v8/test/mjsunit/es6/promises.js
littledan 797d1090ae Reland "Clean up promises and fix an edge case bug (patchset #4 id:60001 of https://codereview.chromium.org/1488783002/ )"
This patch relands a change to ES2015 Promises which brings us closer to
spec compliance. In this new version, a bug which would lose async callstack
data was fixed.

R=adamk
CC=rossberg,caitp
LOG=Y
BUG=v8:3641
CQ_INCLUDE_TRYBOTS=tryserver.chromium.linux:linux_chromium_rel_ng;tryserver.blink:linux_blink_rel

Review URL: https://codereview.chromium.org/1538663002

Cr-Commit-Position: refs/heads/master@{#33065}
2015-12-30 20:47:37 +00:00

1115 lines
28 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: --allow-natives-syntax --harmony-tostring --promise-extra
// Make sure we don't rely on functions patchable by monkeys.
var call = Function.prototype.call.call.bind(Function.prototype.call)
var getOwnPropertyNames = Object.getOwnPropertyNames;
var defineProperty = Object.defineProperty;
var numberPrototype = Number.prototype;
var symbolIterator = Symbol.iterator;
(function() {
// Test before clearing global (fails otherwise)
assertEquals("[object Promise]",
Object.prototype.toString.call(new Promise(function() {})));
})();
function clear(o) {
if (o === null || (typeof o !== 'object' && typeof o !== 'function')) return
clear(o.__proto__)
var properties = getOwnPropertyNames(o)
for (var i in properties) {
clearProp(o, properties[i])
}
}
function clearProp(o, name) {
var poisoned = {caller: 0, callee: 0, arguments: 0}
try {
var x = o[name]
o[name] = undefined
clear(x)
} catch(e) {} // assertTrue(name in poisoned) }
}
// Find intrinsics and null them out.
var globals = Object.getOwnPropertyNames(this)
var whitelist = {
Promise: true,
TypeError: true,
String: true,
JSON: true,
Error: true,
MjsUnitAssertionError: true
};
for (var i in globals) {
var name = globals[i]
if (name in whitelist || name[0] === name[0].toLowerCase()) delete globals[i]
}
for (var i in globals) {
if (globals[i]) clearProp(this, globals[i])
}
var asyncAssertsExpected = 0;
function assertAsyncRan() { ++asyncAssertsExpected }
function assertAsync(b, s) {
if (b) {
print(s, "succeeded")
} else {
%AbortJS(s + " FAILED!") // Simply throwing here will have no effect.
}
--asyncAssertsExpected
}
function assertLater(f, name) {
assertFalse(f()); // should not be true synchronously
++asyncAssertsExpected;
var iterations = 0;
function runAssertion() {
if (f()) {
print(name, "succeeded");
--asyncAssertsExpected;
} else if (iterations++ < 10) {
%EnqueueMicrotask(runAssertion);
} else {
%AbortJS(name + " FAILED!");
}
}
%EnqueueMicrotask(runAssertion);
}
function assertAsyncDone(iteration) {
var iteration = iteration || 0;
%EnqueueMicrotask(function() {
if (asyncAssertsExpected === 0)
assertAsync(true, "all")
else if (iteration > 10) // Shouldn't take more.
assertAsync(false, "all... " + asyncAssertsExpected)
else
assertAsyncDone(iteration + 1)
});
}
(function() {
assertThrows(function() { Promise(function() {}) }, TypeError)
})();
(function() {
assertTrue(new Promise(function() {}) instanceof Promise)
})();
(function() {
assertThrows(function() { new Promise(5) }, TypeError)
})();
(function() {
assertDoesNotThrow(function() { new Promise(function() { throw 5 }) })
})();
(function() {
(new Promise(function() { throw 5 })).chain(
assertUnreachable,
function(r) { assertAsync(r === 5, "new-throw") }
)
assertAsyncRan()
})();
(function() {
Promise.accept(5);
Promise.accept(5).chain(undefined, assertUnreachable).chain(
function(x) { assertAsync(x === 5, "resolved/chain-nohandler") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
Promise.reject(5).chain(assertUnreachable, undefined).chain(
assertUnreachable,
function(r) { assertAsync(r === 5, "rejected/chain-nohandler") }
)
assertAsyncRan()
})();
(function() {
Promise.accept(5).then(undefined, assertUnreachable).chain(
function(x) { assertAsync(x === 5, "resolved/then-nohandler-undefined") },
assertUnreachable
)
assertAsyncRan()
Promise.accept(6).then(null, assertUnreachable).chain(
function(x) { assertAsync(x === 6, "resolved/then-nohandler-null") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
Promise.reject(5).then(assertUnreachable, undefined).chain(
assertUnreachable,
function(r) { assertAsync(r === 5, "rejected/then-nohandler-undefined") }
)
assertAsyncRan()
Promise.reject(6).then(assertUnreachable, null).chain(
assertUnreachable,
function(r) { assertAsync(r === 6, "rejected/then-nohandler-null") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
// Note: Chain now has then-style semantics, here and in future tests.
