sig_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
jboolean __attribute__((export_name("TS_verify"))) TS_verify(int8_tArray msg, jstring sig, int8_tArray pk) {
LDKu8slice msg_ref;
msg_ref.datalen = msg->arr_len;
- msg_ref.data = msg->elems;
+ msg_ref.data = msg->elems /* XXX msg leaks */;
LDKStr sig_conv = str_ref_to_owned_c(sig);
LDKPublicKey pk_ref;
CHECK(pk->arr_len == 33);
- memcpy(pk_ref.compressed_form, pk->elems, 33);
+ memcpy(pk_ref.compressed_form, pk->elems, 33); FREE(pk);
jboolean ret_val = verify(msg_ref, sig_conv, pk_ref);
return ret_val;
}
static inline uintptr_t Record_clone_ptr(LDKRecord *NONNULL_PTR arg) {
LDKRecord ret_var = Record_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Record_clone_ptr"))) TS_Record_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Record_clone_ptr"))) TS_Record_clone_ptr(uint32_t arg) {
LDKRecord arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Record_clone_ptr(&arg_conv);
+ intptr_t ret_val = Record_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRecord ret_var = Record_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_Logger_free"))) TS_Logger_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKLogger this_ptr_conv = *(LDKLogger*)(this_ptr_ptr);
FREE((void*)this_ptr);
uint32_t __attribute__((export_name("TS_ChannelHandshakeConfig_new"))) TS_ChannelHandshakeConfig_new(int32_t minimum_depth_arg, int16_t our_to_self_delay_arg, int64_t our_htlc_minimum_msat_arg) {
LDKChannelHandshakeConfig ret_var = ChannelHandshakeConfig_new(minimum_depth_arg, our_to_self_delay_arg, our_htlc_minimum_msat_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelHandshakeConfig_clone_ptr(LDKChannelHandshakeConfig *NONNULL_PTR arg) {
LDKChannelHandshakeConfig ret_var = ChannelHandshakeConfig_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelHandshakeConfig_clone_ptr"))) TS_ChannelHandshakeConfig_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelHandshakeConfig_clone_ptr"))) TS_ChannelHandshakeConfig_clone_ptr(uint32_t arg) {
LDKChannelHandshakeConfig arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelHandshakeConfig_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelHandshakeConfig_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelHandshakeConfig ret_var = ChannelHandshakeConfig_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelHandshakeConfig_default"))) TS_ChannelHandshakeConfig_default() {
LDKChannelHandshakeConfig ret_var = ChannelHandshakeConfig_default();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelHandshakeLimits_new"))) TS_ChannelHandshakeLimits_new(int64_t min_funding_satoshis_arg, int64_t max_htlc_minimum_msat_arg, int64_t min_max_htlc_value_in_flight_msat_arg, int64_t max_channel_reserve_satoshis_arg, int16_t min_max_accepted_htlcs_arg, int32_t max_minimum_depth_arg, jboolean force_announced_channel_preference_arg, int16_t their_to_self_delay_arg) {
LDKChannelHandshakeLimits ret_var = ChannelHandshakeLimits_new(min_funding_satoshis_arg, max_htlc_minimum_msat_arg, min_max_htlc_value_in_flight_msat_arg, max_channel_reserve_satoshis_arg, min_max_accepted_htlcs_arg, max_minimum_depth_arg, force_announced_channel_preference_arg, their_to_self_delay_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelHandshakeLimits_clone_ptr(LDKChannelHandshakeLimits *NONNULL_PTR arg) {
LDKChannelHandshakeLimits ret_var = ChannelHandshakeLimits_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelHandshakeLimits_clone_ptr"))) TS_ChannelHandshakeLimits_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelHandshakeLimits_clone_ptr"))) TS_ChannelHandshakeLimits_clone_ptr(uint32_t arg) {
LDKChannelHandshakeLimits arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelHandshakeLimits_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelHandshakeLimits_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelHandshakeLimits ret_var = ChannelHandshakeLimits_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelHandshakeLimits_default"))) TS_ChannelHandshakeLimits_default() {
LDKChannelHandshakeLimits ret_var = ChannelHandshakeLimits_default();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelConfig_new"))) TS_ChannelConfig_new(int32_t forwarding_fee_proportional_millionths_arg, int32_t forwarding_fee_base_msat_arg, int16_t cltv_expiry_delta_arg, jboolean announced_channel_arg, jboolean commit_upfront_shutdown_pubkey_arg, int64_t max_dust_htlc_exposure_msat_arg, int64_t force_close_avoidance_max_fee_satoshis_arg) {
LDKChannelConfig ret_var = ChannelConfig_new(forwarding_fee_proportional_millionths_arg, forwarding_fee_base_msat_arg, cltv_expiry_delta_arg, announced_channel_arg, commit_upfront_shutdown_pubkey_arg, max_dust_htlc_exposure_msat_arg, force_close_avoidance_max_fee_satoshis_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelConfig_clone_ptr(LDKChannelConfig *NONNULL_PTR arg) {
LDKChannelConfig ret_var = ChannelConfig_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelConfig_clone_ptr"))) TS_ChannelConfig_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelConfig_clone_ptr"))) TS_ChannelConfig_clone_ptr(uint32_t arg) {
LDKChannelConfig arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelConfig_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelConfig_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelConfig ret_var = ChannelConfig_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelConfig_default"))) TS_ChannelConfig_default() {
LDKChannelConfig ret_var = ChannelConfig_default();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelConfig_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelConfig_read"))) TS_ChannelConfig_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelConfigDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelConfigDecodeErrorZ), "LDKCResult_ChannelConfigDecodeErrorZ");
*ret_conv = ChannelConfig_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_UserConfig_free"))) TS_UserConfig_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelHandshakeConfig ret_var = UserConfig_get_own_channel_config(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelHandshakeLimits ret_var = UserConfig_get_peer_channel_config_limits(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelConfig ret_var = UserConfig_get_channel_options(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(channel_options_arg_conv);
channel_options_arg_conv = ChannelConfig_clone(&channel_options_arg_conv);
LDKUserConfig ret_var = UserConfig_new(own_channel_config_arg_conv, peer_channel_config_limits_arg_conv, channel_options_arg_conv, accept_forwards_to_priv_channels_arg, accept_inbound_channels_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t UserConfig_clone_ptr(LDKUserConfig *NONNULL_PTR arg) {
LDKUserConfig ret_var = UserConfig_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UserConfig_clone_ptr"))) TS_UserConfig_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UserConfig_clone_ptr"))) TS_UserConfig_clone_ptr(uint32_t arg) {
LDKUserConfig arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UserConfig_clone_ptr(&arg_conv);
+ intptr_t ret_val = UserConfig_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUserConfig ret_var = UserConfig_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_UserConfig_default"))) TS_UserConfig_default() {
LDKUserConfig ret_var = UserConfig_default();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t BestBlock_clone_ptr(LDKBestBlock *NONNULL_PTR arg) {
LDKBestBlock ret_var = BestBlock_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_BestBlock_clone_ptr"))) TS_BestBlock_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_BestBlock_clone_ptr"))) TS_BestBlock_clone_ptr(uint32_t arg) {
LDKBestBlock arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = BestBlock_clone_ptr(&arg_conv);
+ intptr_t ret_val = BestBlock_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKBestBlock ret_var = BestBlock_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_BestBlock_from_genesis"))) TS_BestBlock_from_genesis(uint32_t network) {
LDKNetwork network_conv = LDKNetwork_from_js(network);
LDKBestBlock ret_var = BestBlock_from_genesis(network_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_BestBlock_new"))) TS_BestBlock_new(int8_tArray block_hash, int32_t height) {
LDKThirtyTwoBytes block_hash_ref;
CHECK(block_hash->arr_len == 32);
- memcpy(block_hash_ref.data, block_hash->elems, 32);
+ memcpy(block_hash_ref.data, block_hash->elems, 32); FREE(block_hash);
LDKBestBlock ret_var = BestBlock_new(block_hash_ref, height);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, BestBlock_block_hash(&this_arg_conv).data, 32);
return ret_arr;
}
void __attribute__((export_name("TS_Access_free"))) TS_Access_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKAccess this_ptr_conv = *(LDKAccess*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_Listen_free"))) TS_Listen_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKListen this_ptr_conv = *(LDKListen*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_Confirm_free"))) TS_Confirm_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKConfirm this_ptr_conv = *(LDKConfirm*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_Watch_free"))) TS_Watch_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKWatch this_ptr_conv = *(LDKWatch*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_Filter_free"))) TS_Filter_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKFilter this_ptr_conv = *(LDKFilter*)(this_ptr_ptr);
FREE((void*)this_ptr);
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, WatchedOutput_get_block_hash(&this_ptr_conv).data, 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
WatchedOutput_set_block_hash(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKOutPoint ret_var = WatchedOutput_get_outpoint(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKu8slice ret_var = WatchedOutput_get_script_pubkey(&this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
LDKCVec_u8Z val_ref;
val_ref.datalen = val->arr_len;
val_ref.data = MALLOC(val_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(val_ref.data, val->elems, val_ref.datalen);
+ memcpy(val_ref.data, val->elems, val_ref.datalen); FREE(val);
WatchedOutput_set_script_pubkey(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_WatchedOutput_new"))) TS_WatchedOutput_new(int8_tArray block_hash_arg, uint32_t outpoint_arg, int8_tArray script_pubkey_arg) {
LDKThirtyTwoBytes block_hash_arg_ref;
CHECK(block_hash_arg->arr_len == 32);
- memcpy(block_hash_arg_ref.data, block_hash_arg->elems, 32);
+ memcpy(block_hash_arg_ref.data, block_hash_arg->elems, 32); FREE(block_hash_arg);
LDKOutPoint outpoint_arg_conv;
outpoint_arg_conv.inner = (void*)(outpoint_arg & (~1));
outpoint_arg_conv.is_owned = (outpoint_arg & 1) || (outpoint_arg == 0);
LDKCVec_u8Z script_pubkey_arg_ref;
script_pubkey_arg_ref.datalen = script_pubkey_arg->arr_len;
script_pubkey_arg_ref.data = MALLOC(script_pubkey_arg_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(script_pubkey_arg_ref.data, script_pubkey_arg->elems, script_pubkey_arg_ref.datalen);
+ memcpy(script_pubkey_arg_ref.data, script_pubkey_arg->elems, script_pubkey_arg_ref.datalen); FREE(script_pubkey_arg);
LDKWatchedOutput ret_var = WatchedOutput_new(block_hash_arg_ref, outpoint_arg_conv, script_pubkey_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t WatchedOutput_clone_ptr(LDKWatchedOutput *NONNULL_PTR arg) {
LDKWatchedOutput ret_var = WatchedOutput_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_WatchedOutput_clone_ptr"))) TS_WatchedOutput_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_WatchedOutput_clone_ptr"))) TS_WatchedOutput_clone_ptr(uint32_t arg) {
LDKWatchedOutput arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = WatchedOutput_clone_ptr(&arg_conv);
+ intptr_t ret_val = WatchedOutput_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKWatchedOutput ret_var = WatchedOutput_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_BroadcasterInterface_free"))) TS_BroadcasterInterface_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKBroadcasterInterface this_ptr_conv = *(LDKBroadcasterInterface*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_FeeEstimator_free"))) TS_FeeEstimator_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKFeeEstimator this_ptr_conv = *(LDKFeeEstimator*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t MonitorUpdateId_clone_ptr(LDKMonitorUpdateId *NONNULL_PTR arg) {
LDKMonitorUpdateId ret_var = MonitorUpdateId_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_MonitorUpdateId_clone_ptr"))) TS_MonitorUpdateId_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_MonitorUpdateId_clone_ptr"))) TS_MonitorUpdateId_clone_ptr(uint32_t arg) {
LDKMonitorUpdateId arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = MonitorUpdateId_clone_ptr(&arg_conv);
+ intptr_t ret_val = MonitorUpdateId_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKMonitorUpdateId ret_var = MonitorUpdateId_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_Persist_free"))) TS_Persist_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKPersist this_ptr_conv = *(LDKPersist*)(this_ptr_ptr);
FREE((void*)this_ptr);
}
uint32_t __attribute__((export_name("TS_ChainMonitor_new"))) TS_ChainMonitor_new(uint32_t chain_source, uint32_t broadcaster, uint32_t logger, uint32_t feeest, uint32_t persister) {
- void* chain_source_ptr = (void*)(((uint64_t)chain_source) & ~1);
+ void* chain_source_ptr = (void*)(((uintptr_t)chain_source) & ~1);
CHECK_ACCESS(chain_source_ptr);
LDKCOption_FilterZ chain_source_conv = *(LDKCOption_FilterZ*)(chain_source_ptr);
// Warning: we may need a move here but no clone is available for LDKCOption_FilterZ
if (chain_source_conv.tag == LDKCOption_FilterZ_Some) {
// Manually implement clone for Java trait instances
}
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
CHECK_ACCESS(broadcaster_ptr);
LDKBroadcasterInterface broadcaster_conv = *(LDKBroadcasterInterface*)(broadcaster_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
- void* feeest_ptr = (void*)(((uint64_t)feeest) & ~1);
+ void* feeest_ptr = (void*)(((uintptr_t)feeest) & ~1);
CHECK_ACCESS(feeest_ptr);
LDKFeeEstimator feeest_conv = *(LDKFeeEstimator*)(feeest_ptr);
- void* persister_ptr = (void*)(((uint64_t)persister) & ~1);
+ void* persister_ptr = (void*)(((uintptr_t)persister) & ~1);
CHECK_ACCESS(persister_ptr);
LDKPersist persister_conv = *(LDKPersist*)(persister_ptr);
LDKChainMonitor ret_var = ChainMonitor_new(chain_source_conv, broadcaster_conv, logger_conv, feeest_conv, persister_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
ignored_channels_constr.data = MALLOC(ignored_channels_constr.datalen * sizeof(LDKChannelDetails), "LDKCVec_ChannelDetailsZ Elements");
else
ignored_channels_constr.data = NULL;
- uint32_t* ignored_channels_vals = ignored_channels->elems;
+ uint32_t* ignored_channels_vals = ignored_channels->elems /* XXX ignored_channels leaks */;
for (size_t q = 0; q < ignored_channels_constr.datalen; q++) {
uint32_t ignored_channels_conv_16 = ignored_channels_vals[q];
LDKChannelDetails ignored_channels_conv_16_conv;
}
LDKCVec_BalanceZ ret_var = ChainMonitor_get_claimable_balances(&this_arg_conv, ignored_channels_constr);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t j = 0; j < ret_var.datalen; j++) {
LDKBalance *ret_conv_9_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_conv_9_copy = ret_var.data[j];
- uint64_t ret_conv_9_ref = (uint64_t)ret_conv_9_copy;
+ uintptr_t ret_conv_9_ref = (uintptr_t)ret_conv_9_copy;
ret_arr_ptr[j] = ret_conv_9_ref;
}
funding_txo_conv = OutPoint_clone(&funding_txo_conv);
LDKCResult_LockedChannelMonitorNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_LockedChannelMonitorNoneZ), "LDKCResult_LockedChannelMonitorNoneZ");
*ret_conv = ChainMonitor_get_monitor(&this_arg_conv, funding_txo_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_tArray __attribute__((export_name("TS_ChainMonitor_list_monitors"))) TS_ChainMonitor_list_monitors(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_OutPointZ ret_var = ChainMonitor_list_monitors(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t k = 0; k < ret_var.datalen; k++) {
LDKOutPoint ret_conv_10_var = ret_var.data[k];
- uint64_t ret_conv_10_ref = 0;
- CHECK((((uint64_t)ret_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_10_ref = 0;
+ CHECK((((uintptr_t)ret_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_10_var);
- ret_conv_10_ref = (uint64_t)ret_conv_10_var.inner;
+ ret_conv_10_ref = (uintptr_t)ret_conv_10_var.inner;
if (ret_conv_10_var.is_owned) {
ret_conv_10_ref |= 1;
}
completed_update_id_conv = MonitorUpdateId_clone(&completed_update_id_conv);
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = ChainMonitor_channel_monitor_updated(&this_arg_conv, funding_txo_conv, completed_update_id_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChainMonitor_as_Listen"))) TS_ChainMonitor_as_Listen(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKListen* ret_ret = MALLOC(sizeof(LDKListen), "LDKListen");
*ret_ret = ChainMonitor_as_Listen(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ChainMonitor_as_Confirm"))) TS_ChainMonitor_as_Confirm(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKConfirm* ret_ret = MALLOC(sizeof(LDKConfirm), "LDKConfirm");
*ret_ret = ChainMonitor_as_Confirm(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ChainMonitor_as_Watch"))) TS_ChainMonitor_as_Watch(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKWatch* ret_ret = MALLOC(sizeof(LDKWatch), "LDKWatch");
*ret_ret = ChainMonitor_as_Watch(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ChainMonitor_as_EventsProvider"))) TS_ChainMonitor_as_EventsProvider(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKEventsProvider* ret_ret = MALLOC(sizeof(LDKEventsProvider), "LDKEventsProvider");
*ret_ret = ChainMonitor_as_EventsProvider(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_ChannelMonitorUpdate_free"))) TS_ChannelMonitorUpdate_free(uint32_t this_obj) {
static inline uintptr_t ChannelMonitorUpdate_clone_ptr(LDKChannelMonitorUpdate *NONNULL_PTR arg) {
LDKChannelMonitorUpdate ret_var = ChannelMonitorUpdate_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelMonitorUpdate_clone_ptr"))) TS_ChannelMonitorUpdate_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelMonitorUpdate_clone_ptr"))) TS_ChannelMonitorUpdate_clone_ptr(uint32_t arg) {
LDKChannelMonitorUpdate arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelMonitorUpdate_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelMonitorUpdate_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelMonitorUpdate ret_var = ChannelMonitorUpdate_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelMonitorUpdate_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelMonitorUpdate_read"))) TS_ChannelMonitorUpdate_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelMonitorUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelMonitorUpdateDecodeErrorZ), "LDKCResult_ChannelMonitorUpdateDecodeErrorZ");
*ret_conv = ChannelMonitorUpdate_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_MonitorEvent_free"))) TS_MonitorEvent_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKMonitorEvent this_ptr_conv = *(LDKMonitorEvent*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t MonitorEvent_clone_ptr(LDKMonitorEvent *NONNULL_PTR arg) {
LDKMonitorEvent *ret_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_copy = MonitorEvent_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_MonitorEvent_clone_ptr"))) TS_MonitorEvent_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_MonitorEvent_clone_ptr"))) TS_MonitorEvent_clone_ptr(uint32_t arg) {
LDKMonitorEvent* arg_conv = (LDKMonitorEvent*)arg;
- int64_t ret_val = MonitorEvent_clone_ptr(arg_conv);
+ intptr_t ret_val = MonitorEvent_clone_ptr(arg_conv);
return ret_val;
}
LDKMonitorEvent* orig_conv = (LDKMonitorEvent*)orig;
LDKMonitorEvent *ret_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_copy = MonitorEvent_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_conv = HTLCUpdate_clone(&a_conv);
LDKMonitorEvent *ret_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_copy = MonitorEvent_htlcevent(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_conv = OutPoint_clone(&a_conv);
LDKMonitorEvent *ret_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_copy = MonitorEvent_commitment_tx_confirmed(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
funding_txo_conv = OutPoint_clone(&funding_txo_conv);
LDKMonitorEvent *ret_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_copy = MonitorEvent_update_completed(funding_txo_conv, monitor_update_id);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_conv = OutPoint_clone(&a_conv);
LDKMonitorEvent *ret_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_copy = MonitorEvent_update_failed(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
int8_tArray __attribute__((export_name("TS_MonitorEvent_write"))) TS_MonitorEvent_write(uint32_t obj) {
LDKMonitorEvent* obj_conv = (LDKMonitorEvent*)obj;
LDKCVec_u8Z ret_var = MonitorEvent_write(obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_MonitorEvent_read"))) TS_MonitorEvent_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_COption_MonitorEventZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_MonitorEventZDecodeErrorZ), "LDKCResult_COption_MonitorEventZDecodeErrorZ");
*ret_conv = MonitorEvent_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_HTLCUpdate_free"))) TS_HTLCUpdate_free(uint32_t this_obj) {
static inline uintptr_t HTLCUpdate_clone_ptr(LDKHTLCUpdate *NONNULL_PTR arg) {
LDKHTLCUpdate ret_var = HTLCUpdate_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_HTLCUpdate_clone_ptr"))) TS_HTLCUpdate_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_HTLCUpdate_clone_ptr"))) TS_HTLCUpdate_clone_ptr(uint32_t arg) {
LDKHTLCUpdate arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = HTLCUpdate_clone_ptr(&arg_conv);
+ intptr_t ret_val = HTLCUpdate_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKHTLCUpdate ret_var = HTLCUpdate_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = HTLCUpdate_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_HTLCUpdate_read"))) TS_HTLCUpdate_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_HTLCUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCUpdateDecodeErrorZ), "LDKCResult_HTLCUpdateDecodeErrorZ");
*ret_conv = HTLCUpdate_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_Balance_free"))) TS_Balance_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKBalance this_ptr_conv = *(LDKBalance*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t Balance_clone_ptr(LDKBalance *NONNULL_PTR arg) {
LDKBalance *ret_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_copy = Balance_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Balance_clone_ptr"))) TS_Balance_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Balance_clone_ptr"))) TS_Balance_clone_ptr(uint32_t arg) {
LDKBalance* arg_conv = (LDKBalance*)arg;
- int64_t ret_val = Balance_clone_ptr(arg_conv);
+ intptr_t ret_val = Balance_clone_ptr(arg_conv);
return ret_val;
}
LDKBalance* orig_conv = (LDKBalance*)orig;
LDKBalance *ret_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_copy = Balance_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Balance_claimable_on_channel_close"))) TS_Balance_claimable_on_channel_close(int64_t claimable_amount_satoshis) {
LDKBalance *ret_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_copy = Balance_claimable_on_channel_close(claimable_amount_satoshis);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Balance_claimable_awaiting_confirmations"))) TS_Balance_claimable_awaiting_confirmations(int64_t claimable_amount_satoshis, int32_t confirmation_height) {
LDKBalance *ret_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_copy = Balance_claimable_awaiting_confirmations(claimable_amount_satoshis, confirmation_height);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Balance_contentious_claimable"))) TS_Balance_contentious_claimable(int64_t claimable_amount_satoshis, int32_t timeout_height) {
LDKBalance *ret_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_copy = Balance_contentious_claimable(claimable_amount_satoshis, timeout_height);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_Balance_maybe_claimable_htlcawaiting_timeout"))) TS_Balance_maybe_claimable_htlcawaiting_timeout(int64_t claimable_amount_satoshis, int32_t claimable_height) {
LDKBalance *ret_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_copy = Balance_maybe_claimable_htlcawaiting_timeout(claimable_amount_satoshis, claimable_height);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
static inline uintptr_t ChannelMonitor_clone_ptr(LDKChannelMonitor *NONNULL_PTR arg) {
LDKChannelMonitor ret_var = ChannelMonitor_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelMonitor_clone_ptr"))) TS_ChannelMonitor_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelMonitor_clone_ptr"))) TS_ChannelMonitor_clone_ptr(uint32_t arg) {
LDKChannelMonitor arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelMonitor_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelMonitor_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelMonitor ret_var = ChannelMonitor_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelMonitor_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
updates_conv.inner = (void*)(updates & (~1));
updates_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(updates_conv);
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
if (!(broadcaster & 1)) { CHECK_ACCESS(broadcaster_ptr); }
LDKBroadcasterInterface* broadcaster_conv = (LDKBroadcasterInterface*)broadcaster_ptr;
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
if (!(fee_estimator & 1)) { CHECK_ACCESS(fee_estimator_ptr); }
LDKFeeEstimator* fee_estimator_conv = (LDKFeeEstimator*)fee_estimator_ptr;
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
if (!(logger & 1)) { CHECK_ACCESS(logger_ptr); }
LDKLogger* logger_conv = (LDKLogger*)logger_ptr;
LDKCResult_NoneNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneNoneZ), "LDKCResult_NoneNoneZ");
*ret_conv = ChannelMonitor_update_monitor(&this_arg_conv, &updates_conv, broadcaster_conv, fee_estimator_conv, logger_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int64_t __attribute__((export_name("TS_ChannelMonitor_get_latest_update_id"))) TS_ChannelMonitor_get_latest_update_id(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKC2Tuple_OutPointScriptZ* ret_conv = MALLOC(sizeof(LDKC2Tuple_OutPointScriptZ), "LDKC2Tuple_OutPointScriptZ");
*ret_conv = ChannelMonitor_get_funding_txo(&this_arg_conv);
- return ((uint64_t)ret_conv);
+ return ((uintptr_t)ret_conv);
}
uint32_tArray __attribute__((export_name("TS_ChannelMonitor_get_outputs_to_watch"))) TS_ChannelMonitor_get_outputs_to_watch(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32ScriptZZZZ ret_var = ChannelMonitor_get_outputs_to_watch(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t o = 0; o < ret_var.datalen; o++) {
LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ* ret_conv_40_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32ScriptZZZ");
*ret_conv_40_conv = ret_var.data[o];
- ret_arr_ptr[o] = ((uint64_t)ret_conv_40_conv);
+ ret_arr_ptr[o] = ((uintptr_t)ret_conv_40_conv);
}
FREE(ret_var.data);
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* filter_ptr = (void*)(((uint64_t)filter) & ~1);
+ void* filter_ptr = (void*)(((uintptr_t)filter) & ~1);
if (!(filter & 1)) { CHECK_ACCESS(filter_ptr); }
LDKFilter* filter_conv = (LDKFilter*)filter_ptr;
ChannelMonitor_load_outputs_to_watch(&this_arg_conv, filter_conv);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_MonitorEventZ ret_var = ChannelMonitor_get_and_clear_pending_monitor_events(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t o = 0; o < ret_var.datalen; o++) {
LDKMonitorEvent *ret_conv_14_copy = MALLOC(sizeof(LDKMonitorEvent), "LDKMonitorEvent");
*ret_conv_14_copy = ret_var.data[o];
- uint64_t ret_conv_14_ref = (uint64_t)ret_conv_14_copy;
+ uintptr_t ret_conv_14_ref = (uintptr_t)ret_conv_14_copy;
ret_arr_ptr[o] = ret_conv_14_ref;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_EventZ ret_var = ChannelMonitor_get_and_clear_pending_events(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t h = 0; h < ret_var.datalen; h++) {
LDKEvent *ret_conv_7_copy = MALLOC(sizeof(LDKEvent), "LDKEvent");
*ret_conv_7_copy = ret_var.data[h];
- uint64_t ret_conv_7_ref = (uint64_t)ret_conv_7_copy;
+ uintptr_t ret_conv_7_ref = (uintptr_t)ret_conv_7_copy;
ret_arr_ptr[h] = ret_conv_7_ref;
}
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
if (!(logger & 1)) { CHECK_ACCESS(logger_ptr); }
LDKLogger* logger_conv = (LDKLogger*)logger_ptr;
LDKCVec_TransactionZ ret_var = ChannelMonitor_get_latest_holder_commitment_txn(&this_arg_conv, logger_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
LDKTransaction ret_conv_12_var = ret_var.data[m];
- int8_tArray ret_conv_12_arr = init_int8_tArray(ret_conv_12_var.datalen);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(ret_conv_12_var.datalen, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_conv_12_var.data, ret_conv_12_var.datalen);
Transaction_free(ret_conv_12_var);
ret_arr_ptr[m] = ret_conv_12_arr;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
LDKCVec_C2Tuple_usizeTransactionZZ txdata_constr;
txdata_constr.datalen = txdata->arr_len;
txdata_constr.data = MALLOC(txdata_constr.datalen * sizeof(LDKC2Tuple_usizeTransactionZ), "LDKCVec_C2Tuple_usizeTransactionZZ Elements");
else
txdata_constr.data = NULL;
- uint32_t* txdata_vals = txdata->elems;
+ uint32_t* txdata_vals = txdata->elems /* XXX txdata leaks */;
for (size_t c = 0; c < txdata_constr.datalen; c++) {
uint32_t txdata_conv_28 = txdata_vals[c];
- void* txdata_conv_28_ptr = (void*)(((uint64_t)txdata_conv_28) & ~1);
+ void* txdata_conv_28_ptr = (void*)(((uintptr_t)txdata_conv_28) & ~1);
CHECK_ACCESS(txdata_conv_28_ptr);
LDKC2Tuple_usizeTransactionZ txdata_conv_28_conv = *(LDKC2Tuple_usizeTransactionZ*)(txdata_conv_28_ptr);
- txdata_conv_28_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uint64_t)txdata_conv_28) & ~1));
+ txdata_conv_28_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uintptr_t)txdata_conv_28) & ~1));
txdata_constr.data[c] = txdata_conv_28_conv;
}
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
CHECK_ACCESS(broadcaster_ptr);
LDKBroadcasterInterface broadcaster_conv = *(LDKBroadcasterInterface*)(broadcaster_ptr);
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
CHECK_ACCESS(fee_estimator_ptr);
LDKFeeEstimator fee_estimator_conv = *(LDKFeeEstimator*)(fee_estimator_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ ret_var = ChannelMonitor_block_connected(&this_arg_conv, header_ref, txdata_constr, height, broadcaster_conv, fee_estimator_conv, logger_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t n = 0; n < ret_var.datalen; n++) {
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* ret_conv_39_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ");
*ret_conv_39_conv = ret_var.data[n];
- ret_arr_ptr[n] = ((uint64_t)ret_conv_39_conv);
+ ret_arr_ptr[n] = ((uintptr_t)ret_conv_39_conv);
}
FREE(ret_var.data);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
CHECK_ACCESS(broadcaster_ptr);
LDKBroadcasterInterface broadcaster_conv = *(LDKBroadcasterInterface*)(broadcaster_ptr);
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
CHECK_ACCESS(fee_estimator_ptr);
LDKFeeEstimator fee_estimator_conv = *(LDKFeeEstimator*)(fee_estimator_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
ChannelMonitor_block_disconnected(&this_arg_conv, header_ref, height, broadcaster_conv, fee_estimator_conv, logger_conv);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
LDKCVec_C2Tuple_usizeTransactionZZ txdata_constr;
txdata_constr.datalen = txdata->arr_len;
txdata_constr.data = MALLOC(txdata_constr.datalen * sizeof(LDKC2Tuple_usizeTransactionZ), "LDKCVec_C2Tuple_usizeTransactionZZ Elements");
else
txdata_constr.data = NULL;
- uint32_t* txdata_vals = txdata->elems;
+ uint32_t* txdata_vals = txdata->elems /* XXX txdata leaks */;
for (size_t c = 0; c < txdata_constr.datalen; c++) {
uint32_t txdata_conv_28 = txdata_vals[c];
- void* txdata_conv_28_ptr = (void*)(((uint64_t)txdata_conv_28) & ~1);
+ void* txdata_conv_28_ptr = (void*)(((uintptr_t)txdata_conv_28) & ~1);
CHECK_ACCESS(txdata_conv_28_ptr);
LDKC2Tuple_usizeTransactionZ txdata_conv_28_conv = *(LDKC2Tuple_usizeTransactionZ*)(txdata_conv_28_ptr);
- txdata_conv_28_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uint64_t)txdata_conv_28) & ~1));
+ txdata_conv_28_conv = C2Tuple_usizeTransactionZ_clone((LDKC2Tuple_usizeTransactionZ*)(((uintptr_t)txdata_conv_28) & ~1));
txdata_constr.data[c] = txdata_conv_28_conv;
}
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
CHECK_ACCESS(broadcaster_ptr);
LDKBroadcasterInterface broadcaster_conv = *(LDKBroadcasterInterface*)(broadcaster_ptr);
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
CHECK_ACCESS(fee_estimator_ptr);
LDKFeeEstimator fee_estimator_conv = *(LDKFeeEstimator*)(fee_estimator_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ ret_var = ChannelMonitor_transactions_confirmed(&this_arg_conv, header_ref, txdata_constr, height, broadcaster_conv, fee_estimator_conv, logger_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t n = 0; n < ret_var.datalen; n++) {
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* ret_conv_39_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ");
*ret_conv_39_conv = ret_var.data[n];
- ret_arr_ptr[n] = ((uint64_t)ret_conv_39_conv);
+ ret_arr_ptr[n] = ((uintptr_t)ret_conv_39_conv);
}
FREE(ret_var.data);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char txid_arr[32];
CHECK(txid->arr_len == 32);
- memcpy(txid_arr, txid->elems, 32);
+ memcpy(txid_arr, txid->elems, 32); FREE(txid);
unsigned char (*txid_ref)[32] = &txid_arr;
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
CHECK_ACCESS(broadcaster_ptr);
LDKBroadcasterInterface broadcaster_conv = *(LDKBroadcasterInterface*)(broadcaster_ptr);
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
CHECK_ACCESS(fee_estimator_ptr);
LDKFeeEstimator fee_estimator_conv = *(LDKFeeEstimator*)(fee_estimator_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
ChannelMonitor_transaction_unconfirmed(&this_arg_conv, txid_ref, broadcaster_conv, fee_estimator_conv, logger_conv);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char header_arr[80];
CHECK(header->arr_len == 80);
- memcpy(header_arr, header->elems, 80);
+ memcpy(header_arr, header->elems, 80); FREE(header);
unsigned char (*header_ref)[80] = &header_arr;
- void* broadcaster_ptr = (void*)(((uint64_t)broadcaster) & ~1);
+ void* broadcaster_ptr = (void*)(((uintptr_t)broadcaster) & ~1);
CHECK_ACCESS(broadcaster_ptr);
LDKBroadcasterInterface broadcaster_conv = *(LDKBroadcasterInterface*)(broadcaster_ptr);
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
CHECK_ACCESS(fee_estimator_ptr);
LDKFeeEstimator fee_estimator_conv = *(LDKFeeEstimator*)(fee_estimator_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
LDKCVec_C2Tuple_TxidCVec_C2Tuple_u32TxOutZZZZ ret_var = ChannelMonitor_best_block_updated(&this_arg_conv, header_ref, height, broadcaster_conv, fee_estimator_conv, logger_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t n = 0; n < ret_var.datalen; n++) {
LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ* ret_conv_39_conv = MALLOC(sizeof(LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ), "LDKC2Tuple_TxidCVec_C2Tuple_u32TxOutZZZ");
*ret_conv_39_conv = ret_var.data[n];
- ret_arr_ptr[n] = ((uint64_t)ret_conv_39_conv);
+ ret_arr_ptr[n] = ((uintptr_t)ret_conv_39_conv);
}
FREE(ret_var.data);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_TxidZ ret_var = ChannelMonitor_get_relevant_txids(&this_arg_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
- int8_tArray ret_conv_12_arr = init_int8_tArray(32);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_var.data[m].data, 32);
ret_arr_ptr[m] = ret_conv_12_arr;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKBestBlock ret_var = ChannelMonitor_current_best_block(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_BalanceZ ret_var = ChannelMonitor_get_claimable_balances(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t j = 0; j < ret_var.datalen; j++) {
LDKBalance *ret_conv_9_copy = MALLOC(sizeof(LDKBalance), "LDKBalance");
*ret_conv_9_copy = ret_var.data[j];
- uint64_t ret_conv_9_ref = (uint64_t)ret_conv_9_copy;
+ uintptr_t ret_conv_9_ref = (uintptr_t)ret_conv_9_copy;
ret_arr_ptr[j] = ret_conv_9_ref;
}
uint32_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelMonitorZ_read"))) TS_C2Tuple_BlockHashChannelMonitorZ_read(int8_tArray ser, uint32_t arg) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
- void* arg_ptr = (void*)(((uint64_t)arg) & ~1);
+ ser_ref.data = ser->elems /* XXX ser leaks */;
+ void* arg_ptr = (void*)(((uintptr_t)arg) & ~1);
if (!(arg & 1)) { CHECK_ACCESS(arg_ptr); }
LDKKeysInterface* arg_conv = (LDKKeysInterface*)arg_ptr;
LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelMonitorZDecodeErrorZ");
*ret_conv = C2Tuple_BlockHashChannelMonitorZ_read(ser_ref, arg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_OutPoint_free"))) TS_OutPoint_free(uint32_t this_obj) {
