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interchainjs

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InterchainJS is a JavaScript library for interacting with Cosmos SDK based blockchains.

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"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.MerkleProof = exports.MerklePrefix = exports.MerkleRoot = void 0; const proofs_1 = require("../../../../cosmos/ics23/v1/proofs"); const binary_1 = require("../../../../binary"); const helpers_1 = require("../../../../helpers"); const registry_1 = require("../../../../registry"); function createBaseMerkleRoot() { return { hash: new Uint8Array() }; } /** * MerkleRoot defines a merkle root hash. * In the Cosmos SDK, the AppHash of a block header becomes the root. * @name MerkleRoot * @package ibc.core.commitment.v1 * @see proto type: ibc.core.commitment.v1.MerkleRoot */ exports.MerkleRoot = { typeUrl: "/ibc.core.commitment.v1.MerkleRoot", aminoType: "cosmos-sdk/MerkleRoot", is(o) { return o && (o.$typeUrl === exports.MerkleRoot.typeUrl || o.hash instanceof Uint8Array || typeof o.hash === "string"); }, isAmino(o) { return o && (o.$typeUrl === exports.MerkleRoot.typeUrl || o.hash instanceof Uint8Array || typeof o.hash === "string"); }, encode(message, writer = binary_1.BinaryWriter.create()) { if (message.hash.length !== 0) { writer.uint32(10).bytes(message.hash); } return writer; }, decode(input, length) { const reader = input instanceof binary_1.BinaryReader ? input : new binary_1.BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseMerkleRoot(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.hash = reader.bytes(); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseMerkleRoot(); message.hash = object.hash ?? new Uint8Array(); return message; }, fromAmino(object) { const message = createBaseMerkleRoot(); if (object.hash !== undefined && object.hash !== null) { message.hash = (0, helpers_1.bytesFromBase64)(object.hash); } return message; }, toAmino(message) { const obj = {}; obj.hash = message.hash ? (0, helpers_1.base64FromBytes)(message.hash) : undefined; return obj; }, fromAminoMsg(object) { return exports.MerkleRoot.fromAmino(object.value); }, toAminoMsg(message) { return { type: "cosmos-sdk/MerkleRoot", value: exports.MerkleRoot.toAmino(message) }; }, fromProtoMsg(message) { return exports.MerkleRoot.decode(message.value); }, toProto(message) { return exports.MerkleRoot.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/ibc.core.commitment.v1.MerkleRoot", value: exports.MerkleRoot.encode(message).finish() }; }, registerTypeUrl() { } }; function createBaseMerklePrefix() { return { keyPrefix: new Uint8Array() }; } /** * MerklePrefix is merkle path prefixed to the key. * The constructed key from the Path and the key will be append(Path.KeyPath, * append(Path.KeyPrefix, key...)) * @name MerklePrefix * @package ibc.core.commitment.v1 * @see proto type: ibc.core.commitment.v1.MerklePrefix */ exports.MerklePrefix = { typeUrl: "/ibc.core.commitment.v1.MerklePrefix", aminoType: "cosmos-sdk/MerklePrefix", is(o) { return o && (o.$typeUrl === exports.MerklePrefix.typeUrl || o.keyPrefix instanceof Uint8Array || typeof o.keyPrefix === "string"); }, isAmino(o) { return o && (o.$typeUrl === exports.MerklePrefix.typeUrl || o.key_prefix instanceof Uint8Array || typeof o.key_prefix === "string"); }, encode(message, writer = binary_1.BinaryWriter.create()) { if (message.keyPrefix.length !== 0) { writer.uint32(10).bytes(message.keyPrefix); } return writer; }, decode(input, length) { const reader = input instanceof binary_1.BinaryReader ? input : new binary_1.BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseMerklePrefix(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.keyPrefix = reader.bytes(); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseMerklePrefix(); message.keyPrefix = object.keyPrefix ?? new Uint8Array(); return message; }, fromAmino(object) { const message = createBaseMerklePrefix(); if (object.key_prefix !