165 lines
6.2 KiB
JavaScript
165 lines
6.2 KiB
JavaScript
"use strict";
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Object.defineProperty(exports, "__esModule", { value: true });
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exports.ArrayCoder = exports.unpack = exports.pack = void 0;
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const index_js_1 = require("../../utils/index.js");
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const typed_js_1 = require("../typed.js");
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const abstract_coder_js_1 = require("./abstract-coder.js");
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const anonymous_js_1 = require("./anonymous.js");
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/**
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* @_ignore
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*/
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function pack(writer, coders, values) {
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let arrayValues = [];
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if (Array.isArray(values)) {
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arrayValues = values;
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}
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else if (values && typeof (values) === "object") {
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let unique = {};
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arrayValues = coders.map((coder) => {
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const name = coder.localName;
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(0, index_js_1.assert)(name, "cannot encode object for signature with missing names", "INVALID_ARGUMENT", { argument: "values", info: { coder }, value: values });
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(0, index_js_1.assert)(unique[name], "cannot encode object for signature with duplicate names", "INVALID_ARGUMENT", { argument: "values", info: { coder }, value: values });
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unique[name] = true;
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return values[name];
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});
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}
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else {
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(0, index_js_1.assertArgument)(false, "invalid tuple value", "tuple", values);
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}
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(0, index_js_1.assertArgument)(coders.length === arrayValues.length, "types/value length mismatch", "tuple", values);
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let staticWriter = new abstract_coder_js_1.Writer();
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let dynamicWriter = new abstract_coder_js_1.Writer();
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let updateFuncs = [];
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coders.forEach((coder, index) => {
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let value = arrayValues[index];
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if (coder.dynamic) {
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// Get current dynamic offset (for the future pointer)
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let dynamicOffset = dynamicWriter.length;
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// Encode the dynamic value into the dynamicWriter
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coder.encode(dynamicWriter, value);
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// Prepare to populate the correct offset once we are done
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let updateFunc = staticWriter.writeUpdatableValue();
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updateFuncs.push((baseOffset) => {
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updateFunc(baseOffset + dynamicOffset);
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});
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}
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else {
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coder.encode(staticWriter, value);
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}
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});
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// Backfill all the dynamic offsets, now that we know the static length
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updateFuncs.forEach((func) => { func(staticWriter.length); });
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let length = writer.appendWriter(staticWriter);
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length += writer.appendWriter(dynamicWriter);
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return length;
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}
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exports.pack = pack;
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/**
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* @_ignore
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*/
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function unpack(reader, coders) {
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let values = [];
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let keys = [];
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// A reader anchored to this base
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let baseReader = reader.subReader(0);
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coders.forEach((coder) => {
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let value = null;
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if (coder.dynamic) {
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let offset = reader.readIndex();
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let offsetReader = baseReader.subReader(offset);
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try {
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value = coder.decode(offsetReader);
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}
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catch (error) {
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// Cannot recover from this
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if ((0, index_js_1.isError)(error, "BUFFER_OVERRUN")) {
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throw error;
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}
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value = error;
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value.baseType = coder.name;
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value.name = coder.localName;
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value.type = coder.type;
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}
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}
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else {
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try {
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value = coder.decode(reader);
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}
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catch (error) {
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// Cannot recover from this
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if ((0, index_js_1.isError)(error, "BUFFER_OVERRUN")) {
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throw error;
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}
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value = error;
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value.baseType = coder.name;
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value.name = coder.localName;
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value.type = coder.type;
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}
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}
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if (value == undefined) {
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throw new Error("investigate");
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}
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values.push(value);
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keys.push(coder.localName || null);
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});
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return abstract_coder_js_1.Result.fromItems(values, keys);
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}
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exports.unpack = unpack;
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/**
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* @_ignore
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*/
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class ArrayCoder extends abstract_coder_js_1.Coder {
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coder;
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length;
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constructor(coder, length, localName) {
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const type = (coder.type + "[" + (length >= 0 ? length : "") + "]");
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const dynamic = (length === -1 || coder.dynamic);
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super("array", type, localName, dynamic);
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(0, index_js_1.defineProperties)(this, { coder, length });
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}
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defaultValue() {
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// Verifies the child coder is valid (even if the array is dynamic or 0-length)
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const defaultChild = this.coder.defaultValue();
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const result = [];
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for (let i = 0; i < this.length; i++) {
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result.push(defaultChild);
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}
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return result;
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}
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encode(writer, _value) {
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const value = typed_js_1.Typed.dereference(_value, "array");
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if (!Array.isArray(value)) {
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this._throwError("expected array value", value);
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}
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let count = this.length;
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if (count === -1) {
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count = value.length;
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writer.writeValue(value.length);
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}
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(0, index_js_1.assertArgumentCount)(value.length, count, "coder array" + (this.localName ? (" " + this.localName) : ""));
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let coders = [];
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for (let i = 0; i < value.length; i++) {
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coders.push(this.coder);
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}
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return pack(writer, coders, value);
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}
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decode(reader) {
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let count = this.length;
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if (count === -1) {
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count = reader.readIndex();
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// Check that there is *roughly* enough data to ensure
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// stray random data is not being read as a length. Each
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// slot requires at least 32 bytes for their value (or 32
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// bytes as a link to the data). This could use a much
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// tighter bound, but we are erroring on the side of safety.
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(0, index_js_1.assert)(count * abstract_coder_js_1.WordSize <= reader.dataLength, "insufficient data length", "BUFFER_OVERRUN", { buffer: reader.bytes, offset: count * abstract_coder_js_1.WordSize, length: reader.dataLength });
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}
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let coders = [];
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for (let i = 0; i < count; i++) {
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coders.push(new anonymous_js_1.AnonymousCoder(this.coder));
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}
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return unpack(reader, coders);
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}
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}
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exports.ArrayCoder = ArrayCoder;
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//# sourceMappingURL=array.js.map
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