/* * Copyright 2010-2013 JetBrains s.r.o. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ (function () { "use strict"; /** @const */ var FUNCTION = "function"; var arrayRemoveAt = (typeof Array.prototype.splice == FUNCTION) ? function (arr, idx) { arr.splice(idx, 1); } : function (arr, idx) { var itemsAfterDeleted, i, len; if (idx === arr.length - 1) { arr.length = idx; } else { itemsAfterDeleted = arr.slice(idx + 1); arr.length = idx; for (i = 0, len = itemsAfterDeleted.length; i < len; ++i) { arr[idx + i] = itemsAfterDeleted[i]; } } }; function hashObject(obj) { var hashCode; if (typeof obj == "string") { return obj; } else if (typeof obj.hashCode == FUNCTION) { // Check the hashCode method really has returned a string hashCode = obj.hashCode(); return (typeof hashCode == "string") ? hashCode : hashObject(hashCode); } else if (typeof obj.toString == FUNCTION) { return obj.toString(); } else { try { return String(obj); } catch (ex) { // For host objects (such as ActiveObjects in IE) that have no toString() method and throw an error when // passed to String() return Object.prototype.toString.call(obj); } } } function equals_fixedValueHasEquals(fixedValue, variableValue) { return fixedValue.equals_za3rmp$(variableValue); } function equals_fixedValueNoEquals(fixedValue, variableValue) { return (typeof variableValue.equals_za3rmp$ == FUNCTION) ? variableValue.equals_za3rmp$(fixedValue) : (fixedValue === variableValue); } function createKeyValCheck(kvStr) { return function (kv) { if (kv === null) { throw new Error("null is not a valid " + kvStr); } else if (typeof kv == "undefined") { throw new Error(kvStr + " must not be undefined"); } }; } var checkKey = createKeyValCheck("key"), checkValue = createKeyValCheck("value"); /** * @constructor * @param {string} hash * @param {Key} firstKey * @param {Value} firstValue * @param {(function(Key, Key): boolean)|null|undefined} equalityFunction * @template Key, Value */ function Bucket(hash, firstKey, firstValue, equalityFunction) { this[0] = hash; this.entries = []; this.addEntry(firstKey, firstValue); if (equalityFunction !== null) { this.getEqualityFunction = function () { return equalityFunction; }; } } var EXISTENCE = 0, ENTRY = 1, ENTRY_INDEX_AND_VALUE = 2; function createBucketSearcher(mode) { return function (key) { var i = this.entries.length, entry, equals = this.getEqualityFunction(key); while (i--) { entry = this.entries[i]; if (equals(key, entry[0])) { switch (mode) { case EXISTENCE: return true; case ENTRY: return entry; case ENTRY_INDEX_AND_VALUE: return [ i, entry[1] ]; } } } return false; }; } function createBucketLister(entryProperty) { return function (aggregatedArr) { var startIndex = aggregatedArr.length; for (var i = 0, len = this.entries.length; i < len; ++i) { aggregatedArr[startIndex + i] = this.entries[i][entryProperty]; } }; } Bucket.prototype = { getEqualityFunction: function (searchValue) { return (typeof searchValue.equals_za3rmp$ == FUNCTION) ? equals_fixedValueHasEquals : equals_fixedValueNoEquals; }, getEntryForKey: createBucketSearcher(ENTRY), getEntryAndIndexForKey: createBucketSearcher(ENTRY_INDEX_AND_VALUE), removeEntryForKey: function (key) { var result = this.getEntryAndIndexForKey(key); if (result) { arrayRemoveAt(this.entries, result[0]); return result[1]; } return null; }, addEntry: function (key, value) { this.entries[this.entries.length] = [key, value]; }, keys: createBucketLister(0), values: createBucketLister(1), getEntries: function (entries) { var startIndex = entries.length; for (var i = 0, len = this.entries.length; i < len; ++i) { // Clone the entry stored in the bucket before adding to array entries[startIndex + i] = this.entries[i].slice(0); } }, containsKey_za3rmp$: createBucketSearcher(EXISTENCE), containsValue_za3rmp$: function (value) { var i = this.entries.length; while (i--) { if (value === this.entries[i][1]) { return true; } } return false; } }; /*----------------------------------------------------------------------------------------------------------------*/ // Supporting functions for