v8/test/mjsunit/es6/symbols.js
mvstanton d69ce04d03 Implement symbol @@hasInstance for ES6 instanceof support.
BUG=

Committed: https://crrev.com/5833e8e8a437cd66405784263ccc45e73470fd42
Cr-Commit-Position: refs/heads/master@{#33870}

Review URL: https://codereview.chromium.org/1683043003

Cr-Commit-Position: refs/heads/master@{#33890}
2016-02-11 11:59:22 +00:00

566 lines
17 KiB
JavaScript

// Copyright 2013 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Flags: --expose-gc --allow-natives-syntax --harmony-tostring
var symbols = []
// Returns true if the string is a valid
// serialization of Symbols added to the 'symbols'
// array. Adjust if you extend 'symbols' with other
// values.
function isValidSymbolString(s) {
return ["Symbol(66)", "Symbol()"].indexOf(s) >= 0;
}
// Test different forms of constructor calls.
function TestNew() {
function indirectSymbol() { return Symbol() }
function indirect() { return indirectSymbol() }
for (var i = 0; i < 2; ++i) {
for (var j = 0; j < 5; ++j) {
symbols.push(Symbol())
symbols.push(Symbol(undefined))
symbols.push(Symbol("66"))
symbols.push(Symbol(66))
symbols.push(Symbol().valueOf())
symbols.push(indirect())
}
%OptimizeFunctionOnNextCall(indirect)
indirect() // Call once before GC throws away type feedback.
gc() // Promote existing symbols and then allocate some more.
}
assertThrows(function () { Symbol(Symbol()) }, TypeError)
assertThrows(function () { new Symbol(66) }, TypeError)
}
TestNew()
function TestType() {
for (var i in symbols) {
assertEquals("symbol", typeof symbols[i])
assertTrue(typeof symbols[i] === "symbol")
assertFalse(%SymbolIsPrivate(symbols[i]))
assertEquals(null, %_ClassOf(symbols[i]))
assertEquals("Symbol", %_ClassOf(Object(symbols[i])))
}
}
TestType()
function TestPrototype() {
assertSame(Object.prototype, Symbol.prototype.__proto__)
assertSame(Symbol.prototype, Symbol().__proto__)
assertSame(Symbol.prototype, Object(Symbol()).__proto__)
for (var i in symbols) {
assertSame(Symbol.prototype, symbols[i].__proto__)
}
}
TestPrototype()
function TestConstructor() {
assertSame(Function.prototype, Symbol.__proto__)
assertFalse(Object === Symbol.prototype.constructor)
assertFalse(Symbol === Object.prototype.constructor)
assertSame(Symbol, Symbol.prototype.constructor)
assertSame(Symbol, Symbol().__proto__.constructor)
assertSame(Symbol, Object(Symbol()).__proto__.constructor)
for (var i in symbols) {
assertSame(Symbol, symbols[i].__proto__.constructor)
}
}
TestConstructor()
function TestValueOf() {
for (var i in symbols) {
assertTrue(symbols[i] === Object(symbols[i]).valueOf())
assertTrue(symbols[i] === symbols[i].valueOf())
assertTrue(Symbol.prototype.valueOf.call(Object(symbols[i])) === symbols[i])
assertTrue(Symbol.prototype.valueOf.call(symbols[i]) === symbols[i])
}
}
TestValueOf()
function TestToString() {
for (var i in symbols) {
assertThrows(function() { new String(symbols[i]) }, TypeError)
assertEquals(symbols[i].toString(), String(symbols[i]))
assertThrows(function() { symbols[i] + "" }, TypeError)
assertThrows(function() { String(Object(symbols[i])) }, TypeError)
assertTrue(isValidSymbolString(symbols[i].toString()))
assertTrue(isValidSymbolString(Object(symbols[i]).toString()))
assertTrue(
isValidSymbolString(Symbol.prototype.toString.call(symbols[i])))
assertEquals(
"[object Symbol]", Object.prototype.toString.call(symbols[i]))
}
}
TestToString()
function TestToBoolean() {
for (var i in symbols) {
assertTrue(Boolean(Object(symbols[i])))
assertFalse(!Object(symbols[i]))
assertTrue(Boolean(symbols[i]).valueOf())
assertFalse(!symbols[i])
assertTrue(!!symbols[i])
assertTrue(symbols[i] && true)
assertFalse(!symbols[i] && false)
assertTrue(!symbols[i] || true)
assertEquals(1, symbols[i] ? 1 : 2)
assertEquals(2, !symbols[i] ? 1 : 2)
if (!symbols[i]) assertUnreachable();
if (symbols[i]) {} else assertUnreachable();
}
}
TestToBoolean()
function TestToNumber() {
for (var i in symbols) {
assertThrows(function() { Number(Object(symbols[i])) }, TypeError)
assertThrows(function() { +Object(symbols[i]) }, TypeError)
assertThrows(function() { Number(symbols[i]) }, TypeError)
assertThrows(function() { symbols[i] + 0 }, TypeError)
}
}
TestToNumber()
function TestEquality() {
// Every symbol should equal itself, and non-strictly equal its wrapper.
