v8/test/mjsunit/es6/computed-property-names-classes.js

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// Copyright 2014 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.
'use strict';
function ID(x) {
return x;
}
(function TestClassMethodString() {
class C {
a() { return 'A'}
['b']() { return 'B'; }
c() { return 'C'; }
[ID('d')]() { return 'D'; }
}
assertEquals('A', new C().a());
assertEquals('B', new C().b());
assertEquals('C', new C().c());
assertEquals('D', new C().d());
assertArrayEquals([], Object.keys(C.prototype));
assertArrayEquals(['constructor', 'a', 'b', 'c', 'd'],
Object.getOwnPropertyNames(C.prototype));
})();
(function TestClassMethodNumber() {
class C {
a() { return 'A'; }
[1]() { return 'B'; }
c() { return 'C'; }
[ID(2)]() { return 'D'; }
}
assertEquals('A', new C().a());
assertEquals('B', new C()[1]());
assertEquals('C', new C().c());
assertEquals('D', new C()[2]());
// Array indexes first.
assertArrayEquals([], Object.keys(C.prototype));
assertArrayEquals(['1', '2', 'constructor', 'a', 'c'],
Object.getOwnPropertyNames(C.prototype));
})();
(function TestClassMethodSymbol() {
var sym1 = Symbol();
var sym2 = Symbol();
class C {
a() { return 'A'; }
[sym1]() { return 'B'; }
c() { return 'C'; }
[ID(sym2)]() { return 'D'; }
}
assertEquals('A', new C().a());
assertEquals('B', new C()[sym1]());
assertEquals('C', new C().c());
assertEquals('D', new C()[sym2]());
assertArrayEquals([], Object.keys(C.prototype));
assertArrayEquals(['constructor', 'a', 'c'],
Object.getOwnPropertyNames(C.prototype));
assertArrayEquals([sym1, sym2], Object.getOwnPropertySymbols(C.prototype));
})();
(function TestStaticClassMethodString() {
class C {
static a() { return 'A'}
static ['b']() { return 'B'; }
static c() { return 'C'; }
static ['d']() { return 'D'; }
}
assertEquals('A', C.a());
assertEquals('B', C.b());
assertEquals('C', C.c());
assertEquals('D', C.d());
assertArrayEquals([], Object.keys(C));
assertArrayEquals(['length', 'name', 'prototype', 'a', 'b', 'c', 'd'],
Object.getOwnPropertyNames(C));
})();
(function TestStaticClassMethodNumber() {
class C {
static a() { return 'A'; }
static [1]() { return 'B'; }
static c() { return 'C'; }
static [2]() { return 'D'; }
}
assertEquals('A', C.a());
assertEquals('B', C[1]());
assertEquals('C', C.c());
assertEquals('D', C[2]());
// Array indexes first.
assertArrayEquals([], Object.keys(C));
assertArrayEquals(['1', '2', 'length', 'name', 'prototype', 'a', 'c'],
Object.getOwnPropertyNames(C));
})();
(function TestStaticClassMethodSymbol() {
var sym1 = Symbol();
var sym2 = Symbol();
class C {
static a() { return 'A'; }
static [sym1]() { return 'B'; }
static c() { return 'C'; }
static [sym2]() { return 'D'; }
}
assertEquals('A', C.a());
assertEquals('B', C[sym1]());
assertEquals('C', C.c());
assertEquals('D', C[sym2]());
assertArrayEquals([], Object.keys(C));
assertArrayEquals(['length', 'name', 'prototype', 'a', 'c'],
Object.getOwnPropertyNames(C));
assertArrayEquals([sym1, sym2], Object.getOwnPropertySymbols(C));
})();
function assertIteratorResult(value, done, result) {
assertEquals({ value: value, done: done}, result);
}
(function TestGeneratorComputedName() {
class C {
*['a']() {
yield 1;
yield 2;
}
}
var iter = new C().a();
assertIteratorResult(1, false, iter.next());
assertIteratorResult(2, false, iter.next());
assertIteratorResult(undefined, true, iter.next());
assertArrayEquals([], Object.keys(C.prototype));
assertArrayEquals(['constructor', 'a'],
Object.getOwnPropertyNames(C.prototype));
})();
(function TestToNameSideEffects() {
var counter = 0;
var key1 = {
toString: function() {
assertEquals(0, counter++);
return 'b';
}
};
var key2 = {
toString: function() {
assertEquals(1, counter++);
return 'd';
}
};
class C {
a() { return 'A'; }
[key1]() { return 'B'; }
c() { return 'C'; }
[key2]() { return 'D'; }
}
assertEquals(2, counter);
assertEquals('A', new C().a());
assertEquals('B', new C().b());
assertEquals('C', new C().c());
assertEquals('D', new C().d());
assertArrayEquals([], Object.keys(C.prototype));
assertArrayEquals(['constructor', 'a', 'b', 'c', 'd'],
Object.getOwnPropertyNames(C.prototype));
})();
(function TestToNameSideEffectsNumbers() {
var counter = 0;
var key1 = {
valueOf: function() {
assertEquals(0, counter++);
return 1;
},
toString: null
};
var key2 = {
valueOf: function() {
assertEquals(1, counter++);
return 2;
},
toString: null
};
class C {
a() { return 'A'; }
[key1]() { return 'B'; }
c() { return 'C'; }
[key2]() { return 'D'; }
}
assertEquals(2, counter);
assertEquals('A', new C().a());
assertEquals('B', new C()[1]());
assertEquals('C', new C().c());
assertEquals('D', new C()[2]());
// Array indexes first.
