// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. goog.provide('jspb.Map'); goog.require('goog.asserts'); goog.requireType('jspb.BinaryReader'); goog.requireType('jspb.BinaryWriter'); /** * Constructs a new Map. A Map is a container that is used to implement map * fields on message objects. It closely follows the ES6 Map API; however, * it is distinct because we do not want to depend on external polyfills or * on ES6 itself. * * This constructor should only be called from generated message code. It is not * intended for general use by library consumers. * * @template K, V * * @param {!Array>} arr * * @param {?function(new:V, ?=)=} opt_valueCtor * The constructor for type V, if type V is a message type. * * @constructor * @struct */ jspb.Map = function(arr, opt_valueCtor) { /** @const @private */ this.arr_ = arr; /** @const @private */ this.valueCtor_ = opt_valueCtor; /** @type {!Object>} @private */ this.map_ = {}; /** * Is `this.arr_ updated with respect to `this.map_`? * @type {boolean} */ this.arrClean = true; if (this.arr_.length > 0) { this.loadFromArray_(); } }; /** * Load initial content from underlying array. * @private */ jspb.Map.prototype.loadFromArray_ = function() { for (var i = 0; i < this.arr_.length; i++) { var record = this.arr_[i]; var key = record[0]; var value = record[1]; this.map_[key.toString()] = new jspb.Map.Entry_(key, value); } this.arrClean = true; }; /** * Synchronize content to underlying array, if needed, and return it. * @return {!Array>} */ jspb.Map.prototype.toArray = function() { if (this.arrClean) { if (this.valueCtor_) { // We need to recursively sync maps in submessages to their arrays. var m = this.map_; for (var p in m) { if (Object.prototype.hasOwnProperty.call(m, p)) { var valueWrapper = /** @type {?jspb.Message} */ (m[p].valueWrapper); if (valueWrapper) { valueWrapper.toArray(); } } } } } else { // Delete all elements. this.arr_.length = 0; var strKeys = this.stringKeys_(); // Output keys in deterministic (sorted) order. strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; var valueWrapper = /** @type {?jspb.Message} */ (entry.valueWrapper); if (valueWrapper) { valueWrapper.toArray(); } this.arr_.push([entry.key, entry.value]); } this.arrClean = true; } return this.arr_; }; /** * Returns the map formatted as an array of key-value pairs, suitable for the * toObject() form of a message. * * @param {boolean=} includeInstance Whether to include the JSPB instance for * transitional soy proto support: http://goto/soy-param-migration * @param {function((boolean|undefined),V):!Object=} valueToObject * The static toObject() method, if V is a message type. * @return {!Array>} */ jspb.Map.prototype.toObject = function(includeInstance, valueToObject) { var rawArray = this.toArray(); var entries = []; for (var i = 0; i < rawArray.length; i++) { var entry = this.map_[rawArray[i][0].toString()]; this.wrapEntry_(entry); var valueWrapper = /** @type {V|undefined} */ (entry.valueWrapper); if (valueWrapper) { goog.asserts.assert(valueToObject); entries.push([entry.key, valueToObject(includeInstance, valueWrapper)]); } else { entries.push([entry.key, entry.value]); } } return entries; }; /** * Returns a Map from the given array of key-value pairs when the values are of * message type. The values in the array must match the format returned by their * message type's toObject() method. * * @template K, V * @param {!Array>} entries * @param {function(new:V,?=)} valueCtor * The constructor for type V. * @param {function(!Object):V} valueFromObject * The fromObject function for type V. * @return {!jspb.Map} */ jspb.Map.fromObject = function(entries, valueCtor, valueFromObject) { var result = new jspb.Map([], valueCtor); for (var i = 0; i < entries.length; i++) { var key = entries[i][0]; var value = valueFromObject(entries[i][1]); result.set(key, value); } return result; }; /** * Helper: an IteratorIterable over an array. * @template T * @param {!Array} arr the array * @implements {IteratorIterable} * @constructor @struct * @private */ jspb.Map.ArrayIteratorIterable_ = function(arr) { /** @type {number} @private */ this.idx_ = 0; /** @const @private */ this.arr_ = arr; }; /** @override @final */ jspb.Map.ArrayIteratorIterable_.prototype.next = function() { if (this.idx_ < this.arr_.length) { return {done: false, value: