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apache / cordova-ubuntu / refs/tags/4.3.2 / . / node_modules / q / q.js
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/* vim:ts=4:sts=4:sw=4: */
/*!
*
* Copyright 2009-2013 Kris Kowal under the terms of the MIT
* license found at http://github.com/kriskowal/q/raw/master/LICENSE
*
* With parts by Tyler Close
* Copyright 2007-2009 Tyler Close under the terms of the MIT X license found
* at http://www.opensource.org/licenses/mit-license.html
* Forked at ref_send.js version: 2009-05-11
*
* With parts by Mark Miller
* Copyright (C) 2011 Google Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
/*global -WeakMap */
"use strict";
var hasStacks = false;
try {
throw new Error();
} catch (e) {
hasStacks = !!e.stack;
}
// All code after this point will be filtered from stack traces reported
// by Q.
var qStartingLine = captureLine();
var qFileName;
var WeakMap = require("weak-map");
var iterate = require("pop-iterate");
var asap = require("asap");
function isObject(value) {
return value === Object(value);
}
// long stack traces
var STACK_JUMP_SEPARATOR = "From previous event:";
function makeStackTraceLong(error, promise) {
// If possible, transform the error stack trace by removing Node and Q
// cruft, then concatenating with the stack trace of `promise`. See #57.
if (hasStacks &&
promise.stack &&
typeof error === "object" &&
error !== null &&
error.stack &&
error.stack.indexOf(STACK_JUMP_SEPARATOR) === -1
) {
var stacks = [];
for (var p = promise; !!p && handlers.get(p); p = handlers.get(p).became) {
if (p.stack) {
stacks.unshift(p.stack);
}
}
stacks.unshift(error.stack);
var concatedStacks = stacks.join("\n" + STACK_JUMP_SEPARATOR + "\n");
error.stack = filterStackString(concatedStacks);
}
}
function filterStackString(stackString) {
if (Q.isIntrospective) {
return stackString;
}
var lines = stackString.split("\n");
var desiredLines = [];
for (var i = 0; i < lines.length; ++i) {
var line = lines[i];
if (!isInternalFrame(line) && !isNodeFrame(line) && line) {
desiredLines.push(line);
}
}
return desiredLines.join("\n");
}
function isNodeFrame(stackLine) {
return stackLine.indexOf("(module.js:") !== -1 ||
stackLine.indexOf("(node.js:") !== -1;
}
function getFileNameAndLineNumber(stackLine) {
// Named functions: "at functionName (filename:lineNumber:columnNumber)"
// In IE10 function name can have spaces ("Anonymous function") O_o
var attempt1 = /at .+ \((.+):(\d+):(?:\d+)\)$/.exec(stackLine);
if (attempt1) {
return [attempt1[1], Number(attempt1[2])];
}
// Anonymous functions: "at filename:lineNumber:columnNumber"
var attempt2 = /at ([^ ]+):(\d+):(?:\d+)$/.exec(stackLine);
if (attempt2) {
return [attempt2[1], Number(attempt2[2])];
}
// Firefox style: "function@filename:lineNumber or @filename:lineNumber"
var attempt3 = /.*@(.+):(\d+)$/.exec(stackLine);
if (attempt3) {
return [attempt3[1], Number(attempt3[2])];
}
}
function isInternalFrame(stackLine) {
var fileNameAndLineNumber = getFileNameAndLineNumber(stackLine);
if (!fileNameAndLineNumber) {
return false;
}
var fileName = fileNameAndLineNumber[0];
var lineNumber = fileNameAndLineNumber[1];
return fileName === qFileName &&
lineNumber >= qStartingLine &&
lineNumber <= qEndingLine;
}
// discover own file name and line number range for filtering stack
// traces
function captureLine() {
if (!hasStacks) {
return;
}
try {
throw new Error();
} catch (e) {
var lines = e.stack.split("\n");
var firstLine = lines[0].indexOf("@") > 0 ? lines[1] : lines[2];
var fileNameAndLineNumber = getFileNameAndLineNumber(firstLine);
if (!fileNameAndLineNumber) {
return;
}
qFileName = fileNameAndLineNumber[0];
return fileNameAndLineNumber[1];
}
}
function deprecate(callback, name, alternative) {
return function Q_deprecate() {
if (
typeof console !== "undefined" &&
typeof console.warn === "function"
) {
if (alternative) {
console.warn(
name + " is deprecated, use " + alternative + " instead.",
new Error("").stack
);
} else {
console.warn(
name + " is deprecated.",
new Error("").stack
);
}
}
return callback.apply(this, arguments);
};
}
// end of long stack traces
var handlers = new WeakMap();
function Q_getHandler(promise) {
var handler = handlers.get(promise);
if (!handler || !handler.became) {
return handler;
}
handler = follow(handler);
handlers.set(promise, handler);
return handler;
}
function follow(handler) {
if (!handler.became) {
return handler;
} else {
handler.became = follow(handler.became);
return handler.became;
}
}
var theViciousCycleError = new Error("Can't resolve a promise with itself");
var theViciousCycleRejection = Q_reject(theViciousCycleError);
var theViciousCycle = Q_getHandler(theViciousCycleRejection);
var thenables = new WeakMap();
/**
* Coerces a value to a promise. If the value is a promise, pass it through
* unaltered. If the value has a `then` method, it is presumed to be a promise
* but not one of our own, so it is treated as a “thenable” promise and this
* returns a promise that stands for it. Otherwise, this returns a promise that
* has already been fulfilled with the value.
* @param value promise, object with a then method, or a fulfillment value
* @returns {Promise} the same promise as given, or a promise for the given
* value
*/
module.exports = Q;
function Q(value) {
// If the object is already a Promise, return it directly. This enables
// the resolve function to both be used to created references from objects,
// but to tolerably coerce non-promises to promises.
if (Q_isPromise(value)) {
return value;
} else if (isThenable(value)) {
if (!thenables.has(value)) {
thenables.set(value, new Promise(new Thenable(value)));
}
return thenables.get(value);
} else {
return new Promise(new Fulfilled(value));
}
}
/**
* Controls whether or not long stack traces will be on
* @type {boolean}
*/
Q.longStackSupport = false;
/**
* Returns a promise that has been rejected with a reason, which should be an
* instance of `Error`.
