number res_b = bindings.LDKC2Tuple_BlockHashChannelManagerZ_get_b(res);
const res_b_hu_conv: ChannelManager = new ChannelManager(null, res_b);
res_b_hu_conv.ptrs_to.add(this);;
- TwoTuple<Uint8Array, ChannelManager> res_conv = new TwoTuple<Uint8Array, ChannelManager>(res_a, res_b_hu_conv);
+ TwoTuple<Uint8Array, ChannelManager> res_conv = new TwoTuple<Uint8Array, ChannelManager>(res_a, res_b_hu_conv, () -> {
+ bindings.C2Tuple_BlockHashChannelManagerZ_free(res);
+ });
+ res_b_hu_conv.ptrs_to.add(res_conv);
this.res = res_conv;
}
- public Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_OK(TwoTuple<Uint8Array, ChannelManager> res) {
- this(null, bindings.CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok(bindings.C2Tuple_BlockHashChannelManagerZ_new(res.a, res.b == null ? 0 : res.b.ptr & ~1)));
- this.ptrs_to.add(res.b);
- // Due to rust's strict-ownership memory model, in some cases we need to "move"
- // an object to pass exclusive ownership to the function being called.
- // In most cases, we avoid this being visible in GC'd languages by cloning the object
- // at the FFI layer, creating a new object which Rust can claim ownership of
- // However, in some cases (eg here), there is no way to clone an object, and thus
- // we actually have to pass full ownership to Rust.
- // Thus, after this call, res.b is reset to null and is now a dummy object.
- res.b.ptr = 0;
- }
}
public static final class Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_Err extends Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ {
err_hu_conv.ptrs_to.add(this);
this.err = err_hu_conv;
}
- public Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_Err(DecodeError err) {
- this(null, bindings.CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err(err == null ? 0 : err.ptr & ~1));
- this.ptrs_to.add(err);
- }
}
+
+ public static Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ constructor__ok(TwoTuple<Uint8Array, ChannelManager> o) {
+ number ret = bindings.CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_ok(bindings.C2Tuple_BlockHashChannelManagerZ_new(o.a, o.b == null ? 0 : o.b.ptr & ~1));
+ Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ ret_hu_conv = Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ.constr_from_ptr(ret);
+ ret_hu_conv.ptrs_to.add(o.b);
+ // Due to rust's strict-ownership memory model, in some cases we need to "move"
+ // an object to pass exclusive ownership to the function being called.
+ // In most cases, we avoid ret_hu_conv being visible in GC'd languages by cloning the object
+ // at the FFI layer, creating a new object which Rust can claim ownership of
+ // However, in some cases (eg here), there is no way to clone an object, and thus
+ // we actually have to pass full ownership to Rust.
+ // Thus, after ret_hu_conv call, o.b is reset to null and is now a dummy object.
+ o.b.ptr = 0;
+ return ret_hu_conv;
+ }
+
+ public static Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ constructor__err(DecodeError e) {
+ number ret = bindings.CResult_C2Tuple_BlockHashChannelManagerZDecodeErrorZ_err(e == null ? 0 : e.ptr & ~1);
+ Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ ret_hu_conv = Result_C2Tuple_BlockHashChannelManagerZDecodeErrorZ.constr_from_ptr(ret);
+ ret_hu_conv.ptrs_to.add(e);
+ return ret_hu_conv;
+ }
+
}