assertArrayEquals([], Object.keys(C.prototype));
assertArrayEquals(['1', '2', 'constructor', 'a', 'c'],
Object.getOwnPropertyNames(C.prototype));
})();
(function TestLength() {
class C {
static ['length']() {
return 42;
}
}
assertEquals(42, C.length());
class C1 {
static get ['length']() {
return 'A';
}
}
assertEquals('A', C1.length);
class C2 {
static get length() {
assertUnreachable();
}
static get ['length']() {
return 'B';
}
}
assertEquals('B', C2.length);
class C3 {
static get length() {
assertUnreachable();
}
static get ['length']() {
assertUnreachable();
}
static get ['length']() {
return 'C';
}
}
assertEquals('C', C3.length);
class C4 {
static get ['length']() {
assertUnreachable();
}
static get length() {
return 'D';
}
}
assertEquals('D', C4.length);
})();
(function TestGetter() {
class C {
get ['a']() {
return 'A';
}
}
assertEquals('A', new C().a);
class C2 {
get b() {
assertUnreachable();
}
get ['b']() {
return 'B';
}
}
assertEquals('B', new C2().b);
class C3 {
get c() {
assertUnreachable();
}
get ['c']() {
assertUnreachable();
}
get ['c']() {
return 'C';
}
}
assertEquals('C', new C3().c);
class C4 {
get ['d']() {
assertUnreachable();
}
get d() {
return 'D';
}
}
assertEquals('D', new C4().d);
})();
(function TestSetter() {
var calls = 0;
class C {
set ['a'](_) {
calls++;
}
}
new C().a = 'A';
assertEquals(1, calls);
calls = 0;
class C2 {
set b(_) {
assertUnreachable();
}
set ['b'](_) {
calls++;
}
}
new C2().b = 'B';
assertEquals(1, calls);
calls = 0;
class C3 {
set c(_) {
assertUnreachable()
}
set ['c'](_) {
assertUnreachable()
}
set ['c'](_) {
calls++
}
}
new C3().c = 'C';
assertEquals(1, calls);
calls = 0;
class C4 {
set ['d'](_) {
assertUnreachable()
}
set d(_) {
calls++
}
}
new C4().d = 'D';
assertEquals(1, calls);
})();
(function TestPrototype() {
assertThrows(function() {
class C {
static ['prototype']() {
return 1;
}
}
}, TypeError);
assertThrows(function() {
class C2 {
static get ['prototype']() {
return 2;
}
}
}, TypeError);
assertThrows(function() {
class C3 {
static set ['prototype'](x) {
assertEquals(3, x);
}
}
}, TypeError);
assertThrows(function() {
class C4 {
static *['prototype']() {
yield 1;
yield 2;
}
}
}, TypeError);
})();
(function TestPrototypeConcat() {
assertThrows(function() {
class C {
static ['pro' + 'tot' + 'ype']() {
return 1;
}
}
}, TypeError);
assertThrows(function() {
class C2 {
static get ['pro' + 'tot' + 'ype']() {
return 2;
}
}
}, TypeError);
assertThrows(function() {
class C3 {
static set ['pro' + 'tot' + 'ype'](x) {
assertEquals(3, x);
}
}
}, TypeError);
assertThrows(function() {
class C4 {
static *['pro' + 'tot' + 'ype']() {
yield 1;
yield 2;
}
}
}, TypeError);
})();
(function TestConstructor() {
// Normally a constructor property is not allowed.
class C {
['constructor']() {
return 1;
}
}
assertTrue(C !== C.prototype.constructor);
assertEquals(1, new C().constructor());
class C2 {
get ['constructor']() {
return 2;
}
}
assertEquals(2, new C2().constructor);
var calls = 0;
class C3 {
set ['constructor'](x) {
assertEquals(3, x);
calls++;
}
}
new C3().constructor = 3;
assertEquals(1, calls);
class C4 {
*['constructor']() {
yield 1;
yield 2;
}
}
var iter = new C4().constructor();
assertIteratorResult(1, false, iter.next());
assertIteratorResult(2, false, iter.next());
assertIteratorResult(undefined, true, iter.next());
})();
(function TestExceptionInName() {
function MyError() {};
function throwMyError() {
throw new MyError();
}
assertThrows(function() {
class C {
[throwMyError()]() {}
}
}, MyError);
assertThrows(function() {
class C {
get [throwMyError()]() { return 42; }
}
}, MyError);
assertThrows(function() {
class C {
set [throwMyError()](_) { }
}
}, MyError);
})();
(function TestTdzName() {
assertThrows(function() {
class C {
[C]() {}
}
}, ReferenceError);
assertThrows(function() {
class C {
get [C]() { return 42; }
}
}, ReferenceError);
assertThrows(function() {
class C {
set [C](_) { }
}
}, ReferenceError);
})();
// The following tests deal with computed and statically known properties
// of the same name overwriting each other.