p3.chain(
function(x) { assertAsync(x === 5, "resolved/chain") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(
function(x) { assertAsync(x === 5, "resolved/then") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.reject(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(
assertUnreachable,
function(x) { assertAsync(x === 5, "rejected/chain") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.reject(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(
assertUnreachable,
function(x) { assertAsync(x === 5, "rejected/then") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(function(x) { return x }, assertUnreachable).chain(
function(x) { assertAsync(x === 5, "resolved/chain/chain") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(function(x) { return x }, assertUnreachable).then(
function(x) { assertAsync(x === 5, "resolved/chain/then") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(function(x) { return 6 }, assertUnreachable).chain(
function(x) { assertAsync(x === 6, "resolved/chain/chain2") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(function(x) { return 6 }, assertUnreachable).then(
function(x) { assertAsync(x === 6, "resolved/chain/then2") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(function(x) { return x + 1 }, assertUnreachable).chain(
function(x) { assertAsync(x === 6, "resolved/then/chain") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(function(x) { return x + 1 }, assertUnreachable).then(
function(x) { assertAsync(x === 6, "resolved/then/then") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(function(x){ return Promise.accept(x+1) }, assertUnreachable).chain(
function(x) { assertAsync(x === 6, "resolved/then/chain2") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(function(x) { return Promise.accept(x+1) }, assertUnreachable).then(
function(x) { assertAsync(x === 6, "resolved/then/then2") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(function(x) { throw 6 }, assertUnreachable).chain(
assertUnreachable,
function(x) { assertAsync(x === 6, "resolved/chain-throw/chain") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(function(x) { throw 6 }, assertUnreachable).then(
assertUnreachable,
function(x) { assertAsync(x === 6, "resolved/chain-throw/then") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(function(x) { throw 6 }, assertUnreachable).chain(
assertUnreachable,
function(x) { assertAsync(x === 6, "resolved/then-throw/chain") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(function(x) { throw 6 }, assertUnreachable).then(
assertUnreachable,
function(x) { assertAsync(x === 6, "resolved/then-throw/then") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.chain(
function(x) { assertAsync(x === 5, "resolved/thenable/chain") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.then(
function(x) { assertAsync(x === 5, "resolved/thenable/then") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.reject(5)
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.chain(
assertUnreachable,
function(x) { assertAsync(x === 5, "rejected/thenable/chain") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.reject(5)
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.then(
assertUnreachable,
function(x) { assertAsync(x === 5, "rejected/thenable/then") }
)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(
function(x) { assertAsync(x === 5, "chain/resolve") },
assertUnreachable
)
deferred.resolve(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = Promise.resolve(p1)
var p3 = Promise.resolve(p2)
p3.then(
function(x) { assertAsync(x === 5, "then/resolve") },
assertUnreachable
)
deferred.resolve(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.chain(
assertUnreachable,
function(x) { assertAsync(x === 5, "chain/reject") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = Promise.accept(p1)
var p3 = Promise.accept(p2)
p3.then(
assertUnreachable,
function(x) { assertAsync(x === 5, "then/reject") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = p1.then(1, 2)
p2.then(