this.arr_[this.idx_++]}; } else { return {done: true, value: undefined}; } }; if (typeof(Symbol) != 'undefined') { /** @override */ jspb.Map.ArrayIteratorIterable_.prototype[Symbol.iterator] = function() { return this; }; } /** * Returns the map's length (number of key/value pairs). * @return {number} */ jspb.Map.prototype.getLength = function() { return this.stringKeys_().length; }; /** * Clears the map. */ jspb.Map.prototype.clear = function() { this.map_ = {}; this.arrClean = false; }; /** * Deletes a particular key from the map. * N.B.: differs in name from ES6 Map's `delete` because IE8 does not support * reserved words as property names. * @this {jspb.Map} * @param {K} key * @return {boolean} Whether any entry with this key was deleted. */ jspb.Map.prototype.del = function(key) { var keyValue = key.toString(); var hadKey = this.map_.hasOwnProperty(keyValue); delete this.map_[keyValue]; this.arrClean = false; return hadKey; }; /** * Returns an array of [key, value] pairs in the map. * * This is redundant compared to the plain entries() method, but we provide this * to help out Angular 1.x users. Still evaluating whether this is the best * option. * * @return {!Array>} */ jspb.Map.prototype.getEntryList = function() { var entries = []; var strKeys = this.stringKeys_(); strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; entries.push([entry.key, entry.value]); } return entries; }; /** * Returns an iterator-iterable over [key, value] pairs in the map. * Closure compiler sadly doesn't support tuples, ie. Iterator<[K,V]>. * @return {!IteratorIterable>} The iterator-iterable. */ jspb.Map.prototype.entries = function() { var entries = []; var strKeys = this.stringKeys_(); strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; entries.push([entry.key, this.wrapEntry_(entry)]); } return new jspb.Map.ArrayIteratorIterable_(entries); }; /** * Returns an iterator-iterable over keys in the map. * @return {!IteratorIterable} The iterator-iterable. */ jspb.Map.prototype.keys = function() { var keys = []; var strKeys = this.stringKeys_(); strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; keys.push(entry.key); } return new jspb.Map.ArrayIteratorIterable_(keys); }; /** * Returns an iterator-iterable over values in the map. * @return {!IteratorIterable} The iterator-iterable. */ jspb.Map.prototype.values = function() { var values = []; var strKeys = this.stringKeys_(); strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; values.push(this.wrapEntry_(entry)); } return new jspb.Map.ArrayIteratorIterable_(values); }; /** * Iterates over entries in the map, calling a function on each. * @template T * @param {function(this:T, V, K, ?jspb.Map)} cb * @param {T=} opt_thisArg */ jspb.Map.prototype.forEach = function(cb, opt_thisArg) { var strKeys = this.stringKeys_(); strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; cb.call(opt_thisArg, this.wrapEntry_(entry), entry.key, this); } }; /** * Sets a key in the map to the given value. * @param {K} key The key * @param {V} value The value * @return {!jspb.Map} */ jspb.Map.prototype.set = function(key, value) { var entry = new jspb.Map.Entry_(key); if (this.valueCtor_) { entry.valueWrapper = value; // .toArray() on a message returns a reference to the underlying array // rather than a copy. entry.value = value.toArray(); } else { entry.value = value; } this.map_[key.toString()] = entry; this.arrClean = false; return this; }; /** * Helper: lazily construct a wrapper around an entry, if needed, and return the * user-visible type. * @param {!jspb.Map.Entry_} entry * @return {V} * @private */ jspb.Map.prototype.wrapEntry_ = function(entry) { if (this.valueCtor_) { if (!entry.valueWrapper) { entry.valueWrapper = new this.valueCtor_(entry.value); } return /** @type {V} */ (entry.valueWrapper); } else { return entry.value; } }; /** * Gets the value corresponding to a key in the map. * @param {K} key * @return {V|undefined} The value, or `undefined` if key not present */ jspb.Map.prototype.get = function(key) { var keyValue = key.toString(); var entry = this.map_[keyValue]; if (entry) { return this.wrapEntry_(entry); } else { return undefined; } }; /** * Determines whether the given key is present in the map. * @param {K} key * @return {boolean} `true` if the key is present */ jspb.Map.prototype.has = function(key) { var keyValue = key.toString(); return (keyValue in this.map_); }; /** * Write this Map field in wire format to a BinaryWriter, using the given field * number. * @param {number} fieldNumber * @param {!jspb.BinaryWriter} writer * @param {function(this:jspb.BinaryWriter,number,K)} keyWriterFn * The method on BinaryWriter that writes type K to the stream. * @param {function(this:jspb.BinaryWriter,number,V,?