v8/test/mjsunit/es6/collections.js

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// Copyright 2012 the V8 project authors. All rights reserved.
// 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.
// Flags: --expose-gc --allow-natives-syntax
function assertSize(expected, collection) {
if (collection instanceof Map || collection instanceof Set) {
assertEquals(expected, collection.size);
}
}
// Test valid getter and setter calls on Sets and WeakSets
function TestValidSetCalls(m) {
assertDoesNotThrow(function () { m.add(new Object) });
assertDoesNotThrow(function () { m.has(new Object) });
assertDoesNotThrow(function () { m.delete(new Object) });
}
TestValidSetCalls(new Set);
TestValidSetCalls(new WeakSet);
// Test valid getter and setter calls on Maps and WeakMaps
function TestValidMapCalls(m) {
assertDoesNotThrow(function () { m.get(new Object) });
assertDoesNotThrow(function () { m.set(new Object) });
assertDoesNotThrow(function () { m.has(new Object) });
assertDoesNotThrow(function () { m.delete(new Object) });
assertDoesNotThrow(function () { m.get(undefined) });
assertDoesNotThrow(function () { m.get(null) });
assertDoesNotThrow(function () { m.get(0) });
assertDoesNotThrow(function () { m.get('a-key') });
assertDoesNotThrow(function () { m.get(Symbol()) });
assertDoesNotThrow(function () { m.has(undefined) });
assertDoesNotThrow(function () { m.has(null) });
assertDoesNotThrow(function () { m.has(0) });
assertDoesNotThrow(function () { m.has('a-key') });
assertDoesNotThrow(function () { m.has(Symbol()) });
assertDoesNotThrow(function () { m.delete(undefined) });
assertDoesNotThrow(function () { m.delete(null) });
assertDoesNotThrow(function () { m.delete(0) });
assertDoesNotThrow(function () { m.delete('a-key') });
assertDoesNotThrow(function () { m.delete(Symbol()) });
}
TestValidMapCalls(new Map);
TestValidMapCalls(new WeakMap);
// Test invalid getter and setter calls for WeakMap only
function TestInvalidCalls(m) {
assertThrows(function () { m.set(undefined, 0) }, TypeError);
assertThrows(function () { m.set(null, 0) }, TypeError);
assertThrows(function () { m.set(0, 0) }, TypeError);
assertThrows(function () { m.set('a-key', 0) }, TypeError);
assertThrows(function () { m.set(Symbol(), 0) }, TypeError);
}
TestInvalidCalls(new WeakMap);
// Test expected behavior for Sets and WeakSets
function TestSet(set, key) {
assertFalse(set.has(key));
assertFalse(set.delete(key));
if (typeof key === 'object' && !(set instanceof WeakSet)) {
assertSame(set, set.add(key));
assertTrue(set.has(key));
assertTrue(set.delete(key));
}
assertFalse(set.has(key));
assertFalse(set.delete(key));
assertFalse(set.has(key));
}
function TestSetBehavior(set) {
// Fill
for (var i = 0; i < 20; i++) {
TestSet(set, new Object);
TestSet(set, i);
TestSet(set, i / 100);
TestSet(set, 'key-' + i);
TestSet(set, Symbol(i));
}
var keys = [
-0, +0, 1, 1/3, 10, +Infinity, -Infinity, NaN, true, false, null, undefined,
'x', Symbol(), {}, function(){}
];
for (var i = 0; i < keys.length; i++) {
TestSet(set, keys[i]);
}
}
TestSetBehavior(new Set);
TestSetBehavior(new WeakSet);
// Test expected mapping behavior for Maps and WeakMaps
function TestMapping(map, key, value) {
assertFalse(map.has(key));
assertSame(undefined, map.get(key));
assertFalse(map.delete(key));
if (typeof key === 'object' && !(map instanceof WeakMap)) {
assertSame(map, map.set(key, value));
assertSame(value, map.get(key));
assertTrue(map.has(key));
assertTrue(map.delete(key));
}
assertFalse(map.has(key));
assertSame(undefined, map.get(key));
assertFalse(map.delete(key));
assertFalse(map.has(key));
assertSame(undefined, map.get(key));
}
function TestMapBehavior(m) {
// Fill
TestMapping(m, new Object, 23);
TestMapping(m, new Object, 'the-value');
TestMapping(m, new Object, new Object);
for (var i = 0; i < 20; i++) {
TestMapping(m, i, new Object);
TestMapping(m, i / 10, new Object);
TestMapping(m, 'key-' + i, new Object);
TestMapping(m, Symbol(i), new Object);
}
var keys = [
-0, +0, 1, 1/3, 10, +Infinity, -Infinity, NaN, true, false, null, undefined,
'x', Symbol(), {}, function(){}
];
for (var i = 0; i < keys.length; i++) {
TestMapping(m, keys[i], 23);
TestMapping(m, keys[i], 'the-value');
TestMapping(m, keys[i], new Object);
}
}
TestMapBehavior(new Map);