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *OutPoint_get_txid(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
OutPoint_set_txid(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_OutPoint_new"))) TS_OutPoint_new(int8_tArray txid_arg, int16_t index_arg) {
LDKThirtyTwoBytes txid_arg_ref;
CHECK(txid_arg->arr_len == 32);
- memcpy(txid_arg_ref.data, txid_arg->elems, 32);
+ memcpy(txid_arg_ref.data, txid_arg->elems, 32); FREE(txid_arg);
LDKOutPoint ret_var = OutPoint_new(txid_arg_ref, index_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t OutPoint_clone_ptr(LDKOutPoint *NONNULL_PTR arg) {
LDKOutPoint ret_var = OutPoint_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_OutPoint_clone_ptr"))) TS_OutPoint_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_OutPoint_clone_ptr"))) TS_OutPoint_clone_ptr(uint32_t arg) {
LDKOutPoint arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = OutPoint_clone_ptr(&arg_conv);
+ intptr_t ret_val = OutPoint_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKOutPoint ret_var = OutPoint_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, OutPoint_to_channel_id(&this_arg_conv).data, 32);
return ret_arr;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = OutPoint_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_OutPoint_read"))) TS_OutPoint_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_OutPointDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OutPointDecodeErrorZ), "LDKCResult_OutPointDecodeErrorZ");
*ret_conv = OutPoint_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_DelayedPaymentOutputDescriptor_free"))) TS_DelayedPaymentOutputDescriptor_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKOutPoint ret_var = DelayedPaymentOutputDescriptor_get_outpoint(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, DelayedPaymentOutputDescriptor_get_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
DelayedPaymentOutputDescriptor_set_per_commitment_point(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKTxOut val_conv = *(LDKTxOut*)(val_ptr);
- val_conv = TxOut_clone((LDKTxOut*)(((uint64_t)val) & ~1));
+ val_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)val) & ~1));
DelayedPaymentOutputDescriptor_set_output(&this_ptr_conv, val_conv);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, DelayedPaymentOutputDescriptor_get_revocation_pubkey(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
DelayedPaymentOutputDescriptor_set_revocation_pubkey(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *DelayedPaymentOutputDescriptor_get_channel_keys_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
DelayedPaymentOutputDescriptor_set_channel_keys_id(&this_ptr_conv, val_ref);
}
outpoint_arg_conv = OutPoint_clone(&outpoint_arg_conv);
LDKPublicKey per_commitment_point_arg_ref;
CHECK(per_commitment_point_arg->arr_len == 33);
- memcpy(per_commitment_point_arg_ref.compressed_form, per_commitment_point_arg->elems, 33);
- void* output_arg_ptr = (void*)(((uint64_t)output_arg) & ~1);
+ memcpy(per_commitment_point_arg_ref.compressed_form, per_commitment_point_arg->elems, 33); FREE(per_commitment_point_arg);
+ void* output_arg_ptr = (void*)(((uintptr_t)output_arg) & ~1);
CHECK_ACCESS(output_arg_ptr);
LDKTxOut output_arg_conv = *(LDKTxOut*)(output_arg_ptr);
- output_arg_conv = TxOut_clone((LDKTxOut*)(((uint64_t)output_arg) & ~1));
+ output_arg_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)output_arg) & ~1));
LDKPublicKey revocation_pubkey_arg_ref;
CHECK(revocation_pubkey_arg->arr_len == 33);
- memcpy(revocation_pubkey_arg_ref.compressed_form, revocation_pubkey_arg->elems, 33);
+ memcpy(revocation_pubkey_arg_ref.compressed_form, revocation_pubkey_arg->elems, 33); FREE(revocation_pubkey_arg);
LDKThirtyTwoBytes channel_keys_id_arg_ref;
CHECK(channel_keys_id_arg->arr_len == 32);
- memcpy(channel_keys_id_arg_ref.data, channel_keys_id_arg->elems, 32);
+ memcpy(channel_keys_id_arg_ref.data, channel_keys_id_arg->elems, 32); FREE(channel_keys_id_arg);
LDKDelayedPaymentOutputDescriptor ret_var = DelayedPaymentOutputDescriptor_new(outpoint_arg_conv, per_commitment_point_arg_ref, to_self_delay_arg, output_arg_conv, revocation_pubkey_arg_ref, channel_keys_id_arg_ref, channel_value_satoshis_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t DelayedPaymentOutputDescriptor_clone_ptr(LDKDelayedPaymentOutputDescriptor *NONNULL_PTR arg) {
LDKDelayedPaymentOutputDescriptor ret_var = DelayedPaymentOutputDescriptor_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_DelayedPaymentOutputDescriptor_clone_ptr"))) TS_DelayedPaymentOutputDescriptor_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_DelayedPaymentOutputDescriptor_clone_ptr"))) TS_DelayedPaymentOutputDescriptor_clone_ptr(uint32_t arg) {
LDKDelayedPaymentOutputDescriptor arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = DelayedPaymentOutputDescriptor_clone_ptr(&arg_conv);
+ intptr_t ret_val = DelayedPaymentOutputDescriptor_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKDelayedPaymentOutputDescriptor ret_var = DelayedPaymentOutputDescriptor_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = DelayedPaymentOutputDescriptor_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_DelayedPaymentOutputDescriptor_read"))) TS_DelayedPaymentOutputDescriptor_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_DelayedPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = DelayedPaymentOutputDescriptor_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_StaticPaymentOutputDescriptor_free"))) TS_StaticPaymentOutputDescriptor_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKOutPoint ret_var = StaticPaymentOutputDescriptor_get_outpoint(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKTxOut val_conv = *(LDKTxOut*)(val_ptr);
- val_conv = TxOut_clone((LDKTxOut*)(((uint64_t)val) & ~1));
+ val_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)val) & ~1));
StaticPaymentOutputDescriptor_set_output(&this_ptr_conv, val_conv);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *StaticPaymentOutputDescriptor_get_channel_keys_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
StaticPaymentOutputDescriptor_set_channel_keys_id(&this_ptr_conv, val_ref);
}
outpoint_arg_conv.is_owned = (outpoint_arg & 1) || (outpoint_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(outpoint_arg_conv);
outpoint_arg_conv = OutPoint_clone(&outpoint_arg_conv);
- void* output_arg_ptr = (void*)(((uint64_t)output_arg) & ~1);
+ void* output_arg_ptr = (void*)(((uintptr_t)output_arg) & ~1);
CHECK_ACCESS(output_arg_ptr);
LDKTxOut output_arg_conv = *(LDKTxOut*)(output_arg_ptr);
- output_arg_conv = TxOut_clone((LDKTxOut*)(((uint64_t)output_arg) & ~1));
+ output_arg_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)output_arg) & ~1));
LDKThirtyTwoBytes channel_keys_id_arg_ref;
CHECK(channel_keys_id_arg->arr_len == 32);
- memcpy(channel_keys_id_arg_ref.data, channel_keys_id_arg->elems, 32);
+ memcpy(channel_keys_id_arg_ref.data, channel_keys_id_arg->elems, 32); FREE(channel_keys_id_arg);
LDKStaticPaymentOutputDescriptor ret_var = StaticPaymentOutputDescriptor_new(outpoint_arg_conv, output_arg_conv, channel_keys_id_arg_ref, channel_value_satoshis_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t StaticPaymentOutputDescriptor_clone_ptr(LDKStaticPaymentOutputDescriptor *NONNULL_PTR arg) {
LDKStaticPaymentOutputDescriptor ret_var = StaticPaymentOutputDescriptor_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_StaticPaymentOutputDescriptor_clone_ptr"))) TS_StaticPaymentOutputDescriptor_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_StaticPaymentOutputDescriptor_clone_ptr"))) TS_StaticPaymentOutputDescriptor_clone_ptr(uint32_t arg) {
LDKStaticPaymentOutputDescriptor arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = StaticPaymentOutputDescriptor_clone_ptr(&arg_conv);
+ intptr_t ret_val = StaticPaymentOutputDescriptor_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKStaticPaymentOutputDescriptor ret_var = StaticPaymentOutputDescriptor_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = StaticPaymentOutputDescriptor_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_StaticPaymentOutputDescriptor_read"))) TS_StaticPaymentOutputDescriptor_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ), "LDKCResult_StaticPaymentOutputDescriptorDecodeErrorZ");
*ret_conv = StaticPaymentOutputDescriptor_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_SpendableOutputDescriptor_free"))) TS_SpendableOutputDescriptor_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKSpendableOutputDescriptor this_ptr_conv = *(LDKSpendableOutputDescriptor*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t SpendableOutputDescriptor_clone_ptr(LDKSpendableOutputDescriptor *NONNULL_PTR arg) {
LDKSpendableOutputDescriptor *ret_copy = MALLOC(sizeof(LDKSpendableOutputDescriptor), "LDKSpendableOutputDescriptor");
*ret_copy = SpendableOutputDescriptor_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_SpendableOutputDescriptor_clone_ptr"))) TS_SpendableOutputDescriptor_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_SpendableOutputDescriptor_clone_ptr"))) TS_SpendableOutputDescriptor_clone_ptr(uint32_t arg) {
LDKSpendableOutputDescriptor* arg_conv = (LDKSpendableOutputDescriptor*)arg;
- int64_t ret_val = SpendableOutputDescriptor_clone_ptr(arg_conv);
+ intptr_t ret_val = SpendableOutputDescriptor_clone_ptr(arg_conv);
return ret_val;
}
LDKSpendableOutputDescriptor* orig_conv = (LDKSpendableOutputDescriptor*)orig;
LDKSpendableOutputDescriptor *ret_copy = MALLOC(sizeof(LDKSpendableOutputDescriptor), "LDKSpendableOutputDescriptor");
*ret_copy = SpendableOutputDescriptor_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
outpoint_conv.is_owned = (outpoint & 1) || (outpoint == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(outpoint_conv);
outpoint_conv = OutPoint_clone(&outpoint_conv);
- void* output_ptr = (void*)(((uint64_t)output) & ~1);
+ void* output_ptr = (void*)(((uintptr_t)output) & ~1);
CHECK_ACCESS(output_ptr);
LDKTxOut output_conv = *(LDKTxOut*)(output_ptr);
- output_conv = TxOut_clone((LDKTxOut*)(((uint64_t)output) & ~1));
+ output_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)output) & ~1));
LDKSpendableOutputDescriptor *ret_copy = MALLOC(sizeof(LDKSpendableOutputDescriptor), "LDKSpendableOutputDescriptor");
*ret_copy = SpendableOutputDescriptor_static_output(outpoint_conv, output_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_conv = DelayedPaymentOutputDescriptor_clone(&a_conv);
LDKSpendableOutputDescriptor *ret_copy = MALLOC(sizeof(LDKSpendableOutputDescriptor), "LDKSpendableOutputDescriptor");
*ret_copy = SpendableOutputDescriptor_delayed_payment_output(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_conv = StaticPaymentOutputDescriptor_clone(&a_conv);
LDKSpendableOutputDescriptor *ret_copy = MALLOC(sizeof(LDKSpendableOutputDescriptor), "LDKSpendableOutputDescriptor");
*ret_copy = SpendableOutputDescriptor_static_payment_output(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
int8_tArray __attribute__((export_name("TS_SpendableOutputDescriptor_write"))) TS_SpendableOutputDescriptor_write(uint32_t obj) {
LDKSpendableOutputDescriptor* obj_conv = (LDKSpendableOutputDescriptor*)obj;
LDKCVec_u8Z ret_var = SpendableOutputDescriptor_write(obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_SpendableOutputDescriptor_read"))) TS_SpendableOutputDescriptor_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_SpendableOutputDescriptorDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SpendableOutputDescriptorDecodeErrorZ), "LDKCResult_SpendableOutputDescriptorDecodeErrorZ");
*ret_conv = SpendableOutputDescriptor_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_BaseSign_free"))) TS_BaseSign_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKBaseSign this_ptr_conv = *(LDKBaseSign*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t Sign_clone_ptr(LDKSign *NONNULL_PTR arg) {
LDKSign* ret_ret = MALLOC(sizeof(LDKSign), "LDKSign");
*ret_ret = Sign_clone(arg);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
-int64_t __attribute__((export_name("TS_Sign_clone_ptr"))) TS_Sign_clone_ptr(uint32_t arg) {
- void* arg_ptr = (void*)(((uint64_t)arg) & ~1);
+intptr_t __attribute__((export_name("TS_Sign_clone_ptr"))) TS_Sign_clone_ptr(uint32_t arg) {
+ void* arg_ptr = (void*)(((uintptr_t)arg) & ~1);
if (!(arg & 1)) { CHECK_ACCESS(arg_ptr); }
LDKSign* arg_conv = (LDKSign*)arg_ptr;
- int64_t ret_val = Sign_clone_ptr(arg_conv);
+ intptr_t ret_val = Sign_clone_ptr(arg_conv);
return ret_val;
}
uint32_t __attribute__((export_name("TS_Sign_clone"))) TS_Sign_clone(uint32_t orig) {
- void* orig_ptr = (void*)(((uint64_t)orig) & ~1);
+ void* orig_ptr = (void*)(((uintptr_t)orig) & ~1);
if (!(orig & 1)) { CHECK_ACCESS(orig_ptr); }
LDKSign* orig_conv = (LDKSign*)orig_ptr;
LDKSign* ret_ret = MALLOC(sizeof(LDKSign), "LDKSign");
*ret_ret = Sign_clone(orig_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_Sign_free"))) TS_Sign_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKSign this_ptr_conv = *(LDKSign*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_KeysInterface_free"))) TS_KeysInterface_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKKeysInterface this_ptr_conv = *(LDKKeysInterface*)(this_ptr_ptr);
FREE((void*)this_ptr);
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *InMemorySigner_get_funding_key(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSecretKey val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.bytes, val->elems, 32);
+ memcpy(val_ref.bytes, val->elems, 32); FREE(val);
InMemorySigner_set_funding_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *InMemorySigner_get_revocation_base_key(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSecretKey val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.bytes, val->elems, 32);
+ memcpy(val_ref.bytes, val->elems, 32); FREE(val);
InMemorySigner_set_revocation_base_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *InMemorySigner_get_payment_key(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSecretKey val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.bytes, val->elems, 32);
+ memcpy(val_ref.bytes, val->elems, 32); FREE(val);
InMemorySigner_set_payment_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *InMemorySigner_get_delayed_payment_base_key(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSecretKey val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.bytes, val->elems, 32);
+ memcpy(val_ref.bytes, val->elems, 32); FREE(val);
InMemorySigner_set_delayed_payment_base_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *InMemorySigner_get_htlc_base_key(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSecretKey val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.bytes, val->elems, 32);
+ memcpy(val_ref.bytes, val->elems, 32); FREE(val);
InMemorySigner_set_htlc_base_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *InMemorySigner_get_commitment_seed(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
InMemorySigner_set_commitment_seed(&this_ptr_conv, val_ref);
}
static inline uintptr_t InMemorySigner_clone_ptr(LDKInMemorySigner *NONNULL_PTR arg) {
LDKInMemorySigner ret_var = InMemorySigner_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_InMemorySigner_clone_ptr"))) TS_InMemorySigner_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_InMemorySigner_clone_ptr"))) TS_InMemorySigner_clone_ptr(uint32_t arg) {
LDKInMemorySigner arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = InMemorySigner_clone_ptr(&arg_conv);
+ intptr_t ret_val = InMemorySigner_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKInMemorySigner ret_var = InMemorySigner_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_InMemorySigner_new"))) TS_InMemorySigner_new(int8_tArray funding_key, int8_tArray revocation_base_key, int8_tArray payment_key, int8_tArray delayed_payment_base_key, int8_tArray htlc_base_key, int8_tArray commitment_seed, int64_t channel_value_satoshis, int8_tArray channel_keys_id) {
LDKSecretKey funding_key_ref;
CHECK(funding_key->arr_len == 32);
- memcpy(funding_key_ref.bytes, funding_key->elems, 32);
+ memcpy(funding_key_ref.bytes, funding_key->elems, 32); FREE(funding_key);
LDKSecretKey revocation_base_key_ref;
CHECK(revocation_base_key->arr_len == 32);
- memcpy(revocation_base_key_ref.bytes, revocation_base_key->elems, 32);
+ memcpy(revocation_base_key_ref.bytes, revocation_base_key->elems, 32); FREE(revocation_base_key);
LDKSecretKey payment_key_ref;
CHECK(payment_key->arr_len == 32);
- memcpy(payment_key_ref.bytes, payment_key->elems, 32);
+ memcpy(payment_key_ref.bytes, payment_key->elems, 32); FREE(payment_key);
LDKSecretKey delayed_payment_base_key_ref;
CHECK(delayed_payment_base_key->arr_len == 32);
- memcpy(delayed_payment_base_key_ref.bytes, delayed_payment_base_key->elems, 32);
+ memcpy(delayed_payment_base_key_ref.bytes, delayed_payment_base_key->elems, 32); FREE(delayed_payment_base_key);
LDKSecretKey htlc_base_key_ref;
CHECK(htlc_base_key->arr_len == 32);
- memcpy(htlc_base_key_ref.bytes, htlc_base_key->elems, 32);
+ memcpy(htlc_base_key_ref.bytes, htlc_base_key->elems, 32); FREE(htlc_base_key);
LDKThirtyTwoBytes commitment_seed_ref;
CHECK(commitment_seed->arr_len == 32);
- memcpy(commitment_seed_ref.data, commitment_seed->elems, 32);
+ memcpy(commitment_seed_ref.data, commitment_seed->elems, 32); FREE(commitment_seed);
LDKThirtyTwoBytes channel_keys_id_ref;
CHECK(channel_keys_id->arr_len == 32);
- memcpy(channel_keys_id_ref.data, channel_keys_id->elems, 32);
+ memcpy(channel_keys_id_ref.data, channel_keys_id->elems, 32); FREE(channel_keys_id);
LDKInMemorySigner ret_var = InMemorySigner_new(funding_key_ref, revocation_base_key_ref, payment_key_ref, delayed_payment_base_key_ref, htlc_base_key_ref, commitment_seed_ref, channel_value_satoshis, channel_keys_id_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKChannelPublicKeys ret_var = InMemorySigner_counterparty_pubkeys(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKOutPoint ret_var = InMemorySigner_funding_outpoint(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKChannelTransactionParameters ret_var = InMemorySigner_get_channel_parameters(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_val;
}
-uint32_t __attribute__((export_name("TS_InMemorySigner_sign_counterparty_payment_input"))) TS_InMemorySigner_sign_counterparty_payment_input(uint32_t this_arg, int8_tArray spend_tx, int64_t input_idx, uint32_t descriptor) {
+uint32_t __attribute__((export_name("TS_InMemorySigner_sign_counterparty_payment_input"))) TS_InMemorySigner_sign_counterparty_payment_input(uint32_t this_arg, int8_tArray spend_tx, intptr_t input_idx, uint32_t descriptor) {
LDKInMemorySigner this_arg_conv;
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
LDKTransaction spend_tx_ref;
spend_tx_ref.datalen = spend_tx->arr_len;
spend_tx_ref.data = MALLOC(spend_tx_ref.datalen, "LDKTransaction Bytes");
- memcpy(spend_tx_ref.data, spend_tx->elems, spend_tx_ref.datalen);
+ memcpy(spend_tx_ref.data, spend_tx->elems, spend_tx_ref.datalen); FREE(spend_tx);
spend_tx_ref.data_is_owned = true;
LDKStaticPaymentOutputDescriptor descriptor_conv;
descriptor_conv.inner = (void*)(descriptor & (~1));
CHECK_INNER_FIELD_ACCESS_OR_NULL(descriptor_conv);
LDKCResult_CVec_CVec_u8ZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ), "LDKCResult_CVec_CVec_u8ZZNoneZ");
*ret_conv = InMemorySigner_sign_counterparty_payment_input(&this_arg_conv, spend_tx_ref, input_idx, &descriptor_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
-uint32_t __attribute__((export_name("TS_InMemorySigner_sign_dynamic_p2wsh_input"))) TS_InMemorySigner_sign_dynamic_p2wsh_input(uint32_t this_arg, int8_tArray spend_tx, int64_t input_idx, uint32_t descriptor) {
+uint32_t __attribute__((export_name("TS_InMemorySigner_sign_dynamic_p2wsh_input"))) TS_InMemorySigner_sign_dynamic_p2wsh_input(uint32_t this_arg, int8_tArray spend_tx, intptr_t input_idx, uint32_t descriptor) {
LDKInMemorySigner this_arg_conv;
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
LDKTransaction spend_tx_ref;
spend_tx_ref.datalen = spend_tx->arr_len;
spend_tx_ref.data = MALLOC(spend_tx_ref.datalen, "LDKTransaction Bytes");
- memcpy(spend_tx_ref.data, spend_tx->elems, spend_tx_ref.datalen);
+ memcpy(spend_tx_ref.data, spend_tx->elems, spend_tx_ref.datalen); FREE(spend_tx);
spend_tx_ref.data_is_owned = true;
LDKDelayedPaymentOutputDescriptor descriptor_conv;
descriptor_conv.inner = (void*)(descriptor & (~1));
CHECK_INNER_FIELD_ACCESS_OR_NULL(descriptor_conv);
LDKCResult_CVec_CVec_u8ZZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_CVec_u8ZZNoneZ), "LDKCResult_CVec_CVec_u8ZZNoneZ");
*ret_conv = InMemorySigner_sign_dynamic_p2wsh_input(&this_arg_conv, spend_tx_ref, input_idx, &descriptor_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_InMemorySigner_as_BaseSign"))) TS_InMemorySigner_as_BaseSign(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKBaseSign* ret_ret = MALLOC(sizeof(LDKBaseSign), "LDKBaseSign");
*ret_ret = InMemorySigner_as_BaseSign(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_InMemorySigner_as_Sign"))) TS_InMemorySigner_as_Sign(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKSign* ret_ret = MALLOC(sizeof(LDKSign), "LDKSign");
*ret_ret = InMemorySigner_as_Sign(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
int8_tArray __attribute__((export_name("TS_InMemorySigner_write"))) TS_InMemorySigner_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = InMemorySigner_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_InMemorySigner_read"))) TS_InMemorySigner_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_InMemorySignerDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InMemorySignerDecodeErrorZ), "LDKCResult_InMemorySignerDecodeErrorZ");
*ret_conv = InMemorySigner_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_KeysManager_free"))) TS_KeysManager_free(uint32_t this_obj) {
uint32_t __attribute__((export_name("TS_KeysManager_new"))) TS_KeysManager_new(int8_tArray seed, int64_t starting_time_secs, int32_t starting_time_nanos) {
unsigned char seed_arr[32];
CHECK(seed->arr_len == 32);
- memcpy(seed_arr, seed->elems, 32);
+ memcpy(seed_arr, seed->elems, 32); FREE(seed);
unsigned char (*seed_ref)[32] = &seed_arr;
LDKKeysManager ret_var = KeysManager_new(seed_ref, starting_time_secs, starting_time_nanos);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char params_arr[32];
CHECK(params->arr_len == 32);
- memcpy(params_arr, params->elems, 32);
+ memcpy(params_arr, params->elems, 32); FREE(params);
unsigned char (*params_ref)[32] = ¶ms_arr;
LDKInMemorySigner ret_var = KeysManager_derive_channel_keys(&this_arg_conv, channel_value_satoshis, params_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
descriptors_constr.data = MALLOC(descriptors_constr.datalen * sizeof(LDKSpendableOutputDescriptor), "LDKCVec_SpendableOutputDescriptorZ Elements");
else
descriptors_constr.data = NULL;
- uint32_t* descriptors_vals = descriptors->elems;
+ uint32_t* descriptors_vals = descriptors->elems /* XXX descriptors leaks */;
for (size_t b = 0; b < descriptors_constr.datalen; b++) {
uint32_t descriptors_conv_27 = descriptors_vals[b];
- void* descriptors_conv_27_ptr = (void*)(((uint64_t)descriptors_conv_27) & ~1);
+ void* descriptors_conv_27_ptr = (void*)(((uintptr_t)descriptors_conv_27) & ~1);
CHECK_ACCESS(descriptors_conv_27_ptr);
LDKSpendableOutputDescriptor descriptors_conv_27_conv = *(LDKSpendableOutputDescriptor*)(descriptors_conv_27_ptr);
- descriptors_conv_27_conv = SpendableOutputDescriptor_clone((LDKSpendableOutputDescriptor*)(((uint64_t)descriptors_conv_27) & ~1));
+ descriptors_conv_27_conv = SpendableOutputDescriptor_clone((LDKSpendableOutputDescriptor*)(((uintptr_t)descriptors_conv_27) & ~1));
descriptors_constr.data[b] = descriptors_conv_27_conv;
}
LDKCVec_TxOutZ outputs_constr;
outputs_constr.data = MALLOC(outputs_constr.datalen * sizeof(LDKTxOut), "LDKCVec_TxOutZ Elements");
else
outputs_constr.data = NULL;
- uint32_t* outputs_vals = outputs->elems;
+ uint32_t* outputs_vals = outputs->elems /* XXX outputs leaks */;
for (size_t h = 0; h < outputs_constr.datalen; h++) {
uint32_t outputs_conv_7 = outputs_vals[h];
- void* outputs_conv_7_ptr = (void*)(((uint64_t)outputs_conv_7) & ~1);
+ void* outputs_conv_7_ptr = (void*)(((uintptr_t)outputs_conv_7) & ~1);
CHECK_ACCESS(outputs_conv_7_ptr);
LDKTxOut outputs_conv_7_conv = *(LDKTxOut*)(outputs_conv_7_ptr);
- outputs_conv_7_conv = TxOut_clone((LDKTxOut*)(((uint64_t)outputs_conv_7) & ~1));
+ outputs_conv_7_conv = TxOut_clone((LDKTxOut*)(((uintptr_t)outputs_conv_7) & ~1));
outputs_constr.data[h] = outputs_conv_7_conv;
}
LDKCVec_u8Z change_destination_script_ref;
change_destination_script_ref.datalen = change_destination_script->arr_len;
change_destination_script_ref.data = MALLOC(change_destination_script_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(change_destination_script_ref.data, change_destination_script->elems, change_destination_script_ref.datalen);
+ memcpy(change_destination_script_ref.data, change_destination_script->elems, change_destination_script_ref.datalen); FREE(change_destination_script);
LDKCResult_TransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TransactionNoneZ), "LDKCResult_TransactionNoneZ");
*ret_conv = KeysManager_spend_spendable_outputs(&this_arg_conv, descriptors_constr, outputs_constr, change_destination_script_ref, feerate_sat_per_1000_weight);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_KeysManager_as_KeysInterface"))) TS_KeysManager_as_KeysInterface(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKKeysInterface* ret_ret = MALLOC(sizeof(LDKKeysInterface), "LDKKeysInterface");
*ret_ret = KeysManager_as_KeysInterface(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_ChannelManager_free"))) TS_ChannelManager_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKBestBlock ret_var = ChainParameters_get_best_block(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(best_block_arg_conv);
best_block_arg_conv = BestBlock_clone(&best_block_arg_conv);
LDKChainParameters ret_var = ChainParameters_new(network_arg_conv, best_block_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChainParameters_clone_ptr(LDKChainParameters *NONNULL_PTR arg) {
LDKChainParameters ret_var = ChainParameters_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChainParameters_clone_ptr"))) TS_ChainParameters_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChainParameters_clone_ptr"))) TS_ChainParameters_clone_ptr(uint32_t arg) {
LDKChainParameters arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChainParameters_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChainParameters_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChainParameters ret_var = ChainParameters_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_CounterpartyForwardingInfo_new"))) TS_CounterpartyForwardingInfo_new(int32_t fee_base_msat_arg, int32_t fee_proportional_millionths_arg, int16_t cltv_expiry_delta_arg) {
LDKCounterpartyForwardingInfo ret_var = CounterpartyForwardingInfo_new(fee_base_msat_arg, fee_proportional_millionths_arg, cltv_expiry_delta_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t CounterpartyForwardingInfo_clone_ptr(LDKCounterpartyForwardingInfo *NONNULL_PTR arg) {
LDKCounterpartyForwardingInfo ret_var = CounterpartyForwardingInfo_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_CounterpartyForwardingInfo_clone_ptr"))) TS_CounterpartyForwardingInfo_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CounterpartyForwardingInfo_clone_ptr"))) TS_CounterpartyForwardingInfo_clone_ptr(uint32_t arg) {
LDKCounterpartyForwardingInfo arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = CounterpartyForwardingInfo_clone_ptr(&arg_conv);
+ intptr_t ret_val = CounterpartyForwardingInfo_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKCounterpartyForwardingInfo ret_var = CounterpartyForwardingInfo_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelCounterparty_get_node_id(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
ChannelCounterparty_set_node_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKInitFeatures ret_var = ChannelCounterparty_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCounterpartyForwardingInfo ret_var = ChannelCounterparty_get_forwarding_info(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelCounterparty_new"))) TS_ChannelCounterparty_new(int8_tArray node_id_arg, uint32_t features_arg, int64_t unspendable_punishment_reserve_arg, uint32_t forwarding_info_arg) {
LDKPublicKey node_id_arg_ref;
CHECK(node_id_arg->arr_len == 33);
- memcpy(node_id_arg_ref.compressed_form, node_id_arg->elems, 33);
+ memcpy(node_id_arg_ref.compressed_form, node_id_arg->elems, 33); FREE(node_id_arg);
LDKInitFeatures features_arg_conv;
features_arg_conv.inner = (void*)(features_arg & (~1));
features_arg_conv.is_owned = (features_arg & 1) || (features_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(forwarding_info_arg_conv);
forwarding_info_arg_conv = CounterpartyForwardingInfo_clone(&forwarding_info_arg_conv);
LDKChannelCounterparty ret_var = ChannelCounterparty_new(node_id_arg_ref, features_arg_conv, unspendable_punishment_reserve_arg, forwarding_info_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelCounterparty_clone_ptr(LDKChannelCounterparty *NONNULL_PTR arg) {
LDKChannelCounterparty ret_var = ChannelCounterparty_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelCounterparty_clone_ptr"))) TS_ChannelCounterparty_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelCounterparty_clone_ptr"))) TS_ChannelCounterparty_clone_ptr(uint32_t arg) {
LDKChannelCounterparty arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelCounterparty_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelCounterparty_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelCounterparty ret_var = ChannelCounterparty_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *ChannelDetails_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
ChannelDetails_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelCounterparty ret_var = ChannelDetails_get_counterparty(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKOutPoint ret_var = ChannelDetails_get_funding_txo(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = ChannelDetails_get_short_channel_id(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
ChannelDetails_set_short_channel_id(&this_ptr_conv, val_conv);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = ChannelDetails_get_unspendable_punishment_reserve(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
ChannelDetails_set_unspendable_punishment_reserve(&this_ptr_conv, val_conv);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u32Z *ret_copy = MALLOC(sizeof(LDKCOption_u32Z), "LDKCOption_u32Z");
*ret_copy = ChannelDetails_get_confirmations_required(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u32Z val_conv = *(LDKCOption_u32Z*)(val_ptr);
- val_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uintptr_t)val) & ~1));
ChannelDetails_set_confirmations_required(&this_ptr_conv, val_conv);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u16Z *ret_copy = MALLOC(sizeof(LDKCOption_u16Z), "LDKCOption_u16Z");
*ret_copy = ChannelDetails_get_force_close_spend_delay(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u16Z val_conv = *(LDKCOption_u16Z*)(val_ptr);
- val_conv = COption_u16Z_clone((LDKCOption_u16Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u16Z_clone((LDKCOption_u16Z*)(((uintptr_t)val) & ~1));
ChannelDetails_set_force_close_spend_delay(&this_ptr_conv, val_conv);
}
uint32_t __attribute__((export_name("TS_ChannelDetails_new"))) TS_ChannelDetails_new(int8_tArray channel_id_arg, uint32_t counterparty_arg, uint32_t funding_txo_arg, uint32_t short_channel_id_arg, int64_t channel_value_satoshis_arg, uint32_t unspendable_punishment_reserve_arg, int64_t user_channel_id_arg, int64_t balance_msat_arg, int64_t outbound_capacity_msat_arg, int64_t inbound_capacity_msat_arg, uint32_t confirmations_required_arg, uint32_t force_close_spend_delay_arg, jboolean is_outbound_arg, jboolean is_funding_locked_arg, jboolean is_usable_arg, jboolean is_public_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKChannelCounterparty counterparty_arg_conv;
counterparty_arg_conv.inner = (void*)(counterparty_arg & (~1));
counterparty_arg_conv.is_owned = (counterparty_arg & 1) || (counterparty_arg == 0);
funding_txo_arg_conv.is_owned = (funding_txo_arg & 1) || (funding_txo_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(funding_txo_arg_conv);
funding_txo_arg_conv = OutPoint_clone(&funding_txo_arg_conv);
- void* short_channel_id_arg_ptr = (void*)(((uint64_t)short_channel_id_arg) & ~1);
+ void* short_channel_id_arg_ptr = (void*)(((uintptr_t)short_channel_id_arg) & ~1);
CHECK_ACCESS(short_channel_id_arg_ptr);
LDKCOption_u64Z short_channel_id_arg_conv = *(LDKCOption_u64Z*)(short_channel_id_arg_ptr);
- short_channel_id_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)short_channel_id_arg) & ~1));
- void* unspendable_punishment_reserve_arg_ptr = (void*)(((uint64_t)unspendable_punishment_reserve_arg) & ~1);
+ short_channel_id_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)short_channel_id_arg) & ~1));
+ void* unspendable_punishment_reserve_arg_ptr = (void*)(((uintptr_t)unspendable_punishment_reserve_arg) & ~1);
CHECK_ACCESS(unspendable_punishment_reserve_arg_ptr);
LDKCOption_u64Z unspendable_punishment_reserve_arg_conv = *(LDKCOption_u64Z*)(unspendable_punishment_reserve_arg_ptr);
- void* confirmations_required_arg_ptr = (void*)(((uint64_t)confirmations_required_arg) & ~1);
+ void* confirmations_required_arg_ptr = (void*)(((uintptr_t)confirmations_required_arg) & ~1);
CHECK_ACCESS(confirmations_required_arg_ptr);
LDKCOption_u32Z confirmations_required_arg_conv = *(LDKCOption_u32Z*)(confirmations_required_arg_ptr);
- confirmations_required_arg_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uint64_t)confirmations_required_arg) & ~1));
- void* force_close_spend_delay_arg_ptr = (void*)(((uint64_t)force_close_spend_delay_arg) & ~1);
+ confirmations_required_arg_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uintptr_t)confirmations_required_arg) & ~1));
+ void* force_close_spend_delay_arg_ptr = (void*)(((uintptr_t)force_close_spend_delay_arg) & ~1);
CHECK_ACCESS(force_close_spend_delay_arg_ptr);
LDKCOption_u16Z force_close_spend_delay_arg_conv = *(LDKCOption_u16Z*)(force_close_spend_delay_arg_ptr);
- force_close_spend_delay_arg_conv = COption_u16Z_clone((LDKCOption_u16Z*)(((uint64_t)force_close_spend_delay_arg) & ~1));
+ force_close_spend_delay_arg_conv = COption_u16Z_clone((LDKCOption_u16Z*)(((uintptr_t)force_close_spend_delay_arg) & ~1));
LDKChannelDetails ret_var = ChannelDetails_new(channel_id_arg_ref, counterparty_arg_conv, funding_txo_arg_conv, short_channel_id_arg_conv, channel_value_satoshis_arg, unspendable_punishment_reserve_arg_conv, user_channel_id_arg, balance_msat_arg, outbound_capacity_msat_arg, inbound_capacity_msat_arg, confirmations_required_arg_conv, force_close_spend_delay_arg_conv, is_outbound_arg, is_funding_locked_arg, is_usable_arg, is_public_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelDetails_clone_ptr(LDKChannelDetails *NONNULL_PTR arg) {
LDKChannelDetails ret_var = ChannelDetails_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelDetails_clone_ptr"))) TS_ChannelDetails_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelDetails_clone_ptr"))) TS_ChannelDetails_clone_ptr(uint32_t arg) {
LDKChannelDetails arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelDetails_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelDetails_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelDetails ret_var = ChannelDetails_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_PaymentSendFailure_free"))) TS_PaymentSendFailure_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKPaymentSendFailure this_ptr_conv = *(LDKPaymentSendFailure*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t PaymentSendFailure_clone_ptr(LDKPaymentSendFailure *NONNULL_PTR arg) {
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = PaymentSendFailure_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_PaymentSendFailure_clone_ptr"))) TS_PaymentSendFailure_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_PaymentSendFailure_clone_ptr"))) TS_PaymentSendFailure_clone_ptr(uint32_t arg) {
LDKPaymentSendFailure* arg_conv = (LDKPaymentSendFailure*)arg;
- int64_t ret_val = PaymentSendFailure_clone_ptr(arg_conv);
+ intptr_t ret_val = PaymentSendFailure_clone_ptr(arg_conv);
return ret_val;
}
LDKPaymentSendFailure* orig_conv = (LDKPaymentSendFailure*)orig;
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = PaymentSendFailure_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_PaymentSendFailure_parameter_error"))) TS_PaymentSendFailure_parameter_error(uint32_t a) {
- void* a_ptr = (void*)(((uint64_t)a) & ~1);
+ void* a_ptr = (void*)(((uintptr_t)a) & ~1);
CHECK_ACCESS(a_ptr);
LDKAPIError a_conv = *(LDKAPIError*)(a_ptr);
- a_conv = APIError_clone((LDKAPIError*)(((uint64_t)a) & ~1));
+ a_conv = APIError_clone((LDKAPIError*)(((uintptr_t)a) & ~1));
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = PaymentSendFailure_parameter_error(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_constr.data = MALLOC(a_constr.datalen * sizeof(LDKCResult_NoneAPIErrorZ), "LDKCVec_CResult_NoneAPIErrorZZ Elements");
else
a_constr.data = NULL;
