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algo-msgpack-with-bigint

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MessagePack for JavaScript/ECMA-262, with changed behavior for BigInts

1,302 lines (1,270 loc) 80.8 kB
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}); __webpack_require__.d(__webpack_exports__, "decodeAsync", function() { return /* reexport */ decodeAsync; }); __webpack_require__.d(__webpack_exports__, "decodeArrayStream", function() { return /* reexport */ decodeArrayStream; }); __webpack_require__.d(__webpack_exports__, "decodeStream", function() { return /* reexport */ decodeStream; }); __webpack_require__.d(__webpack_exports__, "Decoder", function() { return /* reexport */ Decoder_Decoder; }); __webpack_require__.d(__webpack_exports__, "Encoder", function() { return /* reexport */ Encoder_Encoder; }); __webpack_require__.d(__webpack_exports__, "ExtensionCodec", function() { return /* reexport */ ExtensionCodec_ExtensionCodec; }); __webpack_require__.d(__webpack_exports__, "ExtData", function() { return /* reexport */ ExtData; }); __webpack_require__.d(__webpack_exports__, "EXT_TIMESTAMP", function() { return /* reexport */ EXT_TIMESTAMP; }); __webpack_require__.d(__webpack_exports__, "encodeDateToTimeSpec", function() { return /* reexport */ encodeDateToTimeSpec; }); __webpack_require__.d(__webpack_exports__, "encodeTimeSpecToTimestamp", function() { return /* reexport */ encodeTimeSpecToTimestamp; }); __webpack_require__.d(__webpack_exports__, "decodeTimestampToTimeSpec", function() { return /* reexport */ decodeTimestampToTimeSpec; }); __webpack_require__.d(__webpack_exports__, "encodeTimestampExtension", function() { return /* reexport */ encodeTimestampExtension; }); __webpack_require__.d(__webpack_exports__, "decodeTimestampExtension", function() { return /* reexport */ decodeTimestampExtension; }); // CONCATENATED MODULE: ./src/utils/utf8.ts var __read = (undefined && undefined.__read) || function (o, n) { var m = typeof Symbol === "function" && o[Symbol.iterator]; if (!m) return o; var i = m.call(o), r, ar = [], e; try { while ((n === void 0 || n-- > 0) && !(r = i.next()).done) ar.push(r.value); } catch (error) { e = { error: error }; } finally { try { if (r && !r.done && (m = i["return"])) m.call(i); } finally { if (e) throw e.error; } } return ar; }; var __spread = (undefined && undefined.__spread) || function () { for (var ar = [], i = 0; i < arguments.length; i++) ar = ar.concat(__read(arguments[i])); return ar; }; var TEXT_ENCODING_AVAILABLE = typeof process !== "undefined" && undefined !== "never" && typeof TextEncoder !== "undefined" && typeof TextDecoder !== "undefined"; function utf8Count(str) { var strLength = str.length; var byteLength = 0; var pos = 0; while (pos < strLength) { var value = str.charCodeAt(pos++); if ((value & 0xffffff80) === 0) { // 1-byte byteLength++; continue; } else if ((value & 0xfffff800) === 0) { // 2-bytes byteLength += 2; } else { // handle surrogate pair if (value >= 0xd800 && value <= 0xdbff) { // high surrogate if (pos < strLength) { var extra = str.charCodeAt(pos); if ((extra & 0xfc00) === 0xdc00) { ++pos; value = ((value & 0x3ff) << 10) + (extra & 0x3ff) + 0x10000; } } } if ((value & 0xffff0000) === 0) { // 3-byte byteLength += 3; } else { // 4-byte byteLength += 4; } } } return byteLength; } function utf8EncodeJs(str, output, outputOffset) { var strLength = str.length; var offset = outputOffset; var pos = 0; while (pos < strLength) { var value = str.charCodeAt(pos++); if ((value & 0xffffff80) === 0) { // 1-byte output[offset++] = value; continue; } else if ((value & 0xfffff800) === 0) { // 2-bytes output[offset++] = ((value >> 6) & 0x1f) | 0xc0; } else { // handle surrogate pair if (value >= 0xd800 && value <= 0xdbff) { // high surrogate if (pos < strLength) { var extra = str.charCodeAt(pos); if ((extra & 0xfc00) === 0xdc00) { ++pos; value = ((value & 0x3ff) << 10) + (extra & 0x3ff) + 0x10000; } } } if ((value & 0xffff0000) === 0) { // 3-byte output[offset++] = ((value >> 12) & 0x0f) | 0xe0; output[offset++] = ((value >> 6) & 0x3f) | 0x80; } else { // 4-byte output[offset++] = ((value >> 18) & 0x07) | 0xf0; output[offset++] = ((value >> 12) & 0x3f) | 0x80; output[offset++] = ((value >> 6) & 0x3f) | 0x80; } } output[offset++] = (value & 0x3f) | 0x80; } } var sharedTextEncoder = TEXT_ENCODING_AVAILABLE ? new TextEncoder() : undefined; var TEXT_ENCODER_THRESHOLD = typeof process !