v8/test/mjsunit/array-sort.js
Sigurd Schneider 2a01ff8e93 [mjsunit] Split slow test out of array-sort and skip it on certain builds
The slow test tests SmiLexicographicCompare on a large number of Smi comparisons;
we can disable this test for some debug/noopt builds without losing much coverage.

Bug: v8:7783
Change-Id: Iab40e596604bb957b4d3312073ad85dbac08c6a0
Reviewed-on: https://chromium-review.googlesource.com/1068190
Commit-Queue: Sigurd Schneider <sigurds@chromium.org>
Reviewed-by: Michael Achenbach <machenbach@chromium.org>
Cr-Commit-Position: refs/heads/master@{#53333}
2018-05-24 12:36:48 +00:00

720 lines
19 KiB
JavaScript

// Copyright 2010 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Flags: --allow-natives-syntax
// Test array sort.
// Test counter-intuitive default number sorting.
function TestNumberSort() {
var a = [ 200, 45, 7 ];
// Default sort converts each element to string and orders
// lexicographically.
a.sort();
assertArrayEquals([ 200, 45, 7 ], a);
// Sort numbers by value using a compare functions.
a.sort(function(x, y) { return x - y; });
assertArrayEquals([ 7, 45, 200 ], a);
// Default sort on negative numbers.
a = [-12345,-123,-1234,-123456];
a.sort();
assertArrayEquals([-123,-1234,-12345,-123456], a);
// Default sort on negative and non-negative numbers.
a = [123456,0,-12345,-123,123,1234,-1234,0,12345,-123456];
a.sort();
assertArrayEquals([-123,-1234,-12345,-123456,0,0,123,1234,12345,123456], a);
// Tricky case avoiding integer overflow in Runtime_SmiLexicographicCompare.
a = [9, 1000000000].sort();
assertArrayEquals([1000000000, 9], a);
a = [1000000000, 1].sort();
assertArrayEquals([1, 1000000000], a);
a = [1000000000, 0].sort();
assertArrayEquals([0, 1000000000], a);
// One string is a prefix of the other.
a = [1230, 123].sort();
assertArrayEquals([123, 1230], a);
a = [1231, 123].sort();
assertArrayEquals([123, 1231], a);
// Default sort on Smis and non-Smis.
a = [1000000000, 10000000000, 1000000001, -1000000000, -10000000000, -1000000001];
a.sort();
assertArrayEquals([-1000000000, -10000000000, -1000000001, 1000000000, 10000000000, 1000000001], a);
// Other cases are tested implicitly in TestSmiLexicographicCompare.
}
TestNumberSort();
// Test lexicographical string sorting.
function TestStringSort() {
var a = [ "cc", "c", "aa", "a", "bb", "b", "ab", "ac" ];
a.sort();
assertArrayEquals([ "a", "aa", "ab", "ac", "b", "bb", "c", "cc" ], a);
}
TestStringSort();
// Test object sorting. Calls toString on each element and sorts
// lexicographically.
function TestObjectSort() {
var obj0 = { toString: function() { return "a"; } };
var obj1 = { toString: function() { return "b"; } };
var obj2 = { toString: function() { return "c"; } };
var a = [ obj2, obj0, obj1 ];
a.sort();
assertArrayEquals([ obj0, obj1, obj2 ], a);
}
TestObjectSort();
// Test array sorting with holes in the array.
function TestArraySortingWithHoles() {
var a = [];
a[4] = "18";
a[10] = "12";
a.sort();
assertEquals(11, a.length);
assertEquals("12", a[0]);
assertEquals("18", a[1]);
}
TestArraySortingWithHoles();
// Test array sorting with undefined elemeents in the array.
function TestArraySortingWithUndefined() {
var a = [ 3, void 0, 2 ];
a.sort();
assertArrayEquals([ 2, 3, void 0 ], a);
}
TestArraySortingWithUndefined();
// Test that sorting using an unsound comparison function still gives a
// sane result, i.e. it terminates without error and retains the elements
// in the array.