* @param {Error} error reason for the failure.
* @returns {Promise} rejection
*/
Q.reject = Q_reject;
function Q_reject(error) {
return new Promise(new Rejected(error));
}
/**
* Constructs a {promise, resolve, reject} object.
*
* `resolve` is a callback to invoke with a more resolved value for the
* promise. To fulfill the promise, invoke `resolve` with any value that is
* not a thenable. To reject the promise, invoke `resolve` with a rejected
* thenable, or invoke `reject` with the reason directly. To resolve the
* promise to another thenable, thus putting it in the same state, invoke
* `resolve` with that other thenable.
*
* @returns {{promise, resolve, reject}} a deferred
*/
Q.defer = defer;
function defer() {
var handler = new Pending();
var promise = new Promise(handler);
var deferred = new Deferred(promise);
if (Q.longStackSupport && hasStacks) {
try {
throw new Error();
} catch (e) {
// NOTE: don't try to use `Error.captureStackTrace` or transfer the
// accessor around; that causes memory leaks as per GH-111. Just
// reify the stack trace as a string ASAP.
//
// At the same time, cut off the first line; it's always just
// "[object Promise]\n", as per the `toString`.
promise.stack = e.stack.substring(e.stack.indexOf("\n") + 1);
}
}
return deferred;
}
// TODO
/**
*/
Q.when = function Q_when(value, fulfilled, rejected, ms) {
return Q(value).then(fulfilled, rejected, ms);
};
/**
* Turns an array of promises into a promise for an array. If any of the
* promises gets rejected, the whole array is rejected immediately.
* @param {Array.<Promise>} an array (or promise for an array) of values (or
* promises for values)
* @returns {Promise.<Array>} a promise for an array of the corresponding values
*/
// By Mark Miller
// http://wiki.ecmascript.org/doku.php?id=strawman:concurrency&rev=1308776521#allfulfilled
Q.all = Q_all;
function Q_all(questions) {
// XXX deprecated behavior
if (Q_isPromise(questions)) {
if (
typeof console !== "undefined" &&
typeof console.warn === "function"
) {
console.warn("Q.all no longer directly unwraps a promise. Use Q(array).all()");
}
return Q(questions).all();
}
var countDown = 0;
var deferred = defer();
var answers = Array(questions.length);
var estimates = [];
var estimate = -Infinity;
var setEstimate;
Array.prototype.forEach.call(questions, function Q_all_each(promise, index) {
var handler;
if (
Q_isPromise(promise) &&
(handler = Q_getHandler(promise)).state === "fulfilled"
) {
answers[index] = handler.value;
} else {
++countDown;
promise = Q(promise);
promise.then(
function Q_all_eachFulfilled(value) {
answers[index] = value;
if (--countDown === 0) {
deferred.resolve(answers);
}
},
deferred.reject
);
promise.observeEstimate(function Q_all_eachEstimate(newEstimate) {
var oldEstimate = estimates[index];
estimates[index] = newEstimate;
if (newEstimate > estimate) {
estimate = newEstimate;
} else if (oldEstimate === estimate && newEstimate <= estimate) {
// There is a 1/length chance that we will need to perform
// this O(length) walk, so amortized O(1)
computeEstimate();
}
if (estimates.length === questions.length && estimate !== setEstimate) {
deferred.setEstimate(estimate);
setEstimate = estimate;
}
});
}
});
function computeEstimate() {
estimate = -Infinity;
for (var index = 0; index < estimates.length; index++) {
if (estimates[index] > estimate) {
estimate = estimates[index];
}
}
}
if (countDown === 0) {
deferred.resolve(answers);
}
return deferred.promise;
}
/**
* @see Promise#allSettled
*/
Q.allSettled = Q_allSettled;
function Q_allSettled(questions) {
// XXX deprecated behavior
if (Q_isPromise(questions)) {
if (
typeof console !== "undefined" &&
typeof console.warn === "function"
) {
console.warn("Q.allSettled no longer directly unwraps a promise. Use Q(array).allSettled()");
}
return Q(questions).allSettled();
}
return Q_all(questions.map(function Q_allSettled_each(promise) {
promise = Q(promise);
function regardless() {
return promise.inspect();
}
return promise.then(regardless, regardless);
}));
}
/**
* Returns a promise for the given value (or promised value), some
* milliseconds after it resolved. Passes rejections immediately.
* @param {Any*} promise
* @param {Number} milliseconds
* @returns a promise for the resolution of the given promise after milliseconds
* time has elapsed since the resolution of the given promise.
* If the given promise rejects, that is passed immediately.
*/
Q.delay = function Q_delay(object, timeout) {
if (timeout === void 0) {
timeout = object;
object = void 0;
}
return Q(object).delay(timeout);
};
/**
* Causes a promise to be rejected if it does not get fulfilled before
* some milliseconds time out.
* @param {Any*} promise
* @param {Number} milliseconds timeout
* @param {String} custom error message (optional)
* @returns a promise for the resolution of the given promise if it is
* fulfilled before the timeout, otherwise rejected.
*/
Q.timeout = function Q_timeout(object, ms, message) {
return Q(object).timeout(ms, message);
};
/**
* Spreads the values of a promised array of arguments into the
* fulfillment callback.
* @param fulfilled callback that receives variadic arguments from the
* promised array
* @param rejected callback that receives the exception if the promise
* is rejected.
* @returns a promise for the return value or thrown exception of
* either callback.
*/
Q.spread = Q_spread;
function Q_spread(value, fulfilled, rejected) {
return Q(value).spread(fulfilled, rejected);
}
/**
* If two promises eventually fulfill to the same value, promises that value,
* but otherwise rejects.
* @param x {Any*}
* @param y {Any*}
* @returns {Any*} a promise for x and y if they are the same, but a rejection
* otherwise.
*
*/
Q.join = function Q_join(x, y) {
return Q.spread([x, y], function Q_joined(x, y) {
if (x === y) {
// TODO: "===" should be Object.is or equiv
return x;
} else {
throw new Error("Can't join: not the same: " + x + " " + y);
}
});
};
/**
* Returns a promise for the first of an array of promises to become fulfilled.