=)| * function(this:jspb.BinaryWriter,number,V,?)} valueWriterFn * The method on BinaryWriter that writes type V to the stream. May be * writeMessage, in which case the second callback arg form is used. * @param {function(V,!jspb.BinaryWriter)=} opt_valueWriterCallback * The BinaryWriter serialization callback for type V, if V is a message * type. */ jspb.Map.prototype.serializeBinary = function( fieldNumber, writer, keyWriterFn, valueWriterFn, opt_valueWriterCallback) { var strKeys = this.stringKeys_(); strKeys.sort(); for (var i = 0; i < strKeys.length; i++) { var entry = this.map_[strKeys[i]]; writer.beginSubMessage(fieldNumber); keyWriterFn.call(writer, 1, entry.key); if (this.valueCtor_) { valueWriterFn.call(writer, 2, this.wrapEntry_(entry), opt_valueWriterCallback); } else { /** @type {function(this:jspb.BinaryWriter,number,?)} */ (valueWriterFn) .call(writer, 2, entry.value); } writer.endSubMessage(); } }; /** * Read one key/value message from the given BinaryReader. Compatible as the * `reader` callback parameter to jspb.BinaryReader.readMessage, to be called * when a key/value pair submessage is encountered. If the Key is undefined, * we should default it to 0. * @template K, V * @param {!jspb.Map} map * @param {!jspb.BinaryReader} reader * @param {function(this:jspb.BinaryReader):K} keyReaderFn * The method on BinaryReader that reads type K from the stream. * * @param {function(this:jspb.BinaryReader):V| * function(this:jspb.BinaryReader,V, * function(V,!jspb.BinaryReader))} valueReaderFn * The method on BinaryReader that reads type V from the stream. May be * readMessage, in which case the second callback arg form is used. * * @param {?function(V,!jspb.BinaryReader)=} opt_valueReaderCallback * The BinaryReader parsing callback for type V, if V is a message type * * @param {K=} opt_defaultKey * The default value for the type of map keys. Accepting map entries with * unset keys is required for maps to be backwards compatible with the * repeated message representation described here: goo.gl/zuoLAC * * @param {V=} opt_defaultValue * The default value for the type of map values. Accepting map entries with * unset values is required for maps to be backwards compatible with the * repeated message representation described here: goo.gl/zuoLAC * */ jspb.Map.deserializeBinary = function(map, reader, keyReaderFn, valueReaderFn, opt_valueReaderCallback, opt_defaultKey, opt_defaultValue) { var key = opt_defaultKey; var value = opt_defaultValue; while (reader.nextField()) { if (reader.isEndGroup()) { break; } var field = reader.getFieldNumber(); if (field == 1) { // Key. key = keyReaderFn.call(reader); } else if (field == 2) { // Value. if (map.valueCtor_) { goog.asserts.assert(opt_valueReaderCallback); if (!value) { // Old generator still doesn't provide default value message. // Need this for backward compatibility. value = new map.valueCtor_(); } valueReaderFn.call(reader, value, opt_valueReaderCallback); } else { value = (/** @type {function(this:jspb.BinaryReader):?} */ (valueReaderFn)) .call(reader); } } } goog.asserts.assert(key != undefined); goog.asserts.assert(value != undefined); map.set(key, value); }; /** * Helper: compute the list of all stringified keys in the underlying Object * map. * @return {!Array} * @private */ jspb.Map.prototype.stringKeys_ = function() { var m = this.map_; var ret = []; for (var p in m) { if (Object.prototype.hasOwnProperty.call(m, p)) { ret.push(p); } } return ret; }; /** * @param {K} key The entry's key. * @param {V=} opt_value The entry's value wrapper. * @constructor * @struct * @template K, V * @private */ jspb.Map.Entry_ = function(key, opt_value) { /** @const {K} */ this.key = key; // The JSPB-serializable value. For primitive types this will be of type V. // For message types it will be an array. /** @type {V} */ this.value = opt_value; // Only used for submessage values. /** @type {V} */ this.valueWrapper = undefined; };