== "undefined" && undefined !== "force" ? 200 : 0; function utf8EncodeTEencode(str, output, outputOffset) { // eslint-disable-next-line @typescript-eslint/no-non-null-assertion output.set(sharedTextEncoder.encode(str), outputOffset); } function utf8EncodeTEencodeInto(str, output, outputOffset) { // eslint-disable-next-line @typescript-eslint/no-non-null-assertion sharedTextEncoder.encodeInto(str, output.subarray(outputOffset)); } var utf8EncodeTE = (sharedTextEncoder === null || sharedTextEncoder === void 0 ? void 0 : sharedTextEncoder.encodeInto) ? utf8EncodeTEencodeInto : utf8EncodeTEencode; var CHUNK_SIZE = 4096; function utf8DecodeJs(bytes, inputOffset, byteLength) { var offset = inputOffset; var end = offset + byteLength; var units = []; var result = ""; while (offset < end) { var byte1 = bytes[offset++]; if ((byte1 & 0x80) === 0) { // 1 byte units.push(byte1); } else if ((byte1 & 0xe0) === 0xc0) { // 2 bytes var byte2 = bytes[offset++] & 0x3f; units.push(((byte1 & 0x1f) << 6) | byte2); } else if ((byte1 & 0xf0) === 0xe0) { // 3 bytes var byte2 = bytes[offset++] & 0x3f; var byte3 = bytes[offset++] & 0x3f; units.push(((byte1 & 0x1f) << 12) | (byte2 << 6) | byte3); } else if ((byte1 & 0xf8) === 0xf0) { // 4 bytes var byte2 = bytes[offset++] & 0x3f; var byte3 = bytes[offset++] & 0x3f; var byte4 = bytes[offset++] & 0x3f; var unit = ((byte1 & 0x07) << 0x12) | (byte2 << 0x0c) | (byte3 << 0x06) | byte4; if (unit > 0xffff) { unit -= 0x10000; units.push(((unit >>> 10) & 0x3ff) | 0xd800); unit = 0xdc00 | (unit & 0x3ff); } units.push(unit); } else { units.push(byte1); } if (units.length >= CHUNK_SIZE) { result += String.fromCharCode.apply(String, __spread(units)); units.length = 0; } } if (units.length > 0) { result += String.fromCharCode.apply(String, __spread(units)); } return result; } var sharedTextDecoder = TEXT_ENCODING_AVAILABLE ? new TextDecoder() : null; var TEXT_DECODER_THRESHOLD = typeof process !== "undefined" && undefined !== "force" ? 200 : 0; function utf8DecodeTD(bytes, inputOffset, byteLength) { var stringBytes = bytes.subarray(inputOffset, inputOffset + byteLength); // eslint-disable-next-line @typescript-eslint/no-non-null-assertion return sharedTextDecoder.decode(stringBytes); } // CONCATENATED MODULE: ./src/ExtData.ts /** * ExtData is used to handle Extension Types that are not registered to ExtensionCodec. */ var ExtData = /** @class */ (function () { function ExtData(type, data) { this.type = type; this.data = data; } return ExtData; }()); // CONCATENATED MODULE: ./src/utils/int.ts // DataView extension to handle int64 / uint64, // where the actual range is 53-bits integer (a.k.a. safe integer) function setUint64(view, offset, value) { var high = value / 4294967296; var low = value; // high bits are truncated by DataView view.setUint32(offset, high); view.setUint32(offset + 4, low); } function setInt64(view, offset, value) { var high = Math.floor(value / 4294967296); var low = value; // high bits are truncated by DataView view.setUint32(offset, high); view.setUint32(offset + 4, low); } function setBigInt64(view, offset, value) { var high = Number(value / BigInt(4294967296)); var low = Number(value % BigInt(4294967296)); if (high < 0 && low !== 0) { // simulate Math.floor for negative high high -= 1; } view.setUint32(offset, high); view.setUint32(offset + 4, low); } function getInt64(view, offset) { var high = view.getInt32(offset); var low = view.getUint32(offset + 4); var exceeds_min_safe_int = high < Math.floor(Number.MIN_SAFE_INTEGER / 4294967296) || (high === Math.floor(Number.MIN_SAFE_INTEGER / 4294967296) && low === 0); var exceeds_max_safe_int = high > Math.floor(Number.MAX_SAFE_INTEGER / 4294967296); if (exceeds_min_safe_int || exceeds_max_safe_int) { return BigInt(high) * BigInt(4294967296) + BigInt(low); } return high * 4294967296 + low; } function getUint64(view, offset) { var high = view.getUint32(offset); var low = view.getUint32(offset + 4); var