- uint32_t* a_vals = a->elems;
+ uint32_t* a_vals = a->elems /* XXX a leaks */;
for (size_t w = 0; w < a_constr.datalen; w++) {
uint32_t a_conv_22 = a_vals[w];
- void* a_conv_22_ptr = (void*)(((uint64_t)a_conv_22) & ~1);
+ void* a_conv_22_ptr = (void*)(((uintptr_t)a_conv_22) & ~1);
CHECK_ACCESS(a_conv_22_ptr);
LDKCResult_NoneAPIErrorZ a_conv_22_conv = *(LDKCResult_NoneAPIErrorZ*)(a_conv_22_ptr);
- a_conv_22_conv = CResult_NoneAPIErrorZ_clone((LDKCResult_NoneAPIErrorZ*)(((uint64_t)a_conv_22) & ~1));
+ a_conv_22_conv = CResult_NoneAPIErrorZ_clone((LDKCResult_NoneAPIErrorZ*)(((uintptr_t)a_conv_22) & ~1));
a_constr.data[w] = a_conv_22_conv;
}
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = PaymentSendFailure_path_parameter_error(a_constr);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
a_constr.data = MALLOC(a_constr.datalen * sizeof(LDKAPIError), "LDKCVec_APIErrorZ Elements");
else
a_constr.data = NULL;
- uint32_t* a_vals = a->elems;
+ uint32_t* a_vals = a->elems /* XXX a leaks */;
for (size_t k = 0; k < a_constr.datalen; k++) {
uint32_t a_conv_10 = a_vals[k];
- void* a_conv_10_ptr = (void*)(((uint64_t)a_conv_10) & ~1);
+ void* a_conv_10_ptr = (void*)(((uintptr_t)a_conv_10) & ~1);
CHECK_ACCESS(a_conv_10_ptr);
LDKAPIError a_conv_10_conv = *(LDKAPIError*)(a_conv_10_ptr);
- a_conv_10_conv = APIError_clone((LDKAPIError*)(((uint64_t)a_conv_10) & ~1));
+ a_conv_10_conv = APIError_clone((LDKAPIError*)(((uintptr_t)a_conv_10) & ~1));
a_constr.data[k] = a_conv_10_conv;
}
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = PaymentSendFailure_all_failed_retry_safe(a_constr);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
results_constr.data = MALLOC(results_constr.datalen * sizeof(LDKCResult_NoneAPIErrorZ), "LDKCVec_CResult_NoneAPIErrorZZ Elements");
else
results_constr.data = NULL;
- uint32_t* results_vals = results->elems;
+ uint32_t* results_vals = results->elems /* XXX results leaks */;
for (size_t w = 0; w < results_constr.datalen; w++) {
uint32_t results_conv_22 = results_vals[w];
- void* results_conv_22_ptr = (void*)(((uint64_t)results_conv_22) & ~1);
+ void* results_conv_22_ptr = (void*)(((uintptr_t)results_conv_22) & ~1);
CHECK_ACCESS(results_conv_22_ptr);
LDKCResult_NoneAPIErrorZ results_conv_22_conv = *(LDKCResult_NoneAPIErrorZ*)(results_conv_22_ptr);
results_constr.data[w] = results_conv_22_conv;
failed_paths_retry_conv = RouteParameters_clone(&failed_paths_retry_conv);
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
LDKPaymentSendFailure *ret_copy = MALLOC(sizeof(LDKPaymentSendFailure), "LDKPaymentSendFailure");
*ret_copy = PaymentSendFailure_partial_failure(results_constr, failed_paths_retry_conv, payment_id_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ChannelManager_new"))) TS_ChannelManager_new(uint32_t fee_est, uint32_t chain_monitor, uint32_t tx_broadcaster, uint32_t logger, uint32_t keys_manager, uint32_t config, uint32_t params) {
- void* fee_est_ptr = (void*)(((uint64_t)fee_est) & ~1);
+ void* fee_est_ptr = (void*)(((uintptr_t)fee_est) & ~1);
CHECK_ACCESS(fee_est_ptr);
LDKFeeEstimator fee_est_conv = *(LDKFeeEstimator*)(fee_est_ptr);
- void* chain_monitor_ptr = (void*)(((uint64_t)chain_monitor) & ~1);
+ void* chain_monitor_ptr = (void*)(((uintptr_t)chain_monitor) & ~1);
CHECK_ACCESS(chain_monitor_ptr);
LDKWatch chain_monitor_conv = *(LDKWatch*)(chain_monitor_ptr);
- void* tx_broadcaster_ptr = (void*)(((uint64_t)tx_broadcaster) & ~1);
+ void* tx_broadcaster_ptr = (void*)(((uintptr_t)tx_broadcaster) & ~1);
CHECK_ACCESS(tx_broadcaster_ptr);
LDKBroadcasterInterface tx_broadcaster_conv = *(LDKBroadcasterInterface*)(tx_broadcaster_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
- void* keys_manager_ptr = (void*)(((uint64_t)keys_manager) & ~1);
+ void* keys_manager_ptr = (void*)(((uintptr_t)keys_manager) & ~1);
CHECK_ACCESS(keys_manager_ptr);
LDKKeysInterface keys_manager_conv = *(LDKKeysInterface*)(keys_manager_ptr);
LDKUserConfig config_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(params_conv);
params_conv = ChainParameters_clone(¶ms_conv);
LDKChannelManager ret_var = ChannelManager_new(fee_est_conv, chain_monitor_conv, tx_broadcaster_conv, logger_conv, keys_manager_conv, config_conv, params_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKUserConfig ret_var = ChannelManager_get_current_default_configuration(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKPublicKey their_network_key_ref;
CHECK(their_network_key->arr_len == 33);
- memcpy(their_network_key_ref.compressed_form, their_network_key->elems, 33);
+ memcpy(their_network_key_ref.compressed_form, their_network_key->elems, 33); FREE(their_network_key);
LDKUserConfig override_config_conv;
override_config_conv.inner = (void*)(override_config & (~1));
override_config_conv.is_owned = (override_config & 1) || (override_config == 0);
override_config_conv = UserConfig_clone(&override_config_conv);
LDKCResult__u832APIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult__u832APIErrorZ), "LDKCResult__u832APIErrorZ");
*ret_conv = ChannelManager_create_channel(&this_arg_conv, their_network_key_ref, channel_value_satoshis, push_msat, user_channel_id, override_config_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_tArray __attribute__((export_name("TS_ChannelManager_list_channels"))) TS_ChannelManager_list_channels(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_ChannelDetailsZ ret_var = ChannelManager_list_channels(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t q = 0; q < ret_var.datalen; q++) {
LDKChannelDetails ret_conv_16_var = ret_var.data[q];
- uint64_t ret_conv_16_ref = 0;
- CHECK((((uint64_t)ret_conv_16_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_16_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_16_ref = 0;
+ CHECK((((uintptr_t)ret_conv_16_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_16_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_16_var);
- ret_conv_16_ref = (uint64_t)ret_conv_16_var.inner;
+ ret_conv_16_ref = (uintptr_t)ret_conv_16_var.inner;
if (ret_conv_16_var.is_owned) {
ret_conv_16_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_ChannelDetailsZ ret_var = ChannelManager_list_usable_channels(&this_arg_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t q = 0; q < ret_var.datalen; q++) {
LDKChannelDetails ret_conv_16_var = ret_var.data[q];
- uint64_t ret_conv_16_ref = 0;
- CHECK((((uint64_t)ret_conv_16_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_16_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_16_ref = 0;
+ CHECK((((uintptr_t)ret_conv_16_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_16_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_16_var);
- ret_conv_16_ref = (uint64_t)ret_conv_16_var.inner;
+ ret_conv_16_ref = (uintptr_t)ret_conv_16_var.inner;
if (ret_conv_16_var.is_owned) {
ret_conv_16_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char channel_id_arr[32];
CHECK(channel_id->arr_len == 32);
- memcpy(channel_id_arr, channel_id->elems, 32);
+ memcpy(channel_id_arr, channel_id->elems, 32); FREE(channel_id);
unsigned char (*channel_id_ref)[32] = &channel_id_arr;
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = ChannelManager_close_channel(&this_arg_conv, channel_id_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_close_channel_with_target_feerate"))) TS_ChannelManager_close_channel_with_target_feerate(uint32_t this_arg, int8_tArray channel_id, int32_t target_feerate_sats_per_1000_weight) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char channel_id_arr[32];
CHECK(channel_id->arr_len == 32);
- memcpy(channel_id_arr, channel_id->elems, 32);
+ memcpy(channel_id_arr, channel_id->elems, 32); FREE(channel_id);
unsigned char (*channel_id_ref)[32] = &channel_id_arr;
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = ChannelManager_close_channel_with_target_feerate(&this_arg_conv, channel_id_ref, target_feerate_sats_per_1000_weight);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_force_close_channel"))) TS_ChannelManager_force_close_channel(uint32_t this_arg, int8_tArray channel_id) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char channel_id_arr[32];
CHECK(channel_id->arr_len == 32);
- memcpy(channel_id_arr, channel_id->elems, 32);
+ memcpy(channel_id_arr, channel_id->elems, 32); FREE(channel_id);
unsigned char (*channel_id_ref)[32] = &channel_id_arr;
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = ChannelManager_force_close_channel(&this_arg_conv, channel_id_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_ChannelManager_force_close_all_channels"))) TS_ChannelManager_force_close_all_channels(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(route_conv);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
LDKThirtyTwoBytes payment_secret_ref;
CHECK(payment_secret->arr_len == 32);
- memcpy(payment_secret_ref.data, payment_secret->elems, 32);
+ memcpy(payment_secret_ref.data, payment_secret->elems, 32); FREE(payment_secret);
LDKCResult_PaymentIdPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentIdPaymentSendFailureZ), "LDKCResult_PaymentIdPaymentSendFailureZ");
*ret_conv = ChannelManager_send_payment(&this_arg_conv, &route_conv, payment_hash_ref, payment_secret_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_retry_payment"))) TS_ChannelManager_retry_payment(uint32_t this_arg, uint32_t route, int8_tArray payment_id) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(route_conv);
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
LDKCResult_NonePaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePaymentSendFailureZ), "LDKCResult_NonePaymentSendFailureZ");
*ret_conv = ChannelManager_retry_payment(&this_arg_conv, &route_conv, payment_id_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_ChannelManager_abandon_payment"))) TS_ChannelManager_abandon_payment(uint32_t this_arg, int8_tArray payment_id) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKThirtyTwoBytes payment_id_ref;
CHECK(payment_id->arr_len == 32);
- memcpy(payment_id_ref.data, payment_id->elems, 32);
+ memcpy(payment_id_ref.data, payment_id->elems, 32); FREE(payment_id);
ChannelManager_abandon_payment(&this_arg_conv, payment_id_ref);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(route_conv);
LDKThirtyTwoBytes payment_preimage_ref;
CHECK(payment_preimage->arr_len == 32);
- memcpy(payment_preimage_ref.data, payment_preimage->elems, 32);
+ memcpy(payment_preimage_ref.data, payment_preimage->elems, 32); FREE(payment_preimage);
LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ), "LDKCResult_C2Tuple_PaymentHashPaymentIdZPaymentSendFailureZ");
*ret_conv = ChannelManager_send_spontaneous_payment(&this_arg_conv, &route_conv, payment_preimage_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_funding_transaction_generated"))) TS_ChannelManager_funding_transaction_generated(uint32_t this_arg, int8_tArray temporary_channel_id, int8_tArray funding_transaction) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char temporary_channel_id_arr[32];
CHECK(temporary_channel_id->arr_len == 32);
- memcpy(temporary_channel_id_arr, temporary_channel_id->elems, 32);
+ memcpy(temporary_channel_id_arr, temporary_channel_id->elems, 32); FREE(temporary_channel_id);
unsigned char (*temporary_channel_id_ref)[32] = &temporary_channel_id_arr;
LDKTransaction funding_transaction_ref;
funding_transaction_ref.datalen = funding_transaction->arr_len;
funding_transaction_ref.data = MALLOC(funding_transaction_ref.datalen, "LDKTransaction Bytes");
- memcpy(funding_transaction_ref.data, funding_transaction->elems, funding_transaction_ref.datalen);
+ memcpy(funding_transaction_ref.data, funding_transaction->elems, funding_transaction_ref.datalen); FREE(funding_transaction);
funding_transaction_ref.data_is_owned = true;
LDKCResult_NoneAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneAPIErrorZ), "LDKCResult_NoneAPIErrorZ");
*ret_conv = ChannelManager_funding_transaction_generated(&this_arg_conv, temporary_channel_id_ref, funding_transaction_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_ChannelManager_broadcast_node_announcement"))) TS_ChannelManager_broadcast_node_announcement(uint32_t this_arg, int8_tArray rgb, int8_tArray alias, uint32_tArray addresses) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKThreeBytes rgb_ref;
CHECK(rgb->arr_len == 3);
- memcpy(rgb_ref.data, rgb->elems, 3);
+ memcpy(rgb_ref.data, rgb->elems, 3); FREE(rgb);
LDKThirtyTwoBytes alias_ref;
CHECK(alias->arr_len == 32);
- memcpy(alias_ref.data, alias->elems, 32);
+ memcpy(alias_ref.data, alias->elems, 32); FREE(alias);
LDKCVec_NetAddressZ addresses_constr;
addresses_constr.datalen = addresses->arr_len;
if (addresses_constr.datalen > 0)
addresses_constr.data = MALLOC(addresses_constr.datalen * sizeof(LDKNetAddress), "LDKCVec_NetAddressZ Elements");
else
addresses_constr.data = NULL;
- uint32_t* addresses_vals = addresses->elems;
+ uint32_t* addresses_vals = addresses->elems /* XXX addresses leaks */;
for (size_t m = 0; m < addresses_constr.datalen; m++) {
uint32_t addresses_conv_12 = addresses_vals[m];
- void* addresses_conv_12_ptr = (void*)(((uint64_t)addresses_conv_12) & ~1);
+ void* addresses_conv_12_ptr = (void*)(((uintptr_t)addresses_conv_12) & ~1);
CHECK_ACCESS(addresses_conv_12_ptr);
LDKNetAddress addresses_conv_12_conv = *(LDKNetAddress*)(addresses_conv_12_ptr);
addresses_constr.data[m] = addresses_conv_12_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char payment_hash_arr[32];
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_arr, payment_hash->elems, 32);
+ memcpy(payment_hash_arr, payment_hash->elems, 32); FREE(payment_hash);
unsigned char (*payment_hash_ref)[32] = &payment_hash_arr;
jboolean ret_val = ChannelManager_fail_htlc_backwards(&this_arg_conv, payment_hash_ref);
return ret_val;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKThirtyTwoBytes payment_preimage_ref;
CHECK(payment_preimage->arr_len == 32);
- memcpy(payment_preimage_ref.data, payment_preimage->elems, 32);
+ memcpy(payment_preimage_ref.data, payment_preimage->elems, 32); FREE(payment_preimage);
jboolean ret_val = ChannelManager_claim_funds(&this_arg_conv, payment_preimage_ref);
return ret_val;
}
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelManager_get_our_node_id(&this_arg_conv).compressed_form, 33);
return ret_arr;
}
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* min_value_msat_ptr = (void*)(((uint64_t)min_value_msat) & ~1);
+ void* min_value_msat_ptr = (void*)(((uintptr_t)min_value_msat) & ~1);
CHECK_ACCESS(min_value_msat_ptr);
LDKCOption_u64Z min_value_msat_conv = *(LDKCOption_u64Z*)(min_value_msat_ptr);
- min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)min_value_msat) & ~1));
+ min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)min_value_msat) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZNoneZ");
*ret_conv = ChannelManager_create_inbound_payment(&this_arg_conv, min_value_msat_conv, invoice_expiry_delta_secs);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_create_inbound_payment_legacy"))) TS_ChannelManager_create_inbound_payment_legacy(uint32_t this_arg, uint32_t min_value_msat, int32_t invoice_expiry_delta_secs) {
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* min_value_msat_ptr = (void*)(((uint64_t)min_value_msat) & ~1);
+ void* min_value_msat_ptr = (void*)(((uintptr_t)min_value_msat) & ~1);
CHECK_ACCESS(min_value_msat_ptr);
LDKCOption_u64Z min_value_msat_conv = *(LDKCOption_u64Z*)(min_value_msat_ptr);
- min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)min_value_msat) & ~1));
+ min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)min_value_msat) & ~1));
LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ), "LDKCResult_C2Tuple_PaymentHashPaymentSecretZAPIErrorZ");
*ret_conv = ChannelManager_create_inbound_payment_legacy(&this_arg_conv, min_value_msat_conv, invoice_expiry_delta_secs);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_create_inbound_payment_for_hash"))) TS_ChannelManager_create_inbound_payment_for_hash(uint32_t this_arg, int8_tArray payment_hash, uint32_t min_value_msat, int32_t invoice_expiry_delta_secs) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
- void* min_value_msat_ptr = (void*)(((uint64_t)min_value_msat) & ~1);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
+ void* min_value_msat_ptr = (void*)(((uintptr_t)min_value_msat) & ~1);
CHECK_ACCESS(min_value_msat_ptr);
LDKCOption_u64Z min_value_msat_conv = *(LDKCOption_u64Z*)(min_value_msat_ptr);
- min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)min_value_msat) & ~1));
+ min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)min_value_msat) & ~1));
LDKCResult_PaymentSecretNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretNoneZ), "LDKCResult_PaymentSecretNoneZ");
*ret_conv = ChannelManager_create_inbound_payment_for_hash(&this_arg_conv, payment_hash_ref, min_value_msat_conv, invoice_expiry_delta_secs);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_create_inbound_payment_for_hash_legacy"))) TS_ChannelManager_create_inbound_payment_for_hash_legacy(uint32_t this_arg, int8_tArray payment_hash, uint32_t min_value_msat, int32_t invoice_expiry_delta_secs) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
- void* min_value_msat_ptr = (void*)(((uint64_t)min_value_msat) & ~1);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
+ void* min_value_msat_ptr = (void*)(((uintptr_t)min_value_msat) & ~1);
CHECK_ACCESS(min_value_msat_ptr);
LDKCOption_u64Z min_value_msat_conv = *(LDKCOption_u64Z*)(min_value_msat_ptr);
- min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)min_value_msat) & ~1));
+ min_value_msat_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)min_value_msat) & ~1));
LDKCResult_PaymentSecretAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentSecretAPIErrorZ), "LDKCResult_PaymentSecretAPIErrorZ");
*ret_conv = ChannelManager_create_inbound_payment_for_hash_legacy(&this_arg_conv, payment_hash_ref, min_value_msat_conv, invoice_expiry_delta_secs);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_get_payment_preimage"))) TS_ChannelManager_get_payment_preimage(uint32_t this_arg, int8_tArray payment_hash, int8_tArray payment_secret) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKThirtyTwoBytes payment_hash_ref;
CHECK(payment_hash->arr_len == 32);
- memcpy(payment_hash_ref.data, payment_hash->elems, 32);
+ memcpy(payment_hash_ref.data, payment_hash->elems, 32); FREE(payment_hash);
LDKThirtyTwoBytes payment_secret_ref;
CHECK(payment_secret->arr_len == 32);
- memcpy(payment_secret_ref.data, payment_secret->elems, 32);
+ memcpy(payment_secret_ref.data, payment_secret->elems, 32); FREE(payment_secret);
LDKCResult_PaymentPreimageAPIErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PaymentPreimageAPIErrorZ), "LDKCResult_PaymentPreimageAPIErrorZ");
*ret_conv = ChannelManager_get_payment_preimage(&this_arg_conv, payment_hash_ref, payment_secret_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ChannelManager_as_MessageSendEventsProvider"))) TS_ChannelManager_as_MessageSendEventsProvider(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKMessageSendEventsProvider* ret_ret = MALLOC(sizeof(LDKMessageSendEventsProvider), "LDKMessageSendEventsProvider");
*ret_ret = ChannelManager_as_MessageSendEventsProvider(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ChannelManager_as_EventsProvider"))) TS_ChannelManager_as_EventsProvider(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKEventsProvider* ret_ret = MALLOC(sizeof(LDKEventsProvider), "LDKEventsProvider");
*ret_ret = ChannelManager_as_EventsProvider(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ChannelManager_as_Listen"))) TS_ChannelManager_as_Listen(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKListen* ret_ret = MALLOC(sizeof(LDKListen), "LDKListen");
*ret_ret = ChannelManager_as_Listen(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ChannelManager_as_Confirm"))) TS_ChannelManager_as_Confirm(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKConfirm* ret_ret = MALLOC(sizeof(LDKConfirm), "LDKConfirm");
*ret_ret = ChannelManager_as_Confirm(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_ChannelManager_await_persistable_update"))) TS_ChannelManager_await_persistable_update(uint32_t this_arg) {
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKBestBlock ret_var = ChannelManager_current_best_block(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKChannelMessageHandler* ret_ret = MALLOC(sizeof(LDKChannelMessageHandler), "LDKChannelMessageHandler");
*ret_ret = ChannelManager_as_ChannelMessageHandler(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
int8_tArray __attribute__((export_name("TS_ChannelManager_write"))) TS_ChannelManager_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelManager_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)ChannelManagerReadArgs_get_keys_manager(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)ChannelManagerReadArgs_get_keys_manager(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKKeysInterface val_conv = *(LDKKeysInterface*)(val_ptr);
ChannelManagerReadArgs_set_keys_manager(&this_ptr_conv, val_conv);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)ChannelManagerReadArgs_get_fee_estimator(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)ChannelManagerReadArgs_get_fee_estimator(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKFeeEstimator val_conv = *(LDKFeeEstimator*)(val_ptr);
ChannelManagerReadArgs_set_fee_estimator(&this_ptr_conv, val_conv);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)ChannelManagerReadArgs_get_chain_monitor(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)ChannelManagerReadArgs_get_chain_monitor(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKWatch val_conv = *(LDKWatch*)(val_ptr);
ChannelManagerReadArgs_set_chain_monitor(&this_ptr_conv, val_conv);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)ChannelManagerReadArgs_get_tx_broadcaster(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)ChannelManagerReadArgs_get_tx_broadcaster(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKBroadcasterInterface val_conv = *(LDKBroadcasterInterface*)(val_ptr);
ChannelManagerReadArgs_set_tx_broadcaster(&this_ptr_conv, val_conv);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)ChannelManagerReadArgs_get_logger(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)ChannelManagerReadArgs_get_logger(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKLogger val_conv = *(LDKLogger*)(val_ptr);
ChannelManagerReadArgs_set_logger(&this_ptr_conv, val_conv);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKUserConfig ret_var = ChannelManagerReadArgs_get_default_config(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
uint32_t __attribute__((export_name("TS_ChannelManagerReadArgs_new"))) TS_ChannelManagerReadArgs_new(uint32_t keys_manager, uint32_t fee_estimator, uint32_t chain_monitor, uint32_t tx_broadcaster, uint32_t logger, uint32_t default_config, uint32_tArray channel_monitors) {
- void* keys_manager_ptr = (void*)(((uint64_t)keys_manager) & ~1);
+ void* keys_manager_ptr = (void*)(((uintptr_t)keys_manager) & ~1);
CHECK_ACCESS(keys_manager_ptr);
LDKKeysInterface keys_manager_conv = *(LDKKeysInterface*)(keys_manager_ptr);
- void* fee_estimator_ptr = (void*)(((uint64_t)fee_estimator) & ~1);
+ void* fee_estimator_ptr = (void*)(((uintptr_t)fee_estimator) & ~1);
CHECK_ACCESS(fee_estimator_ptr);
LDKFeeEstimator fee_estimator_conv = *(LDKFeeEstimator*)(fee_estimator_ptr);
- void* chain_monitor_ptr = (void*)(((uint64_t)chain_monitor) & ~1);
+ void* chain_monitor_ptr = (void*)(((uintptr_t)chain_monitor) & ~1);
CHECK_ACCESS(chain_monitor_ptr);
LDKWatch chain_monitor_conv = *(LDKWatch*)(chain_monitor_ptr);
- void* tx_broadcaster_ptr = (void*)(((uint64_t)tx_broadcaster) & ~1);
+ void* tx_broadcaster_ptr = (void*)(((uintptr_t)tx_broadcaster) & ~1);
CHECK_ACCESS(tx_broadcaster_ptr);
LDKBroadcasterInterface tx_broadcaster_conv = *(LDKBroadcasterInterface*)(tx_broadcaster_ptr);
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
LDKUserConfig default_config_conv;
channel_monitors_constr.data = MALLOC(channel_monitors_constr.datalen * sizeof(LDKChannelMonitor), "LDKCVec_ChannelMonitorZ Elements");
else
channel_monitors_constr.data = NULL;
- uint32_t* channel_monitors_vals = channel_monitors->elems;
+ uint32_t* channel_monitors_vals = channel_monitors->elems /* XXX channel_monitors leaks */;
for (size_t q = 0; q < channel_monitors_constr.datalen; q++) {
uint32_t channel_monitors_conv_16 = channel_monitors_vals[q];
LDKChannelMonitor channel_monitors_conv_16_conv;
channel_monitors_constr.data[q] = channel_monitors_conv_16_conv;
}
LDKChannelManagerReadArgs ret_var = ChannelManagerReadArgs_new(keys_manager_conv, fee_estimator_conv, chain_monitor_conv, tx_broadcaster_conv, logger_conv, default_config_conv, channel_monitors_constr);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_C2Tuple_BlockHashChannelManagerZ_read"))) TS_C2Tuple_BlockHashChannelManagerZ_read(int8_tArray ser, uint32_t arg) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKChannelManagerReadArgs arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = (arg & 1) || (arg == 0);
// Warning: we need a move here but no clone is available for LDKChannelManagerReadArgs
LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ), "LDKCResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ");
*ret_conv = C2Tuple_BlockHashChannelManagerZ_read(ser_ref, arg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_DecodeError_free"))) TS_DecodeError_free(uint32_t this_obj) {
static inline uintptr_t DecodeError_clone_ptr(LDKDecodeError *NONNULL_PTR arg) {
LDKDecodeError ret_var = DecodeError_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_DecodeError_clone_ptr"))) TS_DecodeError_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_DecodeError_clone_ptr"))) TS_DecodeError_clone_ptr(uint32_t arg) {
LDKDecodeError arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = DecodeError_clone_ptr(&arg_conv);
+ intptr_t ret_val = DecodeError_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKDecodeError ret_var = DecodeError_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKInitFeatures ret_var = Init_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(features_arg_conv);
features_arg_conv = InitFeatures_clone(&features_arg_conv);
LDKInit ret_var = Init_new(features_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t Init_clone_ptr(LDKInit *NONNULL_PTR arg) {
LDKInit ret_var = Init_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Init_clone_ptr"))) TS_Init_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Init_clone_ptr"))) TS_Init_clone_ptr(uint32_t arg) {
LDKInit arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Init_clone_ptr(&arg_conv);
+ intptr_t ret_val = Init_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKInit ret_var = Init_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *ErrorMessage_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
ErrorMessage_set_channel_id(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_ErrorMessage_new"))) TS_ErrorMessage_new(int8_tArray channel_id_arg, jstring data_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKStr data_arg_conv = str_ref_to_owned_c(data_arg);
LDKErrorMessage ret_var = ErrorMessage_new(channel_id_arg_ref, data_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ErrorMessage_clone_ptr(LDKErrorMessage *NONNULL_PTR arg) {
LDKErrorMessage ret_var = ErrorMessage_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ErrorMessage_clone_ptr"))) TS_ErrorMessage_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ErrorMessage_clone_ptr"))) TS_ErrorMessage_clone_ptr(uint32_t arg) {
LDKErrorMessage arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ErrorMessage_clone_ptr(&arg_conv);
+ intptr_t ret_val = ErrorMessage_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKErrorMessage ret_var = ErrorMessage_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_Ping_new"))) TS_Ping_new(int16_t ponglen_arg, int16_t byteslen_arg) {
LDKPing ret_var = Ping_new(ponglen_arg, byteslen_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t Ping_clone_ptr(LDKPing *NONNULL_PTR arg) {
LDKPing ret_var = Ping_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Ping_clone_ptr"))) TS_Ping_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Ping_clone_ptr"))) TS_Ping_clone_ptr(uint32_t arg) {
LDKPing arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Ping_clone_ptr(&arg_conv);
+ intptr_t ret_val = Ping_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKPing ret_var = Ping_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_Pong_new"))) TS_Pong_new(int16_t byteslen_arg) {
LDKPong ret_var = Pong_new(byteslen_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t Pong_clone_ptr(LDKPong *NONNULL_PTR arg) {
LDKPong ret_var = Pong_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Pong_clone_ptr"))) TS_Pong_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Pong_clone_ptr"))) TS_Pong_clone_ptr(uint32_t arg) {
LDKPong arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Pong_clone_ptr(&arg_conv);
+ intptr_t ret_val = Pong_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKPong ret_var = Pong_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *OpenChannel_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
OpenChannel_set_chain_hash(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *OpenChannel_get_temporary_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
OpenChannel_set_temporary_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, OpenChannel_get_funding_pubkey(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
OpenChannel_set_funding_pubkey(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, OpenChannel_get_revocation_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
OpenChannel_set_revocation_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, OpenChannel_get_payment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
OpenChannel_set_payment_point(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, OpenChannel_get_delayed_payment_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
OpenChannel_set_delayed_payment_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, OpenChannel_get_htlc_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
OpenChannel_set_htlc_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, OpenChannel_get_first_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
OpenChannel_set_first_per_commitment_point(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelTypeFeatures ret_var = OpenChannel_get_channel_type(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t OpenChannel_clone_ptr(LDKOpenChannel *NONNULL_PTR arg) {
LDKOpenChannel ret_var = OpenChannel_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_OpenChannel_clone_ptr"))) TS_OpenChannel_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_OpenChannel_clone_ptr"))) TS_OpenChannel_clone_ptr(uint32_t arg) {
LDKOpenChannel arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = OpenChannel_clone_ptr(&arg_conv);
+ intptr_t ret_val = OpenChannel_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKOpenChannel ret_var = OpenChannel_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *AcceptChannel_get_temporary_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
AcceptChannel_set_temporary_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, AcceptChannel_get_funding_pubkey(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
AcceptChannel_set_funding_pubkey(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, AcceptChannel_get_revocation_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
AcceptChannel_set_revocation_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, AcceptChannel_get_payment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
AcceptChannel_set_payment_point(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, AcceptChannel_get_delayed_payment_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
AcceptChannel_set_delayed_payment_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, AcceptChannel_get_htlc_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
AcceptChannel_set_htlc_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, AcceptChannel_get_first_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
AcceptChannel_set_first_per_commitment_point(&this_ptr_conv, val_ref);
}
static inline uintptr_t AcceptChannel_clone_ptr(LDKAcceptChannel *NONNULL_PTR arg) {
LDKAcceptChannel ret_var = AcceptChannel_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_AcceptChannel_clone_ptr"))) TS_AcceptChannel_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_AcceptChannel_clone_ptr"))) TS_AcceptChannel_clone_ptr(uint32_t arg) {
LDKAcceptChannel arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = AcceptChannel_clone_ptr(&arg_conv);
+ intptr_t ret_val = AcceptChannel_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKAcceptChannel ret_var = AcceptChannel_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *FundingCreated_get_temporary_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
FundingCreated_set_temporary_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *FundingCreated_get_funding_txid(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
FundingCreated_set_funding_txid(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, FundingCreated_get_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
FundingCreated_set_signature(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_FundingCreated_new"))) TS_FundingCreated_new(int8_tArray temporary_channel_id_arg, int8_tArray funding_txid_arg, int16_t funding_output_index_arg, int8_tArray signature_arg) {
LDKThirtyTwoBytes temporary_channel_id_arg_ref;
CHECK(temporary_channel_id_arg->arr_len == 32);
- memcpy(temporary_channel_id_arg_ref.data, temporary_channel_id_arg->elems, 32);
+ memcpy(temporary_channel_id_arg_ref.data, temporary_channel_id_arg->elems, 32); FREE(temporary_channel_id_arg);
LDKThirtyTwoBytes funding_txid_arg_ref;
CHECK(funding_txid_arg->arr_len == 32);
- memcpy(funding_txid_arg_ref.data, funding_txid_arg->elems, 32);
+ memcpy(funding_txid_arg_ref.data, funding_txid_arg->elems, 32); FREE(funding_txid_arg);
LDKSignature signature_arg_ref;
CHECK(signature_arg->arr_len == 64);
- memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64);
+ memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64); FREE(signature_arg);
LDKFundingCreated ret_var = FundingCreated_new(temporary_channel_id_arg_ref, funding_txid_arg_ref, funding_output_index_arg, signature_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t FundingCreated_clone_ptr(LDKFundingCreated *NONNULL_PTR arg) {
LDKFundingCreated ret_var = FundingCreated_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_FundingCreated_clone_ptr"))) TS_FundingCreated_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_FundingCreated_clone_ptr"))) TS_FundingCreated_clone_ptr(uint32_t arg) {
LDKFundingCreated arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = FundingCreated_clone_ptr(&arg_conv);
+ intptr_t ret_val = FundingCreated_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKFundingCreated ret_var = FundingCreated_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *FundingSigned_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
FundingSigned_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, FundingSigned_get_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
FundingSigned_set_signature(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_FundingSigned_new"))) TS_FundingSigned_new(int8_tArray channel_id_arg, int8_tArray signature_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKSignature signature_arg_ref;
CHECK(signature_arg->arr_len == 64);
- memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64);
+ memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64); FREE(signature_arg);
LDKFundingSigned ret_var = FundingSigned_new(channel_id_arg_ref, signature_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t FundingSigned_clone_ptr(LDKFundingSigned *NONNULL_PTR arg) {
LDKFundingSigned ret_var = FundingSigned_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_FundingSigned_clone_ptr"))) TS_FundingSigned_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_FundingSigned_clone_ptr"))) TS_FundingSigned_clone_ptr(uint32_t arg) {
LDKFundingSigned arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = FundingSigned_clone_ptr(&arg_conv);
+ intptr_t ret_val = FundingSigned_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKFundingSigned ret_var = FundingSigned_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *FundingLocked_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
FundingLocked_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, FundingLocked_get_next_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
FundingLocked_set_next_per_commitment_point(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_FundingLocked_new"))) TS_FundingLocked_new(int8_tArray channel_id_arg, int8_tArray next_per_commitment_point_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKPublicKey next_per_commitment_point_arg_ref;
CHECK(next_per_commitment_point_arg->arr_len == 33);
- memcpy(next_per_commitment_point_arg_ref.compressed_form, next_per_commitment_point_arg->elems, 33);
+ memcpy(next_per_commitment_point_arg_ref.compressed_form, next_per_commitment_point_arg->elems, 33); FREE(next_per_commitment_point_arg);