for (var i in symbols) {
assertSame(symbols[i], symbols[i])
assertEquals(symbols[i], symbols[i])
assertTrue(Object.is(symbols[i], symbols[i]))
assertTrue(symbols[i] === symbols[i])
assertTrue(symbols[i] == symbols[i])
assertFalse(symbols[i] === Object(symbols[i]))
assertFalse(Object(symbols[i]) === symbols[i])
assertTrue(symbols[i] == Object(symbols[i]))
assertTrue(Object(symbols[i]) == symbols[i])
assertTrue(symbols[i] === symbols[i].valueOf())
assertTrue(symbols[i].valueOf() === symbols[i])
assertTrue(symbols[i] == symbols[i].valueOf())
assertTrue(symbols[i].valueOf() == symbols[i])
assertFalse(Object(symbols[i]) === Object(symbols[i]))
assertEquals(Object(symbols[i]).valueOf(), Object(symbols[i]).valueOf())
}
// All symbols should be distinct.
for (var i = 0; i < symbols.length; ++i) {
for (var j = i + 1; j < symbols.length; ++j) {
assertFalse(Object.is(symbols[i], symbols[j]))
assertFalse(symbols[i] === symbols[j])
assertFalse(symbols[i] == symbols[j])
}
}
// Symbols should not be equal to any other value (and the test terminates).
var values = [347, 1.275, NaN, "string", null, undefined, {}, function() {}]
for (var i in symbols) {
for (var j in values) {
assertFalse(symbols[i] === values[j])
assertFalse(values[j] === symbols[i])
assertFalse(symbols[i] == values[j])
assertFalse(values[j] == symbols[i])
}
}
}
TestEquality()
function TestGet() {
for (var i in symbols) {
assertTrue(isValidSymbolString(symbols[i].toString()))
assertEquals(symbols[i], symbols[i].valueOf())
assertEquals(undefined, symbols[i].a)
assertEquals(undefined, symbols[i]["a" + "b"])
assertEquals(undefined, symbols[i]["" + "1"])
assertEquals(undefined, symbols[i][62])
}
}
TestGet()
function TestSet() {
for (var i in symbols) {
symbols[i].toString = 0
assertTrue(isValidSymbolString(symbols[i].toString()))
symbols[i].valueOf = 0
assertEquals(symbols[i], symbols[i].valueOf())
symbols[i].a = 0
assertEquals(undefined, symbols[i].a)
symbols[i]["a" + "b"] = 0
assertEquals(undefined, symbols[i]["a" + "b"])
symbols[i][62] = 0
assertEquals(undefined, symbols[i][62])
}
}
TestSet()
// Test Symbol wrapping/boxing over non-builtins.
Symbol.prototype.getThisProto = function () {
return Object.getPrototypeOf(this);
}
function TestCall() {
for (var i in symbols) {
assertTrue(symbols[i].getThisProto() === Symbol.prototype)
}
}
TestCall()
function TestCollections() {
var set = new Set
var map = new Map
for (var i in symbols) {
set.add(symbols[i])
map.set(symbols[i], i)
}
assertEquals(symbols.length, set.size)
assertEquals(symbols.length, map.size)
for (var i in symbols) {
assertTrue(set.has(symbols[i]))
assertTrue(map.has(symbols[i]))
assertEquals(i, map.get(symbols[i]))
}
for (var i in symbols) {
assertTrue(set.delete(symbols[i]))
assertTrue(map.delete(symbols[i]))
}
assertEquals(0, set.size)
assertEquals(0, map.size)
}
TestCollections()
function TestKeySet(obj) {
assertTrue(%HasFastProperties(obj))
// Set the even symbols via assignment.
for (var i = 0; i < symbols.length; i += 2) {
obj[symbols[i]] = i
// Object should remain in fast mode until too many properties were added.
assertTrue(%HasFastProperties(obj) || i >= 30)
}
}
function TestKeyDefine(obj) {
// Set the odd symbols via defineProperty (as non-enumerable).