TestMapBehavior(new WeakMap);
// Test expected querying behavior of Maps and WeakMaps
function TestQuery(m) {
var key = new Object;
var values = [ 'x', 0, +Infinity, -Infinity, true, false, null, undefined ];
for (var i = 0; i < values.length; i++) {
TestMapping(m, key, values[i]);
}
}
TestQuery(new Map);
TestQuery(new WeakMap);
// Test expected deletion behavior of Maps and WeakMaps
function TestDelete(m) {
var key = new Object;
TestMapping(m, key, 'to-be-deleted');
assertFalse(m.delete(key));
assertFalse(m.delete(new Object));
assertSame(m.get(key), undefined);
}
TestDelete(new Map);
TestDelete(new WeakMap);
// Test GC of Maps and WeakMaps with entry
function TestGC1(m) {
var key = new Object;
m.set(key, 'not-collected');
gc();
assertSame('not-collected', m.get(key));
}
TestGC1(new Map);
TestGC1(new WeakMap);
// Test GC of Maps and WeakMaps with chained entries
function TestGC2(m) {
var head = new Object;
for (key = head, i = 0; i < 10; i++, key = m.get(key)) {
m.set(key, new Object);
}
gc();
var count = 0;
for (key = head; key != undefined; key = m.get(key)) {
count++;
}
assertEquals(11, count);
}
TestGC2(new Map);
TestGC2(new WeakMap);
// Test property attribute [[Enumerable]]
function TestEnumerable(func) {
function props(x) {
var array = [];
for (var p in x) array.push(p);
return array.sort();
}
assertArrayEquals([], props(func));
assertArrayEquals([], props(func.prototype));
assertArrayEquals([], props(new func()));
}
TestEnumerable(Set);
TestEnumerable(Map);
TestEnumerable(WeakMap);
TestEnumerable(WeakSet);
// Test arbitrary properties on Maps and WeakMaps
function TestArbitrary(m) {
function TestProperty(map, property, value) {
map[property] = value;
assertEquals(value, map[property]);
}
for (var i = 0; i < 20; i++) {
TestProperty(m, i, 'val' + i);
TestProperty(m, 'foo' + i, 'bar' + i);
}
TestMapping(m, new Object, 'foobar');
}
TestArbitrary(new Map);
TestArbitrary(new WeakMap);
// Test direct constructor call
assertThrows(function() { Set(); }, TypeError);
assertThrows(function() { Map(); }, TypeError);
assertThrows(function() { WeakMap(); }, TypeError);
assertThrows(function() { WeakSet(); }, TypeError);
// Test whether NaN values as keys are treated correctly.
var s = new Set;
assertFalse(s.has(NaN));
assertFalse(s.has(NaN + 1));
assertFalse(s.has(23));
s.add(NaN);
assertTrue(s.has(NaN));
assertTrue(s.has(NaN + 1));
assertFalse(s.has(23));
var m = new Map;
assertFalse(m.has(NaN));
assertFalse(m.has(NaN + 1));
assertFalse(m.has(23));
m.set(NaN, 'a-value');
assertTrue(m.has(NaN));
assertTrue(m.has(NaN + 1));
assertFalse(m.has(23));
// Test some common JavaScript idioms for Sets
var s = new Set;
assertTrue(s instanceof Set);
assertTrue(Set.prototype.add instanceof Function)
assertTrue(Set.prototype.has instanceof Function)
assertTrue(Set.prototype.delete instanceof Function)
assertTrue(Set.prototype.clear instanceof Function)
// Test some common JavaScript idioms for Maps
var m = new Map;
assertTrue(m instanceof Map);
assertTrue(Map.prototype.set instanceof Function)
assertTrue(Map.prototype.get instanceof Function)
assertTrue(Map.prototype.has instanceof Function)
assertTrue(Map.prototype.delete instanceof Function)
assertTrue(Map.prototype.clear instanceof Function)
// Test some common JavaScript idioms for WeakMaps
var m = new WeakMap;
assertTrue(m instanceof WeakMap);
assertTrue(WeakMap.prototype.set instanceof Function)
assertTrue(WeakMap.prototype.get instanceof Function)
assertTrue(WeakMap.prototype.has instanceof Function)
assertTrue(WeakMap.prototype.delete instanceof Function)
// Test some common JavaScript idioms for WeakSets
var s = new WeakSet;
assertTrue(s instanceof WeakSet);
assertTrue(WeakSet.prototype.add instanceof Function)
assertTrue(WeakSet.prototype.has instanceof Function)
assertTrue(WeakSet.prototype.delete instanceof Function)
// Test class of instance and prototype.
assertEquals("Set", %_ClassOf(new Set))
assertEquals("Object", %_ClassOf(Set.prototype))
assertEquals("Map", %_ClassOf(new Map))
assertEquals("Object", %_ClassOf(Map.prototype))
assertEquals("WeakMap", %_ClassOf(new WeakMap))
assertEquals("Object", %_ClassOf(WeakMap.prototype))
assertEquals("WeakSet", %_ClassOf(new WeakSet))
assertEquals("Object", %_ClassOf(WeakMap.prototype))
// Test name of constructor.
