// Copyright 2017 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 subclass default constructor with no parameters. (function() { const A = class A extends Array { }; function foo() { return new A; } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(0, foo().length); assertInstanceof(foo(), A); assertEquals(0, foo().length); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(0, foo().length); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with small constant length. (function() { const A = class A extends Array { }; const L = 4; function foo() { return new A(L); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertInstanceof(foo(), A); assertEquals(L, foo().length); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with large constant length. (function() { const A = class A extends Array { }; const L = 1024 * 1024; function foo() { return new A(L); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertInstanceof(foo(), A); assertEquals(L, foo().length); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with known boolean. (function() { const A = class A extends Array { }; function foo() { return new A(true); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals(true, foo()[0]); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals(true, foo()[0]); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals(true, foo()[0]); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with known string. (function() { const A = class A extends Array { }; function foo() { return new A(""); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals("", foo()[0]); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals("", foo()[0]); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals("", foo()[0]); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with known object. (function() { const A = class A extends Array { }; const O = {foo: "foo"}; function foo() { return new A(O); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertSame(O, foo()[0]); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertSame(O, foo()[0]); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertSame(O, foo()[0]); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze);})(); // Test Array subclass default constructor with known small integers. (function() { const A = class A extends Array { }; function foo() { return new A(1, 2, 3); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1, foo()[0]); assertEquals(2, foo()[1]); assertEquals(3, foo()[2]); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1, foo()[0]); assertEquals(2, foo()[1]); assertEquals(3, foo()[2]); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with known numbers. (function() { const A = class A extends Array { }; function foo() { return new A(1.1, 2.2, 3.3); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1.1, foo()[0]); assertEquals(2.2, foo()[1]); assertEquals(3.3, foo()[2]); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1.1, foo()[0]); assertEquals(2.2, foo()[1]); assertEquals(3.3, foo()[2]); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass default constructor with known strings. (function() { const A = class A extends Array { }; function foo() { return new A("a", "b", "c", "d"); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(4, foo().length); assertEquals("a", foo()[0]); assertEquals("b", foo()[1]); assertEquals("c", foo()[2]); assertEquals("d", foo()[3]); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(4, foo().length); assertEquals("a", foo()[0]); assertEquals("b", foo()[1]); assertEquals("c", foo()[2]); assertEquals("d", foo()[3]); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with no parameters. (function() { const A = class A extends Array { constructor() { super(); this.bar = 1; } }; function foo() { return new A; } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(0, foo().length); assertEquals(1, foo().bar); assertInstanceof(foo(), A); assertEquals(0, foo().length); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(0, foo().length); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze);})(); // Test Array subclass constructor with small constant length. (function() { const A = class A extends Array { constructor(n) { super(n); this.bar = 1; } }; const L = 4; function foo() { return new A(L); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertEquals(1, foo().bar); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with large constant length. (function() { const A = class A extends Array { constructor(n) { super(n); this.bar = 1; } }; const L = 1024 * 1024; function foo() { return new A(L); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertEquals(1, foo().bar); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(L, foo().length); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with known boolean. (function() { const A = class A extends Array { constructor(n) { super(n); this.bar = 1; } }; function foo() { return new A(true); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals(true, foo()[0]); assertEquals(1, foo().bar); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals(true, foo()[0]); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals(true, foo()[0]); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with known string. (function() { const A = class A extends Array { constructor(n) { super(n); this.bar = 1; } }; function foo() { return new A(""); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals("", foo()[0]); assertEquals(1, foo().bar); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals("", foo()[0]); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertEquals("", foo()[0]); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with known object. (function() { const A = class A extends Array { constructor(n) { super(n); this.bar = 1; } }; const O = {foo: "foo"}; function foo() { return new A(O); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertSame(O, foo()[0]); assertEquals(1, foo().bar); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertSame(O, foo()[0]); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(1, foo().length); assertSame(O, foo()[0]); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with known small integers. (function() { const A = class A extends Array { constructor(x, y, z) { super(x, y, z); this.bar = 1; } }; function foo() { return new A(1, 2, 3); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1, foo()[0]); assertEquals(2, foo()[1]); assertEquals(3, foo()[2]); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1, foo()[0]); assertEquals(2, foo()[1]); assertEquals(3, foo()[2]); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with known numbers. (function() { const A = class A extends Array { constructor(x, y, z) { super(x, y, z); this.bar = 1; } }; function foo() { return new A(1.1, 2.2, 3.3); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1.1, foo()[0]); assertEquals(2.2, foo()[1]); assertEquals(3.3, foo()[2]); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(3, foo().length); assertEquals(1.1, foo()[0]); assertEquals(2.2, foo()[1]); assertEquals(3.3, foo()[2]); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })(); // Test Array subclass constructor with known strings. (function() { const A = class A extends Array { constructor(a, b, c, d) { super(a, b, c, d); this.bar = 1; } }; function foo() { return new A("a", "b", "c", "d"); } function test(foo) { %PrepareFunctionForOptimization(foo); assertInstanceof(foo(), A); assertEquals(4, foo().length); assertEquals("a", foo()[0]); assertEquals("b", foo()[1]); assertEquals("c", foo()[2]); assertEquals("d", foo()[3]); assertEquals(1, foo().bar); %OptimizeFunctionOnNextCall(foo); assertInstanceof(foo(), A); assertEquals(4, foo().length); assertEquals("a", foo()[0]); assertEquals("b", foo()[1]); assertEquals("c", foo()[2]); assertEquals("d", foo()[3]); assertEquals(1, foo().bar); } test(foo); // Non-extensible function fooPreventExtensions() { return Object.preventExtensions(foo()); } test(fooPreventExtensions); // Sealed function fooSeal() { return Object.seal(foo()); } test(fooSeal); // Frozen function fooFreeze() { return Object.freeze(foo()); } test(fooFreeze); })();