LDKFundingLocked ret_var = FundingLocked_new(channel_id_arg_ref, next_per_commitment_point_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t FundingLocked_clone_ptr(LDKFundingLocked *NONNULL_PTR arg) {
LDKFundingLocked ret_var = FundingLocked_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_FundingLocked_clone_ptr"))) TS_FundingLocked_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_FundingLocked_clone_ptr"))) TS_FundingLocked_clone_ptr(uint32_t arg) {
LDKFundingLocked arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = FundingLocked_clone_ptr(&arg_conv);
+ intptr_t ret_val = FundingLocked_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKFundingLocked ret_var = FundingLocked_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *Shutdown_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
Shutdown_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKu8slice ret_var = Shutdown_get_scriptpubkey(&this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
LDKCVec_u8Z val_ref;
val_ref.datalen = val->arr_len;
val_ref.data = MALLOC(val_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(val_ref.data, val->elems, val_ref.datalen);
+ memcpy(val_ref.data, val->elems, val_ref.datalen); FREE(val);
Shutdown_set_scriptpubkey(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_Shutdown_new"))) TS_Shutdown_new(int8_tArray channel_id_arg, int8_tArray scriptpubkey_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKCVec_u8Z scriptpubkey_arg_ref;
scriptpubkey_arg_ref.datalen = scriptpubkey_arg->arr_len;
scriptpubkey_arg_ref.data = MALLOC(scriptpubkey_arg_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(scriptpubkey_arg_ref.data, scriptpubkey_arg->elems, scriptpubkey_arg_ref.datalen);
+ memcpy(scriptpubkey_arg_ref.data, scriptpubkey_arg->elems, scriptpubkey_arg_ref.datalen); FREE(scriptpubkey_arg);
LDKShutdown ret_var = Shutdown_new(channel_id_arg_ref, scriptpubkey_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t Shutdown_clone_ptr(LDKShutdown *NONNULL_PTR arg) {
LDKShutdown ret_var = Shutdown_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Shutdown_clone_ptr"))) TS_Shutdown_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Shutdown_clone_ptr"))) TS_Shutdown_clone_ptr(uint32_t arg) {
LDKShutdown arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Shutdown_clone_ptr(&arg_conv);
+ intptr_t ret_val = Shutdown_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKShutdown ret_var = Shutdown_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ClosingSignedFeeRange_new"))) TS_ClosingSignedFeeRange_new(int64_t min_fee_satoshis_arg, int64_t max_fee_satoshis_arg) {
LDKClosingSignedFeeRange ret_var = ClosingSignedFeeRange_new(min_fee_satoshis_arg, max_fee_satoshis_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ClosingSignedFeeRange_clone_ptr(LDKClosingSignedFeeRange *NONNULL_PTR arg) {
LDKClosingSignedFeeRange ret_var = ClosingSignedFeeRange_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ClosingSignedFeeRange_clone_ptr"))) TS_ClosingSignedFeeRange_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ClosingSignedFeeRange_clone_ptr"))) TS_ClosingSignedFeeRange_clone_ptr(uint32_t arg) {
LDKClosingSignedFeeRange arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ClosingSignedFeeRange_clone_ptr(&arg_conv);
+ intptr_t ret_val = ClosingSignedFeeRange_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKClosingSignedFeeRange ret_var = ClosingSignedFeeRange_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *ClosingSigned_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
ClosingSigned_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, ClosingSigned_get_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
ClosingSigned_set_signature(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKClosingSignedFeeRange ret_var = ClosingSigned_get_fee_range(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ClosingSigned_new"))) TS_ClosingSigned_new(int8_tArray channel_id_arg, int64_t fee_satoshis_arg, int8_tArray signature_arg, uint32_t fee_range_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKSignature signature_arg_ref;
CHECK(signature_arg->arr_len == 64);
- memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64);
+ memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64); FREE(signature_arg);
LDKClosingSignedFeeRange fee_range_arg_conv;
fee_range_arg_conv.inner = (void*)(fee_range_arg & (~1));
fee_range_arg_conv.is_owned = (fee_range_arg & 1) || (fee_range_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(fee_range_arg_conv);
fee_range_arg_conv = ClosingSignedFeeRange_clone(&fee_range_arg_conv);
LDKClosingSigned ret_var = ClosingSigned_new(channel_id_arg_ref, fee_satoshis_arg, signature_arg_ref, fee_range_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ClosingSigned_clone_ptr(LDKClosingSigned *NONNULL_PTR arg) {
LDKClosingSigned ret_var = ClosingSigned_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ClosingSigned_clone_ptr"))) TS_ClosingSigned_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ClosingSigned_clone_ptr"))) TS_ClosingSigned_clone_ptr(uint32_t arg) {
LDKClosingSigned arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ClosingSigned_clone_ptr(&arg_conv);
+ intptr_t ret_val = ClosingSigned_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKClosingSigned ret_var = ClosingSigned_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateAddHTLC_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateAddHTLC_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateAddHTLC_get_payment_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateAddHTLC_set_payment_hash(&this_ptr_conv, val_ref);
}
static inline uintptr_t UpdateAddHTLC_clone_ptr(LDKUpdateAddHTLC *NONNULL_PTR arg) {
LDKUpdateAddHTLC ret_var = UpdateAddHTLC_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UpdateAddHTLC_clone_ptr"))) TS_UpdateAddHTLC_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UpdateAddHTLC_clone_ptr"))) TS_UpdateAddHTLC_clone_ptr(uint32_t arg) {
LDKUpdateAddHTLC arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UpdateAddHTLC_clone_ptr(&arg_conv);
+ intptr_t ret_val = UpdateAddHTLC_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUpdateAddHTLC ret_var = UpdateAddHTLC_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateFulfillHTLC_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateFulfillHTLC_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateFulfillHTLC_get_payment_preimage(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateFulfillHTLC_set_payment_preimage(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_UpdateFulfillHTLC_new"))) TS_UpdateFulfillHTLC_new(int8_tArray channel_id_arg, int64_t htlc_id_arg, int8_tArray payment_preimage_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKThirtyTwoBytes payment_preimage_arg_ref;
CHECK(payment_preimage_arg->arr_len == 32);
- memcpy(payment_preimage_arg_ref.data, payment_preimage_arg->elems, 32);
+ memcpy(payment_preimage_arg_ref.data, payment_preimage_arg->elems, 32); FREE(payment_preimage_arg);
LDKUpdateFulfillHTLC ret_var = UpdateFulfillHTLC_new(channel_id_arg_ref, htlc_id_arg, payment_preimage_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t UpdateFulfillHTLC_clone_ptr(LDKUpdateFulfillHTLC *NONNULL_PTR arg) {
LDKUpdateFulfillHTLC ret_var = UpdateFulfillHTLC_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UpdateFulfillHTLC_clone_ptr"))) TS_UpdateFulfillHTLC_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UpdateFulfillHTLC_clone_ptr"))) TS_UpdateFulfillHTLC_clone_ptr(uint32_t arg) {
LDKUpdateFulfillHTLC arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UpdateFulfillHTLC_clone_ptr(&arg_conv);
+ intptr_t ret_val = UpdateFulfillHTLC_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUpdateFulfillHTLC ret_var = UpdateFulfillHTLC_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateFailHTLC_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateFailHTLC_set_channel_id(&this_ptr_conv, val_ref);
}
static inline uintptr_t UpdateFailHTLC_clone_ptr(LDKUpdateFailHTLC *NONNULL_PTR arg) {
LDKUpdateFailHTLC ret_var = UpdateFailHTLC_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UpdateFailHTLC_clone_ptr"))) TS_UpdateFailHTLC_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UpdateFailHTLC_clone_ptr"))) TS_UpdateFailHTLC_clone_ptr(uint32_t arg) {
LDKUpdateFailHTLC arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UpdateFailHTLC_clone_ptr(&arg_conv);
+ intptr_t ret_val = UpdateFailHTLC_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUpdateFailHTLC ret_var = UpdateFailHTLC_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateFailMalformedHTLC_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateFailMalformedHTLC_set_channel_id(&this_ptr_conv, val_ref);
}
static inline uintptr_t UpdateFailMalformedHTLC_clone_ptr(LDKUpdateFailMalformedHTLC *NONNULL_PTR arg) {
LDKUpdateFailMalformedHTLC ret_var = UpdateFailMalformedHTLC_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UpdateFailMalformedHTLC_clone_ptr"))) TS_UpdateFailMalformedHTLC_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UpdateFailMalformedHTLC_clone_ptr"))) TS_UpdateFailMalformedHTLC_clone_ptr(uint32_t arg) {
LDKUpdateFailMalformedHTLC arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UpdateFailMalformedHTLC_clone_ptr(&arg_conv);
+ intptr_t ret_val = UpdateFailMalformedHTLC_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUpdateFailMalformedHTLC ret_var = UpdateFailMalformedHTLC_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *CommitmentSigned_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
CommitmentSigned_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, CommitmentSigned_get_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
CommitmentSigned_set_signature(&this_ptr_conv, val_ref);
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
val_constr.data = NULL;
- int8_tArray* val_vals = (void*) val->elems;
+ int8_tArray* val_vals = (void*) val->elems /* XXX val leaks */;
for (size_t m = 0; m < val_constr.datalen; m++) {
int8_tArray val_conv_12 = val_vals[m];
LDKSignature val_conv_12_ref;
CHECK(val_conv_12->arr_len == 64);
- memcpy(val_conv_12_ref.compact_form, val_conv_12->elems, 64);
+ memcpy(val_conv_12_ref.compact_form, val_conv_12->elems, 64); FREE(val_conv_12);
val_constr.data[m] = val_conv_12_ref;
}
CommitmentSigned_set_htlc_signatures(&this_ptr_conv, val_constr);
uint32_t __attribute__((export_name("TS_CommitmentSigned_new"))) TS_CommitmentSigned_new(int8_tArray channel_id_arg, int8_tArray signature_arg, ptrArray htlc_signatures_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKSignature signature_arg_ref;
CHECK(signature_arg->arr_len == 64);
- memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64);
+ memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64); FREE(signature_arg);
LDKCVec_SignatureZ htlc_signatures_arg_constr;
htlc_signatures_arg_constr.datalen = htlc_signatures_arg->arr_len;
if (htlc_signatures_arg_constr.datalen > 0)
htlc_signatures_arg_constr.data = MALLOC(htlc_signatures_arg_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
htlc_signatures_arg_constr.data = NULL;
- int8_tArray* htlc_signatures_arg_vals = (void*) htlc_signatures_arg->elems;
+ int8_tArray* htlc_signatures_arg_vals = (void*) htlc_signatures_arg->elems /* XXX htlc_signatures_arg leaks */;
for (size_t m = 0; m < htlc_signatures_arg_constr.datalen; m++) {
int8_tArray htlc_signatures_arg_conv_12 = htlc_signatures_arg_vals[m];
LDKSignature htlc_signatures_arg_conv_12_ref;
CHECK(htlc_signatures_arg_conv_12->arr_len == 64);
- memcpy(htlc_signatures_arg_conv_12_ref.compact_form, htlc_signatures_arg_conv_12->elems, 64);
+ memcpy(htlc_signatures_arg_conv_12_ref.compact_form, htlc_signatures_arg_conv_12->elems, 64); FREE(htlc_signatures_arg_conv_12);
htlc_signatures_arg_constr.data[m] = htlc_signatures_arg_conv_12_ref;
}
LDKCommitmentSigned ret_var = CommitmentSigned_new(channel_id_arg_ref, signature_arg_ref, htlc_signatures_arg_constr);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t CommitmentSigned_clone_ptr(LDKCommitmentSigned *NONNULL_PTR arg) {
LDKCommitmentSigned ret_var = CommitmentSigned_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_CommitmentSigned_clone_ptr"))) TS_CommitmentSigned_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CommitmentSigned_clone_ptr"))) TS_CommitmentSigned_clone_ptr(uint32_t arg) {
LDKCommitmentSigned arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = CommitmentSigned_clone_ptr(&arg_conv);
+ intptr_t ret_val = CommitmentSigned_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKCommitmentSigned ret_var = CommitmentSigned_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *RevokeAndACK_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
RevokeAndACK_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *RevokeAndACK_get_per_commitment_secret(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
RevokeAndACK_set_per_commitment_secret(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, RevokeAndACK_get_next_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
RevokeAndACK_set_next_per_commitment_point(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_RevokeAndACK_new"))) TS_RevokeAndACK_new(int8_tArray channel_id_arg, int8_tArray per_commitment_secret_arg, int8_tArray next_per_commitment_point_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKThirtyTwoBytes per_commitment_secret_arg_ref;
CHECK(per_commitment_secret_arg->arr_len == 32);
- memcpy(per_commitment_secret_arg_ref.data, per_commitment_secret_arg->elems, 32);
+ memcpy(per_commitment_secret_arg_ref.data, per_commitment_secret_arg->elems, 32); FREE(per_commitment_secret_arg);
LDKPublicKey next_per_commitment_point_arg_ref;
CHECK(next_per_commitment_point_arg->arr_len == 33);
- memcpy(next_per_commitment_point_arg_ref.compressed_form, next_per_commitment_point_arg->elems, 33);
+ memcpy(next_per_commitment_point_arg_ref.compressed_form, next_per_commitment_point_arg->elems, 33); FREE(next_per_commitment_point_arg);
LDKRevokeAndACK ret_var = RevokeAndACK_new(channel_id_arg_ref, per_commitment_secret_arg_ref, next_per_commitment_point_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t RevokeAndACK_clone_ptr(LDKRevokeAndACK *NONNULL_PTR arg) {
LDKRevokeAndACK ret_var = RevokeAndACK_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_RevokeAndACK_clone_ptr"))) TS_RevokeAndACK_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_RevokeAndACK_clone_ptr"))) TS_RevokeAndACK_clone_ptr(uint32_t arg) {
LDKRevokeAndACK arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = RevokeAndACK_clone_ptr(&arg_conv);
+ intptr_t ret_val = RevokeAndACK_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRevokeAndACK ret_var = RevokeAndACK_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UpdateFee_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UpdateFee_set_channel_id(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_UpdateFee_new"))) TS_UpdateFee_new(int8_tArray channel_id_arg, int32_t feerate_per_kw_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKUpdateFee ret_var = UpdateFee_new(channel_id_arg_ref, feerate_per_kw_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t UpdateFee_clone_ptr(LDKUpdateFee *NONNULL_PTR arg) {
LDKUpdateFee ret_var = UpdateFee_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UpdateFee_clone_ptr"))) TS_UpdateFee_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UpdateFee_clone_ptr"))) TS_UpdateFee_clone_ptr(uint32_t arg) {
LDKUpdateFee arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UpdateFee_clone_ptr(&arg_conv);
+ intptr_t ret_val = UpdateFee_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUpdateFee ret_var = UpdateFee_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *DataLossProtect_get_your_last_per_commitment_secret(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
DataLossProtect_set_your_last_per_commitment_secret(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, DataLossProtect_get_my_current_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
DataLossProtect_set_my_current_per_commitment_point(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_DataLossProtect_new"))) TS_DataLossProtect_new(int8_tArray your_last_per_commitment_secret_arg, int8_tArray my_current_per_commitment_point_arg) {
LDKThirtyTwoBytes your_last_per_commitment_secret_arg_ref;
CHECK(your_last_per_commitment_secret_arg->arr_len == 32);
- memcpy(your_last_per_commitment_secret_arg_ref.data, your_last_per_commitment_secret_arg->elems, 32);
+ memcpy(your_last_per_commitment_secret_arg_ref.data, your_last_per_commitment_secret_arg->elems, 32); FREE(your_last_per_commitment_secret_arg);
LDKPublicKey my_current_per_commitment_point_arg_ref;
CHECK(my_current_per_commitment_point_arg->arr_len == 33);
- memcpy(my_current_per_commitment_point_arg_ref.compressed_form, my_current_per_commitment_point_arg->elems, 33);
+ memcpy(my_current_per_commitment_point_arg_ref.compressed_form, my_current_per_commitment_point_arg->elems, 33); FREE(my_current_per_commitment_point_arg);
LDKDataLossProtect ret_var = DataLossProtect_new(your_last_per_commitment_secret_arg_ref, my_current_per_commitment_point_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t DataLossProtect_clone_ptr(LDKDataLossProtect *NONNULL_PTR arg) {
LDKDataLossProtect ret_var = DataLossProtect_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_DataLossProtect_clone_ptr"))) TS_DataLossProtect_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_DataLossProtect_clone_ptr"))) TS_DataLossProtect_clone_ptr(uint32_t arg) {
LDKDataLossProtect arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = DataLossProtect_clone_ptr(&arg_conv);
+ intptr_t ret_val = DataLossProtect_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKDataLossProtect ret_var = DataLossProtect_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *ChannelReestablish_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
ChannelReestablish_set_channel_id(&this_ptr_conv, val_ref);
}
static inline uintptr_t ChannelReestablish_clone_ptr(LDKChannelReestablish *NONNULL_PTR arg) {
LDKChannelReestablish ret_var = ChannelReestablish_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelReestablish_clone_ptr"))) TS_ChannelReestablish_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelReestablish_clone_ptr"))) TS_ChannelReestablish_clone_ptr(uint32_t arg) {
LDKChannelReestablish arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelReestablish_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelReestablish_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelReestablish ret_var = ChannelReestablish_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *AnnouncementSignatures_get_channel_id(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
AnnouncementSignatures_set_channel_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, AnnouncementSignatures_get_node_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
AnnouncementSignatures_set_node_signature(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, AnnouncementSignatures_get_bitcoin_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
AnnouncementSignatures_set_bitcoin_signature(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_AnnouncementSignatures_new"))) TS_AnnouncementSignatures_new(int8_tArray channel_id_arg, int64_t short_channel_id_arg, int8_tArray node_signature_arg, int8_tArray bitcoin_signature_arg) {
LDKThirtyTwoBytes channel_id_arg_ref;
CHECK(channel_id_arg->arr_len == 32);
- memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32);
+ memcpy(channel_id_arg_ref.data, channel_id_arg->elems, 32); FREE(channel_id_arg);
LDKSignature node_signature_arg_ref;
CHECK(node_signature_arg->arr_len == 64);
- memcpy(node_signature_arg_ref.compact_form, node_signature_arg->elems, 64);
+ memcpy(node_signature_arg_ref.compact_form, node_signature_arg->elems, 64); FREE(node_signature_arg);
LDKSignature bitcoin_signature_arg_ref;
CHECK(bitcoin_signature_arg->arr_len == 64);
- memcpy(bitcoin_signature_arg_ref.compact_form, bitcoin_signature_arg->elems, 64);
+ memcpy(bitcoin_signature_arg_ref.compact_form, bitcoin_signature_arg->elems, 64); FREE(bitcoin_signature_arg);
LDKAnnouncementSignatures ret_var = AnnouncementSignatures_new(channel_id_arg_ref, short_channel_id_arg, node_signature_arg_ref, bitcoin_signature_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t AnnouncementSignatures_clone_ptr(LDKAnnouncementSignatures *NONNULL_PTR arg) {
LDKAnnouncementSignatures ret_var = AnnouncementSignatures_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_AnnouncementSignatures_clone_ptr"))) TS_AnnouncementSignatures_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_AnnouncementSignatures_clone_ptr"))) TS_AnnouncementSignatures_clone_ptr(uint32_t arg) {
LDKAnnouncementSignatures arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = AnnouncementSignatures_clone_ptr(&arg_conv);
+ intptr_t ret_val = AnnouncementSignatures_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKAnnouncementSignatures ret_var = AnnouncementSignatures_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_NetAddress_free"))) TS_NetAddress_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKNetAddress this_ptr_conv = *(LDKNetAddress*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t NetAddress_clone_ptr(LDKNetAddress *NONNULL_PTR arg) {
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = NetAddress_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NetAddress_clone_ptr"))) TS_NetAddress_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NetAddress_clone_ptr"))) TS_NetAddress_clone_ptr(uint32_t arg) {
LDKNetAddress* arg_conv = (LDKNetAddress*)arg;
- int64_t ret_val = NetAddress_clone_ptr(arg_conv);
+ intptr_t ret_val = NetAddress_clone_ptr(arg_conv);
return ret_val;
}
LDKNetAddress* orig_conv = (LDKNetAddress*)orig;
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = NetAddress_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_NetAddress_ipv4"))) TS_NetAddress_ipv4(int8_tArray addr, int16_t port) {
LDKFourBytes addr_ref;
CHECK(addr->arr_len == 4);
- memcpy(addr_ref.data, addr->elems, 4);
+ memcpy(addr_ref.data, addr->elems, 4); FREE(addr);
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = NetAddress_ipv4(addr_ref, port);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_NetAddress_ipv6"))) TS_NetAddress_ipv6(int8_tArray addr, int16_t port) {
LDKSixteenBytes addr_ref;
CHECK(addr->arr_len == 16);
- memcpy(addr_ref.data, addr->elems, 16);
+ memcpy(addr_ref.data, addr->elems, 16); FREE(addr);
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = NetAddress_ipv6(addr_ref, port);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_NetAddress_onion_v2"))) TS_NetAddress_onion_v2(int8_tArray a) {
LDKTwelveBytes a_ref;
CHECK(a->arr_len == 12);
- memcpy(a_ref.data, a->elems, 12);
+ memcpy(a_ref.data, a->elems, 12); FREE(a);
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = NetAddress_onion_v2(a_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_NetAddress_onion_v3"))) TS_NetAddress_onion_v3(int8_tArray ed25519_pubkey, int16_t checksum, int8_t version, int16_t port) {
LDKThirtyTwoBytes ed25519_pubkey_ref;
CHECK(ed25519_pubkey->arr_len == 32);
- memcpy(ed25519_pubkey_ref.data, ed25519_pubkey->elems, 32);
+ memcpy(ed25519_pubkey_ref.data, ed25519_pubkey->elems, 32); FREE(ed25519_pubkey);
LDKNetAddress *ret_copy = MALLOC(sizeof(LDKNetAddress), "LDKNetAddress");
*ret_copy = NetAddress_onion_v3(ed25519_pubkey_ref, checksum, version, port);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
int8_tArray __attribute__((export_name("TS_NetAddress_write"))) TS_NetAddress_write(uint32_t obj) {
LDKNetAddress* obj_conv = (LDKNetAddress*)obj;
LDKCVec_u8Z ret_var = NetAddress_write(obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NetAddress_read"))) TS_NetAddress_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NetAddressDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetAddressDecodeErrorZ), "LDKCResult_NetAddressDecodeErrorZ");
*ret_conv = NetAddress_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_UnsignedNodeAnnouncement_free"))) TS_UnsignedNodeAnnouncement_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeFeatures ret_var = UnsignedNodeAnnouncement_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, UnsignedNodeAnnouncement_get_node_id(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
UnsignedNodeAnnouncement_set_node_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(3);
+ int8_tArray ret_arr = init_int8_tArray(3, __LINE__);
memcpy(ret_arr->elems, *UnsignedNodeAnnouncement_get_rgb(&this_ptr_conv), 3);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThreeBytes val_ref;
CHECK(val->arr_len == 3);
- memcpy(val_ref.data, val->elems, 3);
+ memcpy(val_ref.data, val->elems, 3); FREE(val);
UnsignedNodeAnnouncement_set_rgb(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UnsignedNodeAnnouncement_get_alias(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UnsignedNodeAnnouncement_set_alias(&this_ptr_conv, val_ref);
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKNetAddress), "LDKCVec_NetAddressZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t m = 0; m < val_constr.datalen; m++) {
uint32_t val_conv_12 = val_vals[m];
- void* val_conv_12_ptr = (void*)(((uint64_t)val_conv_12) & ~1);
+ void* val_conv_12_ptr = (void*)(((uintptr_t)val_conv_12) & ~1);
CHECK_ACCESS(val_conv_12_ptr);
LDKNetAddress val_conv_12_conv = *(LDKNetAddress*)(val_conv_12_ptr);
- val_conv_12_conv = NetAddress_clone((LDKNetAddress*)(((uint64_t)val_conv_12) & ~1));
+ val_conv_12_conv = NetAddress_clone((LDKNetAddress*)(((uintptr_t)val_conv_12) & ~1));
val_constr.data[m] = val_conv_12_conv;
}
UnsignedNodeAnnouncement_set_addresses(&this_ptr_conv, val_constr);
static inline uintptr_t UnsignedNodeAnnouncement_clone_ptr(LDKUnsignedNodeAnnouncement *NONNULL_PTR arg) {
LDKUnsignedNodeAnnouncement ret_var = UnsignedNodeAnnouncement_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UnsignedNodeAnnouncement_clone_ptr"))) TS_UnsignedNodeAnnouncement_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UnsignedNodeAnnouncement_clone_ptr"))) TS_UnsignedNodeAnnouncement_clone_ptr(uint32_t arg) {
LDKUnsignedNodeAnnouncement arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UnsignedNodeAnnouncement_clone_ptr(&arg_conv);
+ intptr_t ret_val = UnsignedNodeAnnouncement_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUnsignedNodeAnnouncement ret_var = UnsignedNodeAnnouncement_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, NodeAnnouncement_get_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
NodeAnnouncement_set_signature(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKUnsignedNodeAnnouncement ret_var = NodeAnnouncement_get_contents(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_NodeAnnouncement_new"))) TS_NodeAnnouncement_new(int8_tArray signature_arg, uint32_t contents_arg) {
LDKSignature signature_arg_ref;
CHECK(signature_arg->arr_len == 64);
- memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64);
+ memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64); FREE(signature_arg);
LDKUnsignedNodeAnnouncement contents_arg_conv;
contents_arg_conv.inner = (void*)(contents_arg & (~1));
contents_arg_conv.is_owned = (contents_arg & 1) || (contents_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(contents_arg_conv);
contents_arg_conv = UnsignedNodeAnnouncement_clone(&contents_arg_conv);
LDKNodeAnnouncement ret_var = NodeAnnouncement_new(signature_arg_ref, contents_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t NodeAnnouncement_clone_ptr(LDKNodeAnnouncement *NONNULL_PTR arg) {
LDKNodeAnnouncement ret_var = NodeAnnouncement_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NodeAnnouncement_clone_ptr"))) TS_NodeAnnouncement_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NodeAnnouncement_clone_ptr"))) TS_NodeAnnouncement_clone_ptr(uint32_t arg) {
LDKNodeAnnouncement arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = NodeAnnouncement_clone_ptr(&arg_conv);
+ intptr_t ret_val = NodeAnnouncement_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKNodeAnnouncement ret_var = NodeAnnouncement_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelFeatures ret_var = UnsignedChannelAnnouncement_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UnsignedChannelAnnouncement_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UnsignedChannelAnnouncement_set_chain_hash(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, UnsignedChannelAnnouncement_get_node_id_1(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
UnsignedChannelAnnouncement_set_node_id_1(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, UnsignedChannelAnnouncement_get_node_id_2(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
UnsignedChannelAnnouncement_set_node_id_2(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, UnsignedChannelAnnouncement_get_bitcoin_key_1(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
UnsignedChannelAnnouncement_set_bitcoin_key_1(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, UnsignedChannelAnnouncement_get_bitcoin_key_2(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
UnsignedChannelAnnouncement_set_bitcoin_key_2(&this_ptr_conv, val_ref);
}
static inline uintptr_t UnsignedChannelAnnouncement_clone_ptr(LDKUnsignedChannelAnnouncement *NONNULL_PTR arg) {
LDKUnsignedChannelAnnouncement ret_var = UnsignedChannelAnnouncement_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UnsignedChannelAnnouncement_clone_ptr"))) TS_UnsignedChannelAnnouncement_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UnsignedChannelAnnouncement_clone_ptr"))) TS_UnsignedChannelAnnouncement_clone_ptr(uint32_t arg) {
LDKUnsignedChannelAnnouncement arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UnsignedChannelAnnouncement_clone_ptr(&arg_conv);
+ intptr_t ret_val = UnsignedChannelAnnouncement_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUnsignedChannelAnnouncement ret_var = UnsignedChannelAnnouncement_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, ChannelAnnouncement_get_node_signature_1(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
ChannelAnnouncement_set_node_signature_1(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, ChannelAnnouncement_get_node_signature_2(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
ChannelAnnouncement_set_node_signature_2(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, ChannelAnnouncement_get_bitcoin_signature_1(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
ChannelAnnouncement_set_bitcoin_signature_1(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, ChannelAnnouncement_get_bitcoin_signature_2(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
ChannelAnnouncement_set_bitcoin_signature_2(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKUnsignedChannelAnnouncement ret_var = ChannelAnnouncement_get_contents(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelAnnouncement_new"))) TS_ChannelAnnouncement_new(int8_tArray node_signature_1_arg, int8_tArray node_signature_2_arg, int8_tArray bitcoin_signature_1_arg, int8_tArray bitcoin_signature_2_arg, uint32_t contents_arg) {
LDKSignature node_signature_1_arg_ref;
CHECK(node_signature_1_arg->arr_len == 64);
- memcpy(node_signature_1_arg_ref.compact_form, node_signature_1_arg->elems, 64);
+ memcpy(node_signature_1_arg_ref.compact_form, node_signature_1_arg->elems, 64); FREE(node_signature_1_arg);
LDKSignature node_signature_2_arg_ref;
CHECK(node_signature_2_arg->arr_len == 64);
- memcpy(node_signature_2_arg_ref.compact_form, node_signature_2_arg->elems, 64);
+ memcpy(node_signature_2_arg_ref.compact_form, node_signature_2_arg->elems, 64); FREE(node_signature_2_arg);
LDKSignature bitcoin_signature_1_arg_ref;
CHECK(bitcoin_signature_1_arg->arr_len == 64);
- memcpy(bitcoin_signature_1_arg_ref.compact_form, bitcoin_signature_1_arg->elems, 64);
+ memcpy(bitcoin_signature_1_arg_ref.compact_form, bitcoin_signature_1_arg->elems, 64); FREE(bitcoin_signature_1_arg);
LDKSignature bitcoin_signature_2_arg_ref;
CHECK(bitcoin_signature_2_arg->arr_len == 64);
- memcpy(bitcoin_signature_2_arg_ref.compact_form, bitcoin_signature_2_arg->elems, 64);
+ memcpy(bitcoin_signature_2_arg_ref.compact_form, bitcoin_signature_2_arg->elems, 64); FREE(bitcoin_signature_2_arg);
LDKUnsignedChannelAnnouncement contents_arg_conv;
contents_arg_conv.inner = (void*)(contents_arg & (~1));
contents_arg_conv.is_owned = (contents_arg & 1) || (contents_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(contents_arg_conv);
contents_arg_conv = UnsignedChannelAnnouncement_clone(&contents_arg_conv);
LDKChannelAnnouncement ret_var = ChannelAnnouncement_new(node_signature_1_arg_ref, node_signature_2_arg_ref, bitcoin_signature_1_arg_ref, bitcoin_signature_2_arg_ref, contents_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelAnnouncement_clone_ptr(LDKChannelAnnouncement *NONNULL_PTR arg) {
LDKChannelAnnouncement ret_var = ChannelAnnouncement_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelAnnouncement_clone_ptr"))) TS_ChannelAnnouncement_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelAnnouncement_clone_ptr"))) TS_ChannelAnnouncement_clone_ptr(uint32_t arg) {
LDKChannelAnnouncement arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelAnnouncement_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelAnnouncement_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelAnnouncement ret_var = ChannelAnnouncement_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *UnsignedChannelUpdate_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
UnsignedChannelUpdate_set_chain_hash(&this_ptr_conv, val_ref);
}
static inline uintptr_t UnsignedChannelUpdate_clone_ptr(LDKUnsignedChannelUpdate *NONNULL_PTR arg) {
LDKUnsignedChannelUpdate ret_var = UnsignedChannelUpdate_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_UnsignedChannelUpdate_clone_ptr"))) TS_UnsignedChannelUpdate_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_UnsignedChannelUpdate_clone_ptr"))) TS_UnsignedChannelUpdate_clone_ptr(uint32_t arg) {
LDKUnsignedChannelUpdate arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = UnsignedChannelUpdate_clone_ptr(&arg_conv);
+ intptr_t ret_val = UnsignedChannelUpdate_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKUnsignedChannelUpdate ret_var = UnsignedChannelUpdate_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, ChannelUpdate_get_signature(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
ChannelUpdate_set_signature(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKUnsignedChannelUpdate ret_var = ChannelUpdate_get_contents(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelUpdate_new"))) TS_ChannelUpdate_new(int8_tArray signature_arg, uint32_t contents_arg) {
LDKSignature signature_arg_ref;
CHECK(signature_arg->arr_len == 64);
- memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64);
+ memcpy(signature_arg_ref.compact_form, signature_arg->elems, 64); FREE(signature_arg);
LDKUnsignedChannelUpdate contents_arg_conv;
contents_arg_conv.inner = (void*)(contents_arg & (~1));
contents_arg_conv.is_owned = (contents_arg & 1) || (contents_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(contents_arg_conv);
contents_arg_conv = UnsignedChannelUpdate_clone(&contents_arg_conv);
LDKChannelUpdate ret_var = ChannelUpdate_new(signature_arg_ref, contents_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelUpdate_clone_ptr(LDKChannelUpdate *NONNULL_PTR arg) {
LDKChannelUpdate ret_var = ChannelUpdate_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelUpdate_clone_ptr"))) TS_ChannelUpdate_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelUpdate_clone_ptr"))) TS_ChannelUpdate_clone_ptr(uint32_t arg) {
LDKChannelUpdate arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelUpdate_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelUpdate_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelUpdate ret_var = ChannelUpdate_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *QueryChannelRange_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
QueryChannelRange_set_chain_hash(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_QueryChannelRange_new"))) TS_QueryChannelRange_new(int8_tArray chain_hash_arg, int32_t first_blocknum_arg, int32_t number_of_blocks_arg) {
LDKThirtyTwoBytes chain_hash_arg_ref;
CHECK(chain_hash_arg->arr_len == 32);
- memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32);
+ memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32); FREE(chain_hash_arg);
LDKQueryChannelRange ret_var = QueryChannelRange_new(chain_hash_arg_ref, first_blocknum_arg, number_of_blocks_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t QueryChannelRange_clone_ptr(LDKQueryChannelRange *NONNULL_PTR arg) {
LDKQueryChannelRange ret_var = QueryChannelRange_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_QueryChannelRange_clone_ptr"))) TS_QueryChannelRange_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_QueryChannelRange_clone_ptr"))) TS_QueryChannelRange_clone_ptr(uint32_t arg) {
LDKQueryChannelRange arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = QueryChannelRange_clone_ptr(&arg_conv);
+ intptr_t ret_val = QueryChannelRange_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKQueryChannelRange ret_var = QueryChannelRange_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *ReplyChannelRange_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
