src/third_party/v8/test/mjsunit/es6/super-ic.js - cobalt - Git at Google

 // Copyright 2020 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 --super-ic

 function forceDictionaryMode(obj) {
   for (let i = 0; i < 2000; ++i) {
     obj["prop" + i] = "prop_value";
   }
 }

 (function TestHomeObjectPrototypeNull() {
   class A {}

   class B extends A {
     bar() {
       return super.y;
     }
   };

   let o = new B();
   B.prototype.__proto__ = null;
   assertThrows(() => { o.bar(); });
 })();

 (function TestMonomorphic() {
   class A {}
   A.prototype.bar = "wrong value: A.prototype.bar";

   class B extends A {};
   B.prototype.bar = "correct value";

   class C extends B {};

   class D extends C {
     foo() { return super.bar; }
   }
   D.prototype.bar = "wrong value: D.prototype.bar";

   let o = new D();
   o.bar = "wrong value: o.bar";
   for (let i = 0; i < 100; ++i) {
     const r = o.foo();
     assertEquals("correct value", r);
   }
 })();

 (function TestMonomorphicWithGetter() {
   class A {}
   A.prototype.bar = "wrong value: A.prototype.bar";

   class B extends A {
     get bar() {
       return this.test_value;
     }
   };

   class C extends B {}

   class D extends C {
     foo() {
       const b = super.bar;
       return b;
     }
   }
   D.prototype.bar = "wrong value: D.prototype.bar";

   let o = new D();
   o.bar = "wrong value: o.bar";
   o.test_value = "correct value";
   for (let i = 0; i < 1000; ++i) {
     const r = o.foo();
     assertEquals("correct value", r);
   }
 })();

 (function TestPolymorphic() {
   class A {}
   A.prototype.bar = "wrong value: A.prototype.bar";

   class B extends A {}
   B.prototype.bar = "correct value";

   class C extends B {}

   class D extends C {
     foo() { return super.bar; }
   }
   D.prototype.bar = "wrong value: D.prototype.bar";

   const o = new D();

   // Create objects which will act as the "home object's prototype" later.
   const prototypes = [{"a": 0}, {"b": 0}];
   for (let i = 0; i < prototypes.length; ++i) {
     prototypes[i].__proto__ = B.prototype;
   }

   for (let i = 0; i < 1000; ++i) {
     D.prototype.__proto__ = prototypes[i % prototypes.length];
     const r = o.foo();
     assertEquals("correct value", r);
   }
 })();

 (function TestPolymorphicWithGetter() {
   class A {}
   A.prototype.bar = "wrong value: A.prototype.bar";

   class B extends A {
     get bar() {
       return this.test_value;
     }
   };

   class C extends B {}

   class D extends C {
     foo() { return super.bar; }
   }
   D.prototype.bar = "wrong value: D.prototype.bar";

   const o = new D();
   o.test_value = "correct value";

   // Create objects which will act as the "home object's prototype" later.
   const prototypes = [{"a": 0}, {"b": 0}];
   for (let i = 0; i < prototypes.length; ++i) {
     prototypes[i].__proto__ = B.prototype;
   }

   for (let i = 0; i < 1000; ++i) {
     D.prototype.__proto__ = prototypes[i % prototypes.length];
     const r = o.foo();
     assertEquals("correct value", r);
   }
 })();

 (function TestMegamorphic() {
   class A {}
   A.prototype.bar = "wrong value: A.prototype.bar";

   class B extends A {}
   B.prototype.bar = "correct value";

   class C extends B {}

   class D extends C {
     foo() { return super.bar; }
   }
   D.prototype.bar = "wrong value: D.prototype.bar";

   const o = new D();

   // Create objects which will act as the "home object's prototype" later.
   const prototypes = [{"a": 0}, {"b": 0}, {"c": 0}, {"d": 0}, {"e": 0},
                       {"f": 0}, {"g": 0}, {"e": 0}];

   for (let i = 0; i < prototypes.length; ++i) {
     prototypes[i].__proto__ = B.prototype;
   }

   for (let i = 0; i < 1000; ++i) {
     D.prototype.__proto__ = prototypes[i % prototypes.length];
     const r = o.foo();
     assertEquals("correct value", r);
   }
 })();

