319af35d1d
assertEquals() compares objects by comparing each property for both objects. This was done by using Object.keys() which however only returns enumerable properties. With this change also non-enumerable properties are compared. Still, the comparison doesn't require the properties to be equal. So, if one property is marked enumerable in one object but not the other, the objects would still be considered equal. This could be adapted in a follow-up CL if desired. The prototype is still ignored for the comparison. Change-Id: I1bb9df055bfb764ac1c02d971ac6f4a50f4a98e8 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/3876384 Commit-Queue: Matthias Liedtke <mliedtke@chromium.org> Reviewed-by: Marja Hölttä <marja@chromium.org> Cr-Commit-Position: refs/heads/main@{#83058}
772 lines
21 KiB
JavaScript
772 lines
21 KiB
JavaScript
// Copyright 2010 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Flags: --allow-natives-syntax
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// Test array sort.
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// Test counter-intuitive default number sorting.
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function TestNumberSort() {
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var a = [ 200, 45, 7 ];
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// Default sort converts each element to string and orders
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// lexicographically.
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a.sort();
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assertArrayEquals([ 200, 45, 7 ], a);
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// Sort numbers by value using a compare functions.
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a.sort(function(x, y) { return x - y; });
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assertArrayEquals([ 7, 45, 200 ], a);
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// Default sort on negative numbers.
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a = [-12345,-123,-1234,-123456];
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a.sort();
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assertArrayEquals([-123,-1234,-12345,-123456], a);
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// Default sort on negative and non-negative numbers.
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a = [123456,0,-12345,-123,123,1234,-1234,0,12345,-123456];
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a.sort();
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assertArrayEquals([-123,-1234,-12345,-123456,0,0,123,1234,12345,123456], a);
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// Tricky case avoiding integer overflow in Runtime_SmiLexicographicCompare.
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a = [9, 1000000000].sort();
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assertArrayEquals([1000000000, 9], a);
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a = [1000000000, 1].sort();
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assertArrayEquals([1, 1000000000], a);
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a = [1000000000, 0].sort();
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assertArrayEquals([0, 1000000000], a);
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// One string is a prefix of the other.
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a = [1230, 123].sort();
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assertArrayEquals([123, 1230], a);
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a = [1231, 123].sort();
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assertArrayEquals([123, 1231], a);
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// Default sort on Smis and non-Smis.
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a = [1000000000, 10000000000, 1000000001, -1000000000, -10000000000, -1000000001];
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a.sort();
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assertArrayEquals([-1000000000, -10000000000, -1000000001, 1000000000, 10000000000, 1000000001], a);
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// Other cases are tested implicitly in TestSmiLexicographicCompare.
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}
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TestNumberSort();
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// Test lexicographical string sorting.
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function TestStringSort() {
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var a = [ "cc", "c", "aa", "a", "bb", "b", "ab", "ac" ];
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a.sort();
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assertArrayEquals([ "a", "aa", "ab", "ac", "b", "bb", "c", "cc" ], a);
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}
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TestStringSort();
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// Test object sorting. Calls toString on each element and sorts
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// lexicographically.
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function TestObjectSort() {
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var obj0 = { toString: function() { return "a"; } };
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var obj1 = { toString: function() { return "b"; } };
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var obj2 = { toString: function() { return "c"; } };
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var a = [ obj2, obj0, obj1 ];
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a.sort();
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assertArrayEquals([ obj0, obj1, obj2 ], a);
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}
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TestObjectSort();
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// Test array sorting with holes in the array.
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function TestArraySortingWithHoles() {
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var a = [];
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a[4] = "18";
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a[10] = "12";
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a.sort();
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assertEquals(11, a.length);
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assertEquals("12", a[0]);
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assertEquals("18", a[1]);
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}
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TestArraySortingWithHoles();
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// Test array sorting with undefined elemeents in the array.
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function TestArraySortingWithUndefined() {
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var a = [ 3, void 0, 2 ];
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a.sort();
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assertArrayEquals([ 2, 3, void 0 ], a);
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}
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TestArraySortingWithUndefined();
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// Test that sorting using an unsound comparison function still gives a
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// sensible result, i.e. it terminates without error and retains the elements
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// in the array.