searching hashtable buckets function searchBuckets(buckets, hash) { var i = buckets.length, bucket; while (i--) { bucket = buckets[i]; if (hash === bucket[0]) { return i; } } return null; } function getBucketForHash(bucketsByHash, hash) { var bucket = bucketsByHash[hash]; // Check that this is a genuine bucket and not something inherited from the bucketsByHash's prototype return ( bucket && (bucket instanceof Bucket) ) ? bucket : null; } /*----------------------------------------------------------------------------------------------------------------*/ /** * @class * * @constructor * @param {(function(Key): string)=} hashingFunctionParam * @param {(function(Key, Key): boolean)=} equalityFunctionParam * @template Key, Value */ var Hashtable = function (hashingFunctionParam, equalityFunctionParam) { var that = this; var buckets = []; var bucketsByHash = {}; var hashingFunction = (typeof hashingFunctionParam == FUNCTION) ? hashingFunctionParam : hashObject; var equalityFunction = (typeof equalityFunctionParam == FUNCTION) ? equalityFunctionParam : null; this.put_wn2jw4$ = function (key, value) { checkKey(key); checkValue(value); var hash = hashingFunction(key), bucket, bucketEntry, oldValue = null; // Check if a bucket exists for the bucket key bucket = getBucketForHash(bucketsByHash, hash); if (bucket) { // Check this bucket to see if it already contains this key bucketEntry = bucket.getEntryForKey(key); if (bucketEntry) { // This bucket entry is the current mapping of key to value, so replace old value and we're done. oldValue = bucketEntry[1]; bucketEntry[1] = value; } else { // The bucket does not contain an entry for this key, so add one bucket.addEntry(key, value); } } else { // No bucket exists for the key, so create one and put our key/value mapping in bucket = new Bucket(hash, key, value, equalityFunction); buckets[buckets.length] = bucket; bucketsByHash[hash] = bucket; } return oldValue; }; this.get_za3rmp$ = function (key) { checkKey(key); var hash = hashingFunction(key); // Check if a bucket exists for the bucket key var bucket = getBucketForHash(bucketsByHash, hash); if (bucket) { // Check this bucket to see if it contains this key var bucketEntry = bucket.getEntryForKey(key); if (bucketEntry) { // This bucket entry is the current mapping of key to value, so return the value. return bucketEntry[1]; } } return null; }; this.containsKey_za3rmp$ = function (key) { checkKey(key); var bucketKey = hashingFunction(key); // Check if a bucket exists for the bucket key var bucket = getBucketForHash(bucketsByHash, bucketKey); return bucket ? bucket.containsKey_za3rmp$(key) : false; }; this.containsValue_za3rmp$ = function (value) { checkValue(value); var i = buckets.length; while (i--) { if (buckets[i].containsValue_za3rmp$(value)) { return true; } } return false; }; this.clear = function () { buckets.length = 0; bucketsByHash = {}; }; this.isEmpty = function () { return !buckets.length; }; var createBucketAggregator = function (bucketFuncName) { return function () { var aggregated = [], i = buckets.length; while (i--) { buckets[i][bucketFuncName](aggregated); } return aggregated; }; }; this._keys = createBucketAggregator("keys"); this._values = createBucketAggregator("values"); this._entries = createBucketAggregator("getEntries"); this.values = function () { var values = this._values(); var i = values.length; var result = new Kotlin.ArrayList(); while (i--) { result.add_za3rmp$(values[i]); } return result; }; this.remove_za3rmp$ = function (key) { checkKey(key); var hash = hashingFunction(key), bucketIndex, oldValue = null; // Check if a bucket exists for the bucket key var bucket = getBucketForHash(bucketsByHash, hash); if (bucket) { // Remove entry from this bucket for this key oldValue = bucket.removeEntryForKey(key); if (oldValue !