 (function TestMegamorphicWithGetter() {
   class A {}
   A.prototype.bar = "wrong value: A.prototype.bar";

   class B extends A {
     get bar() {
       return this.test_value;
     }
   };

   class C extends B {}

   class D extends C {
     foo() { return super.bar;}
   }
   D.prototype.bar = "wrong value: D.prototype.bar";

   const o = new D();
   o.test_value = "correct value";

   // Create objects which will act as the "home object's prototype" later.
   const prototypes = [{"a": 0}, {"b": 0}, {"c": 0}, {"d": 0}, {"e": 0},
                       {"f": 0}, {"g": 0}, {"e": 0}];
   for (let i = 0; i < prototypes.length; ++i) {
     prototypes[i].__proto__ = B.prototype;
   }

   for (let i = 0; i < 1000; ++i) {
     D.prototype.__proto__ = prototypes[i % prototypes.length];
     const r = o.foo();
     assertEquals("correct value", r);
   }
 })();

 (function TestHolderHandledCorrectlyAfterOptimization() {
   class A {
     m() { return "m return value"; }
     get boom() { return this.m; }
   }
   class B extends A { f() { return super.boom() } }

   %PrepareFunctionForOptimization(B.prototype.f);
   const r1 = new B().f();
   assertEquals("m return value", r1);
   const r2 = new B().f();
   assertEquals("m return value", r2);
 })();

 (function TestHolderHandledCorrectlyAfterOptimization2() {
   class A {
     m() { return "m return value"; }
     get boom() { return this.m; }
   }
   class Middle1 extends A {}
   class Middle2 extends Middle1 {}
   class B extends Middle2 { f() { return super.boom() } }

   %PrepareFunctionForOptimization(B.prototype.f);
   const r1 = new B().f();
   assertEquals("m return value", r1);
   const r2 = new B().f();
   assertEquals("m return value", r2);
 })();

 (function TestStubCacheConfusion() {
   // Regression test for using the wrong stub from the stub cache.

   class A {};
   A.prototype.foo = "foo from A.prototype";

   class B extends A {
     m() { return super.foo; }
   }

   // Create objects which will act as receivers for the method call. All of
   // them will have a different map.
   class C0 extends B { foo = "foo from C0"; };
   class C1 extends B { foo = "foo from C1"; };
   class C2 extends B { foo = "foo from C2"; };
   class C3 extends B { foo = "foo from C3"; };
   class C4 extends B { foo = "foo from C4"; };
   class C5 extends B { foo = "foo from C5"; };
   class C6 extends B { foo = "foo from C6"; };
   class C7 extends B { foo = "foo from C7"; };
   class C8 extends B { foo = "foo from C8"; };
   class C9 extends B { foo = "foo from C9"; };

   let receivers = [
     new C0(), new C1(), new C2(), new C3(), new C4(), new C5(), new C6(), new C7(),
     new C8(), new C9()
   ];

   // Fill the stub cache with handlers which access "foo" from the receivers.
   function getfoo(o) {
     return o.foo;
   }

   for (let i = 0; i < 1000; ++i) {
     getfoo(receivers[i % receivers.length]);
   }

   // Create objects which will act as the "home object's prototype" later.
   const prototypes = [{"a": "prop in prototypes[0]"},
                       {"b": "prop in prototypes[1]"},
                       {"c": "prop in prototypes[2]"},
                       {"d": "prop in prototypes[3]"},
                       {"e": "prop in prototypes[4]"},
                       {"f": "prop in prototypes[5]"},
                       {"g": "prop in prototypes[6]"},
                       {"h": "prop in prototypes[7]"},
                       {"i": "prop in prototypes[8]"},
                       {"j": "prop in prototypes[9]"}];
   for (let i = 0; i < prototypes.length; ++i) {
     prototypes[i].__proto__ = A.prototype;
   }

   for (let i = 0; i < 1000; ++i) {
     // Make the property load for "super.foo" megamorphic in terms of the home
     // object's prototype.
     B.prototype.__proto__ = prototypes[i % prototypes.length];
     const r = receivers[i % receivers.length].m();
     // The bug was that we used the same handlers which were accessing "foo"
     // from the receivers, instead of accessing "foo" from the home object's
     // prototype.
     assertEquals("foo from A.prototype", r);
   }
 })();