for (var i = 1; i < symbols.length; i += 2) {
Object.defineProperty(obj, symbols[i], {value: i, configurable: true})
}
}
function TestKeyGet(obj) {
var obj2 = Object.create(obj)
for (var i in symbols) {
assertEquals(i|0, obj[symbols[i]])
assertEquals(i|0, obj2[symbols[i]])
}
}
function TestKeyHas(obj) {
for (var i in symbols) {
assertTrue(symbols[i] in obj)
assertTrue(Object.hasOwnProperty.call(obj, symbols[i]))
}
}
function TestKeyEnum(obj) {
for (var name in obj) {
assertEquals("string", typeof name)
}
}
function TestKeyNames(obj) {
assertEquals(0, Object.keys(obj).length)
var names = Object.getOwnPropertyNames(obj)
for (var i in names) {
assertEquals("string", typeof names[i])
}
}
function TestGetOwnPropertySymbols(obj) {
var syms = Object.getOwnPropertySymbols(obj)
assertEquals(syms.length, symbols.length)
for (var i in syms) {
assertEquals("symbol", typeof syms[i])
}
}
function TestKeyDescriptor(obj) {
for (var i in symbols) {
var desc = Object.getOwnPropertyDescriptor(obj, symbols[i])
assertEquals(i|0, desc.value)
assertTrue(desc.configurable)
assertEquals(i % 2 == 0, desc.writable)
assertEquals(i % 2 == 0, desc.enumerable)
assertEquals(i % 2 == 0,
Object.prototype.propertyIsEnumerable.call(obj, symbols[i]))
}
}
function TestKeyDelete(obj) {
for (var i in symbols) {
delete obj[symbols[i]]
}
for (var i in symbols) {
assertEquals(undefined, Object.getOwnPropertyDescriptor(obj, symbols[i]))
}
}
var objs = [{}, [], Object.create(null), Object(1), new Map, function(){}]
for (var i in objs) {
var obj = objs[i]
TestKeySet(obj)
TestKeyDefine(obj)
TestKeyGet(obj)
TestKeyHas(obj)
TestKeyEnum(obj)
TestKeyNames(obj)
TestGetOwnPropertySymbols(obj)
TestKeyDescriptor(obj)
TestKeyDelete(obj)
}
function TestDefineProperties() {
var properties = {}
for (var i in symbols) {
Object.defineProperty(
properties, symbols[i], {value: {value: i}, enumerable: i % 2 === 0})
}
var o = Object.defineProperties({}, properties)
for (var i in symbols) {
assertEquals(i % 2 === 0, symbols[i] in o)
}
}
TestDefineProperties()
function TestCreate() {
var properties = {}
for (var i in symbols) {
Object.defineProperty(
properties, symbols[i], {value: {value: i}, enumerable: i % 2 === 0})
}
var o = Object.create(Object.prototype, properties)
for (var i in symbols) {
assertEquals(i % 2 === 0, symbols[i] in o)
}
}
TestCreate()
function TestCachedKeyAfterScavenge() {
gc();
// Keyed property lookup are cached. Hereby we assume that the keys are
// tenured, so that we only have to clear the cache between mark compacts,
// but not between scavenges. This must also apply for symbol keys.
var key = Symbol("key");
var a = {};
a[key] = "abc";
for (var i = 0; i < 100000; i++) {
a[key] += "a"; // Allocations cause a scavenge.
}
}
TestCachedKeyAfterScavenge();
function TestGetOwnPropertySymbolsWithProto() {
// We need to be have fast properties to have insertion order for property
// keys. The current limit is currently 30 properties.
var syms = symbols.slice(0, 30);
var proto = {}
var object = Object.create(proto)
for (var i = 0; i < syms.length; i++) {
// Even on object, odd on proto.
if (i % 2) {
proto[syms[i]] = i
} else {
object[syms[i]] = i
}
}
assertTrue(%HasFastProperties(object));
var objectOwnSymbols = Object.getOwnPropertySymbols(object)
assertEquals(objectOwnSymbols.length, syms.length / 2)
for (var i = 0; i < objectOwnSymbols.length; i++) {
assertEquals(objectOwnSymbols[i], syms[i * 2])
}
}
TestGetOwnPropertySymbolsWithProto()
function TestWellKnown() {
var symbols = [
"hasInstance",
// TODO(rossberg): reactivate once implemented.