function TestArraySortingWithUnsoundComparisonFunction() {
var a = [ 3, void 0, 2 ];
a.sort(function(x, y) { return 1; });
a.sort();
assertArrayEquals([ 2, 3, void 0 ], a);
}
TestArraySortingWithUnsoundComparisonFunction();
function TestSparseNonArraySorting(length) {
assertTrue(length > 101);
var obj = {length: length};
obj[0] = 42;
obj[10] = 37;
obj[100] = undefined;
obj[length - 1] = null;
Array.prototype.sort.call(obj);
assertEquals(length, obj.length, "objsort length unaffected");
assertEquals(37, obj[0], "objsort smallest number");
assertEquals(42, obj[1], "objsort largest number");
assertEquals(null, obj[2], "objsort null");
assertEquals(undefined, obj[3], "objsort undefined");
assertTrue(3 in obj, "objsort undefined retained");
assertFalse(4 in obj, "objsort non-existing retained");
}
TestSparseNonArraySorting(5000);
TestSparseNonArraySorting(500000);
TestSparseNonArraySorting(Math.pow(2, 31) + 1);
function TestArrayLongerLength(length) {
var x = new Array(4);
x[0] = 42;
x[2] = 37;
x.length = length;
Array.prototype.sort.call(x);
assertEquals(length, x.length, "longlength length");
assertEquals(37, x[0], "longlength first");
assertEquals(42, x[1], "longlength second");
assertFalse(2 in x,"longlength third");
}
TestArrayLongerLength(4);
TestArrayLongerLength(10);
TestArrayLongerLength(1000);
TestArrayLongerLength(500000);
TestArrayLongerLength(Math.pow(2,32) - 1);
function TestNonArrayLongerLength(length) {
var x = {};
x[0] = 42;
x[2] = 37;
x.length = length;
Array.prototype.sort.call(x);
assertEquals(length, x.length, "longlength length");
assertEquals(37, x[0], "longlength first");
assertEquals(42, x[1], "longlength second");
assertFalse(2 in x,"longlength third");
}
TestNonArrayLongerLength(4);
TestNonArrayLongerLength(10);
TestNonArrayLongerLength(1000);
TestNonArrayLongerLength(500000);
TestNonArrayLongerLength(Math.pow(2,32) - 1);
function TestNonArrayWithAccessors() {
// Regression test for issue 346, more info at URL
// http://code.google.com/p/v8/issues/detail?id=346
// Reported by nth10sd, test based on this report.
var x = {};
x[0] = 42;
x.__defineGetter__("1", function(){return this.foo;});
x.__defineSetter__("1", function(val){this.foo = val;});
x[1] = 49
x[3] = 37;
x.length = 4;
Array.prototype.sort.call(x);
// Behavior of sort with accessors is undefined. This accessor is
// well-behaved (acts like a normal property), so it should work.
assertEquals(4, x.length, "sortaccessors length");
assertEquals(37, x[0], "sortaccessors first");
assertEquals(42, x[1], "sortaccessors second");
assertEquals(49, x[2], "sortaccessors third")
assertFalse(3 in x, "sortaccessors fourth");
}
TestNonArrayWithAccessors();
function TestInheritedElementSort(depth) {
var length = depth * 2 + 3;
var obj = {length: length};
obj[depth * 2 + 1] = 0;
for (var i = 0; i < depth; i++) {
var newObj = {};
newObj.__proto__ = obj;
obj[i] = undefined;
obj[i + depth + 1] = depth - i;
obj = newObj;
}
// expected (inherited) object: [undef1,...undefdepth,hole,1,...,depth,0,hole]