ReplyChannelRange_set_chain_hash(&this_ptr_conv, val_ref);
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
val_constr.data = NULL;
- int64_t* val_vals = val->elems;
+ int64_t* val_vals = val->elems /* XXX val leaks */;
for (size_t i = 0; i < val_constr.datalen; i++) {
int64_t val_conv_8 = val_vals[i];
val_constr.data[i] = val_conv_8;
uint32_t __attribute__((export_name("TS_ReplyChannelRange_new"))) TS_ReplyChannelRange_new(int8_tArray chain_hash_arg, int32_t first_blocknum_arg, int32_t number_of_blocks_arg, jboolean sync_complete_arg, int64_tArray short_channel_ids_arg) {
LDKThirtyTwoBytes chain_hash_arg_ref;
CHECK(chain_hash_arg->arr_len == 32);
- memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32);
+ memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32); FREE(chain_hash_arg);
LDKCVec_u64Z short_channel_ids_arg_constr;
short_channel_ids_arg_constr.datalen = short_channel_ids_arg->arr_len;
if (short_channel_ids_arg_constr.datalen > 0)
short_channel_ids_arg_constr.data = MALLOC(short_channel_ids_arg_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
short_channel_ids_arg_constr.data = NULL;
- int64_t* short_channel_ids_arg_vals = short_channel_ids_arg->elems;
+ int64_t* short_channel_ids_arg_vals = short_channel_ids_arg->elems /* XXX short_channel_ids_arg leaks */;
for (size_t i = 0; i < short_channel_ids_arg_constr.datalen; i++) {
int64_t short_channel_ids_arg_conv_8 = short_channel_ids_arg_vals[i];
short_channel_ids_arg_constr.data[i] = short_channel_ids_arg_conv_8;
}
LDKReplyChannelRange ret_var = ReplyChannelRange_new(chain_hash_arg_ref, first_blocknum_arg, number_of_blocks_arg, sync_complete_arg, short_channel_ids_arg_constr);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ReplyChannelRange_clone_ptr(LDKReplyChannelRange *NONNULL_PTR arg) {
LDKReplyChannelRange ret_var = ReplyChannelRange_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ReplyChannelRange_clone_ptr"))) TS_ReplyChannelRange_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ReplyChannelRange_clone_ptr"))) TS_ReplyChannelRange_clone_ptr(uint32_t arg) {
LDKReplyChannelRange arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ReplyChannelRange_clone_ptr(&arg_conv);
+ intptr_t ret_val = ReplyChannelRange_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKReplyChannelRange ret_var = ReplyChannelRange_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *QueryShortChannelIds_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
QueryShortChannelIds_set_chain_hash(&this_ptr_conv, val_ref);
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
val_constr.data = NULL;
- int64_t* val_vals = val->elems;
+ int64_t* val_vals = val->elems /* XXX val leaks */;
for (size_t i = 0; i < val_constr.datalen; i++) {
int64_t val_conv_8 = val_vals[i];
val_constr.data[i] = val_conv_8;
uint32_t __attribute__((export_name("TS_QueryShortChannelIds_new"))) TS_QueryShortChannelIds_new(int8_tArray chain_hash_arg, int64_tArray short_channel_ids_arg) {
LDKThirtyTwoBytes chain_hash_arg_ref;
CHECK(chain_hash_arg->arr_len == 32);
- memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32);
+ memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32); FREE(chain_hash_arg);
LDKCVec_u64Z short_channel_ids_arg_constr;
short_channel_ids_arg_constr.datalen = short_channel_ids_arg->arr_len;
if (short_channel_ids_arg_constr.datalen > 0)
short_channel_ids_arg_constr.data = MALLOC(short_channel_ids_arg_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
short_channel_ids_arg_constr.data = NULL;
- int64_t* short_channel_ids_arg_vals = short_channel_ids_arg->elems;
+ int64_t* short_channel_ids_arg_vals = short_channel_ids_arg->elems /* XXX short_channel_ids_arg leaks */;
for (size_t i = 0; i < short_channel_ids_arg_constr.datalen; i++) {
int64_t short_channel_ids_arg_conv_8 = short_channel_ids_arg_vals[i];
short_channel_ids_arg_constr.data[i] = short_channel_ids_arg_conv_8;
}
LDKQueryShortChannelIds ret_var = QueryShortChannelIds_new(chain_hash_arg_ref, short_channel_ids_arg_constr);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t QueryShortChannelIds_clone_ptr(LDKQueryShortChannelIds *NONNULL_PTR arg) {
LDKQueryShortChannelIds ret_var = QueryShortChannelIds_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_QueryShortChannelIds_clone_ptr"))) TS_QueryShortChannelIds_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_QueryShortChannelIds_clone_ptr"))) TS_QueryShortChannelIds_clone_ptr(uint32_t arg) {
LDKQueryShortChannelIds arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = QueryShortChannelIds_clone_ptr(&arg_conv);
+ intptr_t ret_val = QueryShortChannelIds_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKQueryShortChannelIds ret_var = QueryShortChannelIds_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *ReplyShortChannelIdsEnd_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
ReplyShortChannelIdsEnd_set_chain_hash(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_ReplyShortChannelIdsEnd_new"))) TS_ReplyShortChannelIdsEnd_new(int8_tArray chain_hash_arg, jboolean full_information_arg) {
LDKThirtyTwoBytes chain_hash_arg_ref;
CHECK(chain_hash_arg->arr_len == 32);
- memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32);
+ memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32); FREE(chain_hash_arg);
LDKReplyShortChannelIdsEnd ret_var = ReplyShortChannelIdsEnd_new(chain_hash_arg_ref, full_information_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ReplyShortChannelIdsEnd_clone_ptr(LDKReplyShortChannelIdsEnd *NONNULL_PTR arg) {
LDKReplyShortChannelIdsEnd ret_var = ReplyShortChannelIdsEnd_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ReplyShortChannelIdsEnd_clone_ptr"))) TS_ReplyShortChannelIdsEnd_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ReplyShortChannelIdsEnd_clone_ptr"))) TS_ReplyShortChannelIdsEnd_clone_ptr(uint32_t arg) {
LDKReplyShortChannelIdsEnd arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ReplyShortChannelIdsEnd_clone_ptr(&arg_conv);
+ intptr_t ret_val = ReplyShortChannelIdsEnd_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKReplyShortChannelIdsEnd ret_var = ReplyShortChannelIdsEnd_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *GossipTimestampFilter_get_chain_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
GossipTimestampFilter_set_chain_hash(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_GossipTimestampFilter_new"))) TS_GossipTimestampFilter_new(int8_tArray chain_hash_arg, int32_t first_timestamp_arg, int32_t timestamp_range_arg) {
LDKThirtyTwoBytes chain_hash_arg_ref;
CHECK(chain_hash_arg->arr_len == 32);
- memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32);
+ memcpy(chain_hash_arg_ref.data, chain_hash_arg->elems, 32); FREE(chain_hash_arg);
LDKGossipTimestampFilter ret_var = GossipTimestampFilter_new(chain_hash_arg_ref, first_timestamp_arg, timestamp_range_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t GossipTimestampFilter_clone_ptr(LDKGossipTimestampFilter *NONNULL_PTR arg) {
LDKGossipTimestampFilter ret_var = GossipTimestampFilter_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_GossipTimestampFilter_clone_ptr"))) TS_GossipTimestampFilter_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_GossipTimestampFilter_clone_ptr"))) TS_GossipTimestampFilter_clone_ptr(uint32_t arg) {
LDKGossipTimestampFilter arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = GossipTimestampFilter_clone_ptr(&arg_conv);
+ intptr_t ret_val = GossipTimestampFilter_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKGossipTimestampFilter ret_var = GossipTimestampFilter_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_ErrorAction_free"))) TS_ErrorAction_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKErrorAction this_ptr_conv = *(LDKErrorAction*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t ErrorAction_clone_ptr(LDKErrorAction *NONNULL_PTR arg) {
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ErrorAction_clone_ptr"))) TS_ErrorAction_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ErrorAction_clone_ptr"))) TS_ErrorAction_clone_ptr(uint32_t arg) {
LDKErrorAction* arg_conv = (LDKErrorAction*)arg;
- int64_t ret_val = ErrorAction_clone_ptr(arg_conv);
+ intptr_t ret_val = ErrorAction_clone_ptr(arg_conv);
return ret_val;
}
LDKErrorAction* orig_conv = (LDKErrorAction*)orig;
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
msg_conv = ErrorMessage_clone(&msg_conv);
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_disconnect_peer(msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ErrorAction_ignore_error"))) TS_ErrorAction_ignore_error() {
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_ignore_error();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
LDKLevel a_conv = LDKLevel_from_js(a);
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_ignore_and_log(a_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_ErrorAction_ignore_duplicate_gossip"))) TS_ErrorAction_ignore_duplicate_gossip() {
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_ignore_duplicate_gossip();
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
msg_conv = ErrorMessage_clone(&msg_conv);
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = ErrorAction_send_error_message(msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKErrorAction *ret_copy = MALLOC(sizeof(LDKErrorAction), "LDKErrorAction");
*ret_copy = LightningError_get_action(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKErrorAction val_conv = *(LDKErrorAction*)(val_ptr);
- val_conv = ErrorAction_clone((LDKErrorAction*)(((uint64_t)val) & ~1));
+ val_conv = ErrorAction_clone((LDKErrorAction*)(((uintptr_t)val) & ~1));
LightningError_set_action(&this_ptr_conv, val_conv);
}
uint32_t __attribute__((export_name("TS_LightningError_new"))) TS_LightningError_new(jstring err_arg, uint32_t action_arg) {
LDKStr err_arg_conv = str_ref_to_owned_c(err_arg);
- void* action_arg_ptr = (void*)(((uint64_t)action_arg) & ~1);
+ void* action_arg_ptr = (void*)(((uintptr_t)action_arg) & ~1);
CHECK_ACCESS(action_arg_ptr);
LDKErrorAction action_arg_conv = *(LDKErrorAction*)(action_arg_ptr);
- action_arg_conv = ErrorAction_clone((LDKErrorAction*)(((uint64_t)action_arg) & ~1));
+ action_arg_conv = ErrorAction_clone((LDKErrorAction*)(((uintptr_t)action_arg) & ~1));
LDKLightningError ret_var = LightningError_new(err_arg_conv, action_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t LightningError_clone_ptr(LDKLightningError *NONNULL_PTR arg) {
LDKLightningError ret_var = LightningError_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_LightningError_clone_ptr"))) TS_LightningError_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_LightningError_clone_ptr"))) TS_LightningError_clone_ptr(uint32_t arg) {
LDKLightningError arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = LightningError_clone_ptr(&arg_conv);
+ intptr_t ret_val = LightningError_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKLightningError ret_var = LightningError_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_UpdateAddHTLCZ ret_var = CommitmentUpdate_get_update_add_htlcs(&this_ptr_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t p = 0; p < ret_var.datalen; p++) {
LDKUpdateAddHTLC ret_conv_15_var = ret_var.data[p];
- uint64_t ret_conv_15_ref = 0;
- CHECK((((uint64_t)ret_conv_15_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_15_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_15_ref = 0;
+ CHECK((((uintptr_t)ret_conv_15_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_15_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_15_var);
- ret_conv_15_ref = (uint64_t)ret_conv_15_var.inner;
+ ret_conv_15_ref = (uintptr_t)ret_conv_15_var.inner;
if (ret_conv_15_var.is_owned) {
ret_conv_15_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKUpdateAddHTLC), "LDKCVec_UpdateAddHTLCZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t p = 0; p < val_constr.datalen; p++) {
uint32_t val_conv_15 = val_vals[p];
LDKUpdateAddHTLC val_conv_15_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_UpdateFulfillHTLCZ ret_var = CommitmentUpdate_get_update_fulfill_htlcs(&this_ptr_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t t = 0; t < ret_var.datalen; t++) {
LDKUpdateFulfillHTLC ret_conv_19_var = ret_var.data[t];
- uint64_t ret_conv_19_ref = 0;
- CHECK((((uint64_t)ret_conv_19_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_19_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_19_ref = 0;
+ CHECK((((uintptr_t)ret_conv_19_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_19_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_19_var);
- ret_conv_19_ref = (uint64_t)ret_conv_19_var.inner;
+ ret_conv_19_ref = (uintptr_t)ret_conv_19_var.inner;
if (ret_conv_19_var.is_owned) {
ret_conv_19_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKUpdateFulfillHTLC), "LDKCVec_UpdateFulfillHTLCZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t t = 0; t < val_constr.datalen; t++) {
uint32_t val_conv_19 = val_vals[t];
LDKUpdateFulfillHTLC val_conv_19_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_UpdateFailHTLCZ ret_var = CommitmentUpdate_get_update_fail_htlcs(&this_ptr_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t q = 0; q < ret_var.datalen; q++) {
LDKUpdateFailHTLC ret_conv_16_var = ret_var.data[q];
- uint64_t ret_conv_16_ref = 0;
- CHECK((((uint64_t)ret_conv_16_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_16_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_16_ref = 0;
+ CHECK((((uintptr_t)ret_conv_16_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_16_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_16_var);
- ret_conv_16_ref = (uint64_t)ret_conv_16_var.inner;
+ ret_conv_16_ref = (uintptr_t)ret_conv_16_var.inner;
if (ret_conv_16_var.is_owned) {
ret_conv_16_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKUpdateFailHTLC), "LDKCVec_UpdateFailHTLCZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t q = 0; q < val_constr.datalen; q++) {
uint32_t val_conv_16 = val_vals[q];
LDKUpdateFailHTLC val_conv_16_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_UpdateFailMalformedHTLCZ ret_var = CommitmentUpdate_get_update_fail_malformed_htlcs(&this_ptr_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t z = 0; z < ret_var.datalen; z++) {
LDKUpdateFailMalformedHTLC ret_conv_25_var = ret_var.data[z];
- uint64_t ret_conv_25_ref = 0;
- CHECK((((uint64_t)ret_conv_25_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_25_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_25_ref = 0;
+ CHECK((((uintptr_t)ret_conv_25_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_25_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_25_var);
- ret_conv_25_ref = (uint64_t)ret_conv_25_var.inner;
+ ret_conv_25_ref = (uintptr_t)ret_conv_25_var.inner;
if (ret_conv_25_var.is_owned) {
ret_conv_25_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKUpdateFailMalformedHTLC), "LDKCVec_UpdateFailMalformedHTLCZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t z = 0; z < val_constr.datalen; z++) {
uint32_t val_conv_25 = val_vals[z];
LDKUpdateFailMalformedHTLC val_conv_25_conv;
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKUpdateFee ret_var = CommitmentUpdate_get_update_fee(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCommitmentSigned ret_var = CommitmentUpdate_get_commitment_signed(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
update_add_htlcs_arg_constr.data = MALLOC(update_add_htlcs_arg_constr.datalen * sizeof(LDKUpdateAddHTLC), "LDKCVec_UpdateAddHTLCZ Elements");
else
update_add_htlcs_arg_constr.data = NULL;
- uint32_t* update_add_htlcs_arg_vals = update_add_htlcs_arg->elems;
+ uint32_t* update_add_htlcs_arg_vals = update_add_htlcs_arg->elems /* XXX update_add_htlcs_arg leaks */;
for (size_t p = 0; p < update_add_htlcs_arg_constr.datalen; p++) {
uint32_t update_add_htlcs_arg_conv_15 = update_add_htlcs_arg_vals[p];
LDKUpdateAddHTLC update_add_htlcs_arg_conv_15_conv;
update_fulfill_htlcs_arg_constr.data = MALLOC(update_fulfill_htlcs_arg_constr.datalen * sizeof(LDKUpdateFulfillHTLC), "LDKCVec_UpdateFulfillHTLCZ Elements");
else
update_fulfill_htlcs_arg_constr.data = NULL;
- uint32_t* update_fulfill_htlcs_arg_vals = update_fulfill_htlcs_arg->elems;
+ uint32_t* update_fulfill_htlcs_arg_vals = update_fulfill_htlcs_arg->elems /* XXX update_fulfill_htlcs_arg leaks */;
for (size_t t = 0; t < update_fulfill_htlcs_arg_constr.datalen; t++) {
uint32_t update_fulfill_htlcs_arg_conv_19 = update_fulfill_htlcs_arg_vals[t];
LDKUpdateFulfillHTLC update_fulfill_htlcs_arg_conv_19_conv;
update_fail_htlcs_arg_constr.data = MALLOC(update_fail_htlcs_arg_constr.datalen * sizeof(LDKUpdateFailHTLC), "LDKCVec_UpdateFailHTLCZ Elements");
else
update_fail_htlcs_arg_constr.data = NULL;
- uint32_t* update_fail_htlcs_arg_vals = update_fail_htlcs_arg->elems;
+ uint32_t* update_fail_htlcs_arg_vals = update_fail_htlcs_arg->elems /* XXX update_fail_htlcs_arg leaks */;
for (size_t q = 0; q < update_fail_htlcs_arg_constr.datalen; q++) {
uint32_t update_fail_htlcs_arg_conv_16 = update_fail_htlcs_arg_vals[q];
LDKUpdateFailHTLC update_fail_htlcs_arg_conv_16_conv;
update_fail_malformed_htlcs_arg_constr.data = MALLOC(update_fail_malformed_htlcs_arg_constr.datalen * sizeof(LDKUpdateFailMalformedHTLC), "LDKCVec_UpdateFailMalformedHTLCZ Elements");
else
update_fail_malformed_htlcs_arg_constr.data = NULL;
- uint32_t* update_fail_malformed_htlcs_arg_vals = update_fail_malformed_htlcs_arg->elems;
+ uint32_t* update_fail_malformed_htlcs_arg_vals = update_fail_malformed_htlcs_arg->elems /* XXX update_fail_malformed_htlcs_arg leaks */;
for (size_t z = 0; z < update_fail_malformed_htlcs_arg_constr.datalen; z++) {
uint32_t update_fail_malformed_htlcs_arg_conv_25 = update_fail_malformed_htlcs_arg_vals[z];
LDKUpdateFailMalformedHTLC update_fail_malformed_htlcs_arg_conv_25_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(commitment_signed_arg_conv);
commitment_signed_arg_conv = CommitmentSigned_clone(&commitment_signed_arg_conv);
LDKCommitmentUpdate ret_var = CommitmentUpdate_new(update_add_htlcs_arg_constr, update_fulfill_htlcs_arg_constr, update_fail_htlcs_arg_constr, update_fail_malformed_htlcs_arg_constr, update_fee_arg_conv, commitment_signed_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t CommitmentUpdate_clone_ptr(LDKCommitmentUpdate *NONNULL_PTR arg) {
LDKCommitmentUpdate ret_var = CommitmentUpdate_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_CommitmentUpdate_clone_ptr"))) TS_CommitmentUpdate_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CommitmentUpdate_clone_ptr"))) TS_CommitmentUpdate_clone_ptr(uint32_t arg) {
LDKCommitmentUpdate arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = CommitmentUpdate_clone_ptr(&arg_conv);
+ intptr_t ret_val = CommitmentUpdate_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKCommitmentUpdate ret_var = CommitmentUpdate_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_ChannelMessageHandler_free"))) TS_ChannelMessageHandler_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKChannelMessageHandler this_ptr_conv = *(LDKChannelMessageHandler*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_RoutingMessageHandler_free"))) TS_RoutingMessageHandler_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKRoutingMessageHandler this_ptr_conv = *(LDKRoutingMessageHandler*)(this_ptr_ptr);
FREE((void*)this_ptr);
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = AcceptChannel_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_AcceptChannel_read"))) TS_AcceptChannel_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_AcceptChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AcceptChannelDecodeErrorZ), "LDKCResult_AcceptChannelDecodeErrorZ");
*ret_conv = AcceptChannel_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_AnnouncementSignatures_write"))) TS_AnnouncementSignatures_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = AnnouncementSignatures_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_AnnouncementSignatures_read"))) TS_AnnouncementSignatures_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_AnnouncementSignaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_AnnouncementSignaturesDecodeErrorZ), "LDKCResult_AnnouncementSignaturesDecodeErrorZ");
*ret_conv = AnnouncementSignatures_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ChannelReestablish_write"))) TS_ChannelReestablish_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelReestablish_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelReestablish_read"))) TS_ChannelReestablish_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelReestablishDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelReestablishDecodeErrorZ), "LDKCResult_ChannelReestablishDecodeErrorZ");
*ret_conv = ChannelReestablish_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ClosingSigned_write"))) TS_ClosingSigned_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ClosingSigned_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ClosingSigned_read"))) TS_ClosingSigned_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ClosingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedDecodeErrorZ), "LDKCResult_ClosingSignedDecodeErrorZ");
*ret_conv = ClosingSigned_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ClosingSignedFeeRange_write"))) TS_ClosingSignedFeeRange_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ClosingSignedFeeRange_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ClosingSignedFeeRange_read"))) TS_ClosingSignedFeeRange_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ClosingSignedFeeRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ClosingSignedFeeRangeDecodeErrorZ), "LDKCResult_ClosingSignedFeeRangeDecodeErrorZ");
*ret_conv = ClosingSignedFeeRange_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_CommitmentSigned_write"))) TS_CommitmentSigned_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = CommitmentSigned_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_CommitmentSigned_read"))) TS_CommitmentSigned_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_CommitmentSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentSignedDecodeErrorZ), "LDKCResult_CommitmentSignedDecodeErrorZ");
*ret_conv = CommitmentSigned_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_FundingCreated_write"))) TS_FundingCreated_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = FundingCreated_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_FundingCreated_read"))) TS_FundingCreated_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_FundingCreatedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingCreatedDecodeErrorZ), "LDKCResult_FundingCreatedDecodeErrorZ");
*ret_conv = FundingCreated_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_FundingSigned_write"))) TS_FundingSigned_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = FundingSigned_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_FundingSigned_read"))) TS_FundingSigned_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_FundingSignedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingSignedDecodeErrorZ), "LDKCResult_FundingSignedDecodeErrorZ");
*ret_conv = FundingSigned_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_FundingLocked_write"))) TS_FundingLocked_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = FundingLocked_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_FundingLocked_read"))) TS_FundingLocked_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_FundingLockedDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_FundingLockedDecodeErrorZ), "LDKCResult_FundingLockedDecodeErrorZ");
*ret_conv = FundingLocked_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_Init_write"))) TS_Init_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = Init_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Init_read"))) TS_Init_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_InitDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitDecodeErrorZ), "LDKCResult_InitDecodeErrorZ");
*ret_conv = Init_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_OpenChannel_write"))) TS_OpenChannel_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = OpenChannel_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_OpenChannel_read"))) TS_OpenChannel_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_OpenChannelDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_OpenChannelDecodeErrorZ), "LDKCResult_OpenChannelDecodeErrorZ");
*ret_conv = OpenChannel_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_RevokeAndACK_write"))) TS_RevokeAndACK_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = RevokeAndACK_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_RevokeAndACK_read"))) TS_RevokeAndACK_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RevokeAndACKDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RevokeAndACKDecodeErrorZ), "LDKCResult_RevokeAndACKDecodeErrorZ");
*ret_conv = RevokeAndACK_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_Shutdown_write"))) TS_Shutdown_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = Shutdown_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Shutdown_read"))) TS_Shutdown_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ShutdownDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownDecodeErrorZ), "LDKCResult_ShutdownDecodeErrorZ");
*ret_conv = Shutdown_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UpdateFailHTLC_write"))) TS_UpdateFailHTLC_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UpdateFailHTLC_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UpdateFailHTLC_read"))) TS_UpdateFailHTLC_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UpdateFailHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailHTLCDecodeErrorZ), "LDKCResult_UpdateFailHTLCDecodeErrorZ");
*ret_conv = UpdateFailHTLC_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UpdateFailMalformedHTLC_write"))) TS_UpdateFailMalformedHTLC_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UpdateFailMalformedHTLC_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UpdateFailMalformedHTLC_read"))) TS_UpdateFailMalformedHTLC_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ), "LDKCResult_UpdateFailMalformedHTLCDecodeErrorZ");
*ret_conv = UpdateFailMalformedHTLC_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UpdateFee_write"))) TS_UpdateFee_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UpdateFee_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UpdateFee_read"))) TS_UpdateFee_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UpdateFeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFeeDecodeErrorZ), "LDKCResult_UpdateFeeDecodeErrorZ");
*ret_conv = UpdateFee_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UpdateFulfillHTLC_write"))) TS_UpdateFulfillHTLC_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UpdateFulfillHTLC_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UpdateFulfillHTLC_read"))) TS_UpdateFulfillHTLC_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UpdateFulfillHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateFulfillHTLCDecodeErrorZ), "LDKCResult_UpdateFulfillHTLCDecodeErrorZ");
*ret_conv = UpdateFulfillHTLC_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UpdateAddHTLC_write"))) TS_UpdateAddHTLC_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UpdateAddHTLC_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UpdateAddHTLC_read"))) TS_UpdateAddHTLC_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UpdateAddHTLCDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UpdateAddHTLCDecodeErrorZ), "LDKCResult_UpdateAddHTLCDecodeErrorZ");
*ret_conv = UpdateAddHTLC_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_Ping_write"))) TS_Ping_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = Ping_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Ping_read"))) TS_Ping_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_PingDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PingDecodeErrorZ), "LDKCResult_PingDecodeErrorZ");
*ret_conv = Ping_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_Pong_write"))) TS_Pong_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = Pong_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Pong_read"))) TS_Pong_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_PongDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PongDecodeErrorZ), "LDKCResult_PongDecodeErrorZ");
*ret_conv = Pong_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UnsignedChannelAnnouncement_write"))) TS_UnsignedChannelAnnouncement_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UnsignedChannelAnnouncement_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UnsignedChannelAnnouncement_read"))) TS_UnsignedChannelAnnouncement_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ), "LDKCResult_UnsignedChannelAnnouncementDecodeErrorZ");
*ret_conv = UnsignedChannelAnnouncement_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ChannelAnnouncement_write"))) TS_ChannelAnnouncement_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelAnnouncement_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelAnnouncement_read"))) TS_ChannelAnnouncement_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelAnnouncementDecodeErrorZ), "LDKCResult_ChannelAnnouncementDecodeErrorZ");
*ret_conv = ChannelAnnouncement_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UnsignedChannelUpdate_write"))) TS_UnsignedChannelUpdate_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UnsignedChannelUpdate_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UnsignedChannelUpdate_read"))) TS_UnsignedChannelUpdate_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UnsignedChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedChannelUpdateDecodeErrorZ), "LDKCResult_UnsignedChannelUpdateDecodeErrorZ");
*ret_conv = UnsignedChannelUpdate_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ChannelUpdate_write"))) TS_ChannelUpdate_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelUpdate_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelUpdate_read"))) TS_ChannelUpdate_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelUpdateDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelUpdateDecodeErrorZ), "LDKCResult_ChannelUpdateDecodeErrorZ");
*ret_conv = ChannelUpdate_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ErrorMessage_write"))) TS_ErrorMessage_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ErrorMessage_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ErrorMessage_read"))) TS_ErrorMessage_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ErrorMessageDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ErrorMessageDecodeErrorZ), "LDKCResult_ErrorMessageDecodeErrorZ");
*ret_conv = ErrorMessage_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_UnsignedNodeAnnouncement_write"))) TS_UnsignedNodeAnnouncement_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = UnsignedNodeAnnouncement_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_UnsignedNodeAnnouncement_read"))) TS_UnsignedNodeAnnouncement_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ), "LDKCResult_UnsignedNodeAnnouncementDecodeErrorZ");
*ret_conv = UnsignedNodeAnnouncement_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_NodeAnnouncement_write"))) TS_NodeAnnouncement_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = NodeAnnouncement_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NodeAnnouncement_read"))) TS_NodeAnnouncement_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NodeAnnouncementDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementDecodeErrorZ), "LDKCResult_NodeAnnouncementDecodeErrorZ");
*ret_conv = NodeAnnouncement_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_QueryShortChannelIds_read"))) TS_QueryShortChannelIds_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_QueryShortChannelIdsDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryShortChannelIdsDecodeErrorZ), "LDKCResult_QueryShortChannelIdsDecodeErrorZ");
*ret_conv = QueryShortChannelIds_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_QueryShortChannelIds_write"))) TS_QueryShortChannelIds_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = QueryShortChannelIds_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ReplyShortChannelIdsEnd_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ReplyShortChannelIdsEnd_read"))) TS_ReplyShortChannelIdsEnd_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ), "LDKCResult_ReplyShortChannelIdsEndDecodeErrorZ");
*ret_conv = ReplyShortChannelIdsEnd_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int32_t __attribute__((export_name("TS_QueryChannelRange_end_blocknum"))) TS_QueryChannelRange_end_blocknum(uint32_t this_arg) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = QueryChannelRange_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_QueryChannelRange_read"))) TS_QueryChannelRange_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_QueryChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_QueryChannelRangeDecodeErrorZ), "LDKCResult_QueryChannelRangeDecodeErrorZ");
*ret_conv = QueryChannelRange_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ReplyChannelRange_read"))) TS_ReplyChannelRange_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ReplyChannelRangeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ReplyChannelRangeDecodeErrorZ), "LDKCResult_ReplyChannelRangeDecodeErrorZ");
*ret_conv = ReplyChannelRange_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ReplyChannelRange_write"))) TS_ReplyChannelRange_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ReplyChannelRange_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = GossipTimestampFilter_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_GossipTimestampFilter_read"))) TS_GossipTimestampFilter_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_GossipTimestampFilterDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_GossipTimestampFilterDecodeErrorZ), "LDKCResult_GossipTimestampFilterDecodeErrorZ");
*ret_conv = GossipTimestampFilter_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_CustomMessageHandler_free"))) TS_CustomMessageHandler_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKCustomMessageHandler this_ptr_conv = *(LDKCustomMessageHandler*)(this_ptr_ptr);
FREE((void*)this_ptr);
uint32_t __attribute__((export_name("TS_IgnoringMessageHandler_new"))) TS_IgnoringMessageHandler_new() {
LDKIgnoringMessageHandler ret_var = IgnoringMessageHandler_new();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKMessageSendEventsProvider* ret_ret = MALLOC(sizeof(LDKMessageSendEventsProvider), "LDKMessageSendEventsProvider");
*ret_ret = IgnoringMessageHandler_as_MessageSendEventsProvider(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_IgnoringMessageHandler_as_RoutingMessageHandler"))) TS_IgnoringMessageHandler_as_RoutingMessageHandler(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKRoutingMessageHandler* ret_ret = MALLOC(sizeof(LDKRoutingMessageHandler), "LDKRoutingMessageHandler");
*ret_ret = IgnoringMessageHandler_as_RoutingMessageHandler(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_IgnoringMessageHandler_as_CustomMessageReader"))) TS_IgnoringMessageHandler_as_CustomMessageReader(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCustomMessageReader* ret_ret = MALLOC(sizeof(LDKCustomMessageReader), "LDKCustomMessageReader");
*ret_ret = IgnoringMessageHandler_as_CustomMessageReader(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_IgnoringMessageHandler_as_CustomMessageHandler"))) TS_IgnoringMessageHandler_as_CustomMessageHandler(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCustomMessageHandler* ret_ret = MALLOC(sizeof(LDKCustomMessageHandler), "LDKCustomMessageHandler");
*ret_ret = IgnoringMessageHandler_as_CustomMessageHandler(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_ErroringMessageHandler_free"))) TS_ErroringMessageHandler_free(uint32_t this_obj) {
uint32_t __attribute__((export_name("TS_ErroringMessageHandler_new"))) TS_ErroringMessageHandler_new() {
LDKErroringMessageHandler ret_var = ErroringMessageHandler_new();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKMessageSendEventsProvider* ret_ret = MALLOC(sizeof(LDKMessageSendEventsProvider), "LDKMessageSendEventsProvider");
*ret_ret = ErroringMessageHandler_as_MessageSendEventsProvider(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_ErroringMessageHandler_as_ChannelMessageHandler"))) TS_ErroringMessageHandler_as_ChannelMessageHandler(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKChannelMessageHandler* ret_ret = MALLOC(sizeof(LDKChannelMessageHandler), "LDKChannelMessageHandler");
*ret_ret = ErroringMessageHandler_as_ChannelMessageHandler(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_MessageHandler_free"))) TS_MessageHandler_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)MessageHandler_get_chan_handler(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)MessageHandler_get_chan_handler(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKChannelMessageHandler val_conv = *(LDKChannelMessageHandler*)(val_ptr);
MessageHandler_set_chan_handler(&this_ptr_conv, val_conv);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
// WARNING: This object doesn't live past this scope, needs clone!