assertEquals("Set", Set.name);
assertEquals("Map", Map.name);
assertEquals("WeakMap", WeakMap.name);
assertEquals("WeakSet", WeakSet.name);
// Test prototype property of Set, Map, WeakMap and WeakSet.
function TestPrototype(C) {
assertTrue(C.prototype instanceof Object);
assertEquals({
value: C.prototype,
writable: false,
enumerable: false,
configurable: false
}, Object.getOwnPropertyDescriptor(C, "prototype"));
}
TestPrototype(Set);
TestPrototype(Map);
TestPrototype(WeakMap);
TestPrototype(WeakSet);
// Test constructor property of the Set, Map, WeakMap and WeakSet prototype.
function TestConstructor(C) {
assertFalse(C === Object.prototype.constructor);
assertSame(C, C.prototype.constructor);
assertSame(C, (new C).__proto__.constructor);
assertEquals(0, C.length);
}
TestConstructor(Set);
TestConstructor(Map);
TestConstructor(WeakMap);
TestConstructor(WeakSet);
// Test the Set, Map, WeakMap and WeakSet global properties themselves.
function TestDescriptor(global, C) {
assertEquals({
value: C,
writable: true,
enumerable: false,
configurable: true
}, Object.getOwnPropertyDescriptor(global, C.name));
}
TestDescriptor(this, Set);
TestDescriptor(this, Map);
TestDescriptor(this, WeakMap);
TestDescriptor(this, WeakSet);
// Regression test for WeakMap prototype.
assertTrue(WeakMap.prototype.constructor === WeakMap)
assertTrue(Object.getPrototypeOf(WeakMap.prototype) === Object.prototype)
// Regression test for issue 1617: The prototype of the WeakMap constructor
// needs to be unique (i.e. different from the one of the Object constructor).
assertFalse(WeakMap.prototype === Object.prototype);
var o = Object.create({});
assertFalse("get" in o);
assertFalse("set" in o);
assertEquals(undefined, o.get);
assertEquals(undefined, o.set);
var o = Object.create({}, { myValue: {
value: 10,
enumerable: false,
configurable: true,
writable: true
}});
assertEquals(10, o.myValue);
// Regression test for issue 1884: Invoking any of the methods for Harmony
// maps, sets, or weak maps, with a wrong type of receiver should be throwing
// a proper TypeError.
var alwaysBogus = [ undefined, null, true, "x", 23, {} ];
var bogusReceiversTestSet = [
{ proto: Set.prototype,
funcs: [ 'add', 'has', 'delete' ],
receivers: alwaysBogus.concat([ new Map, new WeakMap, new WeakSet ]),
},
{ proto: Map.prototype,
funcs: [ 'get', 'set', 'has', 'delete' ],
receivers: alwaysBogus.concat([ new Set, new WeakMap, new WeakSet ]),
},
{ proto: WeakMap.prototype,
funcs: [ 'get', 'set', 'has', 'delete' ],
receivers: alwaysBogus.concat([ new Set, new Map, new WeakSet ]),
},
{ proto: WeakSet.prototype,
funcs: [ 'add', 'has', 'delete' ],
receivers: alwaysBogus.concat([ new Set, new Map, new WeakMap ]),
},
];
function TestBogusReceivers(testSet) {
for (var i = 0; i < testSet.length; i++) {
var proto = testSet[i].proto;
var funcs = testSet[i].funcs;
var receivers = testSet[i].receivers;
for (var j = 0; j < funcs.length; j++) {
var func = proto[funcs[j]];
for (var k = 0; k < receivers.length; k++) {
assertThrows(function () { func.call(receivers[k], {}) }, TypeError);
}
}
}
}
TestBogusReceivers(bogusReceiversTestSet);
// Stress Test
// There is a proposed stress-test available at the es-discuss mailing list
// which cannot be reasonably automated. Check it out by hand if you like:
// https://mail.mozilla.org/pipermail/es-discuss/2011-May/014096.html
// Set and Map size getters
var setSizeDescriptor = Object.getOwnPropertyDescriptor(Set.prototype, 'size');
assertEquals(undefined, setSizeDescriptor.value);
assertEquals(undefined, setSizeDescriptor.set);
assertTrue(setSizeDescriptor.get instanceof Function);
assertEquals(undefined, setSizeDescriptor.get.prototype);
assertFalse(setSizeDescriptor.enumerable);
assertTrue(setSizeDescriptor.configurable);
assertEquals('get size', setSizeDescriptor.get.name);
var s = new Set();
assertFalse(s.hasOwnProperty('size'));
for (var i = 0; i < 10; i++) {
assertEquals(i, s.size);
s.add(i);
}
for (var i = 9; i >= 0; i--) {
s.delete(i);
assertEquals(i, s.size);
}
var mapSizeDescriptor = Object.getOwnPropertyDescriptor(Map.prototype, 'size');
assertEquals(undefined, mapSizeDescriptor.value);
assertEquals(undefined, mapSizeDescriptor.set);
assertTrue(mapSizeDescriptor.get instanceof Function);
assertEquals(undefined, mapSizeDescriptor.get.prototype);
assertFalse(mapSizeDescriptor.enumerable);
assertTrue(mapSizeDescriptor.configurable);
assertEquals('get size', mapSizeDescriptor.get.name);
var m = new Map();
assertFalse(m.hasOwnProperty('size'));
for (var i = 0; i < 10; i++) {
assertEquals(i, m.size);
m.set(i, i);
}
for (var i = 9; i >= 0; i--) {
m.delete(i);
assertEquals(i, m.size);
}
// Test Set clear
(function() {
var s = new Set();
s.add(42);
assertTrue(s.has(42));
assertEquals(1, s.size);
s.clear();
assertFalse(s.has(42));
assertEquals(0, s.size);
})();
// Test Map clear
(function() {