Array.prototype.sort.call(obj, function(a,b) { return (b < a) - (a < b); });
// expected result: [0,1,...,depth,undef1,...,undefdepth,hole]
var name = "SortInherit("+depth+")-";
assertEquals(length, obj.length, name+"length");
for (var i = 0; i <= depth; i++) {
assertTrue(obj.hasOwnProperty(i), name + "hasvalue" + i);
assertEquals(i, obj[i], name + "value" + i);
}
for (var i = depth + 1; i < depth * 2 + 1; i++) {
assertEquals(undefined, obj[i], name + "undefined" + i);
assertTrue(obj.hasOwnProperty(i), name + "hasundefined" + i);
}
assertFalse(obj.hasOwnProperty(depth * 2 + 1), name + "hashole")
assertFalse(obj.hasOwnProperty(depth * 2 + 2), name + "hashole");
}
TestInheritedElementSort(5);
TestInheritedElementSort(15);
function TestSparseInheritedElementSort(scale) {
var length = scale * 10;
var x = {length: length};
var y = {};
y.__proto__ = x;
for (var i = 0; i < 5; i++) {
x[i * 2 * scale] = 2 * (4 - i);
y[(i * 2 + 1) * scale] = 2 * (4 - i) + 1;
}
var name = "SparseSortInherit(" + scale + ")-";
Array.prototype.sort.call(y);
assertEquals(length, y.length, name +"length");
for (var i = 0; i < 10; i++) {
assertTrue(y.hasOwnProperty(i), name + "hasvalue" + i);
assertEquals(i, y[i], name + "value" + i);
}
for (var i = 10; i < length; i++) {
assertFalse(y.hasOwnProperty(i), name + "noundef" + i);
if (x.hasOwnProperty(i)) {
assertTrue(0 == i % (2 * scale), name + "new_x" + i);
}
}
}
TestSparseInheritedElementSort(10);
TestSparseInheritedElementSort(100);
TestSparseInheritedElementSort(1000);
function TestSpecialCasesInheritedElementSort() {
var x = {
1:"d1",
2:"c1",
3:"b1",
4: undefined,
__proto__: {
length: 10000,
1: "e2",
10: "a2",
100: "b2",
1000: "c2",
2000: undefined,
8000: "d2",
12000: "XX",
__proto__: {
0: "e3",
1: "d3",
2: "c3",
3: "b3",
4: "f3",
5: "a3",
6: undefined,
}
}
};
Array.prototype.sort.call(x);
var name = "SpecialInherit-";
assertEquals(10000, x.length, name + "length");
var sorted = ["a2", "a3", "b1", "b2", "c1", "c2", "d1", "d2", "e3",
undefined, undefined, undefined];
for (var i = 0; i < sorted.length; i++) {
assertTrue(x.hasOwnProperty(i), name + "has" + i)
assertEquals(sorted[i], x[i], name + i);
}
assertFalse(x.hasOwnProperty(sorted.length), name + "haspost");
assertFalse(sorted.length in x, name + "haspost2");
assertTrue(x.hasOwnProperty(10), name + "hasundefined10");
assertEquals(undefined, x[10], name + "undefined10");
assertFalse(x.hasOwnProperty(100), name + "hasno100");
assertEquals("b2", x[100], "inherits100");
assertFalse(x.hasOwnProperty(1000), name + "hasno1000");
assertEquals("c2", x[1000], "inherits1000");
assertFalse(x.hasOwnProperty(2000), name + "hasno2000");
assertEquals(undefined, x[2000], "inherits2000");
assertFalse(x.hasOwnProperty(8000), name + "hasno8000");
assertEquals("d2", x[8000], "inherits8000");
assertFalse(x.hasOwnProperty(12000), name + "has12000");
assertEquals("XX", x[12000], name + "XX12000");
}
TestSpecialCasesInheritedElementSort();
// Test that sort calls compare function with global object as receiver,
// and with only elements of the array as arguments.
