11

I've looked at many implementations and they all look so different I can't really distill what the essence of a promise is.

If I had to guess it is just a function that runs when a callback fires.

Can someone implement the most basic promise in a few lines of code w/ out chaining.

For example from this answer

Snippet 1

var a1 = getPromiseForAjaxResult(ressource1url);
a1.then(function(res) {
    append(res);
    return a2;
});

How does the function passed to then know when to run.

That is, how is it passed back to the callback code that ajax fires on completion.

Snippet 2

// generic ajax call with configuration information and callback function
ajax(config_info, function() {
    // ajax completed, callback is firing.
});

How are these two snippets related?

Guess:

// how to implement this

(function () {
    var publik = {};
        _private;
    publik.then = function(func){
        _private = func;
    };
    publik.getPromise = function(func){
        // ??
    };
    // ??
}())
13
0

Can someone implement the most basic promise in a few lines?

Here it is:

function Promise(fn) {
    // takes a function as an argument that gets the fullfiller
    var callbacks = [], result;
    fn(function fulfill() {
        if (result) return;
        result = arguments;
        for (var c;c=callbacks.shift();)
            c.apply(null, arguments);
    });
    this.addCallback = function(c) {
        if (result)
            c.apply(null, result)
        else
            callbacks.push(c);
    }
}

Additional then with chaining (which you will need for the answer):

Promise.prototype.then = function(fn) {
    var that = this;
    return new Promise(function(c){
        that.addCallback(function() {
            var result = fn.apply(null, arguments);
            if (result instanceof Promise)
                result.addCallback(c);
            else
                c(result);
        });
    });
};

How are these two snippets related?

ajax is called from the getPromiseForAjaxResult function:

function getPromiseForAjaxResult(ressource) {
    return new Promise(function(callback) {
        ajax({url:ressource}, callback);
    });
}
| improve this answer | |
  • both implementations are wildly different. – user656925 Mar 30 '13 at 20:39
  • …but their principle is the same. Is there something you don't understand, the code is quite straightforward? – Bergi Mar 30 '13 at 20:43
  • Promises have two big differences from Events/PubSub: One promise represents exactly one value (which may arrive in the future), and you can add callbacks whenever you want - they will get executed with the value even if it has already arrived. You might also want to read en.wikipedia.org/wiki/Futures_and_promises – Bergi Mar 31 '13 at 13:06
26
0

Fundamentally, a promise is just an object that has a flag saying whether it's been settled, and a list of functions it maintains to notify if/when it is settled. Code can sometimes say more than words, so here's a very basic, not-real-world example purely indended to help communicate the concepts:

// See notes following the code for why this isn't real-world code
function Promise() {
    this.settled = false;
    this.settledValue = null;
    this.callbacks = [];
}
Promise.prototype.then = function(f) {
    if (this.settled) {
        f(this.settledValue);                // See notes 1 and 2
    } else {
        this.callbacks.push(f);
    }
                                             // See note 3 about `then`
                                             // needing a return value
};
Promise.prototype.settle = function(value) { // See notes 4 and 5
    var callback;

    if (!this.settled) {
        this.settled = true;
        this.settledValue = value;
        while (this.callbacks.length) {
            callback = this.callbacks.pop();
            callback(this.settledValue);      // See notes 1 and 2
        }
    }
};

So the Promise holds the state, and the functions to call when the promise is settled. The act of settling the promise is usually external to the Promise object itself (although of course, that depends on the actual use, you might combine them — for instance, as with jQuery's ajax [jqXHR] objects).

Again, the above is purely conceptual and missing several important things that must be present in any real-world promises implementation for it to be useful:

  1. then and settle should always call the callback asynchronously, even if the promise is already settled. then should because otherwise the caller has no idea whether the callback will be async. settle should because the callbacks shouldn't run until after settle has returned. (ES2015's promises do both of these things. jQuery's Deferred doesn't.)

  2. then and settle should ensure that failure in the callback (e.g., an exception) is not propagated directly to the code calling then or settle. This is partially related to #1 above, and more so to #3 below.

  3. then should return a new promise based on the result of calling the callback (then, or later). This is fairly fundamental to composing promise-ified operations, but would have complicated the above markedly. Any reasonable promises implementation does.

  4. We need different types of "settle" operation: "resolve" (the underlying action succeeded) and "reject" (it failed). Some use cases might have more states, but resolved and rejected are the basic two. (ES2015's promises have resolve and reject.)

  5. We might make settle (or the separate resolve and reject) private in some way, so that only the creator of the promise can settle it. (ES2015 promises — and several others — do this by having the Promise constructor accept a callback that receives resolve and reject as parameter values, so only code in that callback can resolve or reject [unless code in the callback makes them public in some way].)