var m = new Map();
m.set(42, true);
assertTrue(m.has(42));
assertEquals(1, m.size);
m.clear();
assertFalse(m.has(42));
assertEquals(0, m.size);
})();
(function TestMinusZeroSet() {
var s = new Set();
s.add(-0);
assertSame(0, s.values().next().value);
s.add(0);
assertEquals(1, s.size);
assertTrue(s.has(0));
assertTrue(s.has(-0));
})();
(function TestMinusZeroMap() {
var m = new Map();
m.set(-0, 'minus');
assertSame(0, m.keys().next().value);
m.set(0, 'plus');
assertEquals(1, m.size);
assertTrue(m.has(0));
assertTrue(m.has(-0));
assertEquals('plus', m.get(0));
assertEquals('plus', m.get(-0));
})();
ES6: Add support for Map/Set forEach This implements MapIterator and SetIterator which matches the same constructs in the ES6 spec. However, these 2 iterators are not exposed to user code yet. They are only used internally to implement Map.prototype.forEach and Set.prototype.forEach. Each iterator has a reference to the OrderedHashTable where it directly accesses the hash table's entries. The OrderedHashTable has a reference to the newest iterator and each iterator has a reference to the next and previous iterator, effectively creating a double linked list. When the OrderedHashTable is mutated (or replaced) all the iterators are updated. When the iterator iterates passed the end of the data table it closes itself. Closed iterators no longer have a reference to the OrderedHashTable and they are removed from the double linked list. In the case of Map/Set forEach, we manually call Close on the iterator in case an exception was thrown so that the iterator never reached the end. At this point the OrderedHashTable keeps all the non finished iterators alive but since the only thing we currently expose is forEach there are no unfinished iterators outside a forEach call. Once we expose the iterators to user code we will need to make the references from the OrderedHashTable to the iterators weak and have some mechanism to close an iterator when it is garbage collected. BUG=1793, 2323 LOG=Y R=adamk@chromium.org TBR=mstarzinger@chromium.org Review URL: https://codereview.chromium.org/238063009 Patch from Erik Arvidsson <arv@chromium.org>. git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@20857 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-04-17 17:45:32 +00:00
(function TestSetForEachInvalidTypes() {
assertThrows(function() {
Set.prototype.set.forEach.call({});
}, TypeError);
var set = new Set();
assertThrows(function() {
set.forEach({});
}, TypeError);
})();
(function TestSetForEach() {
var set = new Set();
set.add('a');
set.add('b');
set.add('c');
var buffer = '';
var receiver = {};
set.forEach(function(v, k, s) {
assertSame(v, k);
assertSame(set, s);
assertSame(this, receiver);
buffer += v;
if (v === 'a') {
set.delete('b');
set.add('d');
set.add('e');
set.add('f');
} else if (v === 'c') {
set.add('b');
set.delete('e');
}
}, receiver);
assertEquals('acdfb', buffer);
})();
(function TestSetForEachAddAtEnd() {
var set = new Set();
set.add('a');
set.add('b');
var buffer = '';
set.forEach(function(v) {
buffer += v;
if (v === 'b') {
set.add('c');
}
});
assertEquals('abc', buffer);
})();
(function TestSetForEachDeleteNext() {
var set = new Set();
set.add('a');
set.add('b');
set.add('c');
var buffer = '';
set.forEach(function(v) {
buffer += v;
if (v === 'b') {
set.delete('c');
}
});
assertEquals('ab', buffer);
})();
(function TestSetForEachDeleteVisitedAndAddAgain() {
var set = new Set();
set.add('a');
set.add('b');
set.add('c');
var buffer = '';
set.forEach(function(v) {
buffer += v;
if (v === 'b') {
set.delete('a');
} else if (v === 'c') {
set.add('a');
}
});
assertEquals('abca', buffer);
})();
(function TestSetForEachClear() {
var set = new Set();
set.add('a');
set.add('b');
set.add('c');
var buffer = '';
set.forEach(function(v) {
buffer += v;
if (v === 'a') {
set.clear();
set.add('d');
set.add('e');
}
});
assertEquals('ade', buffer);
})();
(function TestSetForEachNested() {
var set = new Set();
set.add('a');
set.add('b');
set.add('c');
var buffer = '';
set.forEach(function(v) {
buffer += v;
set.forEach(function(v) {
buffer += v;
if (v === 'a') {
set.delete('b');
}
});
});
assertEquals('aaccac', buffer);
})();
(function TestSetForEachEarlyExit() {
var set = new Set();
set.add('a');
set.add('b');
set.add('c');
var buffer = '';
var ex = {};
try {
set.forEach(function(v) {
buffer += v;
throw ex;
});
} catch (e) {
assertEquals(ex, e);
}
assertEquals('a', buffer);
})();
(function TestSetForEachGC() {
var set = new Set();
for (var i = 0; i < 100; i++) {
set.add(i);
}
var accumulated = 0;
set.forEach(function(v) {
accumulated += v;
if (v % 10 === 0) {
gc();
}
});
assertEquals(4950, accumulated);
})();
(function TestSetForEachReceiverAsObject() {
var set = new Set(["1", "2"]);
// Create a new object in each function call when receiver is a
// primitive value. See ECMA-262, Annex C.