 (function TestLengthConfusion() {
   // Regression test for confusion between bound function length and array
   // length.
   class A {};

   class B extends A {
     m() {
       return super.length;
     }
   }

   // Create a "home object proto" object which is a bound function.
   let home_object_proto = (function() {}).bind({});
   forceDictionaryMode(home_object_proto);
   B.prototype.__proto__ = home_object_proto;

   assertEquals(0, home_object_proto.length);

   for (let i = 0; i < 1000; ++i) {
     const r = B.prototype.m.call([1, 2]);
     // The bug was that here we retrieved the length of the receiver array
     // instead of the home object's __proto__.
     assertEquals(home_object_proto.length, r);
   }
 })();

 (function TestSuperInsideArrowFunction() {
   class A {};
   A.prototype.foo = "correct value";

   class B extends A {
     m() {
       const bar = () => {
         return super.foo;
       }
       return bar();
     }

     n() {
       const bar = () => {
         return super.foo;
       }
       return bar;
     }
   };

   assertEquals(A.prototype.foo, (new B).m());
   assertEquals(A.prototype.foo, (new B).n()());
 })();

 // Regression test for a receiver vs lookup start object confusion.
 (function TestProxyAsLookupStartObject1() {
   class A {}
   class B extends A {
     bar() {
       return super.foo;
     }
   }

   const o = new B();
   B.prototype.__proto__ = new Proxy({}, {});
   for (let i = 0; i < 1000; ++i) {
     assertEquals(undefined, o.bar());
   }
 })();

 (function TestProxyAsLookupStartObject2() {
   class A {}
   class B extends A {
     bar() {
       return super.foo;
     }
   }

   const o = new B();
   forceDictionaryMode(o);
   o.foo = "wrong value";
   B.prototype.__proto__ = new Proxy({}, {});

   for (let i = 0; i < 1000; ++i) {
     assertEquals(undefined, o.bar());
   }
 })();

 (function TestProxyAsLookupStartObject3() {
   class A {}
   class B extends A {
     bar() {
       return super.foo;
     }
   }

   const o = new B();
   B.prototype.__proto__ = new Proxy({}, {});
   B.prototype.__proto__.foo = "correct value";

   for (let i = 0; i < 1000; ++i) {
     assertEquals(B.prototype.__proto__.foo, o.bar());
   }
 })();

 (function TestDictionaryModeHomeObjectProto1() {
   class A {}
   forceDictionaryMode(A.prototype);
   A.prototype.foo = "correct value";
   class B extends A {
     bar() {
       return super.foo;
     }
   }
   const o = new B();
   for (let i = 0; i < 1000; ++i) {
     assertEquals(A.prototype.foo, o.bar());
   }
 })();

 (function TestDictionaryModeHomeObjectProto2() {
   class A {}
   A.prototype.foo = "correct value";
   class B extends A {};
   forceDictionaryMode(B.prototype);
   class C extends B {
     bar() {
       return super.foo;
     }
   }
   const o = new C();
   for (let i = 0; i < 1000; ++i) {
     assertEquals(A.prototype.foo, o.bar());
   }
 })();

 (function TestHomeObjectProtoIsGlobalThis() {
   class A {};
   class B extends A {
     bar() { return super.foo; }
   }
   B.prototype.__proto__ = globalThis;

   const o = new B();
   for (let i = 0; i < 1000; ++i) {
     assertEquals(undefined, o.bar());
   }
 })();

 // Regression test for (mis)using the prototype validity cell mechanism.
 (function TestLoadFromDictionaryModePrototype() {
   const obj1 = {};
   const obj2 = {__proto__: obj1};
   forceDictionaryMode(obj1);

   for (let i = 0; i < 1000; ++i) {
     assertEquals(undefined, obj1.x);
   }

   obj1.x = "added";
   assertEquals("added", obj1.x);
 })();