function o(v) {
return {__proto__: o.prototype, val: v};
}
var arr = [o(1), o(2), o(4), o(8), o(16), o(32), o(64), o(128), o(256), o(-0)];
var global = this;
function cmpTest(a, b) {
assertEquals(global, this);
assertTrue(a instanceof o);
assertTrue(b instanceof o);
return a.val - b.val;
}
arr.sort(cmpTest);
function TestSortDoesNotDependOnObjectPrototypeHasOwnProperty() {
Array.prototype.sort.call({
__proto__: { hasOwnProperty: null, 0: 1 },
length: 5
});
var arr = new Array(2);
Object.defineProperty(arr, 0, { get: function() {}, set: function() {} });
arr.hasOwnProperty = null;
arr.sort();
}
TestSortDoesNotDependOnObjectPrototypeHasOwnProperty();
function TestSortDoesNotDependOnArrayPrototypePush() {
// InsertionSort is used for arrays which length <= 22
var arr = [];
for (var i = 0; i < 22; i++) arr[i] = {};
Array.prototype.push = function() {
fail('Should not call push');
};
arr.sort();
// Quicksort is used for arrays which length > 22
// Arrays which length > 1000 guarantee GetThirdIndex is executed
arr = [];
for (var i = 0; i < 2000; ++i) arr[i] = {};
arr.sort();
}
TestSortDoesNotDependOnArrayPrototypePush();
function TestSortDoesNotDependOnArrayPrototypeSort() {
var arr = [];
for (var i = 0; i < 2000; i++) arr[i] = {};
var sortfn = Array.prototype.sort;
Array.prototype.sort = function() {
fail('Should not call sort');
};
sortfn.call(arr);
// Restore for the next test
Array.prototype.sort = sortfn;
}
TestSortDoesNotDependOnArrayPrototypeSort();
function TestSortToObject() {
Number.prototype[0] = 5;
Number.prototype[1] = 4;
Number.prototype.length = 2;
x = new Number(0);
assertEquals(0, Number(Array.prototype.sort.call(x)));
assertEquals(4, x[0]);
assertEquals(5, x[1]);
assertArrayEquals(["0", "1"], Object.getOwnPropertyNames(x));
// The following would throw if ToObject weren't called.
assertEquals(0, Number(Array.prototype.sort.call(0)));
}
TestSortToObject();
function TestSortOnProxy() {
{
var p = new Proxy([2,1,3], {});
assertEquals([1,2,3], p.sort());
}
{
function f() { return arguments };
var a = f(2,1,3);
a.__proto__ = new Proxy({}, {});
assertEquals([1,2,3], [...(Array.prototype.sort.apply(a))]);
}
}
TestSortOnProxy();
function TestSortOnNonExtensible() {
{
var arr = [1,,2];
Object.preventExtensions(arr);
assertThrows(() => arr.sort(), TypeError);
assertEquals(arr, [1,,2]);
}
{
var arr = [1,,undefined];
Object.preventExtensions(arr);
assertThrows(() => arr.sort(), TypeError);
assertFalse(arr.hasOwnProperty(1));
assertEquals(arr, [1,,undefined]);
}
{
var arr = [1,undefined,2];
Object.preventExtensions(arr);
arr.sort();
assertEquals(arr, [1,2,undefined]);
}
}
TestSortOnNonExtensible();
function TestSortOnTypedArray() {
var array = new Int8Array([10,9,8,7,6,5,4,3,2,1]);
Object.defineProperty(array, "length", {value: 5});
Array.prototype.sort.call(array);
assertEquals(array, new Int8Array([10,6,7,8,9,5,4,3,2,1]));
var array = new Int8Array([10,9,8,7,6,5,4,3,2,1]);
Object.defineProperty(array, "length", {value: 15});
Array.prototype.sort.call(array);
assertEquals(array, new Int8Array([1,10,2,3,4,5,6,7,8,9]));
}
TestSortOnTypedArray();
// Test special prototypes
(function testSortSpecialPrototypes() {
function test(proto, length, expected) {
var result = {
length: length,
__proto__: proto,
};
Array.prototype.sort.call(result);
assertEquals(expected.length, result.length, "result.length");
for (var i = 0; i<expected.length; i++) {
assertEquals(expected[i], result[i], "result["+i+"]");
}
}
(function fast() {
// Fast elements, non-empty
test(arguments, 0, []);
test(arguments, 1, [2]);
test(arguments, 2, [1, 2]);
test(arguments, 4, [1, 2, 3, 4]);
delete arguments[0]
// sort copies down the properties to the receiver, hence result[1]
// is read on the arguments through the hole on the receiver.
test(arguments, 2, [1, 1]);
arguments[0] = undefined;
test(arguments, 2, [1, undefined]);
})(2, 1, 4, 3);
(function fastSloppy(a) {
// Fast sloppy
test(arguments, 0, []);
test(arguments, 1, [2]);
test(arguments, 2, [1, 2]);
delete arguments[0]
test(arguments, 2, [1, 1]);
arguments[0] = undefined;
test(arguments, 2, [1, undefined]);
})(2, 1);
(function fastEmpty() {
test(arguments, 0, []);
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);
// 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(true);
test(false);
}
TestPrototypeHoles();
// 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));
}