* @param answers {Array} promises to race
* @returns {Promise} the first promise to be fulfilled
*/
Q.race = Q_race;
function Q_race(answerPs) {
return new Promise(function(deferred) {
answerPs.forEach(function(answerP) {
Q(answerP).then(deferred.resolve, deferred.reject);
});
});
}
/**
* Calls the promised function in a future turn.
* @param object promise or immediate reference for target function
* @param ...args array of application arguments
*/
Q.try = function Q_try(callback) {
return Q(callback).dispatch("call", [[]]);
};
/**
* TODO
*/
Q.function = Promise_function;
function Promise_function(wrapped) {
return function promiseFunctionWrapper() {
var args = new Array(arguments.length);
for (var index = 0; index < arguments.length; index++) {
args[index] = arguments[index];
}
return Q(wrapped).apply(this, args);
};
}
/**
* The promised function decorator ensures that any promise arguments
* are settled and passed as values (`this` is also settled and passed
* as a value). It will also ensure that the result of a function is
* always a promise.
*
* @example
* var add = Q.promised(function (a, b) {
* return a + b;
* });
* add(Q(a), Q(B));
*
* @param {function} callback The function to decorate
* @returns {function} a function that has been decorated.
*/
Q.promised = function Q_promised(callback) {
return function promisedMethod() {
var args = new Array(arguments.length);
for (var index = 0; index < arguments.length; index++) {
args[index] = arguments[index];
}
return Q_spread(
[this, Q_all(args)],
function Q_promised_spread(self, args) {
return callback.apply(self, args);
}
);
};
};
/**
*/
Q.passByCopy = // TODO XXX experimental
Q.push = function (value) {
if (Object(value) === value && !Q_isPromise(value)) {
passByCopies.set(value, true);
}
return value;
};
Q.isPortable = function (value) {
return Object(value) === value && passByCopies.has(value);
};
var passByCopies = new WeakMap();
/**
* The async function is a decorator for generator functions, turning
* them into asynchronous generators. Although generators are only
* part of the newest ECMAScript 6 drafts, this code does not cause
* syntax errors in older engines. This code should continue to work
* and will in fact improve over time as the language improves.
*
* ES6 generators are currently part of V8 version 3.19 with the
* `--harmony-generators` runtime flag enabled. This function does not
* support the former, Pythonic generators that were only implemented
* by SpiderMonkey.
*
* Decorates a generator function such that:
* - it may yield promises
* - execution will continue when that promise is fulfilled
* - the value of the yield expression will be the fulfilled value
* - it returns a promise for the return value (when the generator
* stops iterating)
* - the decorated function returns a promise for the return value
* of the generator or the first rejected promise among those
* yielded.
* - if an error is thrown in the generator, it propagates through
* every following yield until it is caught, or until it escapes
* the generator function altogether, and is translated into a
* rejection for the promise returned by the decorated generator.
*/
Q.async = Q_async;
function Q_async(makeGenerator) {
return function spawn() {
// when verb is "send", arg is a value
// when verb is "throw", arg is an exception
function continuer(verb, arg) {
var iteration;
try {
iteration = generator[verb](arg);
} catch (exception) {
return Q_reject(exception);
}
if (iteration.done) {
return Q(iteration.value);
} else {
return Q(iteration.value).then(callback, errback);
}
}
var generator = makeGenerator.apply(this, arguments);
var callback = continuer.bind(continuer, "next");
var errback = continuer.bind(continuer, "throw");
return callback();
};
}
/**
* The spawn function is a small wrapper around async that immediately
* calls the generator and also ends the promise chain, so that any
* unhandled errors are thrown instead of forwarded to the error
* handler. This is useful because it's extremely common to run
* generators at the top-level to work with libraries.
*/
Q.spawn = Q_spawn;
function Q_spawn(makeGenerator) {
Q_async(makeGenerator)().done();
}
// Thus begins the section dedicated to the Promise
/**
* TODO
*/
Q.Promise = Promise;
function Promise(handler) {
if (!(this instanceof Promise)) {
return new Promise(handler);
}
if (typeof handler === "function") {
var setup = handler;
var deferred = defer();
handler = Q_getHandler(deferred.promise);
try {
setup(deferred.resolve, deferred.reject, deferred.setEstimate);
} catch (error) {
deferred.reject(error);
}
}
handlers.set(this, handler);
}
/**
* Turns an array of promises into a promise for an array. If any of the
* promises gets rejected, the whole array is rejected immediately.
* @param {Array.<Promise>} an array (or promise for an array) of values (or
* promises for values)
* @returns {Promise.<Array>} a promise for an array of the corresponding values
*/
Promise.all = Q_all;
/**
* Returns a promise for the first of an array of promises to become fulfilled.
* @param answers {Array} promises to race
* @returns {Promise} the first promise to be fulfilled
*/
Promise.race = Q_race;
/**
* Coerces a value to a promise. If the value is a promise, pass it through
* unaltered. If the value has a `then` method, it is presumed to be a promise
* but not one of our own, so it is treated as a “thenable” promise and this
* returns a promise that stands for it. Otherwise, this returns a promise that
* has already been fulfilled with the value.
* @param value promise, object with a then method, or a fulfillment value
* @returns {Promise} the same promise as given, or a promise for the given
* value
*/
Promise.resolve = Promise_resolve;
function Promise_resolve(value) {
return Q(value);
}
/**
* Returns a promise that has been rejected with a reason, which should be an
* instance of `Error`.
* @param reason value describing the failure
* @returns {Promise} rejection
*/
Promise.reject = Q_reject;
/**
* @returns {boolean} whether the given value is a promise.
*/
Q.isPromise = Q_isPromise;
function Q_isPromise(object) {
return isObject(object) && !!handlers.get(object);
}
/**
* @returns {boolean} whether the given value is an object with a then method.
