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I have seen Chaining an arbitrary number of promises in Q ; my question is different.

How can I make a variable number of calls, each of which returns asynchronously, in order?
The scenario is a set of HTTP requests, the number and type of which is determined by the results of the first HTTP request.

I'd like to do this simply.

I have also seen this answer which suggests something like this:

var q = require('q'),
    itemsToProcess =  ["one", "two", "three", "four", "five"];

function getDeferredResult(prevResult) {
  return (function (someResult) {
    var deferred = q.defer();
    // any async function (setTimeout for now will do, $.ajax() later)
    setTimeout(function () {
      var nextResult = (someResult || "Initial_Blank_Value ") + ".." + itemsToProcess[0];
      itemsToProcess = itemsToProcess.splice(1);
      console.log("tick", nextResult, "Array:", itemsToProcess);
      deferred.resolve(nextResult);
    }, 600);

    return deferred.promise;
  }(prevResult));
}

var chain = q.resolve("start");
for (var i = itemsToProcess.length; i > 0; i--) {
    chain = chain.then(getDeferredResult);
}

...but it seems awkward to loop through the itemsToProcess in that way. Or to define a new function called "loop" that abstracts the recursion. What's a better way?

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3 Answers 3

up vote 16 down vote accepted

There's a nice clean way to to this with [].reduce.

var chain = itemsToProcess.reduce(function (previous, item) {
    return previous.then(function (previousValue) {
        // do what you want with previous value
        // return your async operation
        return Q.delay(100);
    })
}, Q.resolve(/* set the first "previousValue" here */));

chain.then(function (lastResult) {
    // ...
});

reduce iterates through the array, passing in the returned value of the previous iteration. In this case you're returning promises, and so each time you are chaining a then. You provide an initial promise (as you did with q.resolve("start")) to kick things off.

At first it can take a while to wrap your head around what's going on here but if you take a moment to work through it then it's an easy pattern to use anywhere, without having to set up any machinery.

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this is f**** mind bending. but still awesome ;) –  manu Nov 14 '13 at 7:39
    
sweet! and very handy! –  frequent May 3 at 20:45

I like this way better:

var q = require('q'),
    itemsToProcess =  ["one", "two", "three", "four", "five"];

function getDeferredResult(a) {
  return (function (items) {
    var deferred;

    // end
    if (items.length === 0) {
      return q.resolve(true);
    }

    deferred = q.defer();

    // any async function (setTimeout for now will do, $.ajax() later)
    setTimeout(function () {
      var a = items[0];
      console.log(a);
      // pop one item off the array of workitems
      deferred.resolve(items.splice(1));
    }, 600);

    return deferred.promise.then(getDeferredResult);
  }(a));
}

q.resolve(itemsToProcess)
  .then(getDeferredResult);

The key here is to call .then() on the deferred.promise with a spliced version of the array of workitems. This then gets run after the initial deferred promise resolves, which is in the fn for the setTimeout. In a more realistic scenario, the deferred promise would get resolved in the http client callback.

The initial q.resolve(itemsToProcess) kicks things off by passing in the work items to the first call of the work fn.

I added this in hopes it would help others.

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1  
It's probably more normal to build a .then() chain in a loop as per your first example rather than go recursive. Whichever way you choose, it may be important not to destroy the original array. If so, then you can get the promises (and their callbacks) to work with an increasing index value that operates on the original unsullied array. –  Beetroot-Beetroot Jul 20 '13 at 3:42

Here is a concept of a state machine defined with Q.

Suppose you have the HTTP function defined, so it returns a Q promise object:

var Q_http = function (url, options) {
  return Q.when($.ajax(url, options));
}

You can define a recursive function nextState as following:

var states = [...]; // an array of states in the system.

// this is a state machine to control what url to get data from
// at the current state 
function nextState(current) {
  if (is_terminal_state(current))
    return Q(true);

  return Q_http(current.url, current.data).then(function (result) {
    var next = process(current, result);
    return nextState(next);
  });
}

Where function process(current, result) is a function to find out what the next step would be according to the current state and the result from the HTTP call.

When you use it, use it like:

nextState(initial).then(function () {
  // all requests are successful.
}, function (reason) {
  // for some unexpected reason the request sequence fails in the middle.
});
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