- uint64_t ret_ret = ((uint64_t)MessageHandler_get_route_handler(&this_ptr_conv)) | 1;
+ uintptr_t ret_ret = ((uintptr_t)MessageHandler_get_route_handler(&this_ptr_conv)) | 1;
return ret_ret;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKRoutingMessageHandler val_conv = *(LDKRoutingMessageHandler*)(val_ptr);
MessageHandler_set_route_handler(&this_ptr_conv, val_conv);
}
uint32_t __attribute__((export_name("TS_MessageHandler_new"))) TS_MessageHandler_new(uint32_t chan_handler_arg, uint32_t route_handler_arg) {
- void* chan_handler_arg_ptr = (void*)(((uint64_t)chan_handler_arg) & ~1);
+ void* chan_handler_arg_ptr = (void*)(((uintptr_t)chan_handler_arg) & ~1);
CHECK_ACCESS(chan_handler_arg_ptr);
LDKChannelMessageHandler chan_handler_arg_conv = *(LDKChannelMessageHandler*)(chan_handler_arg_ptr);
- void* route_handler_arg_ptr = (void*)(((uint64_t)route_handler_arg) & ~1);
+ void* route_handler_arg_ptr = (void*)(((uintptr_t)route_handler_arg) & ~1);
CHECK_ACCESS(route_handler_arg_ptr);
LDKRoutingMessageHandler route_handler_arg_conv = *(LDKRoutingMessageHandler*)(route_handler_arg_ptr);
LDKMessageHandler ret_var = MessageHandler_new(chan_handler_arg_conv, route_handler_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t SocketDescriptor_clone_ptr(LDKSocketDescriptor *NONNULL_PTR arg) {
LDKSocketDescriptor* ret_ret = MALLOC(sizeof(LDKSocketDescriptor), "LDKSocketDescriptor");
*ret_ret = SocketDescriptor_clone(arg);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
-int64_t __attribute__((export_name("TS_SocketDescriptor_clone_ptr"))) TS_SocketDescriptor_clone_ptr(uint32_t arg) {
- void* arg_ptr = (void*)(((uint64_t)arg) & ~1);
+intptr_t __attribute__((export_name("TS_SocketDescriptor_clone_ptr"))) TS_SocketDescriptor_clone_ptr(uint32_t arg) {
+ void* arg_ptr = (void*)(((uintptr_t)arg) & ~1);
if (!(arg & 1)) { CHECK_ACCESS(arg_ptr); }
LDKSocketDescriptor* arg_conv = (LDKSocketDescriptor*)arg_ptr;
- int64_t ret_val = SocketDescriptor_clone_ptr(arg_conv);
+ intptr_t ret_val = SocketDescriptor_clone_ptr(arg_conv);
return ret_val;
}
uint32_t __attribute__((export_name("TS_SocketDescriptor_clone"))) TS_SocketDescriptor_clone(uint32_t orig) {
- void* orig_ptr = (void*)(((uint64_t)orig) & ~1);
+ void* orig_ptr = (void*)(((uintptr_t)orig) & ~1);
if (!(orig & 1)) { CHECK_ACCESS(orig_ptr); }
LDKSocketDescriptor* orig_conv = (LDKSocketDescriptor*)orig_ptr;
LDKSocketDescriptor* ret_ret = MALLOC(sizeof(LDKSocketDescriptor), "LDKSocketDescriptor");
*ret_ret = SocketDescriptor_clone(orig_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_SocketDescriptor_free"))) TS_SocketDescriptor_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKSocketDescriptor this_ptr_conv = *(LDKSocketDescriptor*)(this_ptr_ptr);
FREE((void*)this_ptr);
uint32_t __attribute__((export_name("TS_PeerHandleError_new"))) TS_PeerHandleError_new(jboolean no_connection_possible_arg) {
LDKPeerHandleError ret_var = PeerHandleError_new(no_connection_possible_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t PeerHandleError_clone_ptr(LDKPeerHandleError *NONNULL_PTR arg) {
LDKPeerHandleError ret_var = PeerHandleError_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_PeerHandleError_clone_ptr"))) TS_PeerHandleError_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_PeerHandleError_clone_ptr"))) TS_PeerHandleError_clone_ptr(uint32_t arg) {
LDKPeerHandleError arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = PeerHandleError_clone_ptr(&arg_conv);
+ intptr_t ret_val = PeerHandleError_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKPeerHandleError ret_var = PeerHandleError_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
// Warning: we need a move here but no clone is available for LDKMessageHandler
LDKSecretKey our_node_secret_ref;
CHECK(our_node_secret->arr_len == 32);
- memcpy(our_node_secret_ref.bytes, our_node_secret->elems, 32);
+ memcpy(our_node_secret_ref.bytes, our_node_secret->elems, 32); FREE(our_node_secret);
unsigned char ephemeral_random_data_arr[32];
CHECK(ephemeral_random_data->arr_len == 32);
- memcpy(ephemeral_random_data_arr, ephemeral_random_data->elems, 32);
+ memcpy(ephemeral_random_data_arr, ephemeral_random_data->elems, 32); FREE(ephemeral_random_data);
unsigned char (*ephemeral_random_data_ref)[32] = &ephemeral_random_data_arr;
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
- void* custom_message_handler_ptr = (void*)(((uint64_t)custom_message_handler) & ~1);
+ void* custom_message_handler_ptr = (void*)(((uintptr_t)custom_message_handler) & ~1);
CHECK_ACCESS(custom_message_handler_ptr);
LDKCustomMessageHandler custom_message_handler_conv = *(LDKCustomMessageHandler*)(custom_message_handler_ptr);
LDKPeerManager ret_var = PeerManager_new(message_handler_conv, our_node_secret_ref, ephemeral_random_data_ref, logger_conv, custom_message_handler_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKCVec_PublicKeyZ ret_var = PeerManager_get_peer_node_ids(&this_arg_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
int8_tArray *ret_arr_ptr = (int8_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
- int8_tArray ret_conv_12_arr = init_int8_tArray(33);
+ int8_tArray ret_conv_12_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_conv_12_arr->elems, ret_var.data[m].compressed_form, 33);
ret_arr_ptr[m] = ret_conv_12_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKPublicKey their_node_id_ref;
CHECK(their_node_id->arr_len == 33);
- memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33);
- void* descriptor_ptr = (void*)(((uint64_t)descriptor) & ~1);
+ memcpy(their_node_id_ref.compressed_form, their_node_id->elems, 33); FREE(their_node_id);
+ void* descriptor_ptr = (void*)(((uintptr_t)descriptor) & ~1);
CHECK_ACCESS(descriptor_ptr);
LDKSocketDescriptor descriptor_conv = *(LDKSocketDescriptor*)(descriptor_ptr);
LDKCResult_CVec_u8ZPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_u8ZPeerHandleErrorZ), "LDKCResult_CVec_u8ZPeerHandleErrorZ");
*ret_conv = PeerManager_new_outbound_connection(&this_arg_conv, their_node_id_ref, descriptor_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_PeerManager_new_inbound_connection"))) TS_PeerManager_new_inbound_connection(uint32_t this_arg, uint32_t descriptor) {
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* descriptor_ptr = (void*)(((uint64_t)descriptor) & ~1);
+ void* descriptor_ptr = (void*)(((uintptr_t)descriptor) & ~1);
CHECK_ACCESS(descriptor_ptr);
LDKSocketDescriptor descriptor_conv = *(LDKSocketDescriptor*)(descriptor_ptr);
LDKCResult_NonePeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePeerHandleErrorZ), "LDKCResult_NonePeerHandleErrorZ");
*ret_conv = PeerManager_new_inbound_connection(&this_arg_conv, descriptor_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_PeerManager_write_buffer_space_avail"))) TS_PeerManager_write_buffer_space_avail(uint32_t this_arg, uint32_t descriptor) {
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* descriptor_ptr = (void*)(((uint64_t)descriptor) & ~1);
+ void* descriptor_ptr = (void*)(((uintptr_t)descriptor) & ~1);
if (!(descriptor & 1)) { CHECK_ACCESS(descriptor_ptr); }
LDKSocketDescriptor* descriptor_conv = (LDKSocketDescriptor*)descriptor_ptr;
LDKCResult_NonePeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NonePeerHandleErrorZ), "LDKCResult_NonePeerHandleErrorZ");
*ret_conv = PeerManager_write_buffer_space_avail(&this_arg_conv, descriptor_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_PeerManager_read_event"))) TS_PeerManager_read_event(uint32_t this_arg, uint32_t peer_descriptor, int8_tArray data) {
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* peer_descriptor_ptr = (void*)(((uint64_t)peer_descriptor) & ~1);
+ void* peer_descriptor_ptr = (void*)(((uintptr_t)peer_descriptor) & ~1);
if (!(peer_descriptor & 1)) { CHECK_ACCESS(peer_descriptor_ptr); }
LDKSocketDescriptor* peer_descriptor_conv = (LDKSocketDescriptor*)peer_descriptor_ptr;
LDKu8slice data_ref;
data_ref.datalen = data->arr_len;
- data_ref.data = data->elems;
+ data_ref.data = data->elems /* XXX data leaks */;
LDKCResult_boolPeerHandleErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_boolPeerHandleErrorZ), "LDKCResult_boolPeerHandleErrorZ");
*ret_conv = PeerManager_read_event(&this_arg_conv, peer_descriptor_conv, data_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_PeerManager_process_events"))) TS_PeerManager_process_events(uint32_t this_arg) {
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* descriptor_ptr = (void*)(((uint64_t)descriptor) & ~1);
+ void* descriptor_ptr = (void*)(((uintptr_t)descriptor) & ~1);
if (!(descriptor & 1)) { CHECK_ACCESS(descriptor_ptr); }
LDKSocketDescriptor* descriptor_conv = (LDKSocketDescriptor*)descriptor_ptr;
PeerManager_socket_disconnected(&this_arg_conv, descriptor_conv);
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
PeerManager_disconnect_by_node_id(&this_arg_conv, node_id_ref, no_connection_possible);
}
int8_tArray __attribute__((export_name("TS_build_commitment_secret"))) TS_build_commitment_secret(int8_tArray commitment_seed, int64_t idx) {
unsigned char commitment_seed_arr[32];
CHECK(commitment_seed->arr_len == 32);
- memcpy(commitment_seed_arr, commitment_seed->elems, 32);
+ memcpy(commitment_seed_arr, commitment_seed->elems, 32); FREE(commitment_seed);
unsigned char (*commitment_seed_ref)[32] = &commitment_seed_arr;
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, build_commitment_secret(commitment_seed_ref, idx).data, 32);
return ret_arr;
}
LDKCVec_u8Z to_holder_script_ref;
to_holder_script_ref.datalen = to_holder_script->arr_len;
to_holder_script_ref.data = MALLOC(to_holder_script_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(to_holder_script_ref.data, to_holder_script->elems, to_holder_script_ref.datalen);
+ memcpy(to_holder_script_ref.data, to_holder_script->elems, to_holder_script_ref.datalen); FREE(to_holder_script);
LDKCVec_u8Z to_counterparty_script_ref;
to_counterparty_script_ref.datalen = to_counterparty_script->arr_len;
to_counterparty_script_ref.data = MALLOC(to_counterparty_script_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(to_counterparty_script_ref.data, to_counterparty_script->elems, to_counterparty_script_ref.datalen);
+ memcpy(to_counterparty_script_ref.data, to_counterparty_script->elems, to_counterparty_script_ref.datalen); FREE(to_counterparty_script);
LDKOutPoint funding_outpoint_conv;
funding_outpoint_conv.inner = (void*)(funding_outpoint & (~1));
funding_outpoint_conv.is_owned = (funding_outpoint & 1) || (funding_outpoint == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(funding_outpoint_conv);
funding_outpoint_conv = OutPoint_clone(&funding_outpoint_conv);
LDKTransaction ret_var = build_closing_transaction(to_holder_value_sat, to_counterparty_value_sat, to_holder_script_ref, to_counterparty_script_ref, funding_outpoint_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
Transaction_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_derive_private_key"))) TS_derive_private_key(int8_tArray per_commitment_point, int8_tArray base_secret) {
LDKPublicKey per_commitment_point_ref;
CHECK(per_commitment_point->arr_len == 33);
- memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33);
+ memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33); FREE(per_commitment_point);
unsigned char base_secret_arr[32];
CHECK(base_secret->arr_len == 32);
- memcpy(base_secret_arr, base_secret->elems, 32);
+ memcpy(base_secret_arr, base_secret->elems, 32); FREE(base_secret);
unsigned char (*base_secret_ref)[32] = &base_secret_arr;
LDKCResult_SecretKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SecretKeyErrorZ), "LDKCResult_SecretKeyErrorZ");
*ret_conv = derive_private_key(per_commitment_point_ref, base_secret_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_derive_public_key"))) TS_derive_public_key(int8_tArray per_commitment_point, int8_tArray base_point) {
LDKPublicKey per_commitment_point_ref;
CHECK(per_commitment_point->arr_len == 33);
- memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33);
+ memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33); FREE(per_commitment_point);
LDKPublicKey base_point_ref;
CHECK(base_point->arr_len == 33);
- memcpy(base_point_ref.compressed_form, base_point->elems, 33);
+ memcpy(base_point_ref.compressed_form, base_point->elems, 33); FREE(base_point);
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = derive_public_key(per_commitment_point_ref, base_point_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_derive_private_revocation_key"))) TS_derive_private_revocation_key(int8_tArray per_commitment_secret, int8_tArray countersignatory_revocation_base_secret) {
unsigned char per_commitment_secret_arr[32];
CHECK(per_commitment_secret->arr_len == 32);
- memcpy(per_commitment_secret_arr, per_commitment_secret->elems, 32);
+ memcpy(per_commitment_secret_arr, per_commitment_secret->elems, 32); FREE(per_commitment_secret);
unsigned char (*per_commitment_secret_ref)[32] = &per_commitment_secret_arr;
unsigned char countersignatory_revocation_base_secret_arr[32];
CHECK(countersignatory_revocation_base_secret->arr_len == 32);
- memcpy(countersignatory_revocation_base_secret_arr, countersignatory_revocation_base_secret->elems, 32);
+ memcpy(countersignatory_revocation_base_secret_arr, countersignatory_revocation_base_secret->elems, 32); FREE(countersignatory_revocation_base_secret);
unsigned char (*countersignatory_revocation_base_secret_ref)[32] = &countersignatory_revocation_base_secret_arr;
LDKCResult_SecretKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_SecretKeyErrorZ), "LDKCResult_SecretKeyErrorZ");
*ret_conv = derive_private_revocation_key(per_commitment_secret_ref, countersignatory_revocation_base_secret_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_derive_public_revocation_key"))) TS_derive_public_revocation_key(int8_tArray per_commitment_point, int8_tArray countersignatory_revocation_base_point) {
LDKPublicKey per_commitment_point_ref;
CHECK(per_commitment_point->arr_len == 33);
- memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33);
+ memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33); FREE(per_commitment_point);
LDKPublicKey countersignatory_revocation_base_point_ref;
CHECK(countersignatory_revocation_base_point->arr_len == 33);
- memcpy(countersignatory_revocation_base_point_ref.compressed_form, countersignatory_revocation_base_point->elems, 33);
+ memcpy(countersignatory_revocation_base_point_ref.compressed_form, countersignatory_revocation_base_point->elems, 33); FREE(countersignatory_revocation_base_point);
LDKCResult_PublicKeyErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PublicKeyErrorZ), "LDKCResult_PublicKeyErrorZ");
*ret_conv = derive_public_revocation_key(per_commitment_point_ref, countersignatory_revocation_base_point_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_TxCreationKeys_free"))) TS_TxCreationKeys_free(uint32_t this_obj) {
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, TxCreationKeys_get_per_commitment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
TxCreationKeys_set_per_commitment_point(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, TxCreationKeys_get_revocation_key(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
TxCreationKeys_set_revocation_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, TxCreationKeys_get_broadcaster_htlc_key(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
TxCreationKeys_set_broadcaster_htlc_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, TxCreationKeys_get_countersignatory_htlc_key(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
TxCreationKeys_set_countersignatory_htlc_key(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, TxCreationKeys_get_broadcaster_delayed_payment_key(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
TxCreationKeys_set_broadcaster_delayed_payment_key(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_TxCreationKeys_new"))) TS_TxCreationKeys_new(int8_tArray per_commitment_point_arg, int8_tArray revocation_key_arg, int8_tArray broadcaster_htlc_key_arg, int8_tArray countersignatory_htlc_key_arg, int8_tArray broadcaster_delayed_payment_key_arg) {
LDKPublicKey per_commitment_point_arg_ref;
CHECK(per_commitment_point_arg->arr_len == 33);
- memcpy(per_commitment_point_arg_ref.compressed_form, per_commitment_point_arg->elems, 33);
+ memcpy(per_commitment_point_arg_ref.compressed_form, per_commitment_point_arg->elems, 33); FREE(per_commitment_point_arg);
LDKPublicKey revocation_key_arg_ref;
CHECK(revocation_key_arg->arr_len == 33);
- memcpy(revocation_key_arg_ref.compressed_form, revocation_key_arg->elems, 33);
+ memcpy(revocation_key_arg_ref.compressed_form, revocation_key_arg->elems, 33); FREE(revocation_key_arg);
LDKPublicKey broadcaster_htlc_key_arg_ref;
CHECK(broadcaster_htlc_key_arg->arr_len == 33);
- memcpy(broadcaster_htlc_key_arg_ref.compressed_form, broadcaster_htlc_key_arg->elems, 33);
+ memcpy(broadcaster_htlc_key_arg_ref.compressed_form, broadcaster_htlc_key_arg->elems, 33); FREE(broadcaster_htlc_key_arg);
LDKPublicKey countersignatory_htlc_key_arg_ref;
CHECK(countersignatory_htlc_key_arg->arr_len == 33);
- memcpy(countersignatory_htlc_key_arg_ref.compressed_form, countersignatory_htlc_key_arg->elems, 33);
+ memcpy(countersignatory_htlc_key_arg_ref.compressed_form, countersignatory_htlc_key_arg->elems, 33); FREE(countersignatory_htlc_key_arg);
LDKPublicKey broadcaster_delayed_payment_key_arg_ref;
CHECK(broadcaster_delayed_payment_key_arg->arr_len == 33);
- memcpy(broadcaster_delayed_payment_key_arg_ref.compressed_form, broadcaster_delayed_payment_key_arg->elems, 33);
+ memcpy(broadcaster_delayed_payment_key_arg_ref.compressed_form, broadcaster_delayed_payment_key_arg->elems, 33); FREE(broadcaster_delayed_payment_key_arg);
LDKTxCreationKeys ret_var = TxCreationKeys_new(per_commitment_point_arg_ref, revocation_key_arg_ref, broadcaster_htlc_key_arg_ref, countersignatory_htlc_key_arg_ref, broadcaster_delayed_payment_key_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t TxCreationKeys_clone_ptr(LDKTxCreationKeys *NONNULL_PTR arg) {
LDKTxCreationKeys ret_var = TxCreationKeys_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_TxCreationKeys_clone_ptr"))) TS_TxCreationKeys_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_TxCreationKeys_clone_ptr"))) TS_TxCreationKeys_clone_ptr(uint32_t arg) {
LDKTxCreationKeys arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = TxCreationKeys_clone_ptr(&arg_conv);
+ intptr_t ret_val = TxCreationKeys_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKTxCreationKeys ret_var = TxCreationKeys_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = TxCreationKeys_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_TxCreationKeys_read"))) TS_TxCreationKeys_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_TxCreationKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysDecodeErrorZ), "LDKCResult_TxCreationKeysDecodeErrorZ");
*ret_conv = TxCreationKeys_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_ChannelPublicKeys_free"))) TS_ChannelPublicKeys_free(uint32_t this_obj) {
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelPublicKeys_get_funding_pubkey(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
ChannelPublicKeys_set_funding_pubkey(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelPublicKeys_get_revocation_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
ChannelPublicKeys_set_revocation_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelPublicKeys_get_payment_point(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
ChannelPublicKeys_set_payment_point(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelPublicKeys_get_delayed_payment_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
ChannelPublicKeys_set_delayed_payment_basepoint(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ChannelPublicKeys_get_htlc_basepoint(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
ChannelPublicKeys_set_htlc_basepoint(&this_ptr_conv, val_ref);
}
uint32_t __attribute__((export_name("TS_ChannelPublicKeys_new"))) TS_ChannelPublicKeys_new(int8_tArray funding_pubkey_arg, int8_tArray revocation_basepoint_arg, int8_tArray payment_point_arg, int8_tArray delayed_payment_basepoint_arg, int8_tArray htlc_basepoint_arg) {
LDKPublicKey funding_pubkey_arg_ref;
CHECK(funding_pubkey_arg->arr_len == 33);
- memcpy(funding_pubkey_arg_ref.compressed_form, funding_pubkey_arg->elems, 33);
+ memcpy(funding_pubkey_arg_ref.compressed_form, funding_pubkey_arg->elems, 33); FREE(funding_pubkey_arg);
LDKPublicKey revocation_basepoint_arg_ref;
CHECK(revocation_basepoint_arg->arr_len == 33);
- memcpy(revocation_basepoint_arg_ref.compressed_form, revocation_basepoint_arg->elems, 33);
+ memcpy(revocation_basepoint_arg_ref.compressed_form, revocation_basepoint_arg->elems, 33); FREE(revocation_basepoint_arg);
LDKPublicKey payment_point_arg_ref;
CHECK(payment_point_arg->arr_len == 33);
- memcpy(payment_point_arg_ref.compressed_form, payment_point_arg->elems, 33);
+ memcpy(payment_point_arg_ref.compressed_form, payment_point_arg->elems, 33); FREE(payment_point_arg);
LDKPublicKey delayed_payment_basepoint_arg_ref;
CHECK(delayed_payment_basepoint_arg->arr_len == 33);
- memcpy(delayed_payment_basepoint_arg_ref.compressed_form, delayed_payment_basepoint_arg->elems, 33);
+ memcpy(delayed_payment_basepoint_arg_ref.compressed_form, delayed_payment_basepoint_arg->elems, 33); FREE(delayed_payment_basepoint_arg);
LDKPublicKey htlc_basepoint_arg_ref;
CHECK(htlc_basepoint_arg->arr_len == 33);
- memcpy(htlc_basepoint_arg_ref.compressed_form, htlc_basepoint_arg->elems, 33);
+ memcpy(htlc_basepoint_arg_ref.compressed_form, htlc_basepoint_arg->elems, 33); FREE(htlc_basepoint_arg);
LDKChannelPublicKeys ret_var = ChannelPublicKeys_new(funding_pubkey_arg_ref, revocation_basepoint_arg_ref, payment_point_arg_ref, delayed_payment_basepoint_arg_ref, htlc_basepoint_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelPublicKeys_clone_ptr(LDKChannelPublicKeys *NONNULL_PTR arg) {
LDKChannelPublicKeys ret_var = ChannelPublicKeys_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelPublicKeys_clone_ptr"))) TS_ChannelPublicKeys_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelPublicKeys_clone_ptr"))) TS_ChannelPublicKeys_clone_ptr(uint32_t arg) {
LDKChannelPublicKeys arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelPublicKeys_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelPublicKeys_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelPublicKeys ret_var = ChannelPublicKeys_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelPublicKeys_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelPublicKeys_read"))) TS_ChannelPublicKeys_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelPublicKeysDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelPublicKeysDecodeErrorZ), "LDKCResult_ChannelPublicKeysDecodeErrorZ");
*ret_conv = ChannelPublicKeys_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_TxCreationKeys_derive_new"))) TS_TxCreationKeys_derive_new(int8_tArray per_commitment_point, int8_tArray broadcaster_delayed_payment_base, int8_tArray broadcaster_htlc_base, int8_tArray countersignatory_revocation_base, int8_tArray countersignatory_htlc_base) {
LDKPublicKey per_commitment_point_ref;
CHECK(per_commitment_point->arr_len == 33);
- memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33);
+ memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33); FREE(per_commitment_point);
LDKPublicKey broadcaster_delayed_payment_base_ref;
CHECK(broadcaster_delayed_payment_base->arr_len == 33);
- memcpy(broadcaster_delayed_payment_base_ref.compressed_form, broadcaster_delayed_payment_base->elems, 33);
+ memcpy(broadcaster_delayed_payment_base_ref.compressed_form, broadcaster_delayed_payment_base->elems, 33); FREE(broadcaster_delayed_payment_base);
LDKPublicKey broadcaster_htlc_base_ref;
CHECK(broadcaster_htlc_base->arr_len == 33);
- memcpy(broadcaster_htlc_base_ref.compressed_form, broadcaster_htlc_base->elems, 33);
+ memcpy(broadcaster_htlc_base_ref.compressed_form, broadcaster_htlc_base->elems, 33); FREE(broadcaster_htlc_base);
LDKPublicKey countersignatory_revocation_base_ref;
CHECK(countersignatory_revocation_base->arr_len == 33);
- memcpy(countersignatory_revocation_base_ref.compressed_form, countersignatory_revocation_base->elems, 33);
+ memcpy(countersignatory_revocation_base_ref.compressed_form, countersignatory_revocation_base->elems, 33); FREE(countersignatory_revocation_base);
LDKPublicKey countersignatory_htlc_base_ref;
CHECK(countersignatory_htlc_base->arr_len == 33);
- memcpy(countersignatory_htlc_base_ref.compressed_form, countersignatory_htlc_base->elems, 33);
+ memcpy(countersignatory_htlc_base_ref.compressed_form, countersignatory_htlc_base->elems, 33); FREE(countersignatory_htlc_base);
LDKCResult_TxCreationKeysErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysErrorZ), "LDKCResult_TxCreationKeysErrorZ");
*ret_conv = TxCreationKeys_derive_new(per_commitment_point_ref, broadcaster_delayed_payment_base_ref, broadcaster_htlc_base_ref, countersignatory_revocation_base_ref, countersignatory_htlc_base_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_TxCreationKeys_from_channel_static_keys"))) TS_TxCreationKeys_from_channel_static_keys(int8_tArray per_commitment_point, uint32_t broadcaster_keys, uint32_t countersignatory_keys) {
LDKPublicKey per_commitment_point_ref;
CHECK(per_commitment_point->arr_len == 33);
- memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33);
+ memcpy(per_commitment_point_ref.compressed_form, per_commitment_point->elems, 33); FREE(per_commitment_point);
LDKChannelPublicKeys broadcaster_keys_conv;
broadcaster_keys_conv.inner = (void*)(broadcaster_keys & (~1));
broadcaster_keys_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(countersignatory_keys_conv);
LDKCResult_TxCreationKeysErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_TxCreationKeysErrorZ), "LDKCResult_TxCreationKeysErrorZ");
*ret_conv = TxCreationKeys_from_channel_static_keys(per_commitment_point_ref, &broadcaster_keys_conv, &countersignatory_keys_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_get_revokeable_redeemscript"))) TS_get_revokeable_redeemscript(int8_tArray revocation_key, int16_t contest_delay, int8_tArray broadcaster_delayed_payment_key) {
LDKPublicKey revocation_key_ref;
CHECK(revocation_key->arr_len == 33);
- memcpy(revocation_key_ref.compressed_form, revocation_key->elems, 33);
+ memcpy(revocation_key_ref.compressed_form, revocation_key->elems, 33); FREE(revocation_key);
LDKPublicKey broadcaster_delayed_payment_key_ref;
CHECK(broadcaster_delayed_payment_key->arr_len == 33);
- memcpy(broadcaster_delayed_payment_key_ref.compressed_form, broadcaster_delayed_payment_key->elems, 33);
+ memcpy(broadcaster_delayed_payment_key_ref.compressed_form, broadcaster_delayed_payment_key->elems, 33); FREE(broadcaster_delayed_payment_key);
LDKCVec_u8Z ret_var = get_revokeable_redeemscript(revocation_key_ref, contest_delay, broadcaster_delayed_payment_key_ref);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *HTLCOutputInCommitment_get_payment_hash(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
HTLCOutputInCommitment_set_payment_hash(&this_ptr_conv, val_ref);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u32Z *ret_copy = MALLOC(sizeof(LDKCOption_u32Z), "LDKCOption_u32Z");
*ret_copy = HTLCOutputInCommitment_get_transaction_output_index(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u32Z val_conv = *(LDKCOption_u32Z*)(val_ptr);
- val_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uintptr_t)val) & ~1));
HTLCOutputInCommitment_set_transaction_output_index(&this_ptr_conv, val_conv);
}
uint32_t __attribute__((export_name("TS_HTLCOutputInCommitment_new"))) TS_HTLCOutputInCommitment_new(jboolean offered_arg, int64_t amount_msat_arg, int32_t cltv_expiry_arg, int8_tArray payment_hash_arg, uint32_t transaction_output_index_arg) {
LDKThirtyTwoBytes payment_hash_arg_ref;
CHECK(payment_hash_arg->arr_len == 32);
- memcpy(payment_hash_arg_ref.data, payment_hash_arg->elems, 32);
- void* transaction_output_index_arg_ptr = (void*)(((uint64_t)transaction_output_index_arg) & ~1);
+ memcpy(payment_hash_arg_ref.data, payment_hash_arg->elems, 32); FREE(payment_hash_arg);
+ void* transaction_output_index_arg_ptr = (void*)(((uintptr_t)transaction_output_index_arg) & ~1);
CHECK_ACCESS(transaction_output_index_arg_ptr);
LDKCOption_u32Z transaction_output_index_arg_conv = *(LDKCOption_u32Z*)(transaction_output_index_arg_ptr);
- transaction_output_index_arg_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uint64_t)transaction_output_index_arg) & ~1));
+ transaction_output_index_arg_conv = COption_u32Z_clone((LDKCOption_u32Z*)(((uintptr_t)transaction_output_index_arg) & ~1));
LDKHTLCOutputInCommitment ret_var = HTLCOutputInCommitment_new(offered_arg, amount_msat_arg, cltv_expiry_arg, payment_hash_arg_ref, transaction_output_index_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t HTLCOutputInCommitment_clone_ptr(LDKHTLCOutputInCommitment *NONNULL_PTR arg) {
LDKHTLCOutputInCommitment ret_var = HTLCOutputInCommitment_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_HTLCOutputInCommitment_clone_ptr"))) TS_HTLCOutputInCommitment_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_HTLCOutputInCommitment_clone_ptr"))) TS_HTLCOutputInCommitment_clone_ptr(uint32_t arg) {
LDKHTLCOutputInCommitment arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = HTLCOutputInCommitment_clone_ptr(&arg_conv);
+ intptr_t ret_val = HTLCOutputInCommitment_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKHTLCOutputInCommitment ret_var = HTLCOutputInCommitment_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = HTLCOutputInCommitment_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_HTLCOutputInCommitment_read"))) TS_HTLCOutputInCommitment_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_HTLCOutputInCommitmentDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HTLCOutputInCommitmentDecodeErrorZ), "LDKCResult_HTLCOutputInCommitmentDecodeErrorZ");
*ret_conv = HTLCOutputInCommitment_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_get_htlc_redeemscript"))) TS_get_htlc_redeemscript(uint32_t htlc, jboolean opt_anchors, uint32_t keys) {
keys_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(keys_conv);
LDKCVec_u8Z ret_var = get_htlc_redeemscript(&htlc_conv, opt_anchors, &keys_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
int8_tArray __attribute__((export_name("TS_make_funding_redeemscript"))) TS_make_funding_redeemscript(int8_tArray broadcaster, int8_tArray countersignatory) {
LDKPublicKey broadcaster_ref;
CHECK(broadcaster->arr_len == 33);
- memcpy(broadcaster_ref.compressed_form, broadcaster->elems, 33);
+ memcpy(broadcaster_ref.compressed_form, broadcaster->elems, 33); FREE(broadcaster);
LDKPublicKey countersignatory_ref;
CHECK(countersignatory->arr_len == 33);
- memcpy(countersignatory_ref.compressed_form, countersignatory->elems, 33);
+ memcpy(countersignatory_ref.compressed_form, countersignatory->elems, 33); FREE(countersignatory);
LDKCVec_u8Z ret_var = make_funding_redeemscript(broadcaster_ref, countersignatory_ref);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
int8_tArray __attribute__((export_name("TS_build_htlc_transaction"))) TS_build_htlc_transaction(int8_tArray commitment_txid, int32_t feerate_per_kw, int16_t contest_delay, uint32_t htlc, jboolean opt_anchors, int8_tArray broadcaster_delayed_payment_key, int8_tArray revocation_key) {
unsigned char commitment_txid_arr[32];
CHECK(commitment_txid->arr_len == 32);
- memcpy(commitment_txid_arr, commitment_txid->elems, 32);
+ memcpy(commitment_txid_arr, commitment_txid->elems, 32); FREE(commitment_txid);
unsigned char (*commitment_txid_ref)[32] = &commitment_txid_arr;
LDKHTLCOutputInCommitment htlc_conv;
htlc_conv.inner = (void*)(htlc & (~1));
CHECK_INNER_FIELD_ACCESS_OR_NULL(htlc_conv);
LDKPublicKey broadcaster_delayed_payment_key_ref;
CHECK(broadcaster_delayed_payment_key->arr_len == 33);
- memcpy(broadcaster_delayed_payment_key_ref.compressed_form, broadcaster_delayed_payment_key->elems, 33);
+ memcpy(broadcaster_delayed_payment_key_ref.compressed_form, broadcaster_delayed_payment_key->elems, 33); FREE(broadcaster_delayed_payment_key);
LDKPublicKey revocation_key_ref;
CHECK(revocation_key->arr_len == 33);
- memcpy(revocation_key_ref.compressed_form, revocation_key->elems, 33);
+ memcpy(revocation_key_ref.compressed_form, revocation_key->elems, 33); FREE(revocation_key);
LDKTransaction ret_var = build_htlc_transaction(commitment_txid_ref, feerate_per_kw, contest_delay, &htlc_conv, opt_anchors, broadcaster_delayed_payment_key_ref, revocation_key_ref);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
Transaction_free(ret_var);
return ret_arr;
int8_tArray __attribute__((export_name("TS_get_anchor_redeemscript"))) TS_get_anchor_redeemscript(int8_tArray funding_pubkey) {
LDKPublicKey funding_pubkey_ref;
CHECK(funding_pubkey->arr_len == 33);
- memcpy(funding_pubkey_ref.compressed_form, funding_pubkey->elems, 33);
+ memcpy(funding_pubkey_ref.compressed_form, funding_pubkey->elems, 33); FREE(funding_pubkey);
LDKCVec_u8Z ret_var = get_anchor_redeemscript(funding_pubkey_ref);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelPublicKeys ret_var = ChannelTransactionParameters_get_holder_pubkeys(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCounterpartyChannelTransactionParameters ret_var = ChannelTransactionParameters_get_counterparty_parameters(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKOutPoint ret_var = ChannelTransactionParameters_get_funding_outpoint(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
funding_outpoint_arg_conv = OutPoint_clone(&funding_outpoint_arg_conv);
LDKCOption_NoneZ opt_anchors_arg_conv = LDKCOption_NoneZ_from_js(opt_anchors_arg);
LDKChannelTransactionParameters ret_var = ChannelTransactionParameters_new(holder_pubkeys_arg_conv, holder_selected_contest_delay_arg, is_outbound_from_holder_arg, counterparty_parameters_arg_conv, funding_outpoint_arg_conv, opt_anchors_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelTransactionParameters_clone_ptr(LDKChannelTransactionParameters *NONNULL_PTR arg) {
LDKChannelTransactionParameters ret_var = ChannelTransactionParameters_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelTransactionParameters_clone_ptr"))) TS_ChannelTransactionParameters_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelTransactionParameters_clone_ptr"))) TS_ChannelTransactionParameters_clone_ptr(uint32_t arg) {
LDKChannelTransactionParameters arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelTransactionParameters_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelTransactionParameters_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelTransactionParameters ret_var = ChannelTransactionParameters_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelPublicKeys ret_var = CounterpartyChannelTransactionParameters_get_pubkeys(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(pubkeys_arg_conv);
pubkeys_arg_conv = ChannelPublicKeys_clone(&pubkeys_arg_conv);
LDKCounterpartyChannelTransactionParameters ret_var = CounterpartyChannelTransactionParameters_new(pubkeys_arg_conv, selected_contest_delay_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t CounterpartyChannelTransactionParameters_clone_ptr(LDKCounterpartyChannelTransactionParameters *NONNULL_PTR arg) {
LDKCounterpartyChannelTransactionParameters ret_var = CounterpartyChannelTransactionParameters_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_CounterpartyChannelTransactionParameters_clone_ptr"))) TS_CounterpartyChannelTransactionParameters_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CounterpartyChannelTransactionParameters_clone_ptr"))) TS_CounterpartyChannelTransactionParameters_clone_ptr(uint32_t arg) {
LDKCounterpartyChannelTransactionParameters arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = CounterpartyChannelTransactionParameters_clone_ptr(&arg_conv);
+ intptr_t ret_val = CounterpartyChannelTransactionParameters_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKCounterpartyChannelTransactionParameters ret_var = CounterpartyChannelTransactionParameters_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKDirectedChannelTransactionParameters ret_var = ChannelTransactionParameters_as_holder_broadcastable(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKDirectedChannelTransactionParameters ret_var = ChannelTransactionParameters_as_counterparty_broadcastable(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = CounterpartyChannelTransactionParameters_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_CounterpartyChannelTransactionParameters_read"))) TS_CounterpartyChannelTransactionParameters_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ), "LDKCResult_CounterpartyChannelTransactionParametersDecodeErrorZ");
*ret_conv = CounterpartyChannelTransactionParameters_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ChannelTransactionParameters_write"))) TS_ChannelTransactionParameters_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelTransactionParameters_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelTransactionParameters_read"))) TS_ChannelTransactionParameters_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelTransactionParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTransactionParametersDecodeErrorZ), "LDKCResult_ChannelTransactionParametersDecodeErrorZ");
*ret_conv = ChannelTransactionParameters_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_DirectedChannelTransactionParameters_free"))) TS_DirectedChannelTransactionParameters_free(uint32_t this_obj) {
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKChannelPublicKeys ret_var = DirectedChannelTransactionParameters_broadcaster_pubkeys(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKChannelPublicKeys ret_var = DirectedChannelTransactionParameters_countersignatory_pubkeys(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKOutPoint ret_var = DirectedChannelTransactionParameters_funding_outpoint(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(64);
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, HolderCommitmentTransaction_get_counterparty_sig(&this_ptr_conv).compact_form, 64);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKSignature val_ref;
CHECK(val->arr_len == 64);
- memcpy(val_ref.compact_form, val->elems, 64);
+ memcpy(val_ref.compact_form, val->elems, 64); FREE(val);
HolderCommitmentTransaction_set_counterparty_sig(&this_ptr_conv, val_ref);
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
val_constr.data = NULL;
- int8_tArray* val_vals = (void*) val->elems;
+ int8_tArray* val_vals = (void*) val->elems /* XXX val leaks */;
for (size_t m = 0; m < val_constr.datalen; m++) {
int8_tArray val_conv_12 = val_vals[m];
LDKSignature val_conv_12_ref;
CHECK(val_conv_12->arr_len == 64);
- memcpy(val_conv_12_ref.compact_form, val_conv_12->elems, 64);
+ memcpy(val_conv_12_ref.compact_form, val_conv_12->elems, 64); FREE(val_conv_12);
val_constr.data[m] = val_conv_12_ref;
}
HolderCommitmentTransaction_set_counterparty_htlc_sigs(&this_ptr_conv, val_constr);
static inline uintptr_t HolderCommitmentTransaction_clone_ptr(LDKHolderCommitmentTransaction *NONNULL_PTR arg) {
LDKHolderCommitmentTransaction ret_var = HolderCommitmentTransaction_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_HolderCommitmentTransaction_clone_ptr"))) TS_HolderCommitmentTransaction_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_HolderCommitmentTransaction_clone_ptr"))) TS_HolderCommitmentTransaction_clone_ptr(uint32_t arg) {
LDKHolderCommitmentTransaction arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = HolderCommitmentTransaction_clone_ptr(&arg_conv);