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function TestArraySortingWithUnsoundComparisonFunction() {
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var a = [ 3, void 0, 2 ];
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a.sort(function(x, y) { return 1; });
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a.sort();
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assertArrayEquals([ 2, 3, void 0 ], a);
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}
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TestArraySortingWithUnsoundComparisonFunction();
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function TestSparseNonArraySorting(length) {
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assertTrue(length > 101);
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var obj = {length: length};
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obj[0] = 42;
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obj[10] = 37;
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obj[100] = undefined;
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obj[length - 1] = null;
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Array.prototype.sort.call(obj);
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assertEquals(length, obj.length, "objsort length unaffected");
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assertEquals(37, obj[0], "objsort smallest number");
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assertEquals(42, obj[1], "objsort largest number");
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assertEquals(null, obj[2], "objsort null");
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assertEquals(undefined, obj[3], "objsort undefined");
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assertTrue(3 in obj, "objsort undefined retained");
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assertFalse(4 in obj, "objsort non-existing retained");
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}
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TestSparseNonArraySorting(1000);
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TestSparseNonArraySorting(5000);
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function TestArrayLongerLength(length) {
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var x = new Array(4);
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x[0] = 42;
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x[2] = 37;
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x.length = length;
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Array.prototype.sort.call(x);
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assertEquals(length, x.length, "longlength length");
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assertEquals(37, x[0], "longlength first");
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assertEquals(42, x[1], "longlength second");
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assertFalse(2 in x,"longlength third");
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}
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TestArrayLongerLength(4);
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TestArrayLongerLength(10);
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TestArrayLongerLength(1000);
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TestArrayLongerLength(5000);
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function TestNonArrayLongerLength(length) {
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var x = {};
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x[0] = 42;
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x[2] = 37;
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x.length = length;
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Array.prototype.sort.call(x);
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assertEquals(length, x.length, "longlength length");
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assertEquals(37, x[0], "longlength first");
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assertEquals(42, x[1], "longlength second");
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assertFalse(2 in x,"longlength third");
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}
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TestNonArrayLongerLength(4);
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TestNonArrayLongerLength(10);
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TestNonArrayLongerLength(1000);
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TestNonArrayLongerLength(5000);
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function TestNonArrayWithAccessors() {
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// Regression test for issue 346, more info at URL
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// http://code.google.com/p/v8/issues/detail?id=346
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// Reported by nth10sd, test based on this report.
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var x = {};
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x[0] = 42;
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x.__defineGetter__("1", function(){return this.foo;});
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x.__defineSetter__("1", function(val){this.foo = val;});
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x[1] = 49
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x[3] = 37;
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x.length = 4;
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Array.prototype.sort.call(x);
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// Behavior of sort with accessors is undefined. This accessor is
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// well-behaved (acts like a normal property), so it should work.
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assertEquals(4, x.length, "sortaccessors length");
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assertEquals(37, x[0], "sortaccessors first");
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assertEquals(42, x[1], "sortaccessors second");
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assertEquals(49, x[2], "sortaccessors third")
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assertFalse(3 in x, "sortaccessors fourth");
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}
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TestNonArrayWithAccessors();
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function TestInheritedElementSort(depth) {
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var length = depth * 2 + 3;
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var obj = {length: length};
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obj[depth * 2 + 1] = 0;
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for (var i = 0; i < depth; i++) {
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var newObj = {};
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newObj.__proto__ = obj;
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obj[i] = undefined;
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obj[i + depth + 1] = depth - i;
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obj = newObj;
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}
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// expected (inherited) object: [undef1,...undefdepth,hole,1,...,depth,0,hole]
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Array.prototype.sort.call(obj, function(a,b) { return (b < a) - (a < b); });
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// expected result: [0,1,...,depth,undef1,...,undefdepth,hole]
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var name = "SortInherit("+depth+")-";
