protobuf/js/map.js

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// 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.forwardDeclare('jspb.BinaryReader');
goog.forwardDeclare('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<!Array<!Object>>} arr
*
* @param {?function(new:V)|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<string, !jspb.Map.Entry_<K,V>>} @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<!Array<!Object>>}
*/
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)) {
m[p].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 {!Object} */ (entry.valueWrapper);
if (valueWrapper) {
valueWrapper.toArray();
}
this.arr_.push([entry.key, entry.value]);
}
this.arrClean = true;
}
return this.arr_;
};
/**
* Helper: return an iterator over an array.
* @template T
* @param {!Array<T>} arr the array
* @return {!Iterator<T>} an iterator
* @private
*/
jspb.Map.arrayIterator_ = function(arr) {
var idx = 0;
return /** @type {!Iterator} */ ({
next: function() {
if (idx < arr.length) {
return { done: false, value: arr[idx++] };
} else {
return { done: true };
}
}
});
};
/**
* 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<K|V>}
*/
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 over [key, value] pairs in the map.
* Closure compiler sadly doesn't support tuples, ie. Iterator<[K,V]>.
* @return {!Iterator<!Array<K|V>>}
* The iterator
*/
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 jspb.Map.arrayIterator_(entries);
};
/**
* Returns an iterator over keys in the map.
* @return {!Iterator<K>} The iterator
*/
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 jspb.Map.arrayIterator_(keys);
};
/**
* Returns an iterator over values in the map.
* @return {!Iterator<V>} The iterator
*/
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 jspb.Map.arrayIterator_(values);
};
/**
* Iterates over entries in the map, calling a function on each.
* @template T
* @param {function(this:T, V, K, ?jspb.Map<K, V>)} 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<K,V>}
*/
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_<K,V>} 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.BinaryReader,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 {
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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.
* @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.
*
*/
jspb.Map.deserializeBinary = function(map, reader, keyReaderFn, valueReaderFn,
opt_valueReaderCallback) {
var key = undefined;
var value = undefined;
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_) {
value = new map.valueCtor_();
valueReaderFn.call(reader, value, opt_valueReaderCallback);
} else {
value = 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<string>}
* @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;
};