@bandprotocol/bandchain.js
Version:
Library for interacting with BandChain in browser and Node.js environments
279 lines (278 loc) • 11.1 kB
text/typescript
/**
* Generated by the protoc-gen-ts. DO NOT EDIT!
* compiler version: 3.20.3
* source: ibc/core/commitment/v1/commitment.proto
* git: https://github.com/thesayyn/protoc-gen-ts */
import * as dependency_1 from "./../../../../gogoproto/gogo";
import * as dependency_2 from "./../../../../cosmos/ics23/v1/proofs";
import * as pb_1 from "google-protobuf";
export namespace ibc.core.commitment.v1 {
export class MerkleRoot extends pb_1.Message {
#one_of_decls: number[][] = [];
constructor(data?: any[] | {
hash?: Uint8Array;
}) {
super();
pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls);
if (!Array.isArray(data) && typeof data == "object") {
if ("hash" in data && data.hash != undefined) {
this.hash = data.hash;
}
}
}
get hash() {
return pb_1.Message.getFieldWithDefault(this, 1, new Uint8Array(0)) as Uint8Array;
}
set hash(value: Uint8Array) {
pb_1.Message.setField(this, 1, value);
}
static fromObject(data: {
hash?: Uint8Array;
}): MerkleRoot {
const message = new MerkleRoot({});
if (data.hash != null) {
message.hash = data.hash;
}
return message;
}
toObject() {
const data: {
hash?: Uint8Array;
} = {};
if (this.hash != null) {
data.hash = this.hash;
}
return data;
}
serialize(): Uint8Array;
serialize(w: pb_1.BinaryWriter): void;
serialize(w?: pb_1.BinaryWriter): Uint8Array | void {
const writer = w || new pb_1.BinaryWriter();
if (this.hash.length)
writer.writeBytes(1, this.hash);
if (!w)
return writer.getResultBuffer();
}
static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MerkleRoot {
const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MerkleRoot();
while (reader.nextField()) {
if (reader.isEndGroup())
break;
switch (reader.getFieldNumber()) {
case 1:
message.hash = reader.readBytes();
break;
default: reader.skipField();
}
}
return message;
}
serializeBinary(): Uint8Array {
return this.serialize();
}
static deserializeBinary(bytes: Uint8Array): MerkleRoot {
return MerkleRoot.deserialize(bytes);
}
}
export class MerklePrefix extends pb_1.Message {
#one_of_decls: number[][] = [];
constructor(data?: any[] | {
key_prefix?: Uint8Array;
}) {
super();
pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [], this.#one_of_decls);
if (!Array.isArray(data) && typeof data == "object") {
if ("key_prefix" in data && data.key_prefix != undefined) {
this.key_prefix = data.key_prefix;
}
}
}
get key_prefix() {
return pb_1.Message.getFieldWithDefault(this, 1, new Uint8Array(0)) as Uint8Array;
}
set key_prefix(value: Uint8Array) {
pb_1.Message.setField(this, 1, value);
}
static fromObject(data: {
key_prefix?: Uint8Array;
}): MerklePrefix {
const message = new MerklePrefix({});
if (data.key_prefix != null) {
message.key_prefix = data.key_prefix;
}
return message;
}
toObject() {
const data: {
key_prefix?: Uint8Array;
} = {};
if (this.key_prefix != null) {
data.key_prefix = this.key_prefix;
}
return data;
}
serialize(): Uint8Array;
serialize(w: pb_1.BinaryWriter): void;
serialize(w?: pb_1.BinaryWriter): Uint8Array | void {
const writer = w || new pb_1.BinaryWriter();
if (this.key_prefix.length)
writer.writeBytes(1, this.key_prefix);
if (!w)
return writer.getResultBuffer();
}
static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MerklePrefix {
const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MerklePrefix();
while (reader.nextField()) {
if (reader.isEndGroup())
break;
switch (reader.getFieldNumber()) {
case 1:
message.key_prefix = reader.readBytes();
break;
default: reader.skipField();
}
}
return message;
}
serializeBinary(): Uint8Array {
return this.serialize();
}
static deserializeBinary(bytes: Uint8Array): MerklePrefix {
return MerklePrefix.deserialize(bytes);
}
}
export class MerklePath extends pb_1.Message {
#one_of_decls: number[][] = [];
constructor(data?: any[] | {
key_path?: string[];