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assertEquals(length, obj.length, name+"length");
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for (var i = 0; i <= depth; i++) {
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assertTrue(obj.hasOwnProperty(i), name + "hasvalue" + i);
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assertEquals(i, obj[i], name + "value" + i);
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}
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for (var i = depth + 1; i < depth * 2 + 1; i++) {
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assertEquals(undefined, obj[i], name + "undefined" + i);
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assertTrue(obj.hasOwnProperty(i), name + "hasundefined" + i);
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}
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assertFalse(obj.hasOwnProperty(depth * 2 + 1), name + "hashole")
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assertFalse(obj.hasOwnProperty(depth * 2 + 2), name + "hashole");
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}
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TestInheritedElementSort(5);
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TestInheritedElementSort(15);
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function TestSparseInheritedElementSort(scale) {
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var length = scale * 10;
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var x = {length: length};
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var y = {};
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y.__proto__ = x;
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for (var i = 0; i < 5; i++) {
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x[i * 2 * scale] = 2 * (4 - i);
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y[(i * 2 + 1) * scale] = 2 * (4 - i) + 1;
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}
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var name = "SparseSortInherit(" + scale + ")-";
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Array.prototype.sort.call(y);
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assertEquals(length, y.length, name +"length");
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for (var i = 0; i < 10; i++) {
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assertTrue(y.hasOwnProperty(i), name + "hasvalue" + i);
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assertEquals(i, y[i], name + "value" + i);
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}
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for (var i = 10; i < length; i++) {
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assertFalse(y.hasOwnProperty(i), name + "noundef" + i);
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if (x.hasOwnProperty(i)) {
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assertTrue(0 == i % (2 * scale), name + "new_x" + i);
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}
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}
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}
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TestSparseInheritedElementSort(10);
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TestSparseInheritedElementSort(100);
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TestSparseInheritedElementSort(1000);
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function TestSpecialCasesInheritedElementSort() {
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var x = {
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1:"d1",
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2:"c1",
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3:"b1",
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4: undefined,
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__proto__: {
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length: 10000,
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1: "e2",
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10: "a2",
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100: "b2",
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1000: "c2",
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2000: undefined,
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8000: "d2",
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12000: "XX",
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__proto__: {
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0: "e3",
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1: "d3",
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2: "c3",
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3: "b3",
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4: "f3",
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5: "a3",
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6: undefined,
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}
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}
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};
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Array.prototype.sort.call(x);
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var name = "SpecialInherit-";
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assertEquals(10000, x.length, name + "length");
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var sorted = ["a2", "a3", "b1", "b2", "c1", "c2", "d1", "d2", "e3",
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undefined, undefined, undefined];
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for (var i = 0; i < sorted.length; i++) {
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assertTrue(x.hasOwnProperty(i), name + "has" + i)
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assertEquals(sorted[i], x[i], name + i);
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}
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assertFalse(x.hasOwnProperty(sorted.length), name + "haspost");
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assertFalse(sorted.length in x, name + "haspost2");
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assertTrue(x.hasOwnProperty(10), name + "hasundefined10");
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assertEquals(undefined, x[10], name + "undefined10");
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assertFalse(x.hasOwnProperty(100), name + "hasno100");
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assertEquals("b2", x[100], "inherits100");
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assertFalse(x.hasOwnProperty(1000), name + "hasno1000");
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assertEquals("c2", x[1000], "inherits1000");
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assertFalse(x.hasOwnProperty(2000), name + "hasno2000");
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assertEquals(undefined, x[2000], "inherits2000");
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assertFalse(x.hasOwnProperty(8000), name + "hasno8000");
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assertEquals("d2", x[8000], "inherits8000");
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assertFalse(x.hasOwnProperty(12000), name + "has12000");
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assertEquals("XX", x[12000], name + "XX12000");
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}
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TestSpecialCasesInheritedElementSort();
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// Test that sort calls compare function with global object as receiver,
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// and with only elements of the array as arguments.
