1 package org.ldk.structs;
3 import org.ldk.impl.bindings;
4 import org.ldk.enums.*;
6 import java.util.Arrays;
8 @SuppressWarnings("unchecked") // We correctly assign various generic arrays
9 public class RouteHop extends CommonBase {
10 RouteHop(Object _dummy, long ptr) { super(ptr); }
11 @Override @SuppressWarnings("deprecation")
12 protected void finalize() throws Throwable {
14 if (ptr != 0) { bindings.RouteHop_free(ptr); }
17 public RouteHop clone() {
18 long ret = bindings.RouteHop_clone(this.ptr);
19 RouteHop ret_hu_conv = new RouteHop(null, ret);
20 ret_hu_conv.ptrs_to.add(this);
24 public byte[] get_pubkey() {
25 byte[] ret = bindings.RouteHop_get_pubkey(this.ptr);
29 public void set_pubkey(byte[] val) {
30 bindings.RouteHop_set_pubkey(this.ptr, val);
33 public NodeFeatures get_node_features() {
34 long ret = bindings.RouteHop_get_node_features(this.ptr);
35 NodeFeatures ret_hu_conv = new NodeFeatures(null, ret);
36 ret_hu_conv.ptrs_to.add(this);
40 public void set_node_features(NodeFeatures val) {
41 bindings.RouteHop_set_node_features(this.ptr, val == null ? 0 : val.ptr & ~1);
42 this.ptrs_to.add(val);
43 // Due to rust's strict-ownership memory model, in some cases we need to "move"
44 // an object to pass exclusive ownership to the function being called.
45 // In most cases, we avoid this being visible in GC'd languages by cloning the object
46 // at the FFI layer, creating a new object which Rust can claim ownership of
47 // However, in some cases (eg here), there is no way to clone an object, and thus
48 // we actually have to pass full ownership to Rust.
49 // Thus, after this call, val is reset to null and is now a dummy object.
53 public long get_short_channel_id() {
54 long ret = bindings.RouteHop_get_short_channel_id(this.ptr);
58 public void set_short_channel_id(long val) {
59 bindings.RouteHop_set_short_channel_id(this.ptr, val);
62 public ChannelFeatures get_channel_features() {
63 long ret = bindings.RouteHop_get_channel_features(this.ptr);
64 ChannelFeatures ret_hu_conv = new ChannelFeatures(null, ret);
65 ret_hu_conv.ptrs_to.add(this);
69 public void set_channel_features(ChannelFeatures val) {
70 bindings.RouteHop_set_channel_features(this.ptr, val == null ? 0 : val.ptr & ~1);
71 this.ptrs_to.add(val);
72 // Due to rust's strict-ownership memory model, in some cases we need to "move"
73 // an object to pass exclusive ownership to the function being called.
74 // In most cases, we avoid this being visible in GC'd languages by cloning the object
75 // at the FFI layer, creating a new object which Rust can claim ownership of
76 // However, in some cases (eg here), there is no way to clone an object, and thus
77 // we actually have to pass full ownership to Rust.
78 // Thus, after this call, val is reset to null and is now a dummy object.
82 public long get_fee_msat() {
83 long ret = bindings.RouteHop_get_fee_msat(this.ptr);
87 public void set_fee_msat(long val) {
88 bindings.RouteHop_set_fee_msat(this.ptr, val);
91 public int get_cltv_expiry_delta() {
92 int ret = bindings.RouteHop_get_cltv_expiry_delta(this.ptr);
96 public void set_cltv_expiry_delta(int val) {
97 bindings.RouteHop_set_cltv_expiry_delta(this.ptr, val);
100 public static RouteHop constructor_new(byte[] pubkey_arg, NodeFeatures node_features_arg, long short_channel_id_arg, ChannelFeatures channel_features_arg, long fee_msat_arg, int cltv_expiry_delta_arg) {
101 long ret = bindings.RouteHop_new(pubkey_arg, node_features_arg == null ? 0 : node_features_arg.ptr & ~1, short_channel_id_arg, channel_features_arg == null ? 0 : channel_features_arg.ptr & ~1, fee_msat_arg, cltv_expiry_delta_arg);
102 RouteHop ret_hu_conv = new RouteHop(null, ret);
103 ret_hu_conv.ptrs_to.add(ret_hu_conv);
104 ret_hu_conv.ptrs_to.add(node_features_arg);
105 // Due to rust's strict-ownership memory model, in some cases we need to "move"
106 // an object to pass exclusive ownership to the function being called.
107 // In most cases, we avoid ret_hu_conv being visible in GC'd languages by cloning the object
108 // at the FFI layer, creating a new object which Rust can claim ownership of
109 // However, in some cases (eg here), there is no way to clone an object, and thus
110 // we actually have to pass full ownership to Rust.
111 // Thus, after ret_hu_conv call, node_features_arg is reset to null and is now a dummy object.
112 node_features_arg.ptr = 0;
113 ret_hu_conv.ptrs_to.add(channel_features_arg);
114 // Due to rust's strict-ownership memory model, in some cases we need to "move"
115 // an object to pass exclusive ownership to the function being called.
116 // In most cases, we avoid ret_hu_conv being visible in GC'd languages by cloning the object
117 // at the FFI layer, creating a new object which Rust can claim ownership of
118 // However, in some cases (eg here), there is no way to clone an object, and thus
119 // we actually have to pass full ownership to Rust.
120 // Thus, after ret_hu_conv call, channel_features_arg is reset to null and is now a dummy object.
121 channel_features_arg.ptr = 0;