Etc., etc.

| improve this answer | |
  • @livingston_mechanical The code making the promise also calls its fulfill method when it's done. – Waleed Khan Mar 27 '13 at 20:00
  • @livingston_mechanical: Whatever it is that fulfills the promise; usually (as Waleed says above), the thing creating the promise. This is one of the great things about promises: They decouple the promise interface from the specifics of the promise generator. – T.J. Crowder Mar 27 '13 at 20:01
  • Best quote: f(this) Literate programming? – Chris Pfohl Mar 27 '13 at 20:06
  • @livingston_mechanical if you're talking about a library's AJAX function (like jQuery), it's already built to use promises. If you make your own AJAX function, then what you would do is make a promise object inside of the AJAX function, and return that promise to the outside (for chaining, or for saving to a variable), and then you would give .onload and .onerror references to .fulfill or .lapse or whatever your "keep promise" and "break promise" are called. – Norguard Mar 27 '13 at 20:07
  • @livingston_mechanical: "So in the example of an ajax call, how will the ajax call get access to the Promise object in order to call fulfill?" You receive the promise from the ajax call, so it just keeps a copy so it can call the fulfill method on it. – T.J. Crowder Mar 27 '13 at 21:58
1
0

Here's a light-weight promise implementation, called 'sequence', which I use in my day-to-day work:

(function() {
    sequence = (function() {
        var chained = [];
        var value;
        var error;

        var chain = function(func) {
            chained.push(func);
            return this;
        };

        var execute = function(index) {
            var callback;
            index = typeof index === "number" ? index : 0;

            if ( index >= chained.length ) {
                chained = [];
                return true;
            }

            callback = chained[index];

            callback({
                resolve: function(_value) {
                    value = _value;
                    execute(++index);
                },
                reject: function(_error) {
                    error = _error;
                    execute(++index);
                },
                response: {
                    value: value,
                    error: error
                }
            });
        };

        return {
            chain: chain,
            execute: execute
        };
    })();
})();

Once initialized, you can use sequence in the following way:

sequence()
    .chain(function(seq) {
        setTimeout(function() {
            console.log("func A");
            seq.resolve();
        }, 2000);
    })
    .chain(function(seq) {
        setTimeout(function() {
            console.log("func B");
        }, 1000)
    })
    .execute()

To enable the actual chaining, you need to call the resolve() function of the seq object, which your callbacks must use as an argument.

Sequence exposes two public methods:

  • chain - this method simply pushes your callbacks to a private array
  • execute - this method uses recursion to enable the proper sequential execution of your callbacks. It basically executes your callbacks in the order you've chained them by passing the seq object to each of them. Once the current callback is resolved/rejected, the next callback is executed.

The 'execute' method is where the magic happens. It passes the 'seq' object to all of your callbacks. So when you call seq.resolve() or seq.reject() you'll actually call the next chained callback.

Please, note that this implementation stores a response from only the previously executed callback.

For more examples and documentation, please refer to: https://github.com/nevendyulgerov/sequence

| improve this answer | |
0
0

Here is a simple Promise implementation that works for me.

    function Promise(callback) {
        this._pending = [];
        this.PENDING = "pending";
        this.RESOLVED = "resolved";
        this.REJECTED = "rejected";
        this.PromiseState = this.PENDING;
        this._catch = function (error) {
            console.error(error);
        };
        setTimeout(function () {
            try {
                callback.call(this, this.resolve.bind(this), this.reject.bind(this));
            } catch (error) {
                this.reject(error);
            }
        }.bind(this), 0)
    };
    Promise.prototype.resolve = function (object) {
        if (this.PromiseState !== this.PENDING) return;
        while (this._pending.length > 0) {
            var callbacks = this._pending.shift();
            try {
                var resolve = callbacks.resolve;
                if (resolve instanceof Promise) {
                    resolve._pending = resolve._pending.concat(this._pending);
                    resolve._catch = this._catch;
                    resolve.resolve(object);
                    return resolve;
                }
                object = resolve.call(this, object);
                if (object instanceof Promise) {
                    object._pending = object._pending.concat(this._pending);
                    object._catch = this._catch;
                    return object;
                }
            } catch (error) {
                (callbacks.reject || this._catch).call(this, error);
                return;
            }
        }
        this.PromiseState = this.RESOLVED;
        return object;
    };
    Promise.prototype.reject = function (error) {
        if (this.PromiseState !== this.PENDING) return;
        this.PromiseState = this.REJECTED;
        try {
            this._catch(error);
        } catch (e) {
            console.error(error, e);
        }
    };
    Promise.prototype.then = function (onFulfilled, onRejected) {
        onFulfilled = onFulfilled || function (result) {
            return result;
        };
        this._catch = onRejected || this._catch;
        this._pending.push({resolve: onFulfilled, reject: onRejected});
        return this;
    };
    Promise.prototype.catch = function (onRejected) {
        // var onFulfilled = function (result) {
        //     return result;
        // };
        this._catch = onRejected || this._catch;
        // this._pending.push({resolve: onFulfilled, reject: onRejected});
        return this;
    };
    Promise.all = function (array) {
        return new Promise(function () {
            var self = this;
            var counter = 0;
            var finishResult = [];