exceeds_max_safe_int = high > Math.floor(Number.MAX_SAFE_INTEGER / 4294967296); if (exceeds_max_safe_int) { return BigInt(high) * BigInt(4294967296) + BigInt(low); } return high * 4294967296 + low; } // CONCATENATED MODULE: ./src/timestamp.ts // https://github.com/msgpack/msgpack/blob/master/spec.md#timestamp-extension-type var EXT_TIMESTAMP = -1; var TIMESTAMP32_MAX_SEC = 0x100000000 - 1; // 32-bit unsigned int var TIMESTAMP64_MAX_SEC = 0x400000000 - 1; // 34-bit unsigned int function encodeTimeSpecToTimestamp(_a) { var sec = _a.sec, nsec = _a.nsec; if (sec >= 0 && nsec >= 0 && sec <= TIMESTAMP64_MAX_SEC) { // Here sec >= 0 && nsec >= 0 if (nsec === 0 && sec <= TIMESTAMP32_MAX_SEC) { // timestamp 32 = { sec32 (unsigned) } var rv = new Uint8Array(4); var view = new DataView(rv.buffer); view.setUint32(0, sec); return rv; } else { // timestamp 64 = { nsec30 (unsigned), sec34 (unsigned) } var secHigh = sec / 0x100000000; var secLow = sec & 0xffffffff; var rv = new Uint8Array(8); var view = new DataView(rv.buffer); // nsec30 | secHigh2 view.setUint32(0, (nsec << 2) | (secHigh & 0x3)); // secLow32 view.setUint32(4, secLow); return rv; } } else { // timestamp 96 = { nsec32 (unsigned), sec64 (signed) } var rv = new Uint8Array(12); var view = new DataView(rv.buffer); view.setUint32(0, nsec); setInt64(view, 4, sec); return rv; } } function encodeDateToTimeSpec(date) { var msec = date.getTime(); var sec = Math.floor(msec / 1e3); var nsec = (msec - sec * 1e3) * 1e6; // Normalizes { sec, nsec } to ensure nsec is unsigned. var nsecInSec = Math.floor(nsec / 1e9); return { sec: sec + nsecInSec, nsec: nsec - nsecInSec * 1e9, }; } function encodeTimestampExtension(object) { if (object instanceof Date) { var timeSpec = encodeDateToTimeSpec(object); return encodeTimeSpecToTimestamp(timeSpec); } else { return null; } } function decodeTimestampToTimeSpec(data) { var view = new DataView(data.buffer, data.byteOffset, data.byteLength); // data may be 32, 64, or 96 bits switch (data.byteLength) { case 4: { // timestamp 32 = { sec32 } var sec = view.getUint32(0); var nsec = 0; return { sec: sec, nsec: nsec }; } case 8: { // timestamp 64 = { nsec30, sec34 } var nsec30AndSecHigh2 = view.getUint32(0); var secLow32 = view.getUint32(4); var sec = (nsec30AndSecHigh2 & 0x3) * 0x100000000 + secLow32; var nsec = nsec30AndSecHigh2 >>> 2; return { sec: sec, nsec: nsec }; } case 12: { // timestamp 96 = { nsec32 (unsigned), sec64 (signed) } var sec = getInt64(view, 4); var nsec = view.getUint32(0); return { sec: sec, nsec: nsec }; } default: throw new Error("Unrecognized data size for timestamp: " + data.length); } } function decodeTimestampExtension(data) { var timeSpec = decodeTimestampToTimeSpec(data); return new Date(timeSpec.sec * 1e3 + timeSpec.nsec / 1e6); } var timestampExtension = { type: EXT_TIMESTAMP, encode: encodeTimestampExtension, decode: decodeTimestampExtension, }; // CONCATENATED MODULE: ./src/ExtensionCodec.ts // ExtensionCodec to handle MessagePack extensions var ExtensionCodec_ExtensionCodec = /** @class */ (function () { function ExtensionCodec() { // built-in extensions this.builtInEncoders = []; this.builtInDecoders = []; // custom extensions this.encoders = []; this.decoders = []; this.register(timestampExtension); } ExtensionCodec.prototype.register = function (_a) { var type = _a.type, encode = _a.encode, decode = _a.decode; if (type >= 0) { // custom extensions this.encoders[type] = encode; this.decoders[type] = decode; } else { // built-in extensions var index = 1 + type; this.builtInEncoders[index] = encode; this.builtInDecoders[index] = decode; } }; ExtensionCodec.prototype.tryToEncode = function (object, context) { // built-in extensions for (var i = 0; i < this.builtInEncoders.length; i++) { var encoder = this.builtInEncoders[i]; if (encoder != null) { var data = encoder(object, context); if (data != null) { var type = -1 - i; return new ExtData(type, data); } } } // custom extensions for (var i = 0; i < this.encoders.length; i++) { var encoder = this.encoders[i]; if (encoder != null) { var data = encoder(object, context); if (data != null) { var type = i; return new ExtData(type, data); } } } if (object instanceof ExtData) { // to keep