var a = [];
set.forEach(function() { a.push(this) }, "");
assertTrue(a[0] !== a[1]);
// Do not create a new object otherwise.
a = [];
set.forEach(function() { a.push(this); }, {});
assertEquals(a[0], a[1]);
})();
(function TestSetForEachReceiverAsObjectInStrictMode() {
var set = new Set(["1", "2"]);
// In strict mode primitive values should not be coerced to an object.
var a = [];
set.forEach(function() { 'use strict'; a.push(this); }, "");
assertTrue(a[0] === "" && a[0] === a[1]);
})();
ES6: Add support for Map/Set forEach This implements MapIterator and SetIterator which matches the same constructs in the ES6 spec. However, these 2 iterators are not exposed to user code yet. They are only used internally to implement Map.prototype.forEach and Set.prototype.forEach. Each iterator has a reference to the OrderedHashTable where it directly accesses the hash table's entries. The OrderedHashTable has a reference to the newest iterator and each iterator has a reference to the next and previous iterator, effectively creating a double linked list. When the OrderedHashTable is mutated (or replaced) all the iterators are updated. When the iterator iterates passed the end of the data table it closes itself. Closed iterators no longer have a reference to the OrderedHashTable and they are removed from the double linked list. In the case of Map/Set forEach, we manually call Close on the iterator in case an exception was thrown so that the iterator never reached the end. At this point the OrderedHashTable keeps all the non finished iterators alive but since the only thing we currently expose is forEach there are no unfinished iterators outside a forEach call. Once we expose the iterators to user code we will need to make the references from the OrderedHashTable to the iterators weak and have some mechanism to close an iterator when it is garbage collected. BUG=1793, 2323 LOG=Y R=adamk@chromium.org TBR=mstarzinger@chromium.org Review URL: https://codereview.chromium.org/238063009 Patch from Erik Arvidsson <arv@chromium.org>. git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@20857 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
2014-04-17 17:45:32 +00:00
(function TestMapForEachInvalidTypes() {
assertThrows(function() {
Map.prototype.map.forEach.call({});
}, TypeError);
var map = new Map();
assertThrows(function() {
map.forEach({});
}, TypeError);
})();
(function TestMapForEach() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
map.set(2, 'c');
var buffer = [];
var receiver = {};
map.forEach(function(v, k, m) {
assertEquals(map, m);
assertEquals(this, receiver);
buffer.push(k, v);
if (k === 0) {
map.delete(1);
map.set(3, 'd');
map.set(4, 'e');
map.set(5, 'f');
} else if (k === 2) {
map.set(1, 'B');
map.delete(4);
}
}, receiver);
assertArrayEquals([0, 'a', 2, 'c', 3, 'd', 5, 'f', 1, 'B'], buffer);
})();
(function TestMapForEachAddAtEnd() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
var buffer = [];
map.forEach(function(v, k) {
buffer.push(k, v);
if (k === 1) {
map.set(2, 'c');
}
});
assertArrayEquals([0, 'a', 1, 'b', 2, 'c'], buffer);
})();
(function TestMapForEachDeleteNext() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
map.set(2, 'c');
var buffer = [];
map.forEach(function(v, k) {
buffer.push(k, v);
if (k === 1) {
map.delete(2);
}
});
assertArrayEquals([0, 'a', 1, 'b'], buffer);
})();
(function TestSetForEachDeleteVisitedAndAddAgain() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
map.set(2, 'c');
var buffer = [];
map.forEach(function(v, k) {
buffer.push(k, v);
if (k === 1) {
map.delete(0);
} else if (k === 2) {
map.set(0, 'a');
}
});
assertArrayEquals([0, 'a', 1, 'b', 2, 'c', 0, 'a'], buffer);
})();
(function TestMapForEachClear() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