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function o(v) {
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return {__proto__: o.prototype, val: v};
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}
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var arr = [o(1), o(2), o(4), o(8), o(16), o(32), o(64), o(128), o(256), o(-0)];
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var global = this;
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function cmpTest(a, b) {
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assertEquals(global, this);
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assertTrue(a instanceof o);
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assertTrue(b instanceof o);
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return a.val - b.val;
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}
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arr.sort(cmpTest);
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function TestSortDoesNotDependOnObjectPrototypeHasOwnProperty() {
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Array.prototype.sort.call({
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__proto__: { hasOwnProperty: null, 0: 1 },
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length: 5
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});
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var arr = new Array(2);
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Object.defineProperty(arr, 0, { get: function() {}, set: function() {} });
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arr.hasOwnProperty = null;
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arr.sort();
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}
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TestSortDoesNotDependOnObjectPrototypeHasOwnProperty();
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function TestSortDoesNotDependOnArrayPrototypePush() {
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// InsertionSort is used for arrays which length <= 22
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var arr = [];
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for (var i = 0; i < 22; i++) arr[i] = {};
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Array.prototype.push = function() {
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fail('Should not call push');
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};
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arr.sort();
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// Quicksort is used for arrays which length > 22
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// Arrays which length > 1000 guarantee GetThirdIndex is executed
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arr = [];
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for (var i = 0; i < 2000; ++i) arr[i] = {};
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arr.sort();
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}
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TestSortDoesNotDependOnArrayPrototypePush();
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function TestSortDoesNotDependOnArrayPrototypeSort() {
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var arr = [];
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for (var i = 0; i < 2000; i++) arr[i] = {};
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var sortfn = Array.prototype.sort;
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Array.prototype.sort = function() {
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fail('Should not call sort');
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};
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sortfn.call(arr);
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// Restore for the next test
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Array.prototype.sort = sortfn;
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}
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TestSortDoesNotDependOnArrayPrototypeSort();
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function TestSortToObject() {
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Number.prototype[0] = 5;
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Number.prototype[1] = 4;
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Number.prototype.length = 2;
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x = new Number(0);
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assertEquals(0, Number(Array.prototype.sort.call(x)));
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assertEquals(4, x[0]);
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assertEquals(5, x[1]);
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assertArrayEquals(["0", "1"], Object.getOwnPropertyNames(x));
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// The following would throw if ToObject weren't called.
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assertEquals(0, Number(Array.prototype.sort.call(0)));
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}
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TestSortToObject();
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function TestSortOnProxy() {
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{
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var p = new Proxy([2,1,3], {});
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assertEquals([1,2,3], p.sort());
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}
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{
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function f() { return arguments };
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var a = f(2,1,3);
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a.__proto__ = new Proxy({}, {});
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assertEquals([1,2,3], [...(Array.prototype.sort.apply(a))]);
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}
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}
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TestSortOnProxy();
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function TestSortOnNonExtensible() {
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{
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var arr = [1,,2];
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Object.preventExtensions(arr);
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assertThrows(() => arr.sort(), TypeError);
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assertEquals(arr, [1,,2]);
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}
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{
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var arr = [1,,undefined];
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Object.preventExtensions(arr);
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assertThrows(() => arr.sort(), TypeError);
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assertFalse(arr.hasOwnProperty(1));
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assertEquals(arr, [1,,undefined]);
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}
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{
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var arr = [1,undefined,2];
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Object.preventExtensions(arr);
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arr.sort();
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assertEquals(arr, [1,2,undefined]);
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}
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}
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TestSortOnNonExtensible();
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function TestSortOnTypedArray() {
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var array = new Int8Array([10,9,8,7,6,5,4,3,2,1]);
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Object.defineProperty(array, "length", {value: 5});
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Array.prototype.sort.call(array);
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// Elements within `length` sorted by string comparison.
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var expected = new Int8Array([10,6,7,8,9,5,4,3,2,1]);
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Object.defineProperty(expected, "length", {value: 5});
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assertEquals(expected, array);
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var array = new Int8Array([10,9,8,7,6,5,4,3,2,1]);
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Object.defineProperty(array, "length", {value: 15});
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Array.prototype.sort.call(array);
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var expected = new Int8Array([1,10,2,3,4,5,6,7,8,9]);
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Object.defineProperty(expected, "length", {value: 15});
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assertEquals(expected, array);
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}
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TestSortOnTypedArray();
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// Test special prototypes
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(function testSortSpecialPrototypes() {
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function test(proto, length, expected) {
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var result = {
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length: length,
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__proto__: proto,
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};
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Array.prototype.sort.call(result);
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assertEquals(expected.length, result.length, "result.length");
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for (var i = 0; i<expected.length; i++) {
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assertEquals(expected[i], result[i], "result["+i+"]");
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}
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}
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(function fast() {
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// Fast elements, non-empty
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test(arguments, 0, []);
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test(arguments, 1, [2]);
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test(arguments, 2, [1, 2]);
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test(arguments, 4, [1, 2, 3, 4]);
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delete arguments[0]
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// sort copies down the properties to the receiver, hence result[1]
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// is read on the arguments through the hole on the receiver.