* @private
*/
function isThenable(object) {
return isObject(object) && typeof object.then === "function";
}
/**
* Synchronously produces a snapshot of the internal state of the promise. The
* object will have a `state` property. If the `state` is `"pending"`, there
* will be no further information. If the `state` is `"fulfilled"`, there will
* be a `value` property. If the state is `"rejected"` there will be a `reason`
* property. If the promise was constructed from a “thenable” and `then` nor
* any other method has been dispatched on the promise has been called, the
* state will be `"pending"`. The state object will not be updated if the
* state changes and changing it will have no effect on the promise. Every
* call to `inspect` produces a unique object.
* @returns {{state: string, value?, reason?}}
*/
Promise.prototype.inspect = function Promise_inspect() {
// the second layer captures only the relevant "state" properties of the
// handler to prevent leaking the capability to access or alter the
// handler.
return Q_getHandler(this).inspect();
};
/**
* @returns {boolean} whether the promise is waiting for a result.
*/
Promise.prototype.isPending = function Promise_isPending() {
return Q_getHandler(this).state === "pending";
};
/**
* @returns {boolean} whether the promise has ended in a result and has a
* fulfillment value.
*/
Promise.prototype.isFulfilled = function Promise_isFulfilled() {
return Q_getHandler(this).state === "fulfilled";
};
/**
* @returns {boolean} whether the promise has ended poorly and has a reason for
* its rejection.
*/
Promise.prototype.isRejected = function Promise_isRejected() {
return Q_getHandler(this).state === "rejected";
};
/**
* TODO
*/
Promise.prototype.toBePassed = function Promise_toBePassed() {
return Q_getHandler(this).state === "passed";
};
/**
* @returns {string} merely `"[object Promise]"`
*/
Promise.prototype.toString = function Promise_toString() {
return "[object Promise]";
};
/**
* Creates a new promise, waits for this promise to be resolved, and informs
* either the fullfilled or rejected handler of the result. Whatever result
* comes of the fulfilled or rejected handler, a value returned, a promise
* returned, or an error thrown, becomes the resolution for the promise
* returned by `then`.
*
* @param fulfilled
* @param rejected
* @returns {Promise} for the result of `fulfilled` or `rejected`.
*/
Promise.prototype.then = function Promise_then(fulfilled, rejected, ms) {
var self = this;
var deferred = defer();
var _fulfilled;
if (typeof fulfilled === "function") {
_fulfilled = function Promise_then_fulfilled(value) {
try {
deferred.resolve(fulfilled.call(void 0, value));
} catch (error) {
deferred.reject(error);
}
};
} else {
_fulfilled = deferred.resolve;
}
var _rejected;
if (typeof rejected === "function") {
_rejected = function Promise_then_rejected(error) {
try {
deferred.resolve(rejected.call(void 0, error));
} catch (newError) {
deferred.reject(newError);
}
};
} else {
_rejected = deferred.reject;
}
this.done(_fulfilled, _rejected);
if (ms !== void 0) {
var updateEstimate = function Promise_then_updateEstimate() {
deferred.setEstimate(self.getEstimate() + ms);
};
this.observeEstimate(updateEstimate);
updateEstimate();
}
return deferred.promise;
};
/**
* Terminates a chain of promises, forcing rejections to be
* thrown as exceptions.
* @param fulfilled
* @param rejected
*/
Promise.prototype.done = function Promise_done(fulfilled, rejected) {
var self = this;
var done = false; // ensure the untrusted promise makes at most a
// single call to one of the callbacks
asap(function Promise_done_task() {
var _fulfilled;
if (typeof fulfilled === "function") {
if (Q.onerror) {
_fulfilled = function Promise_done_fulfilled(value) {
if (done) {
return;
}
done = true;
try {
fulfilled.call(void 0, value);
} catch (error) {
// fallback to rethrow is still necessary because
// _fulfilled is not called in the same event as the
// above guard.
(Q.onerror || Promise_rethrow)(error);
}
};
} else {
_fulfilled = function Promise_done_fulfilled(value) {
if (done) {
return;
}
done = true;
fulfilled.call(void 0, value);
};
}
}
var _rejected;
if (typeof rejected === "function" && Q.onerror) {
_rejected = function Promise_done_rejected(error) {
if (done) {
return;
}
done = true;
makeStackTraceLong(error, self);
try {
rejected.call(void 0, error);
} catch (newError) {
(Q.onerror || Promise_rethrow)(newError);
}
};
} else if (typeof rejected === "function") {
_rejected = function Promise_done_rejected(error) {
if (done) {
return;
}
done = true;
makeStackTraceLong(error, self);
rejected.call(void 0, error);
};
} else {
_rejected = Q.onerror || Promise_rethrow;
}
if (typeof process === "object" && process.domain) {
_rejected = process.domain.bind(_rejected);
}
Q_getHandler(self).dispatch(_fulfilled, "then", [_rejected]);
});
};
function Promise_rethrow(error) {
throw error;
}
/**
* TODO
*/
Promise.prototype.thenResolve = function Promise_thenResolve(value) {
// Wrapping ahead of time to forestall multiple wrappers.
value = Q(value);
// Using all is necessary to aggregate the estimated time to completion.
return Q_all([this, value]).then(function Promise_thenResolve_resolved() {
return value;
}, null, 0);
// 0: does not contribute significantly to the estimated time to
// completion.
};
/**
* TODO
*/
Promise.prototype.thenReject = function Promise_thenReject(error) {
return this.then(function Promise_thenReject_resolved() {
throw error;
}, null, 0);
// 0: does not contribute significantly to the estimated time to
// completion.
};
/**
* TODO
*/
Promise.prototype.all = function Promise_all() {
return this.then(Q_all);
};
/**
* Turns an array of promises into a promise for an array of their states (as
* returned by `inspect`) when they have all settled.
* @param {Array[Any*]} values an array (or promise for an array) of values (or
* promises for values)
* @returns {Array[State]} an array of states for the respective values.
