"use strict"; var __extends = (this && this.__extends) || (function () { var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || ({ __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; }) || function (d, b) { for (var p in b) if (Object.prototype.hasOwnProperty.call(b, p)) d[p] = b[p]; }; return extendStatics(d, b); }; return function (d, b) { if (typeof b !== "function" && b !== null) throw new TypeError("Class extends value " + String(b) + " is not a constructor or null"); extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; })(); Object.defineProperty(exports, "__esModule", { value: true }); exports.ArrayCoder = exports.unpack = exports.pack = void 0; var logger_1 = require("@ethersproject/logger"); var _version_1 = require("../_version"); var logger = new logger_1.Logger(_version_1.version); var abstract_coder_1 = require("./abstract-coder"); var anonymous_1 = require("./anonymous"); function pack(writer, coders, values) { var arrayValues = null; if (Array.isArray(values)) { arrayValues = values; } else if (values && typeof (values) === "object") { var unique_1 = {}; arrayValues = coders.map(function (coder) { var name = coder.localName; if (!name) { logger.throwError("cannot encode object for signature with missing names", logger_1.Logger.errors.INVALID_ARGUMENT, { argument: "values", coder: coder, value: values }); } if (unique_1[name]) { logger.throwError("cannot encode object for signature with duplicate names", logger_1.Logger.errors.INVALID_ARGUMENT, { argument: "values", coder: coder, value: values }); } unique_1[name] = true; return values[name]; }); } else { logger.throwArgumentError("invalid tuple value", "tuple", values); } if (coders.length !== arrayValues.length) { logger.throwArgumentError("types/value length mismatch", "tuple", values); } var staticWriter = new abstract_coder_1.Writer(writer.wordSize); var dynamicWriter = new abstract_coder_1.Writer(writer.wordSize); var updateFuncs = []; coders.forEach(function (coder, index) { var value = arrayValues[index]; if (coder.dynamic) { // Get current dynamic offset (for the future pointer) var dynamicOffset_1 = dynamicWriter.length; // Encode the dynamic value into the dynamicWriter coder.encode(dynamicWriter, value); // Prepare to populate the correct offset once we are done var updateFunc_1 = staticWriter.writeUpdatableValue(); updateFuncs.push(function (baseOffset) { updateFunc_1(baseOffset + dynamicOffset_1); }); } else { coder.encode(staticWriter, value); } }); // Backfill all the dynamic offsets, now that we know the static length updateFuncs.forEach(function (func) { func(staticWriter.length); }); var length = writer.appendWriter(staticWriter); length += writer.appendWriter(dynamicWriter); return length; } exports.pack = pack; function unpack(reader, coders) { var values = []; // A reader anchored to this base var baseReader = reader.subReader(0); coders.forEach(function (coder) { var value = null; if (coder.dynamic) { var offset = reader.readValue(); var offsetReader = baseReader.subReader(offset.toNumber()); try { value = coder.decode(offsetReader); } catch (error) { // Cannot recover from this if (error.code === logger_1.Logger.errors.BUFFER_OVERRUN) { throw error; } value = error; value.baseType = coder.name; value.name = coder.localName; value.type = coder.type; } } else { try { value = coder.decode(reader); } catch (error) { // Cannot recover from this if (error.code === logger_1.Logger.errors.BUFFER_OVERRUN) { throw error; } value = error; value.baseType = coder.name; value.name = coder.localName; value.type = coder.type; } } if (value != undefined) { values.push(value); } }); // We only output named properties for uniquely named coders var uniqueNames = coders.reduce(function (accum, coder) { var name = coder.localName; if (name) { if (!accum[name]) { accum[name] = 0; } accum[name]++; } return accum; }, {}); // Add any named parameters (i.e. tuples) coders.forEach(function (coder, index) { var name = coder.localName; if (!name || uniqueNames[name] !== 1) { return; } if (name === "length") { name = "_length"; } if (values[name] != null) { return; } var value = values[index]; if (value instanceof Error) { Object.defineProperty(values, name, { enumerable: true, get: function () { throw value; } }); } else { values[name] = value; } }); var _loop_1 = function (i) { var value = values[i]; if (value instanceof Error) { Object.defineProperty(values, i, { enumerable: true, get: function () { throw value; } }); } }; for (var i = 0; i < values.length; i++) { _loop_1(i); } return Object.freeze(values); } exports.unpack = unpack; var ArrayCoder = /** @class */ (function (_super) { __extends(ArrayCoder, _super); function ArrayCoder(coder, length, localName) { var _this = this; var type = (coder.type + "[" + (length >= 0 ? length : "") + "]"); var dynamic = (length === -1 || coder.dynamic); _this = _super.call(this, "array", type, localName, dynamic) || this; _this.coder = coder; _this.length = length; return _this; } ArrayCoder.prototype.defaultValue = function () { // Verifies the child coder is valid (even if the array is dynamic or 0-length) var defaultChild = this.coder.defaultValue(); var result = []; for (var i = 0; i < this.length; i++) { result.push(defaultChild); } return result; }; ArrayCoder.prototype.encode = function (writer, value) { if (!Array.isArray(value)) { this._throwError("expected array value", value); } var count = this.length; if (count === -1) { count = value.length; writer.writeValue(value.length); } logger.checkArgumentCount(value.length, count, "coder array" + (this.localName ? (" " + this.localName) : "")); var coders = []; for (var i = 0; i < value.length; i++) { coders.push(this.coder); } return pack(writer, coders, value); }; ArrayCoder.prototype.decode = function (reader) { var count = this.length; if (count === -1) { count = reader.readValue().toNumber(); // Check that there is *roughly* enough data to ensure // stray random data is not being read as a length. Each // slot requires at least 32 bytes for their value (or 32 // bytes as a link to the data). This could use a much // tighter bound, but we are erroring on the side of safety. if (count * 32 > reader._data.length) { logger.throwError("insufficient data length", logger_1.Logger.errors.BUFFER_OVERRUN, { length: reader._data.length, count: count }); } } var coders = []; for (var i = 0; i < count; i++) { coders.push(new anonymous_1.AnonymousCoder(this.coder)); } return reader.coerce(this.name, unpack(reader, coders)); }; return ArrayCoder; }(abstract_coder_1.Coder)); exports.ArrayCoder = ArrayCoder; //# sourceMappingURL=array.js.map