function(x) { assertAsync(x === 5, "then/resolve-non-function") },
assertUnreachable
)
deferred.resolve(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = p1.then(1, 2)
p2.then(
assertUnreachable,
function(x) { assertAsync(x === 5, "then/reject-non-function") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.chain(
function(x) { assertAsync(x === 5, "chain/resolve/thenable") },
assertUnreachable
)
deferred.resolve(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.then(
function(x) { assertAsync(x === 5, "then/resolve/thenable") },
assertUnreachable
)
deferred.resolve(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.chain(
assertUnreachable,
function(x) { assertAsync(x === 5, "chain/reject/thenable") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var p3 = Promise.accept(p2)
p3.then(
assertUnreachable,
function(x) { assertAsync(x === 5, "then/reject/thenable") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var deferred = Promise.defer()
var p3 = deferred.promise
p3.chain(
function(x) { assertAsync(x === 5, "chain/resolve2") },
assertUnreachable
)
deferred.resolve(p2)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var deferred = Promise.defer()
var p3 = deferred.promise
p3.then(
function(x) { assertAsync(x === 5, "then/resolve2") },
assertUnreachable
)
deferred.resolve(p2)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var deferred = Promise.defer()
var p3 = deferred.promise
p3.chain(
assertUnreachable,
function(x) { assertAsync(x === 5, "chain/reject2") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = Promise.accept(p1)
var deferred = Promise.defer()
var p3 = deferred.promise
p3.then(
assertUnreachable,
function(x) { assertAsync(x === 5, "then/reject2") }
)
deferred.reject(5)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var deferred = Promise.defer()
var p3 = deferred.promise
p3.chain(
function(x) { assertAsync(x === 5, "chain/resolve/thenable2") },
assertUnreachable
)
deferred.resolve(p2)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(5)
var p2 = {then: function(onResolve, onReject) { onResolve(p1) }}
var deferred = Promise.defer()
var p3 = deferred.promise
p3.then(
function(x) { assertAsync(x === 5, "then/resolve/thenable2") },
assertUnreachable
)
deferred.resolve(p2)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(0)
var p2 = p1.chain(function(x) { return p2 }, assertUnreachable)
p2.chain(
assertUnreachable,
function(r) { assertAsync(r instanceof TypeError, "cyclic/chain") }
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(0)
var p2 = p1.then(function(x) { return p2 }, assertUnreachable)
p2.chain(
assertUnreachable,
function(r) { assertAsync(r instanceof TypeError, "cyclic/then") }
)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p = deferred.promise
deferred.resolve(p)
p.chain(
assertUnreachable,
function(r) { assertAsync(r instanceof TypeError, "cyclic/deferred/then") }
)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p = deferred.promise
deferred.resolve(p)
p.then(
assertUnreachable,
function(r) { assertAsync(r instanceof TypeError, "cyclic/deferred/then") }
)
assertAsyncRan()
})();
(function() {
Promise.all([]).chain(
function(x) { assertAsync(x.length === 0, "all/resolve/empty") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
function testPromiseAllNonIterable(value) {
Promise.all(value).chain(
assertUnreachable,
function(r) {
assertAsync(r instanceof TypeError, 'all/non iterable');
});
assertAsyncRan();
}
testPromiseAllNonIterable(null);
testPromiseAllNonIterable(undefined);
testPromiseAllNonIterable({});
testPromiseAllNonIterable(42);
})();
(function() {
var deferred = Promise.defer();
var p = deferred.promise;
function* f() {
yield 1;
yield p;
yield 3;
}
Promise.all(f()).chain(
function(x) {
assertAsync(x.length === 3, "all/resolve/iterable");
assertAsync(x[0] === 1, "all/resolve/iterable/0");
assertAsync(x[1] === 2, "all/resolve/iterable/1");
assertAsync(x[2] === 3, "all/resolve/iterable/2");
},
assertUnreachable);
deferred.resolve(2);
assertAsyncRan();
assertAsyncRan();
assertAsyncRan();
assertAsyncRan();