// "isConcatSpreadable", "isRegExp",
"iterator", /* "toStringTag", */ "unscopables"
]
for (var i in symbols) {
var name = symbols[i]
var desc = Object.getOwnPropertyDescriptor(Symbol, name)
assertSame("symbol", typeof desc.value)
assertSame("Symbol(Symbol." + name + ")", desc.value.toString())
assertFalse(desc.writable)
assertFalse(desc.configurable)
assertFalse(desc.enumerable)
assertFalse(Symbol.for("Symbol." + name) === desc.value)
assertTrue(Symbol.keyFor(desc.value) === undefined)
}
}
TestWellKnown()
function TestRegistry() {
var symbol1 = Symbol.for("x1")
var symbol2 = Symbol.for("x2")
assertFalse(symbol1 === symbol2)
assertSame(symbol1, Symbol.for("x1"))
assertSame(symbol2, Symbol.for("x2"))
assertSame("x1", Symbol.keyFor(symbol1))
assertSame("x2", Symbol.keyFor(symbol2))
assertSame(Symbol.for("1"), Symbol.for(1))
assertThrows(function() { Symbol.keyFor("bla") }, TypeError)
assertThrows(function() { Symbol.keyFor({}) }, TypeError)
var realm = Realm.create()
assertFalse(Symbol === Realm.eval(realm, "Symbol"))
assertFalse(Symbol.for === Realm.eval(realm, "Symbol.for"))
assertFalse(Symbol.keyFor === Realm.eval(realm, "Symbol.keyFor"))
assertSame(Symbol.create, Realm.eval(realm, "Symbol.create"))
assertSame(Symbol.iterator, Realm.eval(realm, "Symbol.iterator"))
assertSame(symbol1, Realm.eval(realm, "Symbol.for")("x1"))
assertSame(symbol1, Realm.eval(realm, "Symbol.for('x1')"))
assertSame("x1", Realm.eval(realm, "Symbol.keyFor")(symbol1))
Realm.shared = symbol1
assertSame("x1", Realm.eval(realm, "Symbol.keyFor(Realm.shared)"))
var symbol3 = Realm.eval(realm, "Symbol.for('x3')")
assertFalse(symbol1 === symbol3)
assertFalse(symbol2 === symbol3)
assertSame(symbol3, Symbol.for("x3"))
assertSame("x3", Symbol.keyFor(symbol3))
}
TestRegistry()
function TestGetOwnPropertySymbolsOnPrimitives() {
assertEquals(Object.getOwnPropertySymbols(true), []);
assertEquals(Object.getOwnPropertySymbols(5000), []);
assertEquals(Object.getOwnPropertySymbols("OK"), []);
}
TestGetOwnPropertySymbolsOnPrimitives();
function TestComparison() {
function lt() { var a = Symbol(); var b = Symbol(); a < b; }
function gt() { var a = Symbol(); var b = Symbol(); a > b; }
function le() { var a = Symbol(); var b = Symbol(); a <= b; }
function ge() { var a = Symbol(); var b = Symbol(); a >= b; }
function lt_same() { var a = Symbol(); a < a; }
function gt_same() { var a = Symbol(); a > a; }
function le_same() { var a = Symbol(); a <= a; }
function ge_same() { var a = Symbol(); a >= a; }
var throwFuncs = [lt, gt, le, ge, lt_same, gt_same, le_same, ge_same];
for (var f of throwFuncs) {
assertThrows(f, TypeError);
%OptimizeFunctionOnNextCall(f);
assertThrows(f, TypeError);
assertThrows(f, TypeError);
}
}
TestComparison();
// Make sure that throws occur in the context of the Symbol function.
function TestContext() {
var r = Realm.create();
var rSymbol = Realm.eval(r, "Symbol");
var rError = Realm.eval(r, "TypeError");
function verifier(symbol, error) {
try {
new symbol();
} catch(e) {
return e.__proto__ === error.__proto__;
}
assertTrue(false); // should never get here.
}
assertTrue(verifier(Symbol, TypeError()));
assertTrue(verifier(rSymbol, rError()));
assertFalse(verifier(Symbol, rError()));
assertFalse(verifier(rSymbol, TypeError()));
}
TestContext();
function TestStringify(expected, input) {
assertEquals(expected, JSON.stringify(input));
assertEquals(expected, JSON.stringify(input, null, 0));
}
TestStringify(undefined, Symbol("a"));
TestStringify('[{}]', [Object(Symbol())]);
var symbol_wrapper = Object(Symbol("a"))
TestStringify('{}', symbol_wrapper);
symbol_wrapper.a = 1;
TestStringify('{"a":1}', symbol_wrapper);