*/
Promise.prototype.allSettled = function Promise_allSettled() {
return this.then(Q_allSettled);
};
/**
* TODO
*/
Promise.prototype.catch = function Promise_catch(rejected) {
return this.then(void 0, rejected);
};
/**
* TODO
*/
Promise.prototype.finally = function Promise_finally(callback, ms) {
if (!callback) {
return this;
}
callback = Q(callback);
return this.then(function (value) {
return callback.call().then(function Promise_finally_fulfilled() {
return value;
});
}, function (reason) {
// TODO attempt to recycle the rejection with "this".
return callback.call().then(function Promise_finally_rejected() {
throw reason;
});
}, ms);
};
/**
* TODO
*/
Promise.prototype.observeEstimate = function Promise_observeEstimate(emit) {
this.rawDispatch(null, "estimate", [emit]);
return this;
};
/**
* TODO
*/
Promise.prototype.getEstimate = function Promise_getEstimate() {
return Q_getHandler(this).estimate;
};
/**
* TODO
*/
Promise.prototype.dispatch = function Promise_dispatch(op, args) {
var deferred = defer();
this.rawDispatch(deferred.resolve, op, args);
return deferred.promise;
};
/**
*/
Promise.prototype.rawDispatch = function Promise_rawDispatch(resolve, op, args) {
var self = this;
asap(function Promise_dispatch_task() {
Q_getHandler(self).dispatch(resolve, op, args);
});
};
/**
* TODO
*/
Promise.prototype.get = function Promise_get(name) {
return this.dispatch("get", [name]);
};
/**
* TODO
*/
Promise.prototype.invoke = function Promise_invoke(name /*...args*/) {
var args = new Array(arguments.length - 1);
for (var index = 1; index < arguments.length; index++) {
args[index - 1] = arguments[index];
}
return this.dispatch("invoke", [name, args]);
};
/**
* TODO
*/
Promise.prototype.apply = function Promise_apply(thisp, args) {
return this.dispatch("call", [args, thisp]);
};
/**
* TODO
*/
Promise.prototype.call = function Promise_call(thisp /*, ...args*/) {
var args = new Array(Math.max(0, arguments.length - 1));
for (var index = 1; index < arguments.length; index++) {
args[index - 1] = arguments[index];
}
return this.dispatch("call", [args, thisp]);
};
/**
* TODO
*/
Promise.prototype.bind = function Promise_bind(thisp /*, ...args*/) {
var self = this;
var args = new Array(Math.max(0, arguments.length - 1));
for (var index = 1; index < arguments.length; index++) {
args[index - 1] = arguments[index];
}
return function Promise_bind_bound(/*...args*/) {
var boundArgs = args.slice();
for (var index = 0; index < arguments.length; index++) {
boundArgs[boundArgs.length] = arguments[index];
}
return self.dispatch("call", [boundArgs, thisp]);
};
};
/**
* TODO
*/
Promise.prototype.keys = function Promise_keys() {
return this.dispatch("keys", []);
};
/**
* TODO
*/
Promise.prototype.iterate = function Promise_iterate() {
return this.dispatch("iterate", []);
};
/**
* TODO
*/
Promise.prototype.spread = function Promise_spread(fulfilled, rejected, ms) {
return this.all().then(function Promise_spread_fulfilled(array) {
return fulfilled.apply(void 0, array);
}, rejected, ms);
};
/**
* Causes a promise to be rejected if it does not get fulfilled before
* some milliseconds time out.
* @param {Number} milliseconds timeout
* @param {String} custom error message (optional)
* @returns a promise for the resolution of the given promise if it is
* fulfilled before the timeout, otherwise rejected.
*/
Promise.prototype.timeout = function Promsie_timeout(ms, message) {
var deferred = defer();
var timeoutId = setTimeout(function Promise_timeout_task() {
deferred.reject(new Error(message || "Timed out after " + ms + " ms"));
}, ms);
this.then(function Promise_timeout_fulfilled(value) {
clearTimeout(timeoutId);
deferred.resolve(value);
}, function Promise_timeout_rejected(error) {
clearTimeout(timeoutId);
deferred.reject(error);
});
return deferred.promise;
};
/**
* Returns a promise for the given value (or promised value), some
* milliseconds after it resolved. Passes rejections immediately.
* @param {Any*} promise
* @param {Number} milliseconds
* @returns a promise for the resolution of the given promise after milliseconds
* time has elapsed since the resolution of the given promise.
* If the given promise rejects, that is passed immediately.
*/
Promise.prototype.delay = function Promise_delay(ms) {
return this.then(function Promise_delay_fulfilled(value) {
var deferred = defer();
deferred.setEstimate(Date.now() + ms);
setTimeout(function Promise_delay_task() {
deferred.resolve(value);
}, ms);
return deferred.promise;
}, null, ms);
};
/**
* TODO
*/
Promise.prototype.pull = function Promise_pull() {
return this.dispatch("pull", []);
};
/**
* TODO
*/
Promise.prototype.pass = function Promise_pass() {
if (!this.toBePassed()) {
return new Promise(new Passed(this));
} else {
return this;
}
};
// Thus begins the portion dedicated to the deferred
var promises = new WeakMap();
function Deferred(promise) {
this.promise = promise;
// A deferred has an intrinsic promise, denoted by its hidden handler
// property. The promise property of the deferred may be assigned to a
// different promise (as it is in a Queue), but the intrinsic promise does
// not change.
promises.set(this, promise);
var self = this;
var resolve = this.resolve;
this.resolve = function (value) {
resolve.call(self, value);
};
var reject = this.reject;
this.reject = function (error) {
reject.call(self, error);
};
}
/**
* TODO
*/
Deferred.prototype.resolve = function Deferred_resolve(value) {
var handler = Q_getHandler(promises.get(this));
if (!handler.messages) {
return;
}
handler.become(Q(value));
};
/**
* TODO
*/
Deferred.prototype.reject = function Deferred_reject(reason) {
var handler = Q_getHandler(promises.get(this));
if (!handler.messages) {
return;
}
handler.become(Q_reject(reason));
};
/**
* TODO
*/
Deferred.prototype.setEstimate = function Deferred_setEstimate(estimate) {
estimate = +estimate;
if (estimate !== estimate) {
estimate = Infinity;
}
if (estimate < 1e12 && estimate !== -Infinity) {
throw new Error("Estimate values should be a number of miliseconds in the future");
}
var handler = Q_getHandler(promises.get(this));
// TODO There is a bit of capability leakage going on here. The Deferred
// should only be able to set the estimate for its original
// Pending, not for any handler that promise subsequently became.