            function success(item, index) {
                counter++;
                finishResult[index] = item;
                if (counter >= array.length) {
                    self.resolve(finishResult);
                }
            }
            for(var i in array) {
                var item = array[i];
                if (item instanceof Promise) {
                    item.then(function (result) {
                        success(result,this);
                    }.bind(i), function (error) {
                        array.map(function (item) {
                            item.PromiseState = Promise.REJECTED
                        });
                        self._catch(error);
                    })
                } else {
                    success(item, i);
                }
            }
        });
    };
    Promise.race = function (array) {
        return new Promise(function () {
            var self = this;
            var counter = 0;
            var finishResult = [];
            array.map(function (item) {
                if (item instanceof Promise) {
                    item.then(function (result) {
                        array.map(function (item) {
                            item.PromiseState = Promise.REJECTED
                        });
                        self.resolve(result);
                    }, function (error) {
                        array.map(function (item) {
                            item.PromiseState = Promise.REJECTED
                        });
                        self._catch(error);
                    })
                } else {
                    array.map(function (item) {
                        item.PromiseState = Promise.REJECTED
                    });
                    self.resolve(item);
                }
            })
        });
    };
    Promise.resolve = function (value) {
        return new Promise(function (resolve, reject) {
            try {
                resolve(value);
            } catch (error) {
                reject(error);
            }
        });
    };
    Promise.reject = function (error) {
        return new Promise(function (resolve, reject) {
            reject(error);
        });
    }

Discussing here. Fiddle: here.

| improve this answer | |
0
0

here is the absolute minimum of a promise architecture

function Promise(F) {
  var gotoNext = false;
  var stack = [];
  var args = [];

  var isFunction = function(f) {
    return f && {}.toString.call(f) === '[object Function]';
  };

  var getArguments = function(self, _args) {
    var SLICE = Array.prototype.slice;

    _args = SLICE.call(_args);
    _args.push(self);

    return _args;
  };

  var callNext = function() {
    var method = stack.shift();

    gotoNext = false;
    if (isFunction(method)) method.apply(null, args);
  };

  var resolve = [(function loop() {
    if (stack.length) setTimeout(loop, 0);
    if (gotoNext) callNext();
  })];

  this.return = function() {
    gotoNext = true;
    args = getArguments(this, arguments);
    if(resolve.length) resolve.shift()();

    return this;
  };

  this.then = function(fn) {
    if (isFunction(fn)) stack.push(fn);

    return this;
  };

  return this.then(F).return();
}


// --- below is a working implementation --- //

var bar = function(p) {
  setTimeout(function() {
    console.log("1");
    p.return(2);
  }, 1000);
};

var foo = function(num, p) {
  setTimeout(function() {
    console.log(num);
    p.return(++num);
  }, 1000);
};

new Promise(bar)
  .then(foo)
  .then(foo)
  .then(foo);

| improve this answer | |
0
0

I've implement one in ES7. With chaining, it's 70 lines, if that counts as few. I think State Machine is the right paradigm for implementing promises. Resulting code is more understandable than lots of ifs IMHO. Described fully in this article.

Here's the code:

const states = {
    pending: 'Pending',
    resolved: 'Resolved',
    rejected: 'Rejected'
};

class Nancy {
    constructor(executor) {
        const tryCall = callback => Nancy.try(() => callback(this.value));
        const laterCalls = [];
        const callLater = getMember => callback => new Nancy(resolve => laterCalls.push(() => resolve(getMember()(callback))));
        const members = {
            [states.resolved]: {
                state: states.resolved,
                then: tryCall,
                catch: _ => this
            },
            [states.rejected]: {
                state: states.rejected,
                then: _ => this,
                catch: tryCall
            },
            [states.pending]: {
                state: states.pending,
                then: callLater(() => this.then),
                catch: callLater(() => this.catch)
            }
        };
        const changeState = state => Object.assign(this, members[state]);
        const apply = (value, state) => {
            if (this.state === states.pending) {
                this.value = value;
                changeState(state);
                for (const laterCall of laterCalls) {
                    laterCall();
                }
            }
        };

        const getCallback = state => value => {
            if (value instanceof Nancy && state === states.resolved) {
                value.then(value => apply(value, states.resolved));
                value.catch(value => apply(value, states.rejected));
            } else {
                apply(value, state);
            }
        };

        const resolve = getCallback(states.resolved);
        const reject = getCallback(states.rejected);
        changeState(states.pending);
        try {
            executor(resolve, reject);
        } catch (error) {
            reject(error);
        }
    }

    static resolve(value) {
        return new Nancy(resolve => resolve(value));
    }

    static reject(value) {
        return new Nancy((_, reject) => reject(value));
    }

    static try(callback) {
        return new Nancy(resolve => resolve(callback()));
    }
}
| improve this answer | |

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