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test(arguments, 2, [1, 1]);
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arguments[0] = undefined;
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test(arguments, 2, [1, undefined]);
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})(2, 1, 4, 3);
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(function fastSloppy(a) {
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// Fast sloppy
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test(arguments, 0, []);
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test(arguments, 1, [2]);
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test(arguments, 2, [1, 2]);
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delete arguments[0]
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test(arguments, 2, [1, 1]);
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arguments[0] = undefined;
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test(arguments, 2, [1, undefined]);
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})(2, 1);
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(function fastEmpty() {
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test(arguments, 0, []);
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|
test(arguments, 1, [undefined]);
|
|
test(arguments, 2, [undefined, undefined]);
|
|
})();
|
|
|
|
(function stringWrapper() {
|
|
// cannot redefine string wrapper properties
|
|
assertThrows(() => test(new String('cba'), 3, []), TypeError);
|
|
})();
|
|
|
|
(function typedArrys() {
|
|
test(new Int32Array(0), 0, []);
|
|
test(new Int32Array(1), 1, [0]);
|
|
var array = new Int32Array(3);
|
|
array[0] = 2;
|
|
array[1] = 1;
|
|
array[2] = 3;
|
|
test(array, 1, [2]);
|
|
test(array, 2, [1, 2]);
|
|
test(array, 3, [1, 2, 3]);
|
|
})()
|
|
|
|
})();
|
|
|
|
assertThrows(() => {
|
|
Array.prototype.sort.call(undefined);
|
|
}, TypeError);
|
|
|
|
assertThrows(() => {
|
|
Array.prototype.sort.call(null);
|
|
}, TypeError);
|
|
|
|
// This test ensures that RemoveArrayHoles does not shadow indices in the
|
|
// prototype chain. There are multiple code paths, we force both and check that
|
|
// they have the same behavior.
|
|
function TestPrototypeHoles() {
|
|
function test(forceGenericFallback) {
|
|
let proto2 = {
|
|
7: 27,
|
|
};
|
|
|
|
let proto1 = {
|
|
__proto__: proto2,
|
|
8: 18,
|
|
9: 19,
|
|
};
|
|
|
|
let xs = {
|
|
__proto__: proto1,
|
|
length: 10,
|
|
7: 7,
|
|
8: 8,
|
|
9: 9,
|
|
};
|
|
|
|
if (forceGenericFallback) {
|
|
Object.defineProperty(xs, "6", {
|
|
get: () => this.foo,
|
|
set: (val) => this.foo = val
|
|
});
|
|
}
|
|
xs[6] = 6;
|
|
|
|
Array.prototype.sort.call(xs, (a, b) => a - b);
|
|
|
|
assertEquals(10, xs.length);
|
|
assertEquals(6, xs[0]);
|
|
assertEquals(7, xs[1]);
|
|
assertEquals(8, xs[2]);
|
|
assertEquals(9, xs[3]);
|
|
|
|
// Index 7,8,9 will get the prototype values.
|
|
assertFalse(xs.hasOwnProperty(7));
|
|
assertEquals(27, xs[7]);
|
|
|
|
assertFalse(xs.hasOwnProperty(8));
|
|
assertEquals(18, xs[8]);
|
|
|
|
assertFalse(xs.hasOwnProperty(9));
|
|
assertEquals(19, xs[9]);
|
|
}
|
|
|
|
test(false);
|
|
// Expect a TypeError when trying to delete the accessor.