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
Promise.all([p1, p2, p3]).chain(
function(x) {
assertAsync(x.length === 3, "all/resolve")
assertAsync(x[0] === 1, "all/resolve/0")
assertAsync(x[1] === 2, "all/resolve/1")
assertAsync(x[2] === 3, "all/resolve/2")
},
assertUnreachable
)
deferred1.resolve(1)
deferred3.resolve(3)
deferred2.resolve(2)
assertAsyncRan()
assertAsyncRan()
assertAsyncRan()
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = Promise.accept(2)
var p3 = Promise.defer().promise
Promise.all([p1, p2, p3]).chain(
assertUnreachable,
assertUnreachable
)
deferred.resolve(1)
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
Promise.all([p1, p2, p3]).chain(
assertUnreachable,
function(x) { assertAsync(x === 2, "all/reject") }
)
deferred1.resolve(1)
deferred3.resolve(3)
deferred2.reject(2)
assertAsyncRan()
})();
(function() {
'use strict';
var getCalls = 0;
var funcCalls = 0;
var nextCalls = 0;
defineProperty(numberPrototype, symbolIterator, {
get: function() {
assertEquals('number', typeof this);
getCalls++;
return function() {
assertEquals('number', typeof this);
funcCalls++;
var n = this;
var i = 0
return {
next() {
nextCalls++;
return {value: i++, done: i > n};
}
};
};
},
configurable: true
});
Promise.all(3).chain(
function(x) {
assertAsync(x.length === 3, "all/iterable/number/length");
assertAsync(x[0] === 0, "all/iterable/number/0");
assertAsync(x[1] === 1, "all/iterable/number/1");
assertAsync(x[2] === 2, "all/iterable/number/2");
},
assertUnreachable);
delete numberPrototype[symbolIterator];
assertEquals(getCalls, 1);
assertEquals(funcCalls, 1);
assertEquals(nextCalls, 3 + 1); // + 1 for {done: true}
assertAsyncRan();
assertAsyncRan();
assertAsyncRan();
assertAsyncRan();
})();
(function() {
Promise.race([]).chain(
assertUnreachable,
assertUnreachable
)
})();
(function() {
var p1 = Promise.accept(1)
var p2 = Promise.accept(2)
var p3 = Promise.accept(3)
Promise.race([p1, p2, p3]).chain(
function(x) { assertAsync(x === 1, "resolved/one") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var p1 = Promise.accept(1)
var p2 = Promise.accept(2)
var p3 = Promise.accept(3)
Promise.race([0, p1, p2, p3]).chain(
function(x) { assertAsync(x === 0, "resolved-const/one") },
assertUnreachable
)
assertAsyncRan()
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
Promise.race([p1, p2, p3]).chain(
function(x) { assertAsync(x === 3, "one/resolve") },
assertUnreachable
)
deferred3.resolve(3)
deferred1.resolve(1)
assertAsyncRan()
})();
(function() {
var deferred = Promise.defer()
var p1 = deferred.promise
var p2 = Promise.accept(2)
var p3 = Promise.defer().promise
Promise.race([p1, p2, p3]).chain(
function(x) { assertAsync(x === 2, "resolved/one") },
assertUnreachable
)
deferred.resolve(1)
assertAsyncRan()
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
Promise.race([p1, p2, p3]).chain(
function(x) { assertAsync(x === 3, "one/resolve/reject") },
assertUnreachable
)
deferred3.resolve(3)
deferred1.reject(1)
assertAsyncRan()
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
Promise.race([p1, p2, p3]).chain(
assertUnreachable,
function(x) { assertAsync(x === 3, "one/reject/resolve") }
)
deferred3.reject(3)
deferred1.resolve(1)
assertAsyncRan()
})();
(function() {
function testPromiseRaceNonIterable(value) {
Promise.race(value).chain(
assertUnreachable,
function(r) {
assertAsync(r instanceof TypeError, 'race/non iterable');
});
assertAsyncRan();
}
testPromiseRaceNonIterable(null);
testPromiseRaceNonIterable(undefined);
testPromiseRaceNonIterable({});
testPromiseRaceNonIterable(42);
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
function* f() {
yield p1;
yield p2;
yield p3;
}
Promise.race(f()).chain(
function(x) { assertAsync(x === 3, "race/iterable/resolve/reject") },
assertUnreachable
)
deferred3.resolve(3)
deferred1.reject(1)
assertAsyncRan()
})();
(function() {
var deferred1 = Promise.defer()
var p1 = deferred1.promise
var deferred2 = Promise.defer()
var p2 = deferred2.promise
var deferred3 = Promise.defer()
var p3 = deferred3.promise
function* f() {