map.set(2, 'c');
var buffer = [];
map.forEach(function(v, k) {
buffer.push(k, v);
if (k === 0) {
map.clear();
map.set(3, 'd');
map.set(4, 'e');
}
});
assertArrayEquals([0, 'a', 3, 'd', 4, 'e'], buffer);
})();
(function TestMapForEachNested() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
map.set(2, 'c');
var buffer = [];
map.forEach(function(v, k) {
buffer.push(k, v);
map.forEach(function(v, k) {
buffer.push(k, v);
if (k === 0) {
map.delete(1);
}
});
});
assertArrayEquals([0, 'a', 0, 'a', 2, 'c', 2, 'c', 0, 'a', 2, 'c'], buffer);
})();
(function TestMapForEachEarlyExit() {
var map = new Map();
map.set(0, 'a');
map.set(1, 'b');
map.set(2, 'c');
var buffer = [];
var ex = {};
try {
map.forEach(function(v, k) {
buffer.push(k, v);
throw ex;
});
} catch (e) {
assertEquals(ex, e);
}
assertArrayEquals([0, 'a'], buffer);
})();
(function TestMapForEachGC() {
var map = new Map();
for (var i = 0; i < 100; i++) {
map.set(i, i);
}
var accumulated = 0;
map.forEach(function(v) {
accumulated += v;
if (v % 10 === 0) {
gc();
}
});
assertEquals(4950, accumulated);
})();
(function TestMapForEachAllRemovedTransition() {
var map = new Map;
map.set(0, 0);
var buffer = [];
map.forEach(function(v) {
buffer.push(v);
if (v === 0) {
for (var i = 1; i < 4; i++) {
map.set(i, i);
}
}
if (v === 3) {
for (var i = 0; i < 4; i++) {
map.delete(i);
}
for (var i = 4; i < 8; i++) {
map.set(i, i);
}
}
});
assertArrayEquals([0, 1, 2, 3, 4, 5, 6, 7], buffer);
})();
(function TestMapForEachClearTransition() {
var map = new Map;
map.set(0, 0);
var i = 0;
var buffer = [];
map.forEach(function(v) {
buffer.push(v);
if (++i < 5) {
for (var j = 0; j < 5; j++) {
map.clear();
map.set(i, i);
}
}
});
assertArrayEquals([0, 1, 2, 3, 4], buffer);
})();
(function TestMapForEachNestedNonTrivialTransition() {
var map = new Map;
map.set(0, 0);
map.set(1, 1);
map.set(2, 2);
map.set(3, 3);
map.delete(0);
var i = 0;
var buffer = [];
map.forEach(function(v) {
if (++i > 10) return;
buffer.push(v);
if (v == 3) {
map.delete(1);
for (var j = 4; j < 10; j++) {
map.set(j, j);
}
for (var j = 4; j < 10; j += 2) {
map.delete(j);
}
map.delete(2);
for (var j = 10; j < 20; j++) {
map.set(j, j);
}
for (var j = 10; j < 20; j += 2) {
map.delete(j);
}
map.delete(3);
}
});
assertArrayEquals([1, 2, 3, 5, 7, 9, 11, 13, 15, 17], buffer);
})();
(function TestMapForEachAllRemovedTransitionNoClear() {
var map = new Map;
map.set(0, 0);
var buffer = [];
map.forEach(function(v) {
buffer.push(v);
if (v === 0) {
for (var i = 1; i < 8; i++) {
map.set(i, i);
}
}
if (v === 4) {
for (var i = 0; i < 8; i++) {
map.delete(i);
}
}
});
assertArrayEquals([0, 1, 2, 3, 4], buffer);
})();
(function TestMapForEachNoMoreElementsAfterTransition() {
var map = new Map;
map.set(0, 0);
var buffer = [];
map.forEach(function(v) {
buffer.push(v);
if (v === 0) {
for (var i = 1; i < 16; i++) {
map.set(i, i);
}
}
if (v === 4) {
for (var i = 5; i < 16; i++) {
map.delete(i);
}
}
});
assertArrayEquals([0, 1, 2, 3, 4], buffer);
})();
(function TestMapForEachReceiverAsObject() {
var map = new Map();
map.set("key1", "value1");
map.set("key2", "value2");
// Create a new object in each function call when receiver is a
// primitive value. See ECMA-262, Annex C.
var a = [];
map.forEach(function() { a.push(this) }, "");
assertTrue(a[0] !== a[1]);
// Do not create a new object otherwise.
a = [];
map.forEach(function() { a.push(this); }, {});
assertEquals(a[0], a[1]);
})();
(function TestMapForEachReceiverAsObjectInStrictMode() {
var map = new Map();
map.set("key1", "value1");
map.set("key2", "value2");
// In strict mode primitive values should not be coerced to an object.
var a = [];
map.forEach(function() { 'use strict'; a.push(this); }, "");
assertTrue(a[0] === "" && a[0] === a[1]);
})();
// Allows testing iterator-based constructors easily.