 // Regression test for crbug.com/1139786
 (function HomeObjectProtoIsInt8ArrayAndReceiverIsSmi() {
   class A extends Int8Array {
     f() {
       super.toString();
     }
   };
   A.prototype.f.call(42);
 })();
	// Copyright 2020 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 --super-ic

	function forceDictionaryMode(obj) {
	for (let i = 0; i < 2000; ++i) {
	obj["prop" + i] = "prop_value";
	}
	}

	(function TestHomeObjectPrototypeNull() {
	class A {}

	class B extends A {
	bar() {
	return super.y;
	}
	};

	let o = new B();
	B.prototype.__proto__ = null;
	assertThrows(() => { o.bar(); });
	})();

	(function TestMonomorphic() {
	class A {}
	A.prototype.bar = "wrong value: A.prototype.bar";

	class B extends A {};
	B.prototype.bar = "correct value";

	class C extends B {};

	class D extends C {
	foo() { return super.bar; }
	}
	D.prototype.bar = "wrong value: D.prototype.bar";

	let o = new D();
	o.bar = "wrong value: o.bar";
	for (let i = 0; i < 100; ++i) {
	const r = o.foo();
	assertEquals("correct value", r);
	}
	})();

	(function TestMonomorphicWithGetter() {
	class A {}
	A.prototype.bar = "wrong value: A.prototype.bar";

	class B extends A {
	get bar() {
	return this.test_value;
	}
	};

	class C extends B {}

	class D extends C {
	foo() {
	const b = super.bar;
	return b;
	}
	}
	D.prototype.bar = "wrong value: D.prototype.bar";

	let o = new D();
	o.bar = "wrong value: o.bar";
	o.test_value = "correct value";
	for (let i = 0; i < 1000; ++i) {
	const r = o.foo();
	assertEquals("correct value", r);
	}
	})();

	(function TestPolymorphic() {
	class A {}
	A.prototype.bar = "wrong value: A.prototype.bar";

	class B extends A {}
	B.prototype.bar = "correct value";

	class C extends B {}

	class D extends C {
	foo() { return super.bar; }
	}
	D.prototype.bar = "wrong value: D.prototype.bar";

	const o = new D();

	// Create objects which will act as the "home object's prototype" later.
	const prototypes = [{"a": 0}, {"b": 0}];
	for (let i = 0; i < prototypes.length; ++i) {
	prototypes[i].__proto__ = B.prototype;
	}

	for (let i = 0; i < 1000; ++i) {
	D.prototype.__proto__ = prototypes[i % prototypes.length];
	const r = o.foo();
	assertEquals("correct value", r);
	}
	})();

	(function TestPolymorphicWithGetter() {
	class A {}
	A.prototype.bar = "wrong value: A.prototype.bar";

	class B extends A {
	get bar() {
	return this.test_value;
	}
	};

	class C extends B {}

	class D extends C {
	foo() { return super.bar; }
	}
	D.prototype.bar = "wrong value: D.prototype.bar";

	const o = new D();
	o.test_value = "correct value";

	// Create objects which will act as the "home object's prototype" later.
	const prototypes = [{"a": 0}, {"b": 0}];
	for (let i = 0; i < prototypes.length; ++i) {
	prototypes[i].__proto__ = B.prototype;
	}

	for (let i = 0; i < 1000; ++i) {
	D.prototype.__proto__ = prototypes[i % prototypes.length];
	const r = o.foo();
	assertEquals("correct value", r);
	}
	})();

	(function TestMegamorphic() {
	class A {}
	A.prototype.bar = "wrong value: A.prototype.bar";

	class B extends A {}
	B.prototype.bar = "correct value";

	class C extends B {}

	class D extends C {
	foo() { return super.bar; }
	}
	D.prototype.bar = "wrong value: D.prototype.bar";

	const o = new D();

	// Create objects which will act as the "home object's prototype" later.
	const prototypes = [{"a": 0}, {"b": 0}, {"c": 0}, {"d": 0}, {"e": 0},
	{"f": 0}, {"g": 0}, {"e": 0}];

	for (let i = 0; i < prototypes.length; ++i) {
	prototypes[i].__proto__ = B.prototype;
	}

	for (let i = 0; i < 1000; ++i) {
	D.prototype.__proto__ = prototypes[i % prototypes.length];
	const r = o.foo();
	assertEquals("correct value", r);
	}
	})();