ExtData as is return object; } return null; }; ExtensionCodec.prototype.decode = function (data, type, context) { var decoder = type < 0 ? this.builtInDecoders[-1 - type] : this.decoders[type]; if (decoder) { return decoder(data, type, context); } else { // decode() does not fail, returns ExtData instead. return new ExtData(type, data); } }; ExtensionCodec.defaultCodec = new ExtensionCodec(); return ExtensionCodec; }()); // CONCATENATED MODULE: ./src/utils/typedArrays.ts function ensureUint8Array(buffer) { if (buffer instanceof Uint8Array) { return buffer; } else if (ArrayBuffer.isView(buffer)) { return new Uint8Array(buffer.buffer, buffer.byteOffset, buffer.byteLength); } else if (buffer instanceof ArrayBuffer) { return new Uint8Array(buffer); } else { // ArrayLike<number> return Uint8Array.from(buffer); } } function createDataView(buffer) { if (buffer instanceof ArrayBuffer) { return new DataView(buffer); } var bufferView = ensureUint8Array(buffer); return new DataView(bufferView.buffer, bufferView.byteOffset, bufferView.byteLength); } // CONCATENATED MODULE: ./src/Encoder.ts var Encoder_values = (undefined && undefined.__values) || function(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? "Object is not iterable." : "Symbol.iterator is not defined."); }; var DEFAULT_MAX_DEPTH = 100; var DEFAULT_INITIAL_BUFFER_SIZE = 2048; var Encoder_Encoder = /** @class */ (function () { function Encoder(extensionCodec, context, maxDepth, initialBufferSize, sortKeys, forceFloat32, ignoreUndefined, forceIntegerToFloat) { if (extensionCodec === void 0) { extensionCodec = ExtensionCodec_ExtensionCodec.defaultCodec; } if (context === void 0) { context = undefined; } if (maxDepth === void 0) { maxDepth = DEFAULT_MAX_DEPTH; } if (initialBufferSize === void 0) { initialBufferSize = DEFAULT_INITIAL_BUFFER_SIZE; } if (sortKeys === void 0) { sortKeys = false; } if (forceFloat32 === void 0) { forceFloat32 = false; } if (ignoreUndefined === void 0) { ignoreUndefined = false; } if (forceIntegerToFloat === void 0) { forceIntegerToFloat = false; } this.extensionCodec = extensionCodec; this.context = context; this.maxDepth = maxDepth; this.initialBufferSize = initialBufferSize; this.sortKeys = sortKeys; this.forceFloat32 = forceFloat32; this.ignoreUndefined = ignoreUndefined; this.forceIntegerToFloat = forceIntegerToFloat; this.pos = 0; this.view = new DataView(new ArrayBuffer(this.initialBufferSize)); this.bytes = new Uint8Array(this.view.buffer); } Encoder.prototype.getUint8Array = function () { return this.bytes.subarray(0, this.pos); }; Encoder.prototype.reinitializeState = function () { this.pos = 0; }; Encoder.prototype.encode = function (object) { this.reinitializeState(); this.doEncode(object, 1); return this.getUint8Array(); }; Encoder.prototype.doEncode = function (object, depth) { if (depth > this.maxDepth) { throw new Error("Too deep objects in depth " + depth); } if (object == null) { this.encodeNil(); } else if (typeof object === "boolean") { this.encodeBoolean(object); } else if (typeof object === "number") { this.encodeNumber(object); } else if (typeof object === "string") { this.encodeString(object); } else if (typeof object === "bigint") { this.encodebigint(object); } else { this.encodeObject(object, depth); } }; Encoder.prototype.ensureBufferSizeToWrite = function (sizeToWrite) { var requiredSize = this.pos + sizeToWrite; if (this.view.byteLength < requiredSize) { this.resizeBuffer(requiredSize * 2); } }; Encoder.prototype.resizeBuffer = function (newSize) { var newBuffer = new ArrayBuffer(newSize); var newBytes = new Uint8Array(newBuffer); var newView = new DataView(newBuffer); newBytes.set(this.bytes); this.view = newView; this.bytes = newBytes; }; Encoder.prototype.encodeNil = function () { this.writeU8(0xc0); }; Encoder.prototype.encodeBoolean = function (object) { if (object === false) { this.writeU8(0xc2); } else { this.writeU8(0xc3); } }; Encoder.prototype.encodeNumber = function (object) { if (Number.isSafeInteger(object) && !this.forceIntegerToFloat) { if (object >= 0) { if (object < 0x80) { // positive fixint this.writeU8(object); } else if (object < 0x100) { // uint 8 this.writeU8(0xcc); this.writeU8(object); } else if (object < 0x10000) { // uint 16 this.writeU8(0xcd); this.writeU16(object); } else if (object < 0x100000000) { // uint 32 this.writeU8(0xce); this.writeU32(object); } else { // uint 64 this.writeU8(0xcf); this.writeU64(object); } } else { if (object >= -0x20) { // nagative fixint this.writeU8(0xe0 | (object + 0x20)); } else if (object >= -0x80) { // int 8 this.writeU8(0xd0); this.writeI8(object); } else if (object >= -0x8000) { // int 16 this.writeU8(0xd1); this.writeI16(object); } else if (object >= -0x80000000) { // int 32 this.writeU8(0xd2); this.writeI32(object); } else { // int 64 this.writeU8(0xd3); this.writeI64(object); } } } else { // non-integer numbers if (this.forceFloat32) { // float 32 this.writeU8(0xca); this.writeF32(object); } else { // float 64 this.writeU8(0xcb); this.writeF64(object); } } }; Encoder.prototype.encodebigint = function (object) { if (object >= BigInt(0)) { if (object < BigInt(0x80)) { // positive fixint this.writeU8(Number(object)); } else if (object < BigInt(0x100)) { // uint 8 this.writeU8(0xcc); this.writeU8(Number(object)); } else if (object < BigInt(0x10000)) { // uint 16 this.writeU8(0xcd); this.writeU16(Number(object)); } else if (object < BigInt(0x100000000)) { // uint 32 this.writeU8(0xce); this.writeU32(Number(object)); } else { // uint 64 this.writeU8(0xcf); this.writeBig64(object); } } else { if (object >= BigInt(-0x20)) { // nagative fixint this.writeU8(0xe0 | (Number(object) + 0x20)); } else if (object >= BigInt(-0x80)) { // int 8 this.writeU8(0xd0); this.writeI8(Number(object)); } else if (object >= BigInt(-0x8000)) { // int 16 this.writeU8(0xd1); this.writeI16(Number(object)); } else if (object >= BigInt(-0x80000000)) { // int 32 this.writeU8(0xd2); this.writeI32(Number(object)); } else { // int 64 this.writeU8(0xd3); this.writeBig64(object); } } }; Encoder.prototype.writeStringHeader = function (byteLength) { if (byteLength < 32) { // fixstr this.writeU8(0xa0 + byteLength); } else if (byteLength < 0x100) { // str 8 this.writeU8(0xd9); this.writeU8(byteLength); } else if (byteLength < 0x10000) { // str 16 this.writeU8(0xda); this.writeU16(byteLength); } else if (byteLength < 0x100000000) { // str 32 this.writeU8(0xdb); this.writeU32(byteLength); } else { throw new Error("Too long string: " + byteLength + " bytes in UTF-8"); } }; Encoder.prototype.encodeString = function (object) { var maxHeaderSize = 1 + 4; var strLength = object.length; if (TEXT_ENCODING_AVAILABLE && strLength > TEXT_ENCODER_THRESHOLD) { var byteLength = utf8Count(object); this.ensureBufferSizeToWrite(maxHeaderSize + byteLength); this.writeStringHeader(byteLength); utf8EncodeTE(object, this.bytes, this.pos); this.pos += byteLength; } else { var byteLength = utf8Count(object); this.ensureBufferSizeToWrite(maxHeaderSize + byteLength); this.writeStringHeader(byteLength); utf8EncodeJs(object, this.bytes, this.pos); this.pos += byteLength; } }; Encoder.prototype.encodeObject = function (object, depth) { // try to encode objects with custom codec first of non-primitives var ext = this.extensionCodec.tryToEncode(object, this.context); if (ext != null) { this.encodeExtension(ext); } else if (Array.isArray(object)) { this.encodeArray(object, depth); } else if (ArrayBuffer.isView(object)) { this.encodeBinary(object); } else if (typeof object === "object") { this.encodeMap(object, depth); } else { // symbol, function and other special object come here unless extensionCodec handles them. throw new Error("Unrecognized object: " + Object.prototype.toString.apply(object)); } }; Encoder.prototype.encodeBinary = function (object) { var size = object.byteLength; if (size < 0x100) { // bin 8 this.writeU8(0xc4); this.writeU8(size); } else if (size < 0x10000) { // bin 16 this.writeU8(0xc5); this.writeU16(size); } else if (size < 0x100000000) { // bin 32 this.writeU8(0xc6); this.writeU32(size); } else { throw new Error("Too large binary: " + size); } var bytes = ensureUint8Array(object); this.writeU8a(bytes); }; Encoder.prototype.encodeArray = function (object, depth) { var e_1, _a; var size = object.length; if (size < 16) { // fixarray this.writeU8(0x90 + size); } else if (size < 0x10000) { // array 16 this.writeU8(0xdc); this.writeU16(size); } else