var oneAndTwo = new Map();
var k0 = {key: 0};
var k1 = {key: 1};
var k2 = {key: 2};
oneAndTwo.set(k1, 1);
oneAndTwo.set(k2, 2);
function TestSetConstructor(ctor) {
var s = new ctor(null);
assertSize(0, s);
s = new ctor(undefined);
assertSize(0, s);
// No @@iterator
assertThrows(function() {
new ctor({});
}, TypeError);
assertThrows(function() {
new ctor(true);
}, TypeError);
// @@iterator not callable
assertThrows(function() {
var object = {};
object[Symbol.iterator] = 42;
new ctor(object);
}, TypeError);
// @@iterator result not object
assertThrows(function() {
var object = {};
object[Symbol.iterator] = function() {
return 42;
};
new ctor(object);
}, TypeError);
var s2 = new Set();
s2.add(k0);
s2.add(k1);
s2.add(k2);
s = new ctor(s2.values());
assertSize(3, s);
assertTrue(s.has(k0));
assertTrue(s.has(k1));
assertTrue(s.has(k2));
}
TestSetConstructor(Set);
TestSetConstructor(WeakSet);
function TestSetConstructorAddNotCallable(ctor) {
var originalPrototypeAdd = ctor.prototype.add;
assertThrows(function() {
ctor.prototype.add = 42;
new ctor(oneAndTwo.values());
}, TypeError);
ctor.prototype.add = originalPrototypeAdd;
}
TestSetConstructorAddNotCallable(Set);
TestSetConstructorAddNotCallable(WeakSet);
function TestSetConstructorGetAddOnce(ctor) {
var originalPrototypeAdd = ctor.prototype.add;
var getAddCount = 0;
Object.defineProperty(ctor.prototype, 'add', {
get: function() {
getAddCount++;
return function() {};
}
});
var s = new ctor(oneAndTwo.values());
assertEquals(1, getAddCount);
assertSize(0, s);
Object.defineProperty(ctor.prototype, 'add', {
value: originalPrototypeAdd,
writable: true
});
}
TestSetConstructorGetAddOnce(Set);
TestSetConstructorGetAddOnce(WeakSet);
function TestSetConstructorAddReplaced(ctor) {
var originalPrototypeAdd = ctor.prototype.add;
var addCount = 0;
ctor.prototype.add = function(value) {
addCount++;
originalPrototypeAdd.call(this, value);
ctor.prototype.add = null;
};
var s = new ctor(oneAndTwo.keys());
assertEquals(2, addCount);
assertSize(2, s);
ctor.prototype.add = originalPrototypeAdd;
}
TestSetConstructorAddReplaced(Set);
TestSetConstructorAddReplaced(WeakSet);
function TestSetConstructorOrderOfDoneValue(ctor) {
var valueCount = 0, doneCount = 0;
var iterator = {
next: function() {
return {
get value() {
valueCount++;
},
get done() {
doneCount++;
throw new Error();
}
};
}
};
iterator[Symbol.iterator] = function() {
return this;
};
assertThrows(function() {
new ctor(iterator);
});
assertEquals(1, doneCount);
assertEquals(0, valueCount);
}
TestSetConstructorOrderOfDoneValue(Set);
TestSetConstructorOrderOfDoneValue(WeakSet);
function TestSetConstructorNextNotAnObject(ctor) {
var iterator = {
next: function() {
return 'abc';
}
};
iterator[Symbol.iterator] = function() {
return this;
};
assertThrows(function() {
new ctor(iterator);
}, TypeError);
}
TestSetConstructorNextNotAnObject(Set);
TestSetConstructorNextNotAnObject(WeakSet);
(function TestWeakSetConstructorNonObjectKeys() {
assertThrows(function() {
new WeakSet([1]);
}, TypeError);
})();
function TestSetConstructorIterableValue(ctor) {
'use strict';
// Strict mode is required to prevent implicit wrapping in the getter.