if (handler.setEstimate) {
handler.setEstimate(estimate);
}
};
// Thus ends the public interface
// Thus begins the portion dedicated to handlers
function Fulfilled(value) {
this.value = value;
this.estimate = Date.now();
}
Fulfilled.prototype.state = "fulfilled";
Fulfilled.prototype.inspect = function Fulfilled_inspect() {
return {state: "fulfilled", value: this.value};
};
Fulfilled.prototype.dispatch = function Fulfilled_dispatch(
resolve, op, operands
) {
var result;
if (
op === "then" ||
op === "get" ||
op === "call" ||
op === "invoke" ||
op === "keys" ||
op === "iterate" ||
op === "pull"
) {
try {
result = this[op].apply(this, operands);
} catch (exception) {
result = Q_reject(exception);
}
} else if (op === "estimate") {
operands[0].call(void 0, this.estimate);
} else {
var error = new Error(
"Fulfilled promises do not support the " + op + " operator"
);
result = Q_reject(error);
}
if (resolve) {
resolve(result);
}
};
Fulfilled.prototype.then = function Fulfilled_then() {
return this.value;
};
Fulfilled.prototype.get = function Fulfilled_get(name) {
return this.value[name];
};
Fulfilled.prototype.call = function Fulfilled_call(args, thisp) {
return this.callInvoke(this.value, args, thisp);
};
Fulfilled.prototype.invoke = function Fulfilled_invoke(name, args) {
return this.callInvoke(this.value[name], args, this.value);
};
Fulfilled.prototype.callInvoke = function Fulfilled_callInvoke(callback, args, thisp) {
var waitToBePassed;
for (var index = 0; index < args.length; index++) {
if (Q_isPromise(args[index]) && args[index].toBePassed()) {
waitToBePassed = waitToBePassed || [];
waitToBePassed.push(args[index]);
}
}
if (waitToBePassed) {
var self = this;
return Q_all(waitToBePassed).then(function () {
return self.callInvoke(callback, args.map(function (arg) {
if (Q_isPromise(arg) && arg.toBePassed()) {
return arg.inspect().value;
} else {
return arg;
}
}), thisp);
});
} else {
return callback.apply(thisp, args);
}
};
Fulfilled.prototype.keys = function Fulfilled_keys() {
return Object.keys(this.value);
};
Fulfilled.prototype.iterate = function Fulfilled_iterate() {
return iterate(this.value);
};
Fulfilled.prototype.pull = function Fulfilled_pull() {
var result;
if (Object(this.value) === this.value) {
result = Array.isArray(this.value) ? [] : {};
for (var name in this.value) {
result[name] = this.value[name];
}
} else {
result = this.value;
}
return Q.push(result);
};
function Rejected(reason) {
this.reason = reason;
this.estimate = Infinity;
}
Rejected.prototype.state = "rejected";
Rejected.prototype.inspect = function Rejected_inspect() {
return {state: "rejected", reason: this.reason};
};
Rejected.prototype.dispatch = function Rejected_dispatch(
resolve, op, operands
) {
var result;
if (op === "then") {
result = this.then(resolve, operands[0]);
} else {
result = this;
}
if (resolve) {
resolve(result);
}
};
Rejected.prototype.then = function Rejected_then(
resolve, rejected
) {
return rejected ? rejected(this.reason) : this;
};
function Pending() {
// if "messages" is an "Array", that indicates that the promise has not yet
// been resolved. If it is "undefined", it has been resolved. Each
// element of the messages array is itself an array of complete arguments to
// forward to the resolved promise. We coerce the resolution value to a
// promise using the `resolve` function because it handles both fully
// non-thenable values and other thenables gracefully.
this.messages = [];
this.observers = [];
this.estimate = Infinity;
}
Pending.prototype.state = "pending";
Pending.prototype.inspect = function Pending_inspect() {
return {state: "pending"};
};
Pending.prototype.dispatch = function Pending_dispatch(resolve, op, operands) {
this.messages.push([resolve, op, operands]);
if (op === "estimate") {
this.observers.push(operands[0]);
var self = this;
asap(function Pending_dispatch_task() {
operands[0].call(void 0, self.estimate);
});
}
};
Pending.prototype.become = function Pending_become(promise) {
this.became = theViciousCycle;
var handler = Q_getHandler(promise);
this.became = handler;
handlers.set(promise, handler);
this.promise = void 0;
this.messages.forEach(function Pending_become_eachMessage(message) {
// makeQ does not have this asap call, so it must be queueing events
// downstream. TODO look at makeQ to ascertain
asap(function Pending_become_eachMessage_task() {
var handler = Q_getHandler(promise);
handler.dispatch.apply(handler, message);
});
});
this.messages = void 0;
this.observers = void 0;
};
Pending.prototype.setEstimate = function Pending_setEstimate(estimate) {
if (this.observers) {
var self = this;
self.estimate = estimate;
this.observers.forEach(function Pending_eachObserver(observer) {
asap(function Pending_setEstimate_eachObserver_task() {
observer.call(void 0, estimate);
});
});
}
};
function Thenable(thenable) {
this.thenable = thenable;
this.became = null;
this.estimate = Infinity;
}
Thenable.prototype.state = "thenable";
Thenable.prototype.inspect = function Thenable_inspect() {
return {state: "pending"};
};
Thenable.prototype.cast = function Thenable_cast() {
if (!this.became) {
var deferred = defer();
var thenable = this.thenable;
asap(function Thenable_cast_task() {
try {
thenable.then(deferred.resolve, deferred.reject);
} catch (exception) {
deferred.reject(exception);
}
});
this.became = Q_getHandler(deferred.promise);
}
return this.became;
};
Thenable.prototype.dispatch = function Thenable_dispatch(resolve, op, args) {
this.cast().dispatch(resolve, op, args);
};
function Passed(promise) {
this.promise = promise;
}
Passed.prototype.state = "passed";
Passed.prototype.inspect = function Passed_inspect() {
return this.promise.inspect();
};
Passed.prototype.dispatch = function Passed_dispatch(resolve, op, args) {
return this.promise.rawDispatch(resolve, op, args);
};
// Thus begins the Q Node.js bridge
/**
* Calls a method of a Node-style object that accepts a Node-style
* callback, forwarding the given variadic arguments, plus a provided
* callback argument.