//
// More concretely, we consider the cases where:
// The computed property appears ...
// - before an existing data property (case 1)
// - after an existing data property (case 2)
// - before an existing getter and setter pair (case 3)
// - before an existing getter xor setter (case 4)
// - after an existing getter and setter pair (case 5)
// - after an existing getter xor setter (case 6)
// - in between two existing accessors (case 7)
//
// For each of the 7 cases above, there exists A and B variants, indicating
// whether the computed property refers to an accessor (variant A) or a
// plain property (variant B).
// |expect_getter| and |expect_setter| must be undefined if and only if we are
// expecting |b| to be a data property.
function TestOverwritingHelper(clazz, expect_getter, expect_setter) {
var proto = clazz.prototype;
var desc = Object.getOwnPropertyDescriptor(proto, 'b');
if (desc.hasOwnProperty('value')) {
assertEquals(undefined, expect_getter);
assertEquals(undefined, expect_setter);
assertEquals('B', proto.b());
} else {
assertEquals("boolean", typeof expect_getter);
assertEquals("boolean", typeof expect_setter);
if (expect_getter) {
assertEquals('B', proto.b);
} else {
assertEquals(undefined, desc.getter);
}
assertEquals(expect_setter, desc.set !== undefined);
}
assertEquals('A', proto.a());
assertEquals('C', proto.c());
assertEquals('D', proto.d());
assertArrayEquals([], Object.keys(proto));
assertArrayEquals(['constructor', 'a', 'b', 'c', 'd'],
Object.getOwnPropertyNames(proto));
}
(function TestOverwriting1A() {
class C {
a() { return 'A'}
get [ID('b')]() { return 'Bx'; }
c() { return 'C'; }
b() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C);
})();
(function TestOverwriting1B() {
class C {
a() { return 'A'}
[ID('b')]() { return 'Bx'; }
c() { return 'C'; }
b() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C);
})();
(function TestOverwriting2A() {
class C {
a() { return 'A'}
b() { return 'Bx'; }
c() { return 'C'; }
get [ID('b')]() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, false);
})();
(function TestOverwriting2B() {
class C {
a() { return 'A'}
b() { return 'Bx'; }
c() { return 'C'; }
[ID('b')]() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C);
})();
(function TestOverwriting3A() {
class C {
a() { return 'A'}
get [ID('b')]() { return 'Bx'; }
c() { return 'C'; }
get b() { return 'B'; }
set b(foo) { this.x = foo; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, true);
})();
(function TestOverwriting3B() {
class C {
a() { return 'A'}
[ID('b')]() { return 'Bx'; }
c() { return 'C'; }
get b() { return 'B'; }
set b(foo) { this.x = foo; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, true);
})();
(function TestOverwriting4A() {
class C {
a() { return 'A'}
get [ID('b')]() { return 'Bx'; }
c() { return 'C'; }
get b() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, false);
})();
(function TestOverwriting4B() {
class C {
a() { return 'A'}
[ID('b')]() { return 'Bx'; }
c() { return 'C'; }
get b() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, false);
})();
(function TestOverwriting5A() {
class C {
a() { return 'A'}
get b() { return 'Bx'; }
set b(foo) { this.x = foo; }
c() { return 'C'; }
get [ID('b')]() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, true);
})();
(function TestOverwriting5B() {
class C {
a() { return 'A'}
get b() { return 'Bx'; }
set b(foo) { this.x = foo; }
c() { return 'C'; }
[ID('b')]() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C);
})();
(function TestOverwriting6A() {
class C {
a() { return 'A'}
set b(foo) { this.x = foo; }
c() { return 'C'; }
get [ID('b')]() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C, true, true);
})();
(function TestOverwriting6B() {
class C {
a() { return 'A'}
set b(foo) { this.x = foo; }
c() { return 'C'; }
[ID('b')]() { return 'B'; }
d() { return 'D'; }
}
TestOverwritingHelper(C);
})();
(function TestOverwriting7A() {
class C {
a() { return 'A'}
get b() { return 'Bx'; }
c() { return 'C'; }
get [ID('b')]() { return 'B'; }
d() { return 'D'; }
set b(foo) { this.x = foo; }
}
TestOverwritingHelper(C, true, true);
})();
(function TestOverwriting7B() {
class C {
a() { return 'A'}
set b(foo) { this.x = foo; }
c() { return 'C'; }
[ID('b')]() { return 'Bx'; }
d() { return 'D'; }
get b() { return 'B'; }
}
TestOverwritingHelper(C, true, false);
})();