if (size < 0x100000000) { // array 32 this.writeU8(0xdd); this.writeU32(size); } else { throw new Error("Too large array: " + size); } try { for (var object_1 = Encoder_values(object), object_1_1 = object_1.next(); !object_1_1.done; object_1_1 = object_1.next()) { var item = object_1_1.value; this.doEncode(item, depth + 1); } } catch (e_1_1) { e_1 = { error: e_1_1 }; } finally { try { if (object_1_1 && !object_1_1.done && (_a = object_1.return)) _a.call(object_1); } finally { if (e_1) throw e_1.error; } } }; Encoder.prototype.countWithoutUndefined = function (object, keys) { var e_2, _a; var count = 0; try { for (var keys_1 = Encoder_values(keys), keys_1_1 = keys_1.next(); !keys_1_1.done; keys_1_1 = keys_1.next()) { var key = keys_1_1.value; if (object[key] !== undefined) { count++; } } } catch (e_2_1) { e_2 = { error: e_2_1 }; } finally { try { if (keys_1_1 && !keys_1_1.done && (_a = keys_1.return)) _a.call(keys_1); } finally { if (e_2) throw e_2.error; } } return count; }; Encoder.prototype.encodeMap = function (object, depth) { var e_3, _a; var keys = Object.keys(object); if (this.sortKeys) { keys.sort(); } var size = this.ignoreUndefined ? this.countWithoutUndefined(object, keys) : keys.length; if (size < 16) { // fixmap this.writeU8(0x80 + size); } else if (size < 0x10000) { // map 16 this.writeU8(0xde); this.writeU16(size); } else if (size < 0x100000000) { // map 32 this.writeU8(0xdf); this.writeU32(size); } else { throw new Error("Too large map object: " + size); } try { for (var keys_2 = Encoder_values(keys), keys_2_1 = keys_2.next(); !keys_2_1.done; keys_2_1 = keys_2.next()) { var key = keys_2_1.value; var value = object[key]; if (!(this.ignoreUndefined && value === undefined)) { this.encodeString(key); this.doEncode(value, depth + 1); } } } catch (e_3_1) { e_3 = { error: e_3_1 }; } finally { try { if (keys_2_1 && !keys_2_1.done && (_a = keys_2.return)) _a.call(keys_2); } finally { if (e_3) throw e_3.error; } } }; Encoder.prototype.encodeExtension = function (ext) { var size = ext.data.length; if (size === 1) { // fixext 1 this.writeU8(0xd4); } else if (size === 2) { // fixext 2 this.writeU8(0xd5); } else if (size === 4) { // fixext 4 this.writeU8(0xd6); } else if (size === 8) { // fixext 8 this.writeU8(0xd7); } else if (size === 16) { // fixext 16 this.writeU8(0xd8); } else if (size < 0x100) { // ext 8 this.writeU8(0xc7); this.writeU8(size); } else if (size < 0x10000) { // ext 16 this.writeU8(0xc8); this.writeU16(size); } else if (size < 0x100000000) { // ext 32 this.writeU8(0xc9); this.writeU32(size); } else { throw new Error("Too large extension object: " + size); } this.writeI8(ext.type); this.writeU8a(ext.data); }; Encoder.prototype.writeU8 = function (value) { this.ensureBufferSizeToWrite(1); this.view.setUint8(this.pos, value); this.pos++; }; Encoder.prototype.writeU8a = function (values) { var size = values.length; this.ensureBufferSizeToWrite(size); this.bytes.set(values, this.pos); this.pos += size; }; Encoder.prototype.writeI8 = function (value) { this.ensureBufferSizeToWrite(1); this.view.setInt8(this.pos, value); this.pos++; }; Encoder.prototype.writeU16 = function (value) { this.ensureBufferSizeToWrite(2); this.view.setUint16(this.pos, value); this.pos += 2; }; Encoder.prototype.writeI16 = function (value) { this.ensureBufferSizeToWrite(2); this.view.setInt16(this.pos, value); this.pos += 2; }; Encoder.prototype.writeU32 = function (value) { this.ensureBufferSizeToWrite(4); this.view.setUint32(this.pos, value); this.pos += 4; }; Encoder.prototype.writeI32 = function (value) { this.ensureBufferSizeToWrite(4); this.view.setInt32(this.pos, value); this.pos += 4; }; Encoder.prototype.writeF32 = function (value) { this.ensureBufferSizeToWrite(4); this.view.setFloat32(this.pos, value); this.pos += 4; }; Encoder.prototype.writeF64 = function (value) { this.ensureBufferSizeToWrite(8); this.view.setFloat64(this.pos, value); this.pos += 8; }; Encoder.prototype.writeU64 = function (value) { this.ensureBufferSizeToWrite(8); setUint64(this.view, this.pos, value); this.pos += 8; }; Encoder.prototype.writeI64 = function (value) { this.ensureBufferSizeToWrite(8); setInt64(this.view, this.pos, value); this.pos += 8; }; Encoder.prototype.writeBig64 = function (value) { this.ensureBufferSizeToWrite(8); setBigInt64(this.view, this.pos, value); this.pos += 8; }; return Encoder; }()); // CONCATENATED MODULE: ./src/encode.ts var defaultEncodeOptions = {}; /** * It encodes `value` in the MessagePack format and * returns a byte buffer. * * The returned buffer is a slice of a larger `ArrayBuffer`, so you have to use its `#byteOffset` and `#byteLength` in order to convert it to another typed arrays including NodeJS `Buffer`. */ function encode(value, options) { if (options === void 0) { options = defaultEncodeOptions; } var encoder = new Encoder_Encoder(options.extensionCodec, options.context, options.maxDepth, options.initialBufferSize, options.sortKeys, options.forceFloat32, options.ignoreUndefined, options.forceIntegerToFloat); return encoder.encode(value); } // CONCATENATED MODULE: ./src/utils/prettyByte.ts function prettyByte(byte) { return (byte < 0 ? "-" : "") + "0x" + Math.abs(byte).toString(16).padStart(2, "0"); } // CONCATENATED MODULE: ./src/CachedKeyDecoder.ts var DEFAULT_MAX_KEY_LENGTH = 16; var DEFAULT_MAX_LENGTH_PER_KEY = 16; var CachedKeyDecoder_CachedKeyDecoder = /** @class */ (function () { function CachedKeyDecoder(maxKeyLength, maxLengthPerKey) { if (maxKeyLength === void 0) { maxKeyLength = DEFAULT_MAX_KEY_LENGTH; } if (maxLengthPerKey === void 0) { maxLengthPerKey = DEFAULT_MAX_LENGTH_PER_KEY; } this.maxKeyLength = maxKeyLength; this.maxLengthPerKey = maxLengthPerKey; this.hit = 0; this.miss = 0; // avoid `new Array(N)` to create a non-sparse array for performance. this.caches = []; for (var i = 0; i < this.maxKeyLength; i++) { this.caches.push([]); } } CachedKeyDecoder.prototype.canBeCached = function (byteLength) { return byteLength > 0 && byteLength <= this.maxKeyLength; }; CachedKeyDecoder.prototype.get = function (bytes, inputOffset, byteLength) { var records = this.caches[byteLength - 1]; var recordsLength = records.length; FIND_CHUNK: for (var i = 0; i < recordsLength; i++) { var record = records[i]; var recordBytes = record.bytes; for (var j = 0; j < byteLength; j++) { if (recordBytes[j] !== bytes[inputOffset + j]) { continue FIND_CHUNK; } } return record.value; } return null; }; CachedKeyDecoder.prototype.store = function (bytes, value) { var records = this.caches[bytes.length - 1]; var record = { bytes: bytes, value: value }; if (records.length >= this.maxLengthPerKey) { // `records` are full! // Set `record` to a randomized position. records[(Math.random() * records.length) | 0] = record; } else { records.push(record); } }; CachedKeyDecoder.prototype.decode = function (bytes, inputOffset, byteLength) { var cachedValue = this.get(bytes, inputOffset, byteLength); if (cachedValue != null) { this.hit++; return cachedValue; } this.miss++; var value = utf8DecodeJs(bytes, inputOffset, byteLength); // Ensure to copy a slice of bytes because the byte may be NodeJS Buffer and Buffer#slice() returns a reference to its internal ArrayBuffer. var slicedCopyOfBytes = Uint8Array.prototype.slice.call(bytes, inputOffset, inputOffset + byteLength); this.store(slicedCopyOfBytes, value); return value; }; return CachedKeyDecoder; }()); // CONCATENATED MODULE: ./src/Decoder.ts var __awaiter = (undefined && undefined.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __generator = (undefined && undefined.__generator) || function (thisArg, body) { var _ = { label: 0, sent: function() { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function() { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || (op[1] > t[0] && op[1] < t[3]))) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __asyncValues = (undefined && undefined.__asyncValues) || function (o) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var m = o[Symbol.asyncIterator], i; return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i); function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; } function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); } }; var __await = (undefined && undefined.__await) || function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); } var __asyncGenerator = (undefined && undefined.