|
|
assertThrows(() => test(true), TypeError);
|
|
}
|
|
TestPrototypeHoles();
|
|
|
|
// The following test ensures that [[Delete]] is called and it throws.
|
|
function TestArrayWithAccessorThrowsOnDelete() {
|
|
let array = [5, 4, 1, /*hole*/, /*hole*/];
|
|
|
|
Object.defineProperty(array, '4', {
|
|
get: () => array.foo,
|
|
set: (val) => array.foo = val
|
|
});
|
|
assertThrows(() => array.sort((a, b) => a - b), TypeError);
|
|
}
|
|
TestArrayWithAccessorThrowsOnDelete();
|
|
|
|
// The following test ensures that elements on the prototype are also copied
|
|
// for JSArrays and not only JSObjects.
|
|
function TestArrayPrototypeHasElements() {
|
|
let array = [1, 2, 3, 4, 5];
|
|
for (let i = 0; i < array.length; i++) {
|
|
delete array[i];
|
|
Object.prototype[i] = 42;
|
|
}
|
|
|
|
let comparator_called = false;
|
|
array.sort(function (a, b) {
|
|
if (a === 42 || b === 42) {
|
|
comparator_called = true;
|
|
}
|
|
return a - b;
|
|
});
|
|
|
|
assertTrue(comparator_called);
|
|
}
|
|
TestArrayPrototypeHasElements();
|
|
|
|
// The following Tests make sure that there is no crash when the element kind
|
|
// or the array length changes. Since comparison functions like this are not
|
|
// consistent, we do not have to make sure that the array is actually sorted
|
|
//
|
|
// The assertions for the element kinds are not there to ensure that a specific
|
|
// action causes a specific element kind change, but rather that we have most
|
|
// of the transitions covered.
|
|
|
|
function cmp_smaller(a, b) {
|
|
if (a < b) return -1;
|
|
if (b < a) return 1;
|
|
return 0;
|
|
}
|
|
|
|
function create_cmpfn(transformfn) {
|
|
let cmp_count = 0;
|
|
return (a, b) => {
|
|
++cmp_count;
|
|
if (cmp_count == 2) {
|
|
transformfn();
|
|
}
|
|
|
|
return cmp_smaller(a, b);
|
|
}
|
|
}
|
|
|
|
function HasPackedSmi(xs) {
|
|
return %HasFastPackedElements(xs) && %HasSmiElements(xs);
|
|
}
|
|
|
|
function HasPackedDouble(xs) {
|
|
return %HasFastPackedElements(xs) && %HasDoubleElements(xs);
|
|
}
|
|
|
|
function HasPackedObject(xs) {
|
|
return %HasFastPackedElements(xs) && %HasObjectElements(xs);
|
|
}
|
|
|
|
function HasHoleySmi(xs) {
|
|
return %HasHoleyElements(xs) && %HasSmiElements(xs);
|
|
}
|
|
|
|
function HasHoleyDouble(xs) {
|
|
return %HasHoleyElements(xs) && %HasDoubleElements(xs);
|
|
}
|
|
|
|
function HasHoleyObject(xs) {
|
|
return %HasHoleyElements(xs) && %HasObjectElements(xs);
|
|
}
|
|
|
|
function TestSortCmpPackedSmiToPackedDouble() {
|
|
let xs = [2,1,4];
|
|
|
|
assertTrue(HasPackedSmi(xs));
|
|
xs.sort(create_cmpfn(() => xs[0] += 0.1));
|
|
assertTrue(HasPackedDouble(xs));
|
|
}
|
|
TestSortCmpPackedSmiToPackedDouble();
|
|
|
|
function TestSortCmpPackedDoubleToPackedElement() {
|
|
let xs = [2.1, 1.2, 4.4];
|
|
|
|
assertTrue(HasPackedDouble(xs));