	(function TestMegamorphicWithGetter() {
	class A {}
	A.prototype.bar = "wrong value: A.prototype.bar";

	class B extends A {
	get bar() {
	return this.test_value;
	}
	};

	class C extends B {}

	class D extends C {
	foo() { return super.bar;}
	}
	D.prototype.bar = "wrong value: D.prototype.bar";

	const o = new D();
	o.test_value = "correct value";

	// Create objects which will act as the "home object's prototype" later.
	const prototypes = [{"a": 0}, {"b": 0}, {"c": 0}, {"d": 0}, {"e": 0},
	{"f": 0}, {"g": 0}, {"e": 0}];
	for (let i = 0; i < prototypes.length; ++i) {
	prototypes[i].__proto__ = B.prototype;
	}

	for (let i = 0; i < 1000; ++i) {
	D.prototype.__proto__ = prototypes[i % prototypes.length];
	const r = o.foo();
	assertEquals("correct value", r);
	}
	})();

	(function TestHolderHandledCorrectlyAfterOptimization() {
	class A {
	m() { return "m return value"; }
	get boom() { return this.m; }
	}
	class B extends A { f() { return super.boom() } }

	%PrepareFunctionForOptimization(B.prototype.f);
	const r1 = new B().f();
	assertEquals("m return value", r1);
	const r2 = new B().f();
	assertEquals("m return value", r2);
	})();

	(function TestHolderHandledCorrectlyAfterOptimization2() {
	class A {
	m() { return "m return value"; }
	get boom() { return this.m; }
	}
	class Middle1 extends A {}
	class Middle2 extends Middle1 {}
	class B extends Middle2 { f() { return super.boom() } }

	%PrepareFunctionForOptimization(B.prototype.f);
	const r1 = new B().f();
	assertEquals("m return value", r1);
	const r2 = new B().f();
	assertEquals("m return value", r2);
	})();

	(function TestStubCacheConfusion() {
	// Regression test for using the wrong stub from the stub cache.

	class A {};
	A.prototype.foo = "foo from A.prototype";

	class B extends A {
	m() { return super.foo; }
	}

	// Create objects which will act as receivers for the method call. All of
	// them will have a different map.
	class C0 extends B { foo = "foo from C0"; };
	class C1 extends B { foo = "foo from C1"; };
	class C2 extends B { foo = "foo from C2"; };
	class C3 extends B { foo = "foo from C3"; };
	class C4 extends B { foo = "foo from C4"; };
	class C5 extends B { foo = "foo from C5"; };
	class C6 extends B { foo = "foo from C6"; };
	class C7 extends B { foo = "foo from C7"; };
	class C8 extends B { foo = "foo from C8"; };
	class C9 extends B { foo = "foo from C9"; };

	let receivers = [
	new C0(), new C1(), new C2(), new C3(), new C4(), new C5(), new C6(), new C7(),
	new C8(), new C9()
	];

	// Fill the stub cache with handlers which access "foo" from the receivers.
	function getfoo(o) {
	return o.foo;
	}

	for (let i = 0; i < 1000; ++i) {
	getfoo(receivers[i % receivers.length]);
	}

	// Create objects which will act as the "home object's prototype" later.
	const prototypes = [{"a": "prop in prototypes[0]"},
	{"b": "prop in prototypes[1]"},
	{"c": "prop in prototypes[2]"},
	{"d": "prop in prototypes[3]"},
	{"e": "prop in prototypes[4]"},
	{"f": "prop in prototypes[5]"},
	{"g": "prop in prototypes[6]"},
	{"h": "prop in prototypes[7]"},
	{"i": "prop in prototypes[8]"},
	{"j": "prop in prototypes[9]"}];
	for (let i = 0; i < prototypes.length; ++i) {
	prototypes[i].__proto__ = A.prototype;
	}

	for (let i = 0; i < 1000; ++i) {
	// Make the property load for "super.foo" megamorphic in terms of the home
	// object's prototype.
	B.prototype.__proto__ = prototypes[i % prototypes.length];
	const r = receivers[i % receivers.length].m();
	// The bug was that we used the same handlers which were accessing "foo"
	// from the receivers, instead of accessing "foo" from the home object's
	// prototype.
	assertEquals("foo from A.prototype", r);
	}
	})();