__asyncGenerator) || function (thisArg, _arguments, generator) { if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined."); var g = generator.apply(thisArg, _arguments || []), i, q = []; return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i; function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; } function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } } function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); } function fulfill(value) { resume("next", value); } function reject(value) { resume("throw", value); } function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); } }; var isValidMapKeyType = function (key) { var keyType = typeof key; return keyType === "string" || keyType === "number"; }; var HEAD_BYTE_REQUIRED = -1; var EMPTY_VIEW = new DataView(new ArrayBuffer(0)); var EMPTY_BYTES = new Uint8Array(EMPTY_VIEW.buffer); // IE11: Hack to support IE11. // IE11: Drop this hack and just use RangeError when IE11 is obsolete. var DataViewIndexOutOfBoundsError = (function () { try { // IE11: The spec says it should throw RangeError, // IE11: but in IE11 it throws TypeError. EMPTY_VIEW.getInt8(0); } catch (e) { return e.constructor; } throw new Error("never reached"); })(); var MORE_DATA = new DataViewIndexOutOfBoundsError("Insufficient data"); var DEFAULT_MAX_LENGTH = 4294967295; // uint32_max var sharedCachedKeyDecoder = new CachedKeyDecoder_CachedKeyDecoder(); var Decoder_Decoder = /** @class */ (function () { function Decoder(extensionCodec, context, maxStrLength, maxBinLength, maxArrayLength, maxMapLength, maxExtLength, keyDecoder) { if (extensionCodec === void 0) { extensionCodec = ExtensionCodec_ExtensionCodec.defaultCodec; } if (context === void 0) { context = undefined; } if (maxStrLength === void 0) { maxStrLength = DEFAULT_MAX_LENGTH; } if (maxBinLength === void 0) { maxBinLength = DEFAULT_MAX_LENGTH; } if (maxArrayLength === void 0) { maxArrayLength = DEFAULT_MAX_LENGTH; } if (maxMapLength === void 0) { maxMapLength = DEFAULT_MAX_LENGTH; } if (maxExtLength === void 0) { maxExtLength = DEFAULT_MAX_LENGTH; } if (keyDecoder === void 0) { keyDecoder = sharedCachedKeyDecoder; } this.extensionCodec = extensionCodec; this.context = context; this.maxStrLength = maxStrLength; this.maxBinLength = maxBinLength; this.maxArrayLength = maxArrayLength; this.maxMapLength = maxMapLength; this.maxExtLength = maxExtLength; this.keyDecoder = keyDecoder; this.totalPos = 0; this.pos = 0; this.view = EMPTY_VIEW; this.bytes = EMPTY_BYTES; this.headByte = HEAD_BYTE_REQUIRED; this.stack = []; } Decoder.prototype.reinitializeState = function () { this.totalPos = 0; this.headByte = HEAD_BYTE_REQUIRED; }; Decoder.prototype.setBuffer = function (buffer) { this.bytes = ensureUint8Array(buffer); this.view = createDataView(this.bytes); this.pos = 0; }; Decoder.prototype.appendBuffer = function (buffer) { if (this.headByte === HEAD_BYTE_REQUIRED && !this.hasRemaining()) { this.setBuffer(buffer); } else { // retried because data is insufficient var remainingData = this.bytes.subarray(this.pos); var newData = ensureUint8Array(buffer); var concated = new Uint8Array(remainingData.length + newData.length); concated.set(remainingData); concated.set(newData, remainingData.length); this.setBuffer(concated); } }; Decoder.prototype.hasRemaining = function (size) { if (size === void 0) { size = 1; } return this.view.byteLength - this.pos >= size; }; Decoder.prototype.createNoExtraBytesError = function (posToShow) { var _a = this, view = _a.view, pos = _a.pos; return new RangeError("Extra " + (view.byteLength - pos) + " of " + view.byteLength + " byte(s) found at buffer[" + posToShow + "]"); }; Decoder.prototype.decode = function (buffer) { this.reinitializeState(); this.setBuffer(buffer); return this.doDecodeSingleSync(); }; Decoder.prototype.doDecodeSingleSync = function () { var object = this.doDecodeSync(); if (this.hasRemaining()) { throw this.createNoExtraBytesError(this.pos); } return object; }; Decoder.prototype.decodeAsync = function (stream) { var stream_1, stream_1_1; var e_1, _a; return __awaiter(this, void 0, void 0, function () { var decoded, object, buffer, e_1_1, _b, headByte, pos, totalPos; return __generator(this, function (_c) {