}) {
super();
pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], this.#one_of_decls);
if (!Array.isArray(data) && typeof data == "object") {
if ("key_path" in data && data.key_path != undefined) {
this.key_path = data.key_path;
}
}
}
get key_path() {
return pb_1.Message.getFieldWithDefault(this, 1, []) as string[];
}
set key_path(value: string[]) {
pb_1.Message.setField(this, 1, value);
}
static fromObject(data: {
key_path?: string[];
}): MerklePath {
const message = new MerklePath({});
if (data.key_path != null) {
message.key_path = data.key_path;
}
return message;
}
toObject() {
const data: {
key_path?: string[];
} = {};
if (this.key_path != null) {
data.key_path = this.key_path;
}
return data;
}
serialize(): Uint8Array;
serialize(w: pb_1.BinaryWriter): void;
serialize(w?: pb_1.BinaryWriter): Uint8Array | void {
const writer = w || new pb_1.BinaryWriter();
if (this.key_path.length)
writer.writeRepeatedString(1, this.key_path);
if (!w)
return writer.getResultBuffer();
}
static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MerklePath {
const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MerklePath();
while (reader.nextField()) {
if (reader.isEndGroup())
break;
switch (reader.getFieldNumber()) {
case 1:
pb_1.Message.addToRepeatedField(message, 1, reader.readString());
break;
default: reader.skipField();
}
}
return message;
}
serializeBinary(): Uint8Array {
return this.serialize();
}
static deserializeBinary(bytes: Uint8Array): MerklePath {
return MerklePath.deserialize(bytes);
}
}
export class MerkleProof extends pb_1.Message {
#one_of_decls: number[][] = [];
constructor(data?: any[] | {
proofs?: dependency_2.cosmos.ics23.v1.CommitmentProof[];
}) {
super();
pb_1.Message.initialize(this, Array.isArray(data) ? data : [], 0, -1, [1], this.#one_of_decls);
if (!Array.isArray(data) && typeof data == "object") {
if ("proofs" in data && data.proofs != undefined) {
this.proofs = data.proofs;
}
}
}
get proofs() {
return pb_1.Message.getRepeatedWrapperField(this, dependency_2.cosmos.ics23.v1.CommitmentProof, 1) as dependency_2.cosmos.ics23.v1.CommitmentProof[];
}
set proofs(value: dependency_2.cosmos.ics23.v1.CommitmentProof[]) {
pb_1.Message.setRepeatedWrapperField(this, 1, value);
}
static fromObject(data: {
proofs?: ReturnType<typeof dependency_2.cosmos.ics23.v1.CommitmentProof.prototype.toObject>[];
}): MerkleProof {
const message = new MerkleProof({});
if (data.proofs != null) {
message.proofs = data.proofs.map(item => dependency_2.cosmos.ics23.v1.CommitmentProof.fromObject(item));
}
return message;
}
toObject() {
const data: {
proofs?: ReturnType<typeof dependency_2.cosmos.ics23.v1.CommitmentProof.prototype.toObject>[];
} = {};
if (this.proofs != null) {
data.proofs = this.proofs.map((item: dependency_2.cosmos.ics23.v1.CommitmentProof) => item.toObject());
}
return data;
}
serialize(): Uint8Array;
serialize(w: pb_1.BinaryWriter): void;
serialize(w?: pb_1.BinaryWriter): Uint8Array | void {
const writer = w || new pb_1.BinaryWriter();
if (this.proofs.length)
writer.writeRepeatedMessage(1, this.proofs, (item: dependency_2.cosmos.ics23.v1.CommitmentProof) => item.serialize(writer));
if (!w)
return writer.getResultBuffer();
}
static deserialize(bytes: Uint8Array | pb_1.BinaryReader): MerkleProof {
const reader = bytes instanceof pb_1.BinaryReader ? bytes : new pb_1.BinaryReader(bytes), message = new MerkleProof();
while (reader.nextField()) {
if (reader.isEndGroup())
break;
switch (reader.getFieldNumber()) {
case 1:
reader.readMessage(message.proofs, () => pb_1.Message.addToRepeatedWrapperField(message, 1, dependency_2.cosmos.ics23.v1.CommitmentProof.deserialize(reader), dependency_2.cosmos.ics23.v1.CommitmentProof));
break;
default: reader.skipField();
}
}
return message;
}
serializeBinary(): Uint8Array {
return this.serialize();
}
static deserializeBinary(bytes: Uint8Array): MerkleProof {
return MerkleProof.deserialize(bytes);
}
}
}