+ intptr_t ret_val = HolderCommitmentTransaction_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKHolderCommitmentTransaction ret_var = HolderCommitmentTransaction_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = HolderCommitmentTransaction_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_HolderCommitmentTransaction_read"))) TS_HolderCommitmentTransaction_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_HolderCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_HolderCommitmentTransactionDecodeErrorZ), "LDKCResult_HolderCommitmentTransactionDecodeErrorZ");
*ret_conv = HolderCommitmentTransaction_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_HolderCommitmentTransaction_new"))) TS_HolderCommitmentTransaction_new(uint32_t commitment_tx, int8_tArray counterparty_sig, ptrArray counterparty_htlc_sigs, int8_tArray holder_funding_key, int8_tArray counterparty_funding_key) {
commitment_tx_conv = CommitmentTransaction_clone(&commitment_tx_conv);
LDKSignature counterparty_sig_ref;
CHECK(counterparty_sig->arr_len == 64);
- memcpy(counterparty_sig_ref.compact_form, counterparty_sig->elems, 64);
+ memcpy(counterparty_sig_ref.compact_form, counterparty_sig->elems, 64); FREE(counterparty_sig);
LDKCVec_SignatureZ counterparty_htlc_sigs_constr;
counterparty_htlc_sigs_constr.datalen = counterparty_htlc_sigs->arr_len;
if (counterparty_htlc_sigs_constr.datalen > 0)
counterparty_htlc_sigs_constr.data = MALLOC(counterparty_htlc_sigs_constr.datalen * sizeof(LDKSignature), "LDKCVec_SignatureZ Elements");
else
counterparty_htlc_sigs_constr.data = NULL;
- int8_tArray* counterparty_htlc_sigs_vals = (void*) counterparty_htlc_sigs->elems;
+ int8_tArray* counterparty_htlc_sigs_vals = (void*) counterparty_htlc_sigs->elems /* XXX counterparty_htlc_sigs leaks */;
for (size_t m = 0; m < counterparty_htlc_sigs_constr.datalen; m++) {
int8_tArray counterparty_htlc_sigs_conv_12 = counterparty_htlc_sigs_vals[m];
LDKSignature counterparty_htlc_sigs_conv_12_ref;
CHECK(counterparty_htlc_sigs_conv_12->arr_len == 64);
- memcpy(counterparty_htlc_sigs_conv_12_ref.compact_form, counterparty_htlc_sigs_conv_12->elems, 64);
+ memcpy(counterparty_htlc_sigs_conv_12_ref.compact_form, counterparty_htlc_sigs_conv_12->elems, 64); FREE(counterparty_htlc_sigs_conv_12);
counterparty_htlc_sigs_constr.data[m] = counterparty_htlc_sigs_conv_12_ref;
}
LDKPublicKey holder_funding_key_ref;
CHECK(holder_funding_key->arr_len == 33);
- memcpy(holder_funding_key_ref.compressed_form, holder_funding_key->elems, 33);
+ memcpy(holder_funding_key_ref.compressed_form, holder_funding_key->elems, 33); FREE(holder_funding_key);
LDKPublicKey counterparty_funding_key_ref;
CHECK(counterparty_funding_key->arr_len == 33);
- memcpy(counterparty_funding_key_ref.compressed_form, counterparty_funding_key->elems, 33);
+ memcpy(counterparty_funding_key_ref.compressed_form, counterparty_funding_key->elems, 33); FREE(counterparty_funding_key);
LDKHolderCommitmentTransaction ret_var = HolderCommitmentTransaction_new(commitment_tx_conv, counterparty_sig_ref, counterparty_htlc_sigs_constr, holder_funding_key_ref, counterparty_funding_key_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKTransaction ret_var = BuiltCommitmentTransaction_get_transaction(&this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
Transaction_free(ret_var);
return ret_arr;
LDKTransaction val_ref;
val_ref.datalen = val->arr_len;
val_ref.data = MALLOC(val_ref.datalen, "LDKTransaction Bytes");
- memcpy(val_ref.data, val->elems, val_ref.datalen);
+ memcpy(val_ref.data, val->elems, val_ref.datalen); FREE(val);
val_ref.data_is_owned = true;
BuiltCommitmentTransaction_set_transaction(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *BuiltCommitmentTransaction_get_txid(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
BuiltCommitmentTransaction_set_txid(&this_ptr_conv, val_ref);
}
LDKTransaction transaction_arg_ref;
transaction_arg_ref.datalen = transaction_arg->arr_len;
transaction_arg_ref.data = MALLOC(transaction_arg_ref.datalen, "LDKTransaction Bytes");
- memcpy(transaction_arg_ref.data, transaction_arg->elems, transaction_arg_ref.datalen);
+ memcpy(transaction_arg_ref.data, transaction_arg->elems, transaction_arg_ref.datalen); FREE(transaction_arg);
transaction_arg_ref.data_is_owned = true;
LDKThirtyTwoBytes txid_arg_ref;
CHECK(txid_arg->arr_len == 32);
- memcpy(txid_arg_ref.data, txid_arg->elems, 32);
+ memcpy(txid_arg_ref.data, txid_arg->elems, 32); FREE(txid_arg);
LDKBuiltCommitmentTransaction ret_var = BuiltCommitmentTransaction_new(transaction_arg_ref, txid_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t BuiltCommitmentTransaction_clone_ptr(LDKBuiltCommitmentTransaction *NONNULL_PTR arg) {
LDKBuiltCommitmentTransaction ret_var = BuiltCommitmentTransaction_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_BuiltCommitmentTransaction_clone_ptr"))) TS_BuiltCommitmentTransaction_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_BuiltCommitmentTransaction_clone_ptr"))) TS_BuiltCommitmentTransaction_clone_ptr(uint32_t arg) {
LDKBuiltCommitmentTransaction arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = BuiltCommitmentTransaction_clone_ptr(&arg_conv);
+ intptr_t ret_val = BuiltCommitmentTransaction_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKBuiltCommitmentTransaction ret_var = BuiltCommitmentTransaction_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = BuiltCommitmentTransaction_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_BuiltCommitmentTransaction_read"))) TS_BuiltCommitmentTransaction_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_BuiltCommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_BuiltCommitmentTransactionDecodeErrorZ), "LDKCResult_BuiltCommitmentTransactionDecodeErrorZ");
*ret_conv = BuiltCommitmentTransaction_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_BuiltCommitmentTransaction_get_sighash_all"))) TS_BuiltCommitmentTransaction_get_sighash_all(uint32_t this_arg, int8_tArray funding_redeemscript, int64_t channel_value_satoshis) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKu8slice funding_redeemscript_ref;
funding_redeemscript_ref.datalen = funding_redeemscript->arr_len;
- funding_redeemscript_ref.data = funding_redeemscript->elems;
- int8_tArray ret_arr = init_int8_tArray(32);
+ funding_redeemscript_ref.data = funding_redeemscript->elems /* XXX funding_redeemscript leaks */;
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, BuiltCommitmentTransaction_get_sighash_all(&this_arg_conv, funding_redeemscript_ref, channel_value_satoshis).data, 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char funding_key_arr[32];
CHECK(funding_key->arr_len == 32);
- memcpy(funding_key_arr, funding_key->elems, 32);
+ memcpy(funding_key_arr, funding_key->elems, 32); FREE(funding_key);
unsigned char (*funding_key_ref)[32] = &funding_key_arr;
LDKu8slice funding_redeemscript_ref;
funding_redeemscript_ref.datalen = funding_redeemscript->arr_len;
- funding_redeemscript_ref.data = funding_redeemscript->elems;
- int8_tArray ret_arr = init_int8_tArray(64);
+ funding_redeemscript_ref.data = funding_redeemscript->elems /* XXX funding_redeemscript leaks */;
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, BuiltCommitmentTransaction_sign(&this_arg_conv, funding_key_ref, funding_redeemscript_ref, channel_value_satoshis).compact_form, 64);
return ret_arr;
}
static inline uintptr_t ClosingTransaction_clone_ptr(LDKClosingTransaction *NONNULL_PTR arg) {
LDKClosingTransaction ret_var = ClosingTransaction_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ClosingTransaction_clone_ptr"))) TS_ClosingTransaction_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ClosingTransaction_clone_ptr"))) TS_ClosingTransaction_clone_ptr(uint32_t arg) {
LDKClosingTransaction arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ClosingTransaction_clone_ptr(&arg_conv);
+ intptr_t ret_val = ClosingTransaction_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKClosingTransaction ret_var = ClosingTransaction_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
LDKCVec_u8Z to_holder_script_ref;
to_holder_script_ref.datalen = to_holder_script->arr_len;
to_holder_script_ref.data = MALLOC(to_holder_script_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(to_holder_script_ref.data, to_holder_script->elems, to_holder_script_ref.datalen);
+ memcpy(to_holder_script_ref.data, to_holder_script->elems, to_holder_script_ref.datalen); FREE(to_holder_script);
LDKCVec_u8Z to_counterparty_script_ref;
to_counterparty_script_ref.datalen = to_counterparty_script->arr_len;
to_counterparty_script_ref.data = MALLOC(to_counterparty_script_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(to_counterparty_script_ref.data, to_counterparty_script->elems, to_counterparty_script_ref.datalen);
+ memcpy(to_counterparty_script_ref.data, to_counterparty_script->elems, to_counterparty_script_ref.datalen); FREE(to_counterparty_script);
LDKOutPoint funding_outpoint_conv;
funding_outpoint_conv.inner = (void*)(funding_outpoint & (~1));
funding_outpoint_conv.is_owned = (funding_outpoint & 1) || (funding_outpoint == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(funding_outpoint_conv);
funding_outpoint_conv = OutPoint_clone(&funding_outpoint_conv);
LDKClosingTransaction ret_var = ClosingTransaction_new(to_holder_value_sat, to_counterparty_value_sat, to_holder_script_ref, to_counterparty_script_ref, funding_outpoint_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKTrustedClosingTransaction ret_var = ClosingTransaction_trust(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
funding_outpoint_conv = OutPoint_clone(&funding_outpoint_conv);
LDKCResult_TrustedClosingTransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TrustedClosingTransactionNoneZ), "LDKCResult_TrustedClosingTransactionNoneZ");
*ret_conv = ClosingTransaction_verify(&this_arg_conv, funding_outpoint_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int64_t __attribute__((export_name("TS_ClosingTransaction_to_holder_value_sat"))) TS_ClosingTransaction_to_holder_value_sat(uint32_t this_arg) {
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKu8slice ret_var = ClosingTransaction_to_holder_script(&this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKu8slice ret_var = ClosingTransaction_to_counterparty_script(&this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKTransaction ret_var = TrustedClosingTransaction_built_transaction(&this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
Transaction_free(ret_var);
return ret_arr;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKu8slice funding_redeemscript_ref;
funding_redeemscript_ref.datalen = funding_redeemscript->arr_len;
- funding_redeemscript_ref.data = funding_redeemscript->elems;
- int8_tArray ret_arr = init_int8_tArray(32);
+ funding_redeemscript_ref.data = funding_redeemscript->elems /* XXX funding_redeemscript leaks */;
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, TrustedClosingTransaction_get_sighash_all(&this_arg_conv, funding_redeemscript_ref, channel_value_satoshis).data, 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char funding_key_arr[32];
CHECK(funding_key->arr_len == 32);
- memcpy(funding_key_arr, funding_key->elems, 32);
+ memcpy(funding_key_arr, funding_key->elems, 32); FREE(funding_key);
unsigned char (*funding_key_ref)[32] = &funding_key_arr;
LDKu8slice funding_redeemscript_ref;
funding_redeemscript_ref.datalen = funding_redeemscript->arr_len;
- funding_redeemscript_ref.data = funding_redeemscript->elems;
- int8_tArray ret_arr = init_int8_tArray(64);
+ funding_redeemscript_ref.data = funding_redeemscript->elems /* XXX funding_redeemscript leaks */;
+ int8_tArray ret_arr = init_int8_tArray(64, __LINE__);
memcpy(ret_arr->elems, TrustedClosingTransaction_sign(&this_arg_conv, funding_key_ref, funding_redeemscript_ref, channel_value_satoshis).compact_form, 64);
return ret_arr;
}
static inline uintptr_t CommitmentTransaction_clone_ptr(LDKCommitmentTransaction *NONNULL_PTR arg) {
LDKCommitmentTransaction ret_var = CommitmentTransaction_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_CommitmentTransaction_clone_ptr"))) TS_CommitmentTransaction_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_CommitmentTransaction_clone_ptr"))) TS_CommitmentTransaction_clone_ptr(uint32_t arg) {
LDKCommitmentTransaction arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = CommitmentTransaction_clone_ptr(&arg_conv);
+ intptr_t ret_val = CommitmentTransaction_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKCommitmentTransaction ret_var = CommitmentTransaction_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = CommitmentTransaction_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_CommitmentTransaction_read"))) TS_CommitmentTransaction_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_CommitmentTransactionDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_CommitmentTransactionDecodeErrorZ), "LDKCResult_CommitmentTransactionDecodeErrorZ");
*ret_conv = CommitmentTransaction_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int64_t __attribute__((export_name("TS_CommitmentTransaction_commitment_number"))) TS_CommitmentTransaction_commitment_number(uint32_t this_arg) {
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKTrustedCommitmentTransaction ret_var = CommitmentTransaction_trust(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(countersignatory_keys_conv);
LDKCResult_TrustedCommitmentTransactionNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_TrustedCommitmentTransactionNoneZ), "LDKCResult_TrustedCommitmentTransactionNoneZ");
*ret_conv = CommitmentTransaction_verify(&this_arg_conv, &channel_parameters_conv, &broadcaster_keys_conv, &countersignatory_keys_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_TrustedCommitmentTransaction_free"))) TS_TrustedCommitmentTransaction_free(uint32_t this_obj) {
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, TrustedCommitmentTransaction_txid(&this_arg_conv).data, 32);
return ret_arr;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKBuiltCommitmentTransaction ret_var = TrustedCommitmentTransaction_built_transaction(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKTxCreationKeys ret_var = TrustedCommitmentTransaction_keys(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
unsigned char htlc_base_key_arr[32];
CHECK(htlc_base_key->arr_len == 32);
- memcpy(htlc_base_key_arr, htlc_base_key->elems, 32);
+ memcpy(htlc_base_key_arr, htlc_base_key->elems, 32); FREE(htlc_base_key);
unsigned char (*htlc_base_key_ref)[32] = &htlc_base_key_arr;
LDKDirectedChannelTransactionParameters channel_parameters_conv;
channel_parameters_conv.inner = (void*)(channel_parameters & (~1));
CHECK_INNER_FIELD_ACCESS_OR_NULL(channel_parameters_conv);
LDKCResult_CVec_SignatureZNoneZ* ret_conv = MALLOC(sizeof(LDKCResult_CVec_SignatureZNoneZ), "LDKCResult_CVec_SignatureZNoneZ");
*ret_conv = TrustedCommitmentTransaction_get_htlc_sigs(&this_arg_conv, htlc_base_key_ref, &channel_parameters_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int64_t __attribute__((export_name("TS_get_commitment_transaction_number_obscure_factor"))) TS_get_commitment_transaction_number_obscure_factor(int8_tArray broadcaster_payment_basepoint, int8_tArray countersignatory_payment_basepoint, jboolean outbound_from_broadcaster) {
LDKPublicKey broadcaster_payment_basepoint_ref;
CHECK(broadcaster_payment_basepoint->arr_len == 33);
- memcpy(broadcaster_payment_basepoint_ref.compressed_form, broadcaster_payment_basepoint->elems, 33);
+ memcpy(broadcaster_payment_basepoint_ref.compressed_form, broadcaster_payment_basepoint->elems, 33); FREE(broadcaster_payment_basepoint);
LDKPublicKey countersignatory_payment_basepoint_ref;
CHECK(countersignatory_payment_basepoint->arr_len == 33);
- memcpy(countersignatory_payment_basepoint_ref.compressed_form, countersignatory_payment_basepoint->elems, 33);
+ memcpy(countersignatory_payment_basepoint_ref.compressed_form, countersignatory_payment_basepoint->elems, 33); FREE(countersignatory_payment_basepoint);
int64_t ret_val = get_commitment_transaction_number_obscure_factor(broadcaster_payment_basepoint_ref, countersignatory_payment_basepoint_ref, outbound_from_broadcaster);
return ret_val;
}
static inline uintptr_t InitFeatures_clone_ptr(LDKInitFeatures *NONNULL_PTR arg) {
LDKInitFeatures ret_var = InitFeatures_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_InitFeatures_clone_ptr"))) TS_InitFeatures_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_InitFeatures_clone_ptr"))) TS_InitFeatures_clone_ptr(uint32_t arg) {
LDKInitFeatures arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = InitFeatures_clone_ptr(&arg_conv);
+ intptr_t ret_val = InitFeatures_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKInitFeatures ret_var = InitFeatures_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t NodeFeatures_clone_ptr(LDKNodeFeatures *NONNULL_PTR arg) {
LDKNodeFeatures ret_var = NodeFeatures_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NodeFeatures_clone_ptr"))) TS_NodeFeatures_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NodeFeatures_clone_ptr"))) TS_NodeFeatures_clone_ptr(uint32_t arg) {
LDKNodeFeatures arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = NodeFeatures_clone_ptr(&arg_conv);
+ intptr_t ret_val = NodeFeatures_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKNodeFeatures ret_var = NodeFeatures_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelFeatures_clone_ptr(LDKChannelFeatures *NONNULL_PTR arg) {
LDKChannelFeatures ret_var = ChannelFeatures_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelFeatures_clone_ptr"))) TS_ChannelFeatures_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelFeatures_clone_ptr"))) TS_ChannelFeatures_clone_ptr(uint32_t arg) {
LDKChannelFeatures arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelFeatures_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelFeatures_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelFeatures ret_var = ChannelFeatures_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t InvoiceFeatures_clone_ptr(LDKInvoiceFeatures *NONNULL_PTR arg) {
LDKInvoiceFeatures ret_var = InvoiceFeatures_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_InvoiceFeatures_clone_ptr"))) TS_InvoiceFeatures_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_InvoiceFeatures_clone_ptr"))) TS_InvoiceFeatures_clone_ptr(uint32_t arg) {
LDKInvoiceFeatures arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = InvoiceFeatures_clone_ptr(&arg_conv);
+ intptr_t ret_val = InvoiceFeatures_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKInvoiceFeatures ret_var = InvoiceFeatures_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelTypeFeatures_clone_ptr(LDKChannelTypeFeatures *NONNULL_PTR arg) {
LDKChannelTypeFeatures ret_var = ChannelTypeFeatures_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelTypeFeatures_clone_ptr"))) TS_ChannelTypeFeatures_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelTypeFeatures_clone_ptr"))) TS_ChannelTypeFeatures_clone_ptr(uint32_t arg) {
LDKChannelTypeFeatures arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelTypeFeatures_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelTypeFeatures_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelTypeFeatures ret_var = ChannelTypeFeatures_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_InitFeatures_empty"))) TS_InitFeatures_empty() {
LDKInitFeatures ret_var = InitFeatures_empty();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_InitFeatures_known"))) TS_InitFeatures_known() {
LDKInitFeatures ret_var = InitFeatures_known();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_NodeFeatures_empty"))) TS_NodeFeatures_empty() {
LDKNodeFeatures ret_var = NodeFeatures_empty();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_NodeFeatures_known"))) TS_NodeFeatures_known() {
LDKNodeFeatures ret_var = NodeFeatures_known();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelFeatures_empty"))) TS_ChannelFeatures_empty() {
LDKChannelFeatures ret_var = ChannelFeatures_empty();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelFeatures_known"))) TS_ChannelFeatures_known() {
LDKChannelFeatures ret_var = ChannelFeatures_known();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_InvoiceFeatures_empty"))) TS_InvoiceFeatures_empty() {
LDKInvoiceFeatures ret_var = InvoiceFeatures_empty();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_InvoiceFeatures_known"))) TS_InvoiceFeatures_known() {
LDKInvoiceFeatures ret_var = InvoiceFeatures_known();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelTypeFeatures_empty"))) TS_ChannelTypeFeatures_empty() {
LDKChannelTypeFeatures ret_var = ChannelTypeFeatures_empty();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ChannelTypeFeatures_known"))) TS_ChannelTypeFeatures_known() {
LDKChannelTypeFeatures ret_var = ChannelTypeFeatures_known();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = InitFeatures_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_InitFeatures_read"))) TS_InitFeatures_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_InitFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InitFeaturesDecodeErrorZ), "LDKCResult_InitFeaturesDecodeErrorZ");
*ret_conv = InitFeatures_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ChannelFeatures_write"))) TS_ChannelFeatures_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelFeatures_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelFeatures_read"))) TS_ChannelFeatures_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelFeaturesDecodeErrorZ), "LDKCResult_ChannelFeaturesDecodeErrorZ");
*ret_conv = ChannelFeatures_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_NodeFeatures_write"))) TS_NodeFeatures_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = NodeFeatures_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NodeFeatures_read"))) TS_NodeFeatures_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NodeFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeFeaturesDecodeErrorZ), "LDKCResult_NodeFeaturesDecodeErrorZ");
*ret_conv = NodeFeatures_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_InvoiceFeatures_write"))) TS_InvoiceFeatures_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = InvoiceFeatures_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_InvoiceFeatures_read"))) TS_InvoiceFeatures_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_InvoiceFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_InvoiceFeaturesDecodeErrorZ), "LDKCResult_InvoiceFeaturesDecodeErrorZ");
*ret_conv = InvoiceFeatures_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ChannelTypeFeatures_write"))) TS_ChannelTypeFeatures_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelTypeFeatures_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelTypeFeatures_read"))) TS_ChannelTypeFeatures_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelTypeFeaturesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelTypeFeaturesDecodeErrorZ), "LDKCResult_ChannelTypeFeaturesDecodeErrorZ");
*ret_conv = ChannelTypeFeatures_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_ShutdownScript_free"))) TS_ShutdownScript_free(uint32_t this_obj) {
static inline uintptr_t ShutdownScript_clone_ptr(LDKShutdownScript *NONNULL_PTR arg) {
LDKShutdownScript ret_var = ShutdownScript_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ShutdownScript_clone_ptr"))) TS_ShutdownScript_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ShutdownScript_clone_ptr"))) TS_ShutdownScript_clone_ptr(uint32_t arg) {
LDKShutdownScript arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ShutdownScript_clone_ptr(&arg_conv);
+ intptr_t ret_val = ShutdownScript_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKShutdownScript ret_var = ShutdownScript_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKu8slice ret_var = InvalidShutdownScript_get_script(&this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
LDKCVec_u8Z val_ref;
val_ref.datalen = val->arr_len;
val_ref.data = MALLOC(val_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(val_ref.data, val->elems, val_ref.datalen);
+ memcpy(val_ref.data, val->elems, val_ref.datalen); FREE(val);
InvalidShutdownScript_set_script(&this_ptr_conv, val_ref);
}
LDKCVec_u8Z script_arg_ref;
script_arg_ref.datalen = script_arg->arr_len;
script_arg_ref.data = MALLOC(script_arg_ref.datalen, "LDKCVec_u8Z Bytes");
- memcpy(script_arg_ref.data, script_arg->elems, script_arg_ref.datalen);
+ memcpy(script_arg_ref.data, script_arg->elems, script_arg_ref.datalen); FREE(script_arg);
LDKInvalidShutdownScript ret_var = InvalidShutdownScript_new(script_arg_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t InvalidShutdownScript_clone_ptr(LDKInvalidShutdownScript *NONNULL_PTR arg) {
LDKInvalidShutdownScript ret_var = InvalidShutdownScript_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_InvalidShutdownScript_clone_ptr"))) TS_InvalidShutdownScript_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_InvalidShutdownScript_clone_ptr"))) TS_InvalidShutdownScript_clone_ptr(uint32_t arg) {
LDKInvalidShutdownScript arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = InvalidShutdownScript_clone_ptr(&arg_conv);
+ intptr_t ret_val = InvalidShutdownScript_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKInvalidShutdownScript ret_var = InvalidShutdownScript_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ShutdownScript_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ShutdownScript_read"))) TS_ShutdownScript_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ShutdownScriptDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptDecodeErrorZ), "LDKCResult_ShutdownScriptDecodeErrorZ");
*ret_conv = ShutdownScript_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ShutdownScript_new_p2wpkh"))) TS_ShutdownScript_new_p2wpkh(int8_tArray pubkey_hash) {
unsigned char pubkey_hash_arr[20];
CHECK(pubkey_hash->arr_len == 20);
- memcpy(pubkey_hash_arr, pubkey_hash->elems, 20);
+ memcpy(pubkey_hash_arr, pubkey_hash->elems, 20); FREE(pubkey_hash);
unsigned char (*pubkey_hash_ref)[20] = &pubkey_hash_arr;
LDKShutdownScript ret_var = ShutdownScript_new_p2wpkh(pubkey_hash_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ShutdownScript_new_p2wsh"))) TS_ShutdownScript_new_p2wsh(int8_tArray script_hash) {
unsigned char script_hash_arr[32];
CHECK(script_hash->arr_len == 32);
- memcpy(script_hash_arr, script_hash->elems, 32);
+ memcpy(script_hash_arr, script_hash->elems, 32); FREE(script_hash);
unsigned char (*script_hash_ref)[32] = &script_hash_arr;
LDKShutdownScript ret_var = ShutdownScript_new_p2wsh(script_hash_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ShutdownScript_new_witness_program"))) TS_ShutdownScript_new_witness_program(int8_t version, int8_tArray program) {
LDKu8slice program_ref;
program_ref.datalen = program->arr_len;
- program_ref.data = program->elems;
+ program_ref.data = program->elems /* XXX program leaks */;
LDKCResult_ShutdownScriptInvalidShutdownScriptZ* ret_conv = MALLOC(sizeof(LDKCResult_ShutdownScriptInvalidShutdownScriptZ), "LDKCResult_ShutdownScriptInvalidShutdownScriptZ");
*ret_conv = ShutdownScript_new_witness_program(version, program_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_ShutdownScript_into_inner"))) TS_ShutdownScript_into_inner(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
this_arg_conv = ShutdownScript_clone(&this_arg_conv);
LDKCVec_u8Z ret_var = ShutdownScript_into_inner(this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, ShutdownScript_as_legacy_pubkey(&this_arg_conv).compressed_form, 33);
return ret_arr;
}
void __attribute__((export_name("TS_CustomMessageReader_free"))) TS_CustomMessageReader_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKCustomMessageReader this_ptr_conv = *(LDKCustomMessageReader*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t Type_clone_ptr(LDKType *NONNULL_PTR arg) {
LDKType* ret_ret = MALLOC(sizeof(LDKType), "LDKType");
*ret_ret = Type_clone(arg);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
-int64_t __attribute__((export_name("TS_Type_clone_ptr"))) TS_Type_clone_ptr(uint32_t arg) {
- void* arg_ptr = (void*)(((uint64_t)arg) & ~1);
+intptr_t __attribute__((export_name("TS_Type_clone_ptr"))) TS_Type_clone_ptr(uint32_t arg) {
+ void* arg_ptr = (void*)(((uintptr_t)arg) & ~1);
if (!(arg & 1)) { CHECK_ACCESS(arg_ptr); }
LDKType* arg_conv = (LDKType*)arg_ptr;
- int64_t ret_val = Type_clone_ptr(arg_conv);
+ intptr_t ret_val = Type_clone_ptr(arg_conv);
return ret_val;
}
uint32_t __attribute__((export_name("TS_Type_clone"))) TS_Type_clone(uint32_t orig) {
- void* orig_ptr = (void*)(((uint64_t)orig) & ~1);
+ void* orig_ptr = (void*)(((uintptr_t)orig) & ~1);
if (!(orig & 1)) { CHECK_ACCESS(orig_ptr); }
LDKType* orig_conv = (LDKType*)orig_ptr;
LDKType* ret_ret = MALLOC(sizeof(LDKType), "LDKType");
*ret_ret = Type_clone(orig_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_Type_free"))) TS_Type_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKType this_ptr_conv = *(LDKType*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t NodeId_clone_ptr(LDKNodeId *NONNULL_PTR arg) {
LDKNodeId ret_var = NodeId_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NodeId_clone_ptr"))) TS_NodeId_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NodeId_clone_ptr"))) TS_NodeId_clone_ptr(uint32_t arg) {
LDKNodeId arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = NodeId_clone_ptr(&arg_conv);
+ intptr_t ret_val = NodeId_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKNodeId ret_var = NodeId_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_NodeId_from_pubkey"))) TS_NodeId_from_pubkey(int8_tArray pubkey) {
LDKPublicKey pubkey_ref;
CHECK(pubkey->arr_len == 33);
- memcpy(pubkey_ref.compressed_form, pubkey->elems, 33);
+ memcpy(pubkey_ref.compressed_form, pubkey->elems, 33); FREE(pubkey);
LDKNodeId ret_var = NodeId_from_pubkey(pubkey_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKu8slice ret_var = NodeId_as_slice(&this_arg_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
return ret_arr;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = NodeId_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NodeId_read"))) TS_NodeId_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NodeIdDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeIdDecodeErrorZ), "LDKCResult_NodeIdDecodeErrorZ");
*ret_conv = NodeId_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_NetworkGraph_free"))) TS_NetworkGraph_free(uint32_t this_obj) {
static inline uintptr_t NetworkGraph_clone_ptr(LDKNetworkGraph *NONNULL_PTR arg) {
LDKNetworkGraph ret_var = NetworkGraph_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NetworkGraph_clone_ptr"))) TS_NetworkGraph_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NetworkGraph_clone_ptr"))) TS_NetworkGraph_clone_ptr(uint32_t arg) {
LDKNetworkGraph arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = NetworkGraph_clone_ptr(&arg_conv);
+ intptr_t ret_val = NetworkGraph_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKNetworkGraph ret_var = NetworkGraph_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
void __attribute__((export_name("TS_NetworkUpdate_free"))) TS_NetworkUpdate_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKNetworkUpdate this_ptr_conv = *(LDKNetworkUpdate*)(this_ptr_ptr);
FREE((void*)this_ptr);
static inline uintptr_t NetworkUpdate_clone_ptr(LDKNetworkUpdate *NONNULL_PTR arg) {
LDKNetworkUpdate *ret_copy = MALLOC(sizeof(LDKNetworkUpdate), "LDKNetworkUpdate");
*ret_copy = NetworkUpdate_clone(arg);
-uint64_t ret_ref = (uint64_t)ret_copy;
+uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NetworkUpdate_clone_ptr"))) TS_NetworkUpdate_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NetworkUpdate_clone_ptr"))) TS_NetworkUpdate_clone_ptr(uint32_t arg) {
LDKNetworkUpdate* arg_conv = (LDKNetworkUpdate*)arg;
- int64_t ret_val = NetworkUpdate_clone_ptr(arg_conv);
+ intptr_t ret_val = NetworkUpdate_clone_ptr(arg_conv);
return ret_val;
}
LDKNetworkUpdate* orig_conv = (LDKNetworkUpdate*)orig;
LDKNetworkUpdate *ret_copy = MALLOC(sizeof(LDKNetworkUpdate), "LDKNetworkUpdate");
*ret_copy = NetworkUpdate_clone(orig_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
msg_conv = ChannelUpdate_clone(&msg_conv);
LDKNetworkUpdate *ret_copy = MALLOC(sizeof(LDKNetworkUpdate), "LDKNetworkUpdate");
*ret_copy = NetworkUpdate_channel_update_message(msg_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_NetworkUpdate_channel_closed"))) TS_NetworkUpdate_channel_closed(int64_t short_channel_id, jboolean is_permanent) {
LDKNetworkUpdate *ret_copy = MALLOC(sizeof(LDKNetworkUpdate), "LDKNetworkUpdate");
*ret_copy = NetworkUpdate_channel_closed(short_channel_id, is_permanent);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
uint32_t __attribute__((export_name("TS_NetworkUpdate_node_failure"))) TS_NetworkUpdate_node_failure(int8_tArray node_id, jboolean is_permanent) {
LDKPublicKey node_id_ref;
CHECK(node_id->arr_len == 33);
- memcpy(node_id_ref.compressed_form, node_id->elems, 33);
+ memcpy(node_id_ref.compressed_form, node_id->elems, 33); FREE(node_id);
LDKNetworkUpdate *ret_copy = MALLOC(sizeof(LDKNetworkUpdate), "LDKNetworkUpdate");
*ret_copy = NetworkUpdate_node_failure(node_id_ref, is_permanent);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
int8_tArray __attribute__((export_name("TS_NetworkUpdate_write"))) TS_NetworkUpdate_write(uint32_t obj) {
LDKNetworkUpdate* obj_conv = (LDKNetworkUpdate*)obj;
LDKCVec_u8Z ret_var = NetworkUpdate_write(obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NetworkUpdate_read"))) TS_NetworkUpdate_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_COption_NetworkUpdateZDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_COption_NetworkUpdateZDecodeErrorZ), "LDKCResult_COption_NetworkUpdateZDecodeErrorZ");
*ret_conv = NetworkUpdate_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_NetGraphMsgHandler_as_EventHandler"))) TS_NetGraphMsgHandler_as_EventHandler(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKEventHandler* ret_ret = MALLOC(sizeof(LDKEventHandler), "LDKEventHandler");
*ret_ret = NetGraphMsgHandler_as_EventHandler(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_NetGraphMsgHandler_free"))) TS_NetGraphMsgHandler_free(uint32_t this_obj) {
network_graph_conv.inner = (void*)(network_graph & (~1));
network_graph_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(network_graph_conv);
- void* chain_access_ptr = (void*)(((uint64_t)chain_access) & ~1);
+ void* chain_access_ptr = (void*)(((uintptr_t)chain_access) & ~1);
CHECK_ACCESS(chain_access_ptr);
LDKCOption_AccessZ chain_access_conv = *(LDKCOption_AccessZ*)(chain_access_ptr);
// Warning: we may need a move here but no clone is available for LDKCOption_AccessZ
if (chain_access_conv.tag == LDKCOption_AccessZ_Some) {
// Manually implement clone for Java trait instances
}
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
LDKNetGraphMsgHandler ret_var = NetGraphMsgHandler_new(&network_graph_conv, chain_access_conv, logger_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.inner = (void*)(this_arg & (~1));
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
- void* chain_access_ptr = (void*)(((uint64_t)chain_access) & ~1);
+ void* chain_access_ptr = (void*)(((uintptr_t)chain_access) & ~1);
CHECK_ACCESS(chain_access_ptr);
LDKCOption_AccessZ chain_access_conv = *(LDKCOption_AccessZ*)(chain_access_ptr);
// Warning: we may need a move here but no clone is available for LDKCOption_AccessZ
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKRoutingMessageHandler* ret_ret = MALLOC(sizeof(LDKRoutingMessageHandler), "LDKRoutingMessageHandler");
*ret_ret = NetGraphMsgHandler_as_RoutingMessageHandler(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
uint32_t __attribute__((export_name("TS_NetGraphMsgHandler_as_MessageSendEventsProvider"))) TS_NetGraphMsgHandler_as_MessageSendEventsProvider(uint32_t this_arg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKMessageSendEventsProvider* ret_ret = MALLOC(sizeof(LDKMessageSendEventsProvider), "LDKMessageSendEventsProvider");
*ret_ret = NetGraphMsgHandler_as_MessageSendEventsProvider(&this_arg_conv);
- return (uint64_t)ret_ret;
+ return (uintptr_t)ret_ret;
}
void __attribute__((export_name("TS_DirectionalChannelInfo_free"))) TS_DirectionalChannelInfo_free(uint32_t this_obj) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = DirectionalChannelInfo_get_htlc_maximum_msat(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
DirectionalChannelInfo_set_htlc_maximum_msat(&this_ptr_conv, val_conv);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKRoutingFees ret_var = DirectionalChannelInfo_get_fees(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelUpdate ret_var = DirectionalChannelInfo_get_last_update_message(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
}
uint32_t __attribute__((export_name("TS_DirectionalChannelInfo_new"))) TS_DirectionalChannelInfo_new(int32_t last_update_arg, jboolean enabled_arg, int16_t cltv_expiry_delta_arg, int64_t htlc_minimum_msat_arg, uint32_t htlc_maximum_msat_arg, uint32_t fees_arg, uint32_t last_update_message_arg) {
- void* htlc_maximum_msat_arg_ptr = (void*)(((uint64_t)htlc_maximum_msat_arg) & ~1);
+ void* htlc_maximum_msat_arg_ptr = (void*)(((uintptr_t)htlc_maximum_msat_arg) & ~1);
CHECK_ACCESS(htlc_maximum_msat_arg_ptr);
LDKCOption_u64Z htlc_maximum_msat_arg_conv = *(LDKCOption_u64Z*)(htlc_maximum_msat_arg_ptr);
- htlc_maximum_msat_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)htlc_maximum_msat_arg) & ~1));
+ htlc_maximum_msat_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)htlc_maximum_msat_arg) & ~1));
LDKRoutingFees fees_arg_conv;
fees_arg_conv.inner = (void*)(fees_arg & (~1));
fees_arg_conv.is_owned = (fees_arg & 1) || (fees_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(last_update_message_arg_conv);
last_update_message_arg_conv = ChannelUpdate_clone(&last_update_message_arg_conv);
LDKDirectionalChannelInfo ret_var = DirectionalChannelInfo_new(last_update_arg, enabled_arg, cltv_expiry_delta_arg, htlc_minimum_msat_arg, htlc_maximum_msat_arg_conv, fees_arg_conv, last_update_message_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t DirectionalChannelInfo_clone_ptr(LDKDirectionalChannelInfo *NONNULL_PTR arg) {
LDKDirectionalChannelInfo ret_var = DirectionalChannelInfo_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_DirectionalChannelInfo_clone_ptr"))) TS_DirectionalChannelInfo_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_DirectionalChannelInfo_clone_ptr"))) TS_DirectionalChannelInfo_clone_ptr(uint32_t arg) {
LDKDirectionalChannelInfo arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = DirectionalChannelInfo_clone_ptr(&arg_conv);
+ intptr_t ret_val = DirectionalChannelInfo_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKDirectionalChannelInfo ret_var = DirectionalChannelInfo_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = DirectionalChannelInfo_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_DirectionalChannelInfo_read"))) TS_DirectionalChannelInfo_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_DirectionalChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_DirectionalChannelInfoDecodeErrorZ), "LDKCResult_DirectionalChannelInfoDecodeErrorZ");
*ret_conv = DirectionalChannelInfo_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_ChannelInfo_free"))) TS_ChannelInfo_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelFeatures ret_var = ChannelInfo_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeId ret_var = ChannelInfo_get_node_one(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKDirectionalChannelInfo ret_var = ChannelInfo_get_one_to_two(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeId ret_var = ChannelInfo_get_node_two(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKDirectionalChannelInfo ret_var = ChannelInfo_get_two_to_one(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = ChannelInfo_get_capacity_sats(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