|
|
xs.sort(create_cmpfn(() => xs[0] = 'a'));
|
|
assertTrue(HasPackedObject(xs));
|
|
}
|
|
TestSortCmpPackedDoubleToPackedElement();
|
|
|
|
function TestSortCmpPackedElementToDictionary() {
|
|
let xs = ['a', 'b', 'c'];
|
|
|
|
assertTrue(HasPackedObject(xs));
|
|
xs.sort(create_cmpfn(() => xs[%MaxSmi()] = 'd'));
|
|
assertTrue(%HasDictionaryElements(xs));
|
|
}
|
|
TestSortCmpPackedElementToDictionary();
|
|
|
|
function TestSortCmpHoleySmiToHoleyDouble() {
|
|
let xs = [2, 1, 4];
|
|
xs[5] = 42;
|
|
|
|
assertTrue(HasHoleySmi(xs));
|
|
xs.sort(create_cmpfn(() => xs[0] += 0.1));
|
|
assertTrue(HasHoleyDouble(xs));
|
|
}
|
|
TestSortCmpHoleySmiToHoleyDouble();
|
|
|
|
function TestSortCmpHoleyDoubleToHoleyElement() {
|
|
let xs = [2.1, 1.2, 4];
|
|
xs[5] = 42;
|
|
|
|
assertTrue(HasHoleyDouble(xs));
|
|
xs.sort(create_cmpfn(() => xs[0] = 'a'));
|
|
assertTrue(HasHoleyObject(xs));
|
|
}
|
|
TestSortCmpHoleyDoubleToHoleyElement();
|
|
|
|
function TestSortCmpHoleyElementToDictionary() {
|
|
let xs = ['b', 'a', 'd'];
|
|
xs[5] = '42';
|
|
|
|
assertTrue(HasHoleyObject(xs));
|
|
xs.sort(create_cmpfn(() => xs[%MaxSmi()] = 'e'));
|
|
assertTrue(%HasDictionaryElements(xs));
|
|
}
|
|
TestSortCmpHoleyElementToDictionary();
|
|
|
|
function TestSortCmpPackedSmiToHoleySmi() {
|
|
let xs = [2, 1, 4];
|
|
|
|
assertTrue(HasPackedSmi(xs));
|
|
xs.sort(create_cmpfn(() => xs[10] = 42));
|
|
assertTrue(HasHoleySmi(xs));
|
|
}
|
|
TestSortCmpPackedSmiToHoleySmi();
|
|
|
|
function TestSortCmpPackedDoubleToHoleyDouble() {
|
|
let xs = [2.1, 1.2, 4];
|
|
|
|
assertTrue(HasPackedDouble(xs));
|
|
xs.sort(create_cmpfn(() => xs[10] = 42));
|
|
assertTrue(HasHoleyDouble(xs));
|
|
}
|
|
TestSortCmpPackedDoubleToHoleyDouble();
|
|
|
|
function TestSortCmpPackedObjectToHoleyObject() {
|
|
let xs = ['b', 'a', 'd'];
|
|
|
|
assertTrue(HasPackedObject(xs));
|
|
xs.sort(create_cmpfn(() => xs[10] = '42'));
|
|
assertTrue(HasHoleyObject(xs));
|
|
}
|
|
TestSortCmpPackedObjectToHoleyObject();
|
|
|
|
function TestSortCmpPackedChangesLength() {
|
|
let xs = [2, 1, 4];
|
|
|
|
assertTrue(HasPackedSmi(xs));
|
|
xs.sort(create_cmpfn(() => xs.length *= 2));
|
|
assertTrue(HasHoleySmi(xs));
|
|
}
|
|
TestSortCmpPackedChangesLength();
|
|
|
|
function TestSortCmpPackedSetLengthToZero() {
|
|
let xs = [2, 1, 4, 3];
|
|
|
|
assertTrue(HasPackedSmi(xs));
|
|
xs.sort(create_cmpfn(() => xs.length = 0));
|
|
assertTrue(HasPackedSmi(xs));
|
|
}
|
|
TestSortCmpPackedSetLengthToZero();
|
|
|
|
(function TestSortingNonObjectConvertsToObject() {
|
|
const v1 = Array.prototype.sort.call(true);
|
|
assertEquals('object', typeof v1);
|
|
|
|
const v2 = Array.prototype.sort.call(false);
|
|
assertEquals('object', typeof v2);
|
|
|
|
const v3 = Array.prototype.sort.call(42);
|
|
assertEquals('object', typeof v3);
|
|
})();
|