	(function TestLengthConfusion() {
	// Regression test for confusion between bound function length and array
	// length.
	class A {};

	class B extends A {
	m() {
	return super.length;
	}
	}

	// Create a "home object proto" object which is a bound function.
	let home_object_proto = (function() {}).bind({});
	forceDictionaryMode(home_object_proto);
	B.prototype.__proto__ = home_object_proto;

	assertEquals(0, home_object_proto.length);

	for (let i = 0; i < 1000; ++i) {
	const r = B.prototype.m.call([1, 2]);
	// The bug was that here we retrieved the length of the receiver array
	// instead of the home object's __proto__.
	assertEquals(home_object_proto.length, r);
	}
	})();

	(function TestSuperInsideArrowFunction() {
	class A {};
	A.prototype.foo = "correct value";

	class B extends A {
	m() {
	const bar = () => {
	return super.foo;
	}
	return bar();
	}

	n() {
	const bar = () => {
	return super.foo;
	}
	return bar;
	}
	};

	assertEquals(A.prototype.foo, (new B).m());
	assertEquals(A.prototype.foo, (new B).n()());
	})();

	// Regression test for a receiver vs lookup start object confusion.
	(function TestProxyAsLookupStartObject1() {
	class A {}
	class B extends A {
	bar() {
	return super.foo;
	}
	}

	const o = new B();
	B.prototype.__proto__ = new Proxy({}, {});
	for (let i = 0; i < 1000; ++i) {
	assertEquals(undefined, o.bar());
	}
	})();

	(function TestProxyAsLookupStartObject2() {
	class A {}
	class B extends A {
	bar() {
	return super.foo;
	}
	}

	const o = new B();
	forceDictionaryMode(o);
	o.foo = "wrong value";
	B.prototype.__proto__ = new Proxy({}, {});

	for (let i = 0; i < 1000; ++i) {
	assertEquals(undefined, o.bar());
	}
	})();

	(function TestProxyAsLookupStartObject3() {
	class A {}
	class B extends A {
	bar() {
	return super.foo;
	}
	}

	const o = new B();
	B.prototype.__proto__ = new Proxy({}, {});
	B.prototype.__proto__.foo = "correct value";

	for (let i = 0; i < 1000; ++i) {
	assertEquals(B.prototype.__proto__.foo, o.bar());
	}
	})();

	(function TestDictionaryModeHomeObjectProto1() {
	class A {}
	forceDictionaryMode(A.prototype);
	A.prototype.foo = "correct value";
	class B extends A {
	bar() {
	return super.foo;
	}
	}
	const o = new B();
	for (let i = 0; i < 1000; ++i) {
	assertEquals(A.prototype.foo, o.bar());
	}
	})();

	(function TestDictionaryModeHomeObjectProto2() {
	class A {}
	A.prototype.foo = "correct value";
	class B extends A {};
	forceDictionaryMode(B.prototype);
	class C extends B {
	bar() {
	return super.foo;
	}
	}
	const o = new C();
	for (let i = 0; i < 1000; ++i) {
	assertEquals(A.prototype.foo, o.bar());
	}
	})();

	(function TestHomeObjectProtoIsGlobalThis() {
	class A {};
	class B extends A {
	bar() { return super.foo; }
	}
	B.prototype.__proto__ = globalThis;

	const o = new B();
	for (let i = 0; i < 1000; ++i) {
	assertEquals(undefined, o.bar());
	}
	})();

	// Regression test for (mis)using the prototype validity cell mechanism.
	(function TestLoadFromDictionaryModePrototype() {
	const obj1 = {};
	const obj2 = {__proto__: obj1};
	forceDictionaryMode(obj1);

	for (let i = 0; i < 1000; ++i) {
	assertEquals(undefined, obj1.x);
	}

	obj1.x = "added";
	assertEquals("added", obj1.x);
	})();

	// Regression test for crbug.com/1139786
	(function HomeObjectProtoIsInt8ArrayAndReceiverIsSmi() {
	class A extends Int8Array {
	f() {
	super.toString();
	}
	};
	A.prototype.f.call(42);
	})();