ChannelInfo_set_capacity_sats(&this_ptr_conv, val_conv);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelAnnouncement ret_var = ChannelInfo_get_announcement_message(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t ChannelInfo_clone_ptr(LDKChannelInfo *NONNULL_PTR arg) {
LDKChannelInfo ret_var = ChannelInfo_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_ChannelInfo_clone_ptr"))) TS_ChannelInfo_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_ChannelInfo_clone_ptr"))) TS_ChannelInfo_clone_ptr(uint32_t arg) {
LDKChannelInfo arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = ChannelInfo_clone_ptr(&arg_conv);
+ intptr_t ret_val = ChannelInfo_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKChannelInfo ret_var = ChannelInfo_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ChannelInfo_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ChannelInfo_read"))) TS_ChannelInfo_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ChannelInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ChannelInfoDecodeErrorZ), "LDKCResult_ChannelInfoDecodeErrorZ");
*ret_conv = ChannelInfo_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_RoutingFees_free"))) TS_RoutingFees_free(uint32_t this_obj) {
uint32_t __attribute__((export_name("TS_RoutingFees_new"))) TS_RoutingFees_new(int32_t base_msat_arg, int32_t proportional_millionths_arg) {
LDKRoutingFees ret_var = RoutingFees_new(base_msat_arg, proportional_millionths_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t RoutingFees_clone_ptr(LDKRoutingFees *NONNULL_PTR arg) {
LDKRoutingFees ret_var = RoutingFees_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_RoutingFees_clone_ptr"))) TS_RoutingFees_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_RoutingFees_clone_ptr"))) TS_RoutingFees_clone_ptr(uint32_t arg) {
LDKRoutingFees arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = RoutingFees_clone_ptr(&arg_conv);
+ intptr_t ret_val = RoutingFees_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRoutingFees ret_var = RoutingFees_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = RoutingFees_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_RoutingFees_read"))) TS_RoutingFees_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RoutingFeesDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RoutingFeesDecodeErrorZ), "LDKCResult_RoutingFeesDecodeErrorZ");
*ret_conv = RoutingFees_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_NodeAnnouncementInfo_free"))) TS_NodeAnnouncementInfo_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeFeatures ret_var = NodeAnnouncementInfo_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(3);
+ int8_tArray ret_arr = init_int8_tArray(3, __LINE__);
memcpy(ret_arr->elems, *NodeAnnouncementInfo_get_rgb(&this_ptr_conv), 3);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThreeBytes val_ref;
CHECK(val->arr_len == 3);
- memcpy(val_ref.data, val->elems, 3);
+ memcpy(val_ref.data, val->elems, 3); FREE(val);
NodeAnnouncementInfo_set_rgb(&this_ptr_conv, val_ref);
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(32);
+ int8_tArray ret_arr = init_int8_tArray(32, __LINE__);
memcpy(ret_arr->elems, *NodeAnnouncementInfo_get_alias(&this_ptr_conv), 32);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKThirtyTwoBytes val_ref;
CHECK(val->arr_len == 32);
- memcpy(val_ref.data, val->elems, 32);
+ memcpy(val_ref.data, val->elems, 32); FREE(val);
NodeAnnouncementInfo_set_alias(&this_ptr_conv, val_ref);
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKNetAddress), "LDKCVec_NetAddressZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t m = 0; m < val_constr.datalen; m++) {
uint32_t val_conv_12 = val_vals[m];
- void* val_conv_12_ptr = (void*)(((uint64_t)val_conv_12) & ~1);
+ void* val_conv_12_ptr = (void*)(((uintptr_t)val_conv_12) & ~1);
CHECK_ACCESS(val_conv_12_ptr);
LDKNetAddress val_conv_12_conv = *(LDKNetAddress*)(val_conv_12_ptr);
- val_conv_12_conv = NetAddress_clone((LDKNetAddress*)(((uint64_t)val_conv_12) & ~1));
+ val_conv_12_conv = NetAddress_clone((LDKNetAddress*)(((uintptr_t)val_conv_12) & ~1));
val_constr.data[m] = val_conv_12_conv;
}
NodeAnnouncementInfo_set_addresses(&this_ptr_conv, val_constr);
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeAnnouncement ret_var = NodeAnnouncementInfo_get_announcement_message(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
features_arg_conv = NodeFeatures_clone(&features_arg_conv);
LDKThreeBytes rgb_arg_ref;
CHECK(rgb_arg->arr_len == 3);
- memcpy(rgb_arg_ref.data, rgb_arg->elems, 3);
+ memcpy(rgb_arg_ref.data, rgb_arg->elems, 3); FREE(rgb_arg);
LDKThirtyTwoBytes alias_arg_ref;
CHECK(alias_arg->arr_len == 32);
- memcpy(alias_arg_ref.data, alias_arg->elems, 32);
+ memcpy(alias_arg_ref.data, alias_arg->elems, 32); FREE(alias_arg);
LDKCVec_NetAddressZ addresses_arg_constr;
addresses_arg_constr.datalen = addresses_arg->arr_len;
if (addresses_arg_constr.datalen > 0)
addresses_arg_constr.data = MALLOC(addresses_arg_constr.datalen * sizeof(LDKNetAddress), "LDKCVec_NetAddressZ Elements");
else
addresses_arg_constr.data = NULL;
- uint32_t* addresses_arg_vals = addresses_arg->elems;
+ uint32_t* addresses_arg_vals = addresses_arg->elems /* XXX addresses_arg leaks */;
for (size_t m = 0; m < addresses_arg_constr.datalen; m++) {
uint32_t addresses_arg_conv_12 = addresses_arg_vals[m];
- void* addresses_arg_conv_12_ptr = (void*)(((uint64_t)addresses_arg_conv_12) & ~1);
+ void* addresses_arg_conv_12_ptr = (void*)(((uintptr_t)addresses_arg_conv_12) & ~1);
CHECK_ACCESS(addresses_arg_conv_12_ptr);
LDKNetAddress addresses_arg_conv_12_conv = *(LDKNetAddress*)(addresses_arg_conv_12_ptr);
addresses_arg_constr.data[m] = addresses_arg_conv_12_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(announcement_message_arg_conv);
announcement_message_arg_conv = NodeAnnouncement_clone(&announcement_message_arg_conv);
LDKNodeAnnouncementInfo ret_var = NodeAnnouncementInfo_new(features_arg_conv, last_update_arg, rgb_arg_ref, alias_arg_ref, addresses_arg_constr, announcement_message_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t NodeAnnouncementInfo_clone_ptr(LDKNodeAnnouncementInfo *NONNULL_PTR arg) {
LDKNodeAnnouncementInfo ret_var = NodeAnnouncementInfo_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NodeAnnouncementInfo_clone_ptr"))) TS_NodeAnnouncementInfo_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NodeAnnouncementInfo_clone_ptr"))) TS_NodeAnnouncementInfo_clone_ptr(uint32_t arg) {
LDKNodeAnnouncementInfo arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = NodeAnnouncementInfo_clone_ptr(&arg_conv);
+ intptr_t ret_val = NodeAnnouncementInfo_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKNodeAnnouncementInfo ret_var = NodeAnnouncementInfo_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = NodeAnnouncementInfo_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NodeAnnouncementInfo_read"))) TS_NodeAnnouncementInfo_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NodeAnnouncementInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeAnnouncementInfoDecodeErrorZ), "LDKCResult_NodeAnnouncementInfoDecodeErrorZ");
*ret_conv = NodeAnnouncementInfo_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_NodeInfo_free"))) TS_NodeInfo_free(uint32_t this_obj) {
val_constr.data = MALLOC(val_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
val_constr.data = NULL;
- int64_t* val_vals = val->elems;
+ int64_t* val_vals = val->elems /* XXX val leaks */;
for (size_t i = 0; i < val_constr.datalen; i++) {
int64_t val_conv_8 = val_vals[i];
val_constr.data[i] = val_conv_8;
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKRoutingFees ret_var = NodeInfo_get_lowest_inbound_channel_fees(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeAnnouncementInfo ret_var = NodeInfo_get_announcement_info(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
channels_arg_constr.data = MALLOC(channels_arg_constr.datalen * sizeof(int64_t), "LDKCVec_u64Z Elements");
else
channels_arg_constr.data = NULL;
- int64_t* channels_arg_vals = channels_arg->elems;
+ int64_t* channels_arg_vals = channels_arg->elems /* XXX channels_arg leaks */;
for (size_t i = 0; i < channels_arg_constr.datalen; i++) {
int64_t channels_arg_conv_8 = channels_arg_vals[i];
channels_arg_constr.data[i] = channels_arg_conv_8;
CHECK_INNER_FIELD_ACCESS_OR_NULL(announcement_info_arg_conv);
announcement_info_arg_conv = NodeAnnouncementInfo_clone(&announcement_info_arg_conv);
LDKNodeInfo ret_var = NodeInfo_new(channels_arg_constr, lowest_inbound_channel_fees_arg_conv, announcement_info_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t NodeInfo_clone_ptr(LDKNodeInfo *NONNULL_PTR arg) {
LDKNodeInfo ret_var = NodeInfo_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_NodeInfo_clone_ptr"))) TS_NodeInfo_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_NodeInfo_clone_ptr"))) TS_NodeInfo_clone_ptr(uint32_t arg) {
LDKNodeInfo arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = NodeInfo_clone_ptr(&arg_conv);
+ intptr_t ret_val = NodeInfo_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKNodeInfo ret_var = NodeInfo_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = NodeInfo_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NodeInfo_read"))) TS_NodeInfo_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NodeInfoDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NodeInfoDecodeErrorZ), "LDKCResult_NodeInfoDecodeErrorZ");
*ret_conv = NodeInfo_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
int8_tArray __attribute__((export_name("TS_NetworkGraph_write"))) TS_NetworkGraph_write(uint32_t obj) {
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = NetworkGraph_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_NetworkGraph_read"))) TS_NetworkGraph_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_NetworkGraphDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NetworkGraphDecodeErrorZ), "LDKCResult_NetworkGraphDecodeErrorZ");
*ret_conv = NetworkGraph_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_NetworkGraph_new"))) TS_NetworkGraph_new(int8_tArray genesis_hash) {
LDKThirtyTwoBytes genesis_hash_ref;
CHECK(genesis_hash->arr_len == 32);
- memcpy(genesis_hash_ref.data, genesis_hash->elems, 32);
+ memcpy(genesis_hash_ref.data, genesis_hash->elems, 32); FREE(genesis_hash);
LDKNetworkGraph ret_var = NetworkGraph_new(genesis_hash_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKReadOnlyNetworkGraph ret_var = NetworkGraph_read_only(&this_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = NetworkGraph_update_node_from_announcement(&this_arg_conv, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_NetworkGraph_update_node_from_unsigned_announcement"))) TS_NetworkGraph_update_node_from_unsigned_announcement(uint32_t this_arg, uint32_t msg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = NetworkGraph_update_node_from_unsigned_announcement(&this_arg_conv, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_NetworkGraph_update_channel_from_announcement"))) TS_NetworkGraph_update_channel_from_announcement(uint32_t this_arg, uint32_t msg, uint32_t chain_access) {
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
- void* chain_access_ptr = (void*)(((uint64_t)chain_access) & ~1);
+ void* chain_access_ptr = (void*)(((uintptr_t)chain_access) & ~1);
CHECK_ACCESS(chain_access_ptr);
LDKCOption_AccessZ chain_access_conv = *(LDKCOption_AccessZ*)(chain_access_ptr);
// Warning: we may need a move here but no clone is available for LDKCOption_AccessZ
}
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = NetworkGraph_update_channel_from_announcement(&this_arg_conv, &msg_conv, chain_access_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_NetworkGraph_update_channel_from_unsigned_announcement"))) TS_NetworkGraph_update_channel_from_unsigned_announcement(uint32_t this_arg, uint32_t msg, uint32_t chain_access) {
msg_conv.inner = (void*)(msg & (~1));
msg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
- void* chain_access_ptr = (void*)(((uint64_t)chain_access) & ~1);
+ void* chain_access_ptr = (void*)(((uintptr_t)chain_access) & ~1);
CHECK_ACCESS(chain_access_ptr);
LDKCOption_AccessZ chain_access_conv = *(LDKCOption_AccessZ*)(chain_access_ptr);
// Warning: we may need a move here but no clone is available for LDKCOption_AccessZ
}
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = NetworkGraph_update_channel_from_unsigned_announcement(&this_arg_conv, &msg_conv, chain_access_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_NetworkGraph_close_channel_from_update"))) TS_NetworkGraph_close_channel_from_update(uint32_t this_arg, int64_t short_channel_id, jboolean is_permanent) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKPublicKey _node_id_ref;
CHECK(_node_id->arr_len == 33);
- memcpy(_node_id_ref.compressed_form, _node_id->elems, 33);
+ memcpy(_node_id_ref.compressed_form, _node_id->elems, 33); FREE(_node_id);
NetworkGraph_fail_node(&this_arg_conv, _node_id_ref, is_permanent);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = NetworkGraph_update_channel(&this_arg_conv, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_NetworkGraph_update_channel_unsigned"))) TS_NetworkGraph_update_channel_unsigned(uint32_t this_arg, uint32_t msg) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(msg_conv);
LDKCResult_NoneLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_NoneLightningErrorZ), "LDKCResult_NoneLightningErrorZ");
*ret_conv = NetworkGraph_update_channel_unsigned(&this_arg_conv, &msg_conv);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ReadOnlyNetworkGraph_get_addresses"))) TS_ReadOnlyNetworkGraph_get_addresses(uint32_t this_arg, int8_tArray pubkey) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_arg_conv);
LDKPublicKey pubkey_ref;
CHECK(pubkey->arr_len == 33);
- memcpy(pubkey_ref.compressed_form, pubkey->elems, 33);
+ memcpy(pubkey_ref.compressed_form, pubkey->elems, 33); FREE(pubkey);
LDKCOption_CVec_NetAddressZZ *ret_copy = MALLOC(sizeof(LDKCOption_CVec_NetAddressZZ), "LDKCOption_CVec_NetAddressZZ");
*ret_copy = ReadOnlyNetworkGraph_get_addresses(&this_arg_conv, pubkey_ref);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, RouteHop_get_pubkey(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
RouteHop_set_pubkey(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKNodeFeatures ret_var = RouteHop_get_node_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKChannelFeatures ret_var = RouteHop_get_channel_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_RouteHop_new"))) TS_RouteHop_new(int8_tArray pubkey_arg, uint32_t node_features_arg, int64_t short_channel_id_arg, uint32_t channel_features_arg, int64_t fee_msat_arg, int32_t cltv_expiry_delta_arg) {
LDKPublicKey pubkey_arg_ref;
CHECK(pubkey_arg->arr_len == 33);
- memcpy(pubkey_arg_ref.compressed_form, pubkey_arg->elems, 33);
+ memcpy(pubkey_arg_ref.compressed_form, pubkey_arg->elems, 33); FREE(pubkey_arg);
LDKNodeFeatures node_features_arg_conv;
node_features_arg_conv.inner = (void*)(node_features_arg & (~1));
node_features_arg_conv.is_owned = (node_features_arg & 1) || (node_features_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(channel_features_arg_conv);
channel_features_arg_conv = ChannelFeatures_clone(&channel_features_arg_conv);
LDKRouteHop ret_var = RouteHop_new(pubkey_arg_ref, node_features_arg_conv, short_channel_id_arg, channel_features_arg_conv, fee_msat_arg, cltv_expiry_delta_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t RouteHop_clone_ptr(LDKRouteHop *NONNULL_PTR arg) {
LDKRouteHop ret_var = RouteHop_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_RouteHop_clone_ptr"))) TS_RouteHop_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_RouteHop_clone_ptr"))) TS_RouteHop_clone_ptr(uint32_t arg) {
LDKRouteHop arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = RouteHop_clone_ptr(&arg_conv);
+ intptr_t ret_val = RouteHop_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRouteHop ret_var = RouteHop_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = RouteHop_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_RouteHop_read"))) TS_RouteHop_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RouteHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHopDecodeErrorZ), "LDKCResult_RouteHopDecodeErrorZ");
*ret_conv = RouteHop_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_Route_free"))) TS_Route_free(uint32_t this_obj) {
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_CVec_RouteHopZZ ret_var = Route_get_paths(&this_ptr_conv);
ptrArray ret_arr = NULL;
- ret_arr = init_ptrArray(ret_var.datalen);
+ ret_arr = init_ptrArray(ret_var.datalen, __LINE__);
uint32_tArray *ret_arr_ptr = (uint32_tArray*)(((uint8_t*)ret_arr) + 4);
for (size_t m = 0; m < ret_var.datalen; m++) {
LDKCVec_RouteHopZ ret_conv_12_var = ret_var.data[m];
uint32_tArray ret_conv_12_arr = NULL;
- ret_conv_12_arr = init_uint32_tArray(ret_conv_12_var.datalen);
+ ret_conv_12_arr = init_uint32_tArray(ret_conv_12_var.datalen, __LINE__);
uint32_t *ret_conv_12_arr_ptr = (uint32_t*)(((uint8_t*)ret_conv_12_arr) + 4);
for (size_t k = 0; k < ret_conv_12_var.datalen; k++) {
LDKRouteHop ret_conv_12_conv_10_var = ret_conv_12_var.data[k];
- uint64_t ret_conv_12_conv_10_ref = 0;
- CHECK((((uint64_t)ret_conv_12_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_12_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_12_conv_10_ref = 0;
+ CHECK((((uintptr_t)ret_conv_12_conv_10_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_12_conv_10_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_12_conv_10_var);
- ret_conv_12_conv_10_ref = (uint64_t)ret_conv_12_conv_10_var.inner;
+ ret_conv_12_conv_10_ref = (uintptr_t)ret_conv_12_conv_10_var.inner;
if (ret_conv_12_conv_10_var.is_owned) {
ret_conv_12_conv_10_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKCVec_RouteHopZ), "LDKCVec_CVec_RouteHopZZ Elements");
else
val_constr.data = NULL;
- uint32_tArray* val_vals = (void*) val->elems;
+ uint32_tArray* val_vals = (void*) val->elems /* XXX val leaks */;
for (size_t m = 0; m < val_constr.datalen; m++) {
uint32_tArray val_conv_12 = val_vals[m];
LDKCVec_RouteHopZ val_conv_12_constr;
val_conv_12_constr.data = MALLOC(val_conv_12_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
val_conv_12_constr.data = NULL;
- uint32_t* val_conv_12_vals = val_conv_12->elems;
+ uint32_t* val_conv_12_vals = val_conv_12->elems /* XXX val_conv_12 leaks */;
for (size_t k = 0; k < val_conv_12_constr.datalen; k++) {
uint32_t val_conv_12_conv_10 = val_conv_12_vals[k];
LDKRouteHop val_conv_12_conv_10_conv;
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPayee ret_var = Route_get_payee(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
paths_arg_constr.data = MALLOC(paths_arg_constr.datalen * sizeof(LDKCVec_RouteHopZ), "LDKCVec_CVec_RouteHopZZ Elements");
else
paths_arg_constr.data = NULL;
- uint32_tArray* paths_arg_vals = (void*) paths_arg->elems;
+ uint32_tArray* paths_arg_vals = (void*) paths_arg->elems /* XXX paths_arg leaks */;
for (size_t m = 0; m < paths_arg_constr.datalen; m++) {
uint32_tArray paths_arg_conv_12 = paths_arg_vals[m];
LDKCVec_RouteHopZ paths_arg_conv_12_constr;
paths_arg_conv_12_constr.data = MALLOC(paths_arg_conv_12_constr.datalen * sizeof(LDKRouteHop), "LDKCVec_RouteHopZ Elements");
else
paths_arg_conv_12_constr.data = NULL;
- uint32_t* paths_arg_conv_12_vals = paths_arg_conv_12->elems;
+ uint32_t* paths_arg_conv_12_vals = paths_arg_conv_12->elems /* XXX paths_arg_conv_12 leaks */;
for (size_t k = 0; k < paths_arg_conv_12_constr.datalen; k++) {
uint32_t paths_arg_conv_12_conv_10 = paths_arg_conv_12_vals[k];
LDKRouteHop paths_arg_conv_12_conv_10_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(payee_arg_conv);
payee_arg_conv = Payee_clone(&payee_arg_conv);
LDKRoute ret_var = Route_new(paths_arg_constr, payee_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t Route_clone_ptr(LDKRoute *NONNULL_PTR arg) {
LDKRoute ret_var = Route_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Route_clone_ptr"))) TS_Route_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Route_clone_ptr"))) TS_Route_clone_ptr(uint32_t arg) {
LDKRoute arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Route_clone_ptr(&arg_conv);
+ intptr_t ret_val = Route_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRoute ret_var = Route_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = Route_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Route_read"))) TS_Route_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RouteDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteDecodeErrorZ), "LDKCResult_RouteDecodeErrorZ");
*ret_conv = Route_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_RouteParameters_free"))) TS_RouteParameters_free(uint32_t this_obj) {
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPayee ret_var = RouteParameters_get_payee(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(payee_arg_conv);
payee_arg_conv = Payee_clone(&payee_arg_conv);
LDKRouteParameters ret_var = RouteParameters_new(payee_arg_conv, final_value_msat_arg, final_cltv_expiry_delta_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t RouteParameters_clone_ptr(LDKRouteParameters *NONNULL_PTR arg) {
LDKRouteParameters ret_var = RouteParameters_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_RouteParameters_clone_ptr"))) TS_RouteParameters_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_RouteParameters_clone_ptr"))) TS_RouteParameters_clone_ptr(uint32_t arg) {
LDKRouteParameters arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = RouteParameters_clone_ptr(&arg_conv);
+ intptr_t ret_val = RouteParameters_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRouteParameters ret_var = RouteParameters_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = RouteParameters_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_RouteParameters_read"))) TS_RouteParameters_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RouteParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteParametersDecodeErrorZ), "LDKCResult_RouteParametersDecodeErrorZ");
*ret_conv = RouteParameters_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_Payee_free"))) TS_Payee_free(uint32_t this_obj) {
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, Payee_get_pubkey(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
Payee_set_pubkey(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKInvoiceFeatures ret_var = Payee_get_features(&this_ptr_conv);
- uint64_t ret_ref = 0;
- if ((uint64_t)ret_var.inner > 4096) {
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ if ((uintptr_t)ret_var.inner > 4096) {
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_RouteHintZ ret_var = Payee_get_route_hints(&this_ptr_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t l = 0; l < ret_var.datalen; l++) {
LDKRouteHint ret_conv_11_var = ret_var.data[l];
- uint64_t ret_conv_11_ref = 0;
- CHECK((((uint64_t)ret_conv_11_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_11_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_11_ref = 0;
+ CHECK((((uintptr_t)ret_conv_11_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_11_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_11_var);
- ret_conv_11_ref = (uint64_t)ret_conv_11_var.inner;
+ ret_conv_11_ref = (uintptr_t)ret_conv_11_var.inner;
if (ret_conv_11_var.is_owned) {
ret_conv_11_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKRouteHint), "LDKCVec_RouteHintZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t l = 0; l < val_constr.datalen; l++) {
uint32_t val_conv_11 = val_vals[l];
LDKRouteHint val_conv_11_conv;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = Payee_get_expiry_time(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
Payee_set_expiry_time(&this_ptr_conv, val_conv);
}
uint32_t __attribute__((export_name("TS_Payee_new"))) TS_Payee_new(int8_tArray pubkey_arg, uint32_t features_arg, uint32_tArray route_hints_arg, uint32_t expiry_time_arg) {
LDKPublicKey pubkey_arg_ref;
CHECK(pubkey_arg->arr_len == 33);
- memcpy(pubkey_arg_ref.compressed_form, pubkey_arg->elems, 33);
+ memcpy(pubkey_arg_ref.compressed_form, pubkey_arg->elems, 33); FREE(pubkey_arg);
LDKInvoiceFeatures features_arg_conv;
features_arg_conv.inner = (void*)(features_arg & (~1));
features_arg_conv.is_owned = (features_arg & 1) || (features_arg == 0);
route_hints_arg_constr.data = MALLOC(route_hints_arg_constr.datalen * sizeof(LDKRouteHint), "LDKCVec_RouteHintZ Elements");
else
route_hints_arg_constr.data = NULL;
- uint32_t* route_hints_arg_vals = route_hints_arg->elems;
+ uint32_t* route_hints_arg_vals = route_hints_arg->elems /* XXX route_hints_arg leaks */;
for (size_t l = 0; l < route_hints_arg_constr.datalen; l++) {
uint32_t route_hints_arg_conv_11 = route_hints_arg_vals[l];
LDKRouteHint route_hints_arg_conv_11_conv;
route_hints_arg_conv_11_conv = RouteHint_clone(&route_hints_arg_conv_11_conv);
route_hints_arg_constr.data[l] = route_hints_arg_conv_11_conv;
}
- void* expiry_time_arg_ptr = (void*)(((uint64_t)expiry_time_arg) & ~1);
+ void* expiry_time_arg_ptr = (void*)(((uintptr_t)expiry_time_arg) & ~1);
CHECK_ACCESS(expiry_time_arg_ptr);
LDKCOption_u64Z expiry_time_arg_conv = *(LDKCOption_u64Z*)(expiry_time_arg_ptr);
- expiry_time_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)expiry_time_arg) & ~1));
+ expiry_time_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)expiry_time_arg) & ~1));
LDKPayee ret_var = Payee_new(pubkey_arg_ref, features_arg_conv, route_hints_arg_constr, expiry_time_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t Payee_clone_ptr(LDKPayee *NONNULL_PTR arg) {
LDKPayee ret_var = Payee_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_Payee_clone_ptr"))) TS_Payee_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_Payee_clone_ptr"))) TS_Payee_clone_ptr(uint32_t arg) {
LDKPayee arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = Payee_clone_ptr(&arg_conv);
+ intptr_t ret_val = Payee_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKPayee ret_var = Payee_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = Payee_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_Payee_read"))) TS_Payee_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_PayeeDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_PayeeDecodeErrorZ), "LDKCResult_PayeeDecodeErrorZ");
*ret_conv = Payee_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_Payee_from_node_id"))) TS_Payee_from_node_id(int8_tArray pubkey) {
LDKPublicKey pubkey_ref;
CHECK(pubkey->arr_len == 33);
- memcpy(pubkey_ref.compressed_form, pubkey->elems, 33);
+ memcpy(pubkey_ref.compressed_form, pubkey->elems, 33); FREE(pubkey);
LDKPayee ret_var = Payee_from_node_id(pubkey_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_Payee_for_keysend"))) TS_Payee_for_keysend(int8_tArray pubkey) {
LDKPublicKey pubkey_ref;
CHECK(pubkey->arr_len == 33);
- memcpy(pubkey_ref.compressed_form, pubkey->elems, 33);
+ memcpy(pubkey_ref.compressed_form, pubkey->elems, 33); FREE(pubkey);
LDKPayee ret_var = Payee_for_keysend(pubkey_ref);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCVec_RouteHintHopZ ret_var = RouteHint_get_a(&this_ptr_conv);
uint32_tArray ret_arr = NULL;
- ret_arr = init_uint32_tArray(ret_var.datalen);
+ ret_arr = init_uint32_tArray(ret_var.datalen, __LINE__);
uint32_t *ret_arr_ptr = (uint32_t*)(((uint8_t*)ret_arr) + 4);
for (size_t o = 0; o < ret_var.datalen; o++) {
LDKRouteHintHop ret_conv_14_var = ret_var.data[o];
- uint64_t ret_conv_14_ref = 0;
- CHECK((((uint64_t)ret_conv_14_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_conv_14_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_conv_14_ref = 0;
+ CHECK((((uintptr_t)ret_conv_14_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_conv_14_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_conv_14_var);
- ret_conv_14_ref = (uint64_t)ret_conv_14_var.inner;
+ ret_conv_14_ref = (uintptr_t)ret_conv_14_var.inner;
if (ret_conv_14_var.is_owned) {
ret_conv_14_ref |= 1;
}
val_constr.data = MALLOC(val_constr.datalen * sizeof(LDKRouteHintHop), "LDKCVec_RouteHintHopZ Elements");
else
val_constr.data = NULL;
- uint32_t* val_vals = val->elems;
+ uint32_t* val_vals = val->elems /* XXX val leaks */;
for (size_t o = 0; o < val_constr.datalen; o++) {
uint32_t val_conv_14 = val_vals[o];
LDKRouteHintHop val_conv_14_conv;
a_arg_constr.data = MALLOC(a_arg_constr.datalen * sizeof(LDKRouteHintHop), "LDKCVec_RouteHintHopZ Elements");
else
a_arg_constr.data = NULL;
- uint32_t* a_arg_vals = a_arg->elems;
+ uint32_t* a_arg_vals = a_arg->elems /* XXX a_arg leaks */;
for (size_t o = 0; o < a_arg_constr.datalen; o++) {
uint32_t a_arg_conv_14 = a_arg_vals[o];
LDKRouteHintHop a_arg_conv_14_conv;
a_arg_constr.data[o] = a_arg_conv_14_conv;
}
LDKRouteHint ret_var = RouteHint_new(a_arg_constr);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t RouteHint_clone_ptr(LDKRouteHint *NONNULL_PTR arg) {
LDKRouteHint ret_var = RouteHint_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_RouteHint_clone_ptr"))) TS_RouteHint_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_RouteHint_clone_ptr"))) TS_RouteHint_clone_ptr(uint32_t arg) {
LDKRouteHint arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = RouteHint_clone_ptr(&arg_conv);
+ intptr_t ret_val = RouteHint_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRouteHint ret_var = RouteHint_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = RouteHint_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_RouteHint_read"))) TS_RouteHint_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RouteHintDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintDecodeErrorZ), "LDKCResult_RouteHintDecodeErrorZ");
*ret_conv = RouteHint_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_RouteHintHop_free"))) TS_RouteHintHop_free(uint32_t this_obj) {
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- int8_tArray ret_arr = init_int8_tArray(33);
+ int8_tArray ret_arr = init_int8_tArray(33, __LINE__);
memcpy(ret_arr->elems, RouteHintHop_get_src_node_id(&this_ptr_conv).compressed_form, 33);
return ret_arr;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKPublicKey val_ref;
CHECK(val->arr_len == 33);
- memcpy(val_ref.compressed_form, val->elems, 33);
+ memcpy(val_ref.compressed_form, val->elems, 33); FREE(val);
RouteHintHop_set_src_node_id(&this_ptr_conv, val_ref);
}
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKRoutingFees ret_var = RouteHintHop_get_fees(&this_ptr_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = RouteHintHop_get_htlc_minimum_msat(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
RouteHintHop_set_htlc_minimum_msat(&this_ptr_conv, val_conv);
}
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
LDKCOption_u64Z *ret_copy = MALLOC(sizeof(LDKCOption_u64Z), "LDKCOption_u64Z");
*ret_copy = RouteHintHop_get_htlc_maximum_msat(&this_ptr_conv);
- uint64_t ret_ref = (uint64_t)ret_copy;
+ uintptr_t ret_ref = (uintptr_t)ret_copy;
return ret_ref;
}
this_ptr_conv.inner = (void*)(this_ptr & (~1));
this_ptr_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(this_ptr_conv);
- void* val_ptr = (void*)(((uint64_t)val) & ~1);
+ void* val_ptr = (void*)(((uintptr_t)val) & ~1);
CHECK_ACCESS(val_ptr);
LDKCOption_u64Z val_conv = *(LDKCOption_u64Z*)(val_ptr);
- val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)val) & ~1));
+ val_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)val) & ~1));
RouteHintHop_set_htlc_maximum_msat(&this_ptr_conv, val_conv);
}
uint32_t __attribute__((export_name("TS_RouteHintHop_new"))) TS_RouteHintHop_new(int8_tArray src_node_id_arg, int64_t short_channel_id_arg, uint32_t fees_arg, int16_t cltv_expiry_delta_arg, uint32_t htlc_minimum_msat_arg, uint32_t htlc_maximum_msat_arg) {
LDKPublicKey src_node_id_arg_ref;
CHECK(src_node_id_arg->arr_len == 33);
- memcpy(src_node_id_arg_ref.compressed_form, src_node_id_arg->elems, 33);
+ memcpy(src_node_id_arg_ref.compressed_form, src_node_id_arg->elems, 33); FREE(src_node_id_arg);
LDKRoutingFees fees_arg_conv;
fees_arg_conv.inner = (void*)(fees_arg & (~1));
fees_arg_conv.is_owned = (fees_arg & 1) || (fees_arg == 0);
CHECK_INNER_FIELD_ACCESS_OR_NULL(fees_arg_conv);
fees_arg_conv = RoutingFees_clone(&fees_arg_conv);
- void* htlc_minimum_msat_arg_ptr = (void*)(((uint64_t)htlc_minimum_msat_arg) & ~1);
+ void* htlc_minimum_msat_arg_ptr = (void*)(((uintptr_t)htlc_minimum_msat_arg) & ~1);
CHECK_ACCESS(htlc_minimum_msat_arg_ptr);
LDKCOption_u64Z htlc_minimum_msat_arg_conv = *(LDKCOption_u64Z*)(htlc_minimum_msat_arg_ptr);
- htlc_minimum_msat_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)htlc_minimum_msat_arg) & ~1));
- void* htlc_maximum_msat_arg_ptr = (void*)(((uint64_t)htlc_maximum_msat_arg) & ~1);
+ htlc_minimum_msat_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)htlc_minimum_msat_arg) & ~1));
+ void* htlc_maximum_msat_arg_ptr = (void*)(((uintptr_t)htlc_maximum_msat_arg) & ~1);
CHECK_ACCESS(htlc_maximum_msat_arg_ptr);
LDKCOption_u64Z htlc_maximum_msat_arg_conv = *(LDKCOption_u64Z*)(htlc_maximum_msat_arg_ptr);
- htlc_maximum_msat_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uint64_t)htlc_maximum_msat_arg) & ~1));
+ htlc_maximum_msat_arg_conv = COption_u64Z_clone((LDKCOption_u64Z*)(((uintptr_t)htlc_maximum_msat_arg) & ~1));
LDKRouteHintHop ret_var = RouteHintHop_new(src_node_id_arg_ref, short_channel_id_arg, fees_arg_conv, cltv_expiry_delta_arg, htlc_minimum_msat_arg_conv, htlc_maximum_msat_arg_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
static inline uintptr_t RouteHintHop_clone_ptr(LDKRouteHintHop *NONNULL_PTR arg) {
LDKRouteHintHop ret_var = RouteHintHop_clone(arg);
-uint64_t ret_ref = 0;
-CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
-CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+uintptr_t ret_ref = 0;
+CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
-ret_ref = (uint64_t)ret_var.inner;
+ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
return ret_ref;
}
-int64_t __attribute__((export_name("TS_RouteHintHop_clone_ptr"))) TS_RouteHintHop_clone_ptr(uint32_t arg) {
+intptr_t __attribute__((export_name("TS_RouteHintHop_clone_ptr"))) TS_RouteHintHop_clone_ptr(uint32_t arg) {
LDKRouteHintHop arg_conv;
arg_conv.inner = (void*)(arg & (~1));
arg_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(arg_conv);
- int64_t ret_val = RouteHintHop_clone_ptr(&arg_conv);
+ intptr_t ret_val = RouteHintHop_clone_ptr(&arg_conv);
return ret_val;
}
orig_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(orig_conv);
LDKRouteHintHop ret_var = RouteHintHop_clone(&orig_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = RouteHintHop_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_RouteHintHop_read"))) TS_RouteHintHop_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_RouteHintHopDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteHintHopDecodeErrorZ), "LDKCResult_RouteHintHopDecodeErrorZ");
*ret_conv = RouteHintHop_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_find_route"))) TS_find_route(int8_tArray our_node_pubkey, uint32_t params, uint32_t network, uint32_tArray first_hops, uint32_t logger, uint32_t scorer) {
LDKPublicKey our_node_pubkey_ref;
CHECK(our_node_pubkey->arr_len == 33);
- memcpy(our_node_pubkey_ref.compressed_form, our_node_pubkey->elems, 33);
+ memcpy(our_node_pubkey_ref.compressed_form, our_node_pubkey->elems, 33); FREE(our_node_pubkey);
LDKRouteParameters params_conv;
params_conv.inner = (void*)(params & (~1));
params_conv.is_owned = false;
first_hops_constr.data = MALLOC(first_hops_constr.datalen * sizeof(LDKChannelDetails), "LDKCVec_ChannelDetailsZ Elements");
else
first_hops_constr.data = NULL;
- uint32_t* first_hops_vals = first_hops->elems;
+ uint32_t* first_hops_vals = first_hops->elems /* XXX first_hops leaks */;
for (size_t q = 0; q < first_hops_constr.datalen; q++) {
uint32_t first_hops_conv_16 = first_hops_vals[q];
LDKChannelDetails first_hops_conv_16_conv;
}
first_hops_ptr = &first_hops_constr;
}
- void* logger_ptr = (void*)(((uint64_t)logger) & ~1);
+ void* logger_ptr = (void*)(((uintptr_t)logger) & ~1);
CHECK_ACCESS(logger_ptr);
LDKLogger logger_conv = *(LDKLogger*)(logger_ptr);
- void* scorer_ptr = (void*)(((uint64_t)scorer) & ~1);
+ void* scorer_ptr = (void*)(((uintptr_t)scorer) & ~1);
if (!(scorer & 1)) { CHECK_ACCESS(scorer_ptr); }
LDKScore* scorer_conv = (LDKScore*)scorer_ptr;
LDKCResult_RouteLightningErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_RouteLightningErrorZ), "LDKCResult_RouteLightningErrorZ");
*ret_conv = find_route(our_node_pubkey_ref, ¶ms_conv, &network_conv, first_hops_ptr, logger_conv, scorer_conv);
if (first_hops_ptr != NULL) { FREE(first_hops_constr.data); }
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
void __attribute__((export_name("TS_Score_free"))) TS_Score_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKScore this_ptr_conv = *(LDKScore*)(this_ptr_ptr);
FREE((void*)this_ptr);
void __attribute__((export_name("TS_LockableScore_free"))) TS_LockableScore_free(uint32_t this_ptr) {
if ((this_ptr & 1) != 0) return;
- void* this_ptr_ptr = (void*)(((uint64_t)this_ptr) & ~1);
+ void* this_ptr_ptr = (void*)(((uintptr_t)this_ptr) & ~1);
CHECK_ACCESS(this_ptr_ptr);
LDKLockableScore this_ptr_conv = *(LDKLockableScore*)(this_ptr_ptr);
FREE((void*)this_ptr);
}
uint32_t __attribute__((export_name("TS_MultiThreadedLockableScore_new"))) TS_MultiThreadedLockableScore_new(uint32_t score) {
- void* score_ptr = (void*)(((uint64_t)score) & ~1);
+ void* score_ptr = (void*)(((uintptr_t)score) & ~1);
CHECK_ACCESS(score_ptr);
LDKScore score_conv = *(LDKScore*)(score_ptr);
LDKMultiThreadedLockableScore ret_var = MultiThreadedLockableScore_new(score_conv);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
uint32_t __attribute__((export_name("TS_ScoringParameters_new"))) TS_ScoringParameters_new(int64_t base_penalty_msat_arg, int64_t failure_penalty_msat_arg, int16_t overuse_penalty_start_1024th_arg, int64_t overuse_penalty_msat_per_1024th_arg, int64_t failure_penalty_half_life_arg) {
LDKScoringParameters ret_var = ScoringParameters_new(base_penalty_msat_arg, failure_penalty_msat_arg, overuse_penalty_start_1024th_arg, overuse_penalty_msat_per_1024th_arg, failure_penalty_half_life_arg);
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}
obj_conv.is_owned = false;
CHECK_INNER_FIELD_ACCESS_OR_NULL(obj_conv);
LDKCVec_u8Z ret_var = ScoringParameters_write(&obj_conv);
- int8_tArray ret_arr = init_int8_tArray(ret_var.datalen);
+ int8_tArray ret_arr = init_int8_tArray(ret_var.datalen, __LINE__);
memcpy(ret_arr->elems, ret_var.data, ret_var.datalen);
CVec_u8Z_free(ret_var);
return ret_arr;
uint32_t __attribute__((export_name("TS_ScoringParameters_read"))) TS_ScoringParameters_read(int8_tArray ser) {
LDKu8slice ser_ref;
ser_ref.datalen = ser->arr_len;
- ser_ref.data = ser->elems;
+ ser_ref.data = ser->elems /* XXX ser leaks */;
LDKCResult_ScoringParametersDecodeErrorZ* ret_conv = MALLOC(sizeof(LDKCResult_ScoringParametersDecodeErrorZ), "LDKCResult_ScoringParametersDecodeErrorZ");
*ret_conv = ScoringParameters_read(ser_ref);
- return (uint64_t)ret_conv;
+ return (uintptr_t)ret_conv;
}
uint32_t __attribute__((export_name("TS_ScoringParameters_default"))) TS_ScoringParameters_default() {
LDKScoringParameters ret_var = ScoringParameters_default();
- uint64_t ret_ref = 0;
- CHECK((((uint64_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
- CHECK((((uint64_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
+ uintptr_t ret_ref = 0;
+ CHECK((((uintptr_t)ret_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.
+ CHECK((((uintptr_t)&ret_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.
CHECK_INNER_FIELD_ACCESS_OR_NULL(ret_var);
- ret_ref = (uint64_t)ret_var.inner;
+ ret_ref = (uintptr_t)ret_var.inner;
if (ret_var.is_owned) {
ret_ref |= 1;
}