== undefined && object.key_prefix !== null) { message.keyPrefix = (0, helpers_1.bytesFromBase64)(object.key_prefix); } return message; }, toAmino(message) { const obj = {}; obj.key_prefix = message.keyPrefix ? (0, helpers_1.base64FromBytes)(message.keyPrefix) : undefined; return obj; }, fromAminoMsg(object) { return exports.MerklePrefix.fromAmino(object.value); }, toAminoMsg(message) { return { type: "cosmos-sdk/MerklePrefix", value: exports.MerklePrefix.toAmino(message) }; }, fromProtoMsg(message) { return exports.MerklePrefix.decode(message.value); }, toProto(message) { return exports.MerklePrefix.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/ibc.core.commitment.v1.MerklePrefix", value: exports.MerklePrefix.encode(message).finish() }; }, registerTypeUrl() { } }; function createBaseMerkleProof() { return { proofs: [] }; } /** * MerkleProof is a wrapper type over a chain of CommitmentProofs. * It demonstrates membership or non-membership for an element or set of * elements, verifiable in conjunction with a known commitment root. Proofs * should be succinct. * MerkleProofs are ordered from leaf-to-root * @name MerkleProof * @package ibc.core.commitment.v1 * @see proto type: ibc.core.commitment.v1.MerkleProof */ exports.MerkleProof = { typeUrl: "/ibc.core.commitment.v1.MerkleProof", aminoType: "cosmos-sdk/MerkleProof", is(o) { return o && (o.$typeUrl === exports.MerkleProof.typeUrl || Array.isArray(o.proofs) && (!o.proofs.length || proofs_1.CommitmentProof.is(o.proofs[0]))); }, isAmino(o) { return o && (o.$typeUrl === exports.MerkleProof.typeUrl || Array.isArray(o.proofs) && (!o.proofs.length || proofs_1.CommitmentProof.isAmino(o.proofs[0]))); }, encode(message, writer = binary_1.BinaryWriter.create()) { for (const v of message.proofs) { proofs_1.CommitmentProof.encode(v, writer.uint32(10).fork()).ldelim(); } return writer; }, decode(input, length) { const reader = input instanceof binary_1.BinaryReader ? input : new binary_1.BinaryReader(input); let end = length === undefined ? reader.len : reader.pos + length; const message = createBaseMerkleProof(); while (reader.pos < end) { const tag = reader.uint32(); switch (tag >>> 3) { case 1: message.proofs.push(proofs_1.CommitmentProof.decode(reader, reader.uint32())); break; default: reader.skipType(tag & 7); break; } } return message; }, fromPartial(object) { const message = createBaseMerkleProof(); message.proofs = object.proofs?.map(e => proofs_1.CommitmentProof.fromPartial(e)) || []; return message; }, fromAmino(object) { const message = createBaseMerkleProof(); message.proofs = object.proofs?.map(e => proofs_1.CommitmentProof.fromAmino(e)) || []; return message; }, toAmino(message) { const obj = {}; if (message.proofs) { obj.proofs = message.proofs.map(e => e ? proofs_1.CommitmentProof.toAmino(e) : undefined); } else { obj.proofs = message.proofs; } return obj; }, fromAminoMsg(object) { return exports.MerkleProof.fromAmino(object.value); }, toAminoMsg(message) { return { type: "cosmos-sdk/MerkleProof", value: exports.MerkleProof.toAmino(message) }; }, fromProtoMsg(message) { return exports.MerkleProof.decode(message.value); }, toProto(message) { return exports.MerkleProof.encode(message).finish(); }, toProtoMsg(message) { return { typeUrl: "/ibc.core.commitment.v1.MerkleProof", value: exports.MerkleProof.encode(message).finish() }; }, registerTypeUrl() { if (!registry_1.GlobalDecoderRegistry.registerExistingTypeUrl(exports.MerkleProof.typeUrl)) { return; } proofs_1.CommitmentProof.registerTypeUrl(); } };