== null) { // Entry was removed, so check if bucket is empty if (!bucket.entries.length) { // Bucket is empty, so remove it from the bucket collections bucketIndex = searchBuckets(buckets, hash); arrayRemoveAt(buckets, bucketIndex); delete bucketsByHash[hash]; } } } return oldValue; }; this.size = function () { var total = 0, i = buckets.length; while (i--) { total += buckets[i].entries.length; } return total; }; this.each = function (callback) { var entries = that._entries(), i = entries.length, entry; while (i--) { entry = entries[i]; callback(entry[0], entry[1]); } }; /** * @param {Hashtable.} hashtable * @param {(function(Key, Value, Value): Value)=} conflictCallback */ this.putAll_za3j1t$ = function (hashtable, conflictCallback) { var entries = hashtable._entries(); var entry, key, value, thisValue, i = entries.length; var hasConflictCallback = (typeof conflictCallback == FUNCTION); while (i--) { entry = entries[i]; key = entry[0]; value = entry[1]; // Check for a conflict. The default behaviour is to overwrite the value for an existing key if (hasConflictCallback && (thisValue = that.get(key))) { value = conflictCallback(key, thisValue, value); } that.put_wn2jw4$(key, value); } }; this.clone = function () { var clone = new Hashtable(hashingFunctionParam, equalityFunctionParam); clone.putAll_za3j1t$(that); return clone; }; this.keySet = function () { var res = new Kotlin.ComplexHashSet(); var keys = this._keys(); var i = keys.length; while (i--) { res.add_za3rmp$(keys[i]); } return res; }; }; Kotlin.HashTable = Hashtable; })(); /** * @interface * @template Key, Value */ Kotlin.Map = Kotlin.createClassNow(); Kotlin.HashMap = Kotlin.createClassNow(Kotlin.Map, function () { Kotlin.HashTable.call(this); } ); Kotlin.ComplexHashMap = Kotlin.HashMap; (function () { /** * @class * @implements Kotlin.Iterator. * * @constructor * @param {Kotlin.Map.} map * @param {Array.} keys * @template Key, Value */ var PrimitiveHashMapValuesIterator = Kotlin.createClassNow(Kotlin.Iterator, function (map, keys) { this.map = map; this.keys = keys; this.size = keys.length; this.index = 0; }, { next: function () { return this.map[this.keys[this.index++]]; }, hasNext: function () { return this.index < this.size; } }); /** * @class * @implements Kotlin.Collection. * * @constructor * @param {Kotlin.PrimitiveHashMap.} map * @template Key, Value */ var PrimitiveHashMapValues = Kotlin.createClassNow(Kotlin.Collection, function (map) { this.map = map; }, { iterator: function () { return new PrimitiveHashMapValuesIterator(this.map.map, Object.keys(this.map.map)); }, isEmpty: function () { return this.map.$size === 0; }, // TODO: test it contains: function (o) { return this.map.containsValue_za3rmp$(o); } }); /** * @class * @implements Kotlin.Map. * @constructor * @template Key, Value */ Kotlin.PrimitiveHashMap = Kotlin.createClassNow(Kotlin.Map, function () { this.$size = 0; this.map = {}; }, { size: function () { return this.$size; }, isEmpty: function () { return this.$size === 0; }, containsKey_za3rmp$: function (key) { return this.map[key] !== undefined; }, containsValue_za3rmp$: function (value) { var map = this.map; for (var key in map) { if (map.hasOwnProperty(key) && map[key] === value) { return true; } } return false; }, get_za3rmp$: function (key) { return this.map[key]; }, put_wn2jw4$: function (key, value) { var prevValue = this.map[key]; this.map[key] = value === undefined ? null : value; if (prevValue === undefined) { this.$size++; } return prevValue; }, remove_za3rmp$: function (key) { var prevValue = this.map[key]; if (prevValue !== undefined) { delete this.map[key]; this.$size--; } return prevValue; }, clear: function () { this.$size = 0; this.map = {}; }, putAll_za3j1t$: function (fromMap) { var map = fromMap.map; for (var key in map) { if (map.hasOwnProperty(key)) { this.map[key] = map[key]; this.$size++; } } }, keySet: function () { var result = new Kotlin.PrimitiveHashSet(); var map = this.map; for (var key in map) { if (map.hasOwnProperty(key)) { result.add_za3rmp$(key); } } return result; }, values: function () { return new PrimitiveHashMapValues(this); }, toJSON: function () { return this.map; } }); }()); /** * @interface */ Kotlin.Set = Kotlin.createClassNow(Kotlin.Collection); /** * @class * @constructor * @param {Kotlin.Set} set */ var SetIterator = Kotlin.createClassNow(Kotlin.Iterator, function (set) { this.set = set; this.keys = set.toArray(); this.index = 0; }, /** @lends SetIterator.prototype */ { next: function () { return this.keys[this.index++]; }, hasNext: function () { return this.index < this.keys.length; }, remove: function () { this.set.remove_za3rmp$(this.keys[this.index - 1]); } }); /** * @class * @constructor * @extends {Kotlin.Collection.