* @param object an object that has the named method
* @param {String} name name of the method of object
* @param ...args arguments to pass to the method; the callback will
* be provided by Q and appended to these arguments.
* @returns a promise for the value or error
*/
Q.ninvoke = function Q_ninvoke(object, name /*...args*/) {
var args = new Array(Math.max(0, arguments.length - 1));
for (var index = 2; index < arguments.length; index++) {
args[index - 2] = arguments[index];
}
var deferred = Q.defer();
args[index - 2] = deferred.makeNodeResolver();
Q(object).dispatch("invoke", [name, args]).catch(deferred.reject);
return deferred.promise;
};
Promise.prototype.ninvoke = function Promise_ninvoke(name /*...args*/) {
var args = new Array(arguments.length);
for (var index = 1; index < arguments.length; index++) {
args[index - 1] = arguments[index];
}
var deferred = Q.defer();
args[index - 1] = deferred.makeNodeResolver();
this.dispatch("invoke", [name, args]).catch(deferred.reject);
return deferred.promise;
};
/**
* Wraps a Node.js continuation passing function and returns an equivalent
* version that returns a promise.
* @example
* Q.denodeify(FS.readFile)(__filename, "utf-8")
* .then(console.log)
* .done()
*/
Q.denodeify = function Q_denodeify(callback, pattern) {
return function denodeified() {
var args = new Array(arguments.length + 1);
var index = 0;
for (; index < arguments.length; index++) {
args[index] = arguments[index];
}
var deferred = Q.defer();
args[index] = deferred.makeNodeResolver(pattern);
Q(callback).apply(this, args).catch(deferred.reject);
return deferred.promise;
};
};
/**
* Creates a Node.js-style callback that will resolve or reject the deferred
* promise.
* @param unpack `true` means that the Node.js-style-callback accepts a
* fixed or variable number of arguments and that the deferred should be resolved
* with an array of these value arguments, or rejected with the error argument.
* An array of names means that the Node.js-style-callback accepts a fixed
* number of arguments, and that the resolution should be an object with
* properties corresponding to the given names and respective value arguments.
* @returns a nodeback
*/
Deferred.prototype.makeNodeResolver = function (unpack) {
var resolve = this.resolve;
if (unpack === true) {
return function variadicNodebackToResolver(error) {
if (error) {
resolve(Q_reject(error));
} else {
var value = new Array(Math.max(0, arguments.length - 1));
for (var index = 1; index < arguments.length; index++) {
value[index - 1] = arguments[index];
}
resolve(value);
}
};
} else if (unpack) {
return function namedArgumentNodebackToResolver(error) {
if (error) {
resolve(Q_reject(error));
} else {
var value = {};
for (var index = 0; index < unpack.length; index++) {
value[unpack[index]] = arguments[index + 1];
}
resolve(value);
}
};
} else {
return function nodebackToResolver(error, value) {
if (error) {
resolve(Q_reject(error));
} else {
resolve(value);
}
};
}
};
/**
* TODO
*/
Promise.prototype.nodeify = function Promise_nodeify(nodeback) {
if (nodeback) {
this.done(function (value) {
nodeback(null, value);
}, nodeback);
} else {
return this;
}
};
// DEPRECATED
Q.nextTick = deprecate(asap, "nextTick", "asap package");
Q.resolve = deprecate(Q, "resolve", "Q");
Q.fulfill = deprecate(Q, "fulfill", "Q");
Q.isPromiseAlike = deprecate(isThenable, "isPromiseAlike", "(not supported)");
Q.fail = deprecate(function (value, rejected) {
return Q(value).catch(rejected);
}, "Q.fail", "Q(value).catch");
Q.fin = deprecate(function (value, regardless) {
return Q(value).finally(regardless);
}, "Q.fin", "Q(value).finally");
Q.progress = deprecate(function (value) {
return value;
}, "Q.progress", "no longer supported");
Q.thenResolve = deprecate(function (promise, value) {
return Q(promise).thenResolve(value);
}, "thenResolve", "Q(value).thenResolve");
Q.thenReject = deprecate(function (promise, reason) {
return Q(promise).thenResolve(reason);
}, "thenResolve", "Q(value).thenResolve");
Q.isPending = deprecate(function (value) {
return Q(value).isPending();
}, "isPending", "Q(value).isPending");
Q.isFulfilled = deprecate(function (value) {
return Q(value).isFulfilled();
}, "isFulfilled", "Q(value).isFulfilled");
Q.isRejected = deprecate(function (value) {
return Q(value).isRejected();
}, "isRejected", "Q(value).isRejected");
Q.master = deprecate(function (value) {
return value;
}, "master", "no longer necessary");
Q.makePromise = function () {
throw new Error("makePromise is no longer supported");
};
Q.dispatch = deprecate(function (value, op, operands) {
return Q(value).dispatch(op, operands);
}, "dispatch", "Q(value).dispatch");
Q.get = deprecate(function (object, name) {
return Q(object).get(name);
}, "get", "Q(value).get");
Q.keys = deprecate(function (object) {
return Q(object).keys();
}, "keys", "Q(value).keys");
Q.post = deprecate(function (object, name, args) {
return Q(object).post(name, args);
}, "post", "Q(value).invoke (spread arguments)");
Q.mapply = deprecate(function (object, name, args) {
return Q(object).post(name, args);
}, "post", "Q(value).invoke (spread arguments)");
Q.send = deprecate(function (object, name) {
return Q(object).post(name, Array.prototype.slice.call(arguments, 2));
}, "send", "Q(value).invoke");
Q.set = function () {
throw new Error("Q.set no longer supported");
};
Q.delete = function () {
throw new Error("Q.delete no longer supported");
};
Q.nearer = deprecate(function (value) {
if (Q_isPromise(value) && value.isFulfilled()) {