yield p1;
yield p2;
yield p3;
}
Promise.race(f()).chain(
assertUnreachable,
function(x) { assertAsync(x === 3, "race/iterable/reject/resolve") }
)
deferred3.reject(3)
deferred1.resolve(1)
assertAsyncRan()
})();
(function() {
'use strict';
var getCalls = 0;
var funcCalls = 0;
var nextCalls = 0;
defineProperty(numberPrototype, symbolIterator, {
get: function() {
assertEquals('number', typeof this);
getCalls++;
return function() {
assertEquals('number', typeof this);
funcCalls++;
var n = this;
var i = 0
return {
next() {
nextCalls++;
return {value: i++, done: i > n};
}
};
};
},
configurable: true
});
Promise.race(3).chain(
function(x) {
assertAsync(x === 0, "race/iterable/number");
},
assertUnreachable);
delete numberPrototype[symbolIterator];
assertEquals(getCalls, 1);
assertEquals(funcCalls, 1);
assertEquals(nextCalls, 3 + 1); // + 1 for {done: true}
assertAsyncRan();
})();
(function() {
var log
function MyPromise(resolver) {
log += "n"
var promise = new Promise(function(resolve, reject) {
resolver(
function(x) { log += "x" + x; resolve(x) },
function(r) { log += "r" + r; reject(r) }
)
})
promise.__proto__ = MyPromise.prototype
return promise
}
MyPromise.__proto__ = Promise
MyPromise.defer = function() {
log += "d"
return call(this.__proto__.defer, this)
}
MyPromise.prototype.__proto__ = Promise.prototype
MyPromise.prototype.chain = function(resolve, reject) {
log += "c"
return call(this.__proto__.__proto__.chain, this, resolve, reject)
}
log = ""
var p1 = new MyPromise(function(resolve, reject) { resolve(1) })
var p2 = new MyPromise(function(resolve, reject) { reject(2) })
var d3 = MyPromise.defer()
assertTrue(d3.promise instanceof Promise, "subclass/instance")
assertTrue(d3.promise instanceof MyPromise, "subclass/instance-my3")
assertTrue(log === "nx1nr2dn", "subclass/create")
log = ""
var p4 = MyPromise.resolve(4)
var p5 = MyPromise.reject(5)
assertTrue(p4 instanceof MyPromise, "subclass/instance4")
assertTrue(p4 instanceof MyPromise, "subclass/instance-my4")
assertTrue(p5 instanceof MyPromise, "subclass/instance5")
assertTrue(p5 instanceof MyPromise, "subclass/instance-my5")
d3.resolve(3)
assertTrue(log === "nx4nr5x3", "subclass/resolve")
log = ""
var d6 = MyPromise.defer()
d6.promise.chain(function(x) {
return new Promise(function(resolve) { resolve(x) })
}).chain(function() {})
d6.resolve(6)
assertTrue(log === "dncncnx6", "subclass/chain")
log = ""
Promise.all([11, Promise.accept(12), 13, MyPromise.accept(14), 15, 16])
assertTrue(log === "nx14", "subclass/all/arg")
log = ""
MyPromise.all([21, Promise.accept(22), 23, MyPromise.accept(24), 25, 26])
assertTrue(log === "nx24nnx21nnnnx23nnnx25nnx26n", "subclass/all/self")
})();
(function() {
'use strict';
class Pact extends Promise { }
class Vow extends Pact { }
class Oath extends Vow { }
Oath.constructor = Vow;
assertTrue(Pact.resolve(Pact.resolve()).constructor === Pact,
"subclass/resolve/own");
assertTrue(Pact.resolve(Promise.resolve()).constructor === Pact,
"subclass/resolve/ancestor");
assertTrue(Pact.resolve(Vow.resolve()).constructor === Pact,
"subclass/resolve/descendant"); var vow = Vow.resolve();
vow.constructor = Oath;
assertTrue(Oath.resolve(vow) === vow,
"subclass/resolve/descendant with transplanted own constructor");
}());
(function() {
var thenCalled = false;
var resolve;
var promise = new Promise(function(res) { resolve = res; });
resolve({ then() { thenCalled = true; throw new Error(); } });
assertLater(function() { return thenCalled; }, "resolve-with-thenable");
});
(function() {
var calledWith;
var resolve;
var p1 = (new Promise(function(res) { resolve = res; }));
var p2 = p1.then(function(v) {
return {
then(resolve, reject) { resolve({ then() { calledWith = v }}); }
};
});
resolve({ then(resolve) { resolve(2); } });
assertLater(function() { return calledWith === 2; },
"resolve-with-thenable2");
})();
(function() {
var p = Promise.resolve();
var callCount = 0;
defineProperty(p, "constructor", {
get: function() { ++callCount; return Promise; }
});
p.then();
assertEquals(1, callCount);
})();
assertAsyncDone()