} * @template T */ Kotlin.PrimitiveHashSet = Kotlin.createClassNow(Kotlin.AbstractCollection, /** @constructs */ function () { this.$size = 0; this.map = {}; }, /** @lends {Kotlin.PrimitiveHashSet.prototype} */ { size: function () { return this.$size; }, contains_za3rmp$: function (key) { return this.map[key] === true; }, iterator: function () { return new SetIterator(this); }, add_za3rmp$: function (element) { var prevElement = this.map[element]; this.map[element] = true; if (prevElement === true) { return false; } else { this.$size++; return true; } }, remove_za3rmp$: function (element) { if (this.map[element] === true) { delete this.map[element]; this.$size--; return true; } else { return false; } }, clear: function () { this.$size = 0; this.map = {}; }, toArray: function () { return Object.keys(this.map); } }); (function () { /** * @class * @constructor * @param {(function(Key): string)=} hashingFunction * @param {(function(Key, Key): boolean)=} equalityFunction * @template Key, Value */ function HashSet(hashingFunction, equalityFunction) { var hashTable = new Kotlin.HashTable(hashingFunction, equalityFunction); this.addAll_xeylzf$ = Kotlin.AbstractCollection.prototype.addAll_xeylzf$; this.removeAll_xeylzf$ = Kotlin.AbstractCollection.prototype.removeAll_xeylzf$; this.retainAll_xeylzf$ = Kotlin.AbstractCollection.prototype.retainAll_xeylzf$; this.containsAll_xeylzf$ = Kotlin.AbstractCollection.prototype.containsAll_xeylzf$; this.add_za3rmp$ = function (o) { return !hashTable.put_wn2jw4$(o, true); }; this.toArray = function () { return hashTable._keys(); }; /** @suppress {checkTypes} */ this.iterator = function () { return new SetIterator(this); }; this.remove_za3rmp$ = function (o) { return hashTable.remove_za3rmp$(o) != null; }; this.contains_za3rmp$ = function (o) { return hashTable.containsKey_za3rmp$(o); }; this.clear = function () { hashTable.clear(); }; this.size = function () { return hashTable.size(); }; this.isEmpty = function () { return hashTable.isEmpty(); }; this.clone = function () { var h = new HashSet(hashingFunction, equalityFunction); h.addAll_xeylzf$(hashTable.keys()); return h; }; this.equals_za3rmp$ = function (o) { if (o === null || o === undefined) return false; if (this.size() === o.size()) { var iter1 = this.iterator(); var iter2 = o.iterator(); while (true) { var hn1 = iter1.hasNext(); var hn2 = iter2.hasNext(); if (hn1 != hn2) return false; if (!hn2) { return true; } else { var o1 = iter1.next(); var o2 = iter2.next(); if (!Kotlin.equals(o1, o2)) return false; } } } return false; }; this.toString = function () { var builder = "["; var iter = this.iterator(); var first = true; while (iter.hasNext()) { if (first) { first = false; } else { builder += ", "; } builder += iter.next(); } builder += "]"; return builder; }; this.intersection = function (hashSet) { var intersection = new HashSet(hashingFunction, equalityFunction); var values = hashSet.values(), i = values.length, val; while (i--) { val = values[i]; if (hashTable.containsKey_za3rmp$(val)) { intersection.add_za3rmp$(val); } } return intersection; }; this.union = function (hashSet) { var union = this.clone(); var values = hashSet.values(), i = values.length, val; while (i--) { val = values[i]; if (!hashTable.containsKey_za3rmp$(val)) { union.add_za3rmp$(val); } } return union; }; this.isSubsetOf = function (hashSet) { var values = hashTable.keys(), i = values.length; while (i--) { if (!hashSet.contains_za3rmp$(values[i])) { return false; } } return true; }; } Kotlin.HashSet = Kotlin.createClassNow(Kotlin.Set, function () { HashSet.call(this); } ); Kotlin.ComplexHashSet = Kotlin.HashSet; }());