return value.inspect().value;
} else {
return value;
}
}, "nearer", "inspect().value (+nuances)");
Q.fapply = deprecate(function (callback, args) {
return Q(callback).dispatch("call", [args]);
}, "fapply", "Q(callback).apply(thisp, args)");
Q.fcall = deprecate(function (callback /*, ...args*/) {
return Q(callback).dispatch("call", [Array.prototype.slice.call(arguments, 1)]);
}, "fcall", "Q(callback).call(thisp, ...args)");
Q.fbind = deprecate(function (object /*...args*/) {
var promise = Q(object);
var args = Array.prototype.slice.call(arguments, 1);
return function fbound() {
return promise.dispatch("call", [
args.concat(Array.prototype.slice.call(arguments)),
this
]);
};
}, "fbind", "bind with thisp");
Q.promise = deprecate(Promise, "promise", "Promise");
Promise.prototype.fapply = deprecate(function (args) {
return this.dispatch("call", [args]);
}, "fapply", "apply with thisp");
Promise.prototype.fcall = deprecate(function (/*...args*/) {
return this.dispatch("call", [Array.prototype.slice.call(arguments)]);
}, "fcall", "try or call with thisp");
Promise.prototype.fail = deprecate(function (rejected) {
return this.catch(rejected);
}, "fail", "catch");
Promise.prototype.fin = deprecate(function (regardless) {
return this.finally(regardless);
}, "fin", "finally");
Promise.prototype.set = function () {
throw new Error("Promise set no longer supported");
};
Promise.prototype.delete = function () {
throw new Error("Promise delete no longer supported");
};
Deferred.prototype.notify = deprecate(function () {
}, "notify", "no longer supported");
Promise.prototype.progress = deprecate(function () {
return this;
}, "progress", "no longer supported");
// alternative proposed by Redsandro, dropped in favor of post to streamline
// the interface
Promise.prototype.mapply = deprecate(function (name, args) {
return this.dispatch("invoke", [name, args]);
}, "mapply", "invoke");
Promise.prototype.fbind = deprecate(function () {
return Q.fbind.apply(Q, [void 0].concat(Array.prototype.slice.call(arguments)));
}, "fbind", "bind(thisp, ...args)");
// alternative proposed by Mark Miller, dropped in favor of invoke
Promise.prototype.send = deprecate(function () {
return this.dispatch("invoke", [name, Array.prototype.slice.call(arguments, 1)]);
}, "send", "invoke");
// alternative proposed by Redsandro, dropped in favor of invoke
Promise.prototype.mcall = deprecate(function () {
return this.dispatch("invoke", [name, Array.prototype.slice.call(arguments, 1)]);
}, "mcall", "invoke");
Promise.prototype.passByCopy = deprecate(function (value) {
return value;
}, "passByCopy", "Q.passByCopy");
// Deprecated Node.js bridge promise methods
Q.nfapply = deprecate(function (callback, args) {
var deferred = Q.defer();
var nodeArgs = Array.prototype.slice.call(args);
nodeArgs.push(deferred.makeNodeResolver());
Q(callback).apply(this, nodeArgs).catch(deferred.reject);
return deferred.promise;
}, "nfapply");
Promise.prototype.nfapply = deprecate(function (args) {
return Q.nfapply(this, args);
}, "nfapply");
Q.nfcall = deprecate(function (callback /*...args*/) {
var args = Array.prototype.slice.call(arguments, 1);
return Q.nfapply(callback, args);
}, "nfcall");
Promise.prototype.nfcall = deprecate(function () {
var args = new Array(arguments.length);
for (var index = 0; index < arguments.length; index++) {
args[index] = arguments[index];
}
return Q.nfapply(this, args);
}, "nfcall");
Q.nfbind = deprecate(function (callback /*...args*/) {
var baseArgs = Array.prototype.slice.call(arguments, 1);
return function () {
var nodeArgs = baseArgs.concat(Array.prototype.slice.call(arguments));
var deferred = Q.defer();
nodeArgs.push(deferred.makeNodeResolver());
Q(callback).apply(this, nodeArgs).catch(deferred.reject);
return deferred.promise;
};
}, "nfbind", "denodeify (with caveats)");
Promise.prototype.nfbind = deprecate(function () {
var args = new Array(arguments.length);
for (var index = 0; index < arguments.length; index++) {
args[index] = arguments[index];
}
return Q.nfbind(this, args);
}, "nfbind", "denodeify (with caveats)");
Q.nbind = deprecate(function (callback, thisp /*...args*/) {
var baseArgs = Array.prototype.slice.call(arguments, 2);
return function () {
var nodeArgs = baseArgs.concat(Array.prototype.slice.call(arguments));
var deferred = Q.defer();
nodeArgs.push(deferred.makeNodeResolver());
function bound() {
return callback.apply(thisp, arguments);
}
Q(bound).apply(this, nodeArgs).catch(deferred.reject);
return deferred.promise;
};
}, "nbind", "denodeify (with caveats)");
Q.npost = deprecate(function (object, name, nodeArgs) {
var deferred = Q.defer();
nodeArgs.push(deferred.makeNodeResolver());
Q(object).dispatch("invoke", [name, nodeArgs]).catch(deferred.reject);
return deferred.promise;
}, "npost", "ninvoke (with spread arguments)");
Promise.prototype.npost = deprecate(function (name, args) {
return Q.npost(this, name, args);
}, "npost", "Q.ninvoke (with caveats)");
Q.nmapply = deprecate(Q.nmapply, "nmapply", "q/node nmapply");
Promise.prototype.nmapply = deprecate(Promise.prototype.npost, "nmapply", "Q.nmapply");
Q.nsend = deprecate(Q.ninvoke, "nsend", "q/node ninvoke");
Q.nmcall = deprecate(Q.ninvoke, "nmcall", "q/node ninvoke");
Promise.prototype.nsend = deprecate(Promise.prototype.ninvoke, "nsend", "q/node ninvoke");
Promise.prototype.nmcall = deprecate(Promise.prototype.ninvoke, "nmcall", "q/node ninvoke");
// All code before this point will be filtered from stack traces.
var qEndingLine = captureLine();