Object.defineProperty(Number.prototype, Symbol.iterator, {
get: function() {
assertEquals('number', typeof this);
return function() {
assertEquals('number', typeof this);
return oneAndTwo.keys();
};
},
configurable: true
});
var set = new ctor(42);
assertSize(2, set);
assertTrue(set.has(k1));
assertTrue(set.has(k2));
delete Number.prototype[Symbol.iterator];
}
TestSetConstructorIterableValue(Set);
TestSetConstructorIterableValue(WeakSet);
(function TestSetConstructorStringValue() {
var s = new Set('abc');
assertSize(3, s);
assertTrue(s.has('a'));
assertTrue(s.has('b'));
assertTrue(s.has('c'));
})();
function TestMapConstructor(ctor) {
var m = new ctor(null);
assertSize(0, m);
m = new ctor(undefined);
assertSize(0, m);
// No @@iterator
assertThrows(function() {
new ctor({});
}, TypeError);
assertThrows(function() {
new ctor(true);
}, TypeError);
// @@iterator not callable
assertThrows(function() {
var object = {};
object[Symbol.iterator] = 42;
new ctor(object);
}, TypeError);
// @@iterator result not object
assertThrows(function() {
var object = {};
object[Symbol.iterator] = function() {
return 42;
};
new ctor(object);
}, TypeError);
var m2 = new Map();
m2.set(k0, 'a');
m2.set(k1, 'b');
m2.set(k2, 'c');
m = new ctor(m2.entries());
assertSize(3, m);
assertEquals('a', m.get(k0));
assertEquals('b', m.get(k1));
assertEquals('c', m.get(k2));
}
TestMapConstructor(Map);
TestMapConstructor(WeakMap);
function TestMapConstructorSetNotCallable(ctor) {
var originalPrototypeSet = ctor.prototype.set;
assertThrows(function() {
ctor.prototype.set = 42;
new ctor(oneAndTwo.entries());
}, TypeError);
ctor.prototype.set = originalPrototypeSet;
}
TestMapConstructorSetNotCallable(Map);
TestMapConstructorSetNotCallable(WeakMap);
function TestMapConstructorGetAddOnce(ctor) {
var originalPrototypeSet = ctor.prototype.set;
var getSetCount = 0;
Object.defineProperty(ctor.prototype, 'set', {
get: function() {
getSetCount++;
return function() {};
}
});
var m = new ctor(oneAndTwo.entries());
assertEquals(1, getSetCount);
assertSize(0, m);
Object.defineProperty(ctor.prototype, 'set', {
value: originalPrototypeSet,
writable: true
});
}
TestMapConstructorGetAddOnce(Map);
TestMapConstructorGetAddOnce(WeakMap);
function TestMapConstructorSetReplaced(ctor) {
var originalPrototypeSet = ctor.prototype.set;
var setCount = 0;
ctor.prototype.set = function(key, value) {
setCount++;
originalPrototypeSet.call(this, key, value);
ctor.prototype.set = null;
};
var m = new ctor(oneAndTwo.entries());
assertEquals(2, setCount);
assertSize(2, m);
ctor.prototype.set = originalPrototypeSet;
}
TestMapConstructorSetReplaced(Map);
TestMapConstructorSetReplaced(WeakMap);
function TestMapConstructorOrderOfDoneValue(ctor) {
var valueCount = 0, doneCount = 0;
function FakeError() {}
var iterator = {
next: function() {
return {
get value() {
valueCount++;
},
get done() {
doneCount++;
throw new FakeError();
}
};
}
};
iterator[Symbol.iterator] = function() {
return this;
};
assertThrows(function() {
new ctor(iterator);
}, FakeError);
assertEquals(1, doneCount);
assertEquals(0, valueCount);
}
TestMapConstructorOrderOfDoneValue(Map);
TestMapConstructorOrderOfDoneValue(WeakMap);
function TestMapConstructorNextNotAnObject(ctor) {
var iterator = {
next: function() {
return 'abc';
}
};
iterator[Symbol.iterator] = function() {
return this;
};
assertThrows(function() {
new ctor(iterator);
}, TypeError);
}
TestMapConstructorNextNotAnObject(Map);
TestMapConstructorNextNotAnObject(WeakMap);
function TestMapConstructorIteratorNotObjectValues(ctor) {
assertThrows(function() {
new ctor(oneAndTwo.values());
}, TypeError);
}
TestMapConstructorIteratorNotObjectValues(Map);
TestMapConstructorIteratorNotObjectValues(WeakMap);
(function TestWeakMapConstructorNonObjectKeys() {
assertThrows(function() {
new WeakMap([[1, 2]])
}, TypeError);
})();
function TestMapConstructorIterableValue(ctor) {
'use strict';
// Strict mode is required to prevent implicit wrapping in the getter.
Object.defineProperty(Number.prototype, Symbol.iterator, {
get: function() {
assertEquals('number', typeof this);
return function() {
assertEquals('number', typeof this);
return oneAndTwo.entries();
};
},
configurable: true
});
var map = new ctor(42);
assertSize(2, map);
assertEquals(1, map.get(k1));
assertEquals(2, map.get(k2));
delete Number.prototype[Symbol.iterator];
}
TestMapConstructorIterableValue(Map);
TestMapConstructorIterableValue(WeakMap);
function TestCollectionToString(C) {
assertEquals("[object " + C.name + "]",
Object.prototype.toString.call(new C()));
}
TestCollectionToString(Map);
TestCollectionToString(Set);
TestCollectionToString(WeakMap);
TestCollectionToString(WeakSet);
function TestConstructorOrderOfAdderIterator(ctor, adderName) {
var iterable = new Map();
iterable.set({}, {});
iterable.set({}, {});
var iterableFunction = iterable[Symbol.iterator];
Object.defineProperty(iterable, Symbol.iterator, {
get: function() {
log += 'iterator';
return iterableFunction;
}
});
var log = '';
var adderFunction = ctor.prototype[adderName];
Object.defineProperty(ctor.prototype, adderName, {
get: function() {
log += adderName;
return adderFunction;
}
});
new ctor(iterable);
assertEquals(adderName + 'iterator', log);
Object.defineProperty(ctor.prototype, adderName, {
value: adderFunction
});
}
TestConstructorOrderOfAdderIterator(Map, 'set');
TestConstructorOrderOfAdderIterator(Set, 'add');
TestConstructorOrderOfAdderIterator(WeakMap, 'set');
TestConstructorOrderOfAdderIterator(WeakSet, 'add');