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JavaScript iterators and more

A comparison and overview of generators, iterators, and iterables in JS.

Why

Many languages (Java, C#, Python, etc) have a concept of an object being iterable, that is, capable of giving you values from first to last in a particular order. This often comes in the form of a “for each” loop such as this in Python:

for x in [0, 1, 2]:
    print(x)

This iterates over the values in the array [0, 1, 2]. But it turns out not everything you might want to iterate over is best represented as an array. In Python you might want to iterate over a set {0, 1, 2}, a tuple (0, 1, 2), or even a range range(3).

JS interfaces

In JavaScript, iterables are objects which have a method Symbol.iterator which return an iterator. Not sure about symbols? Check out the MDN page on symbols. If you’re familiar with Python, this is sort of like making a __iter__ method.

var iterable = {
  [Symbol.iterator]: function () {
    // return ...
  },
};

Which can be written with method shorthand syntax as:

var iterable = {
  [Symbol.iterator]() {
    // return ...
  },
};

Iterators are objects with a next method that returns an object with keys done and value.

var iterator = {
  i: 0,

  // This new ES6 syntax is like `next: function()`
  next() {
    this.i++;
    if (this.i > 10) {
      return { done: true };
    }
    return {
      done: false,
      value: 1,
    };
  },
};

If you repeatedly call iterator.next() you’ll get the values 1 through 10. Note that there’s no way to go backwards or restart an iterator. This is necessary to keep iterators applicable to many use cases where this would be difficult or impossible.

Iterators may also be iterables if they have a Symbol.iterator method that returns this.

A range iterable

You’re probably familiar with the JavaScript for loop:

for (var i = 0; i < 10; i++) {
  console.log(i);
}

Using iterators, you could write a loop like this:

for (var i of range(0, 9)) {
  console.log(i);
}

This is a lot clearer to read, and it encapsulates the details of < and ++, making it harder to make typos in your loop and goof it up.

Here’s how to make a range function which returns an iterable that works like that:

function range(start, end) {
  return {
    [Symbol.iterator]() {
      return {
        i: start,

        next() {
          this.i++;
          if (this.i > end) {
            return { done: true };
          }
          return { done: false, value: this.i };
        },
      };
    },
  };
}

Wow, sort of a mouthful, huh? Fortunately, there’s a better way to write this!

Yield to the generators

Iterators involve manually tracking “how far” you’ve made it, which in the case of counting from 0 to 9 is rather annoying, but more complicated iterators get incredibly unwieldy very quickly.

But what if you didn’t have to keep track of all this mess? Generators are here to help.

Strangely enough “generator” is spelled function* in JavaScript. Generators are special functions that return iterable iterators for you. Instead of using return you write yield to send values back. The generator automatically pauses after calling yield and waits until more values are needed.

function* oneTwoThree() {
  yield 1;
  yield 2;
  yield 3;
}

The usual way to use an iterable is the new for...of loop (note: not for...in, that’s completely different):

for (var x of oneTwoThree()) {
  console.log(x);
}

This will log 1, 2, 3 in succession. Note that the oneTwoThree() has to be called with parentheses here.

Gotcha: once only

Imagine a generator which made an HTTP call. If you wanted to be able to iterate the value multiple times, you would either have to make the HTTP call again—which may not produce the same value—or store the value. Both of these are not ideal. So default generators can only be iterated once because they return iterables which are their own iterators.

var iterable = oneTwoThree();

for (var x of iterable) {
  console.log(x);
}

for (var y of iterable) {
  console.log(y);
}

You can instead call the generator more than once so you have a fresh iterable iterator every time.

for (var x of oneTwoThree()) {
  console.log(x);
}

for (var y of oneTwoThree()) {
  console.log(y);
}

This prints 1, 2, 3 two times instead of just once.

Reusable generators

If you know that your generator does not rely on external state that might change, you can make it restartable safely.

JS normally wants iterables not iterators themselves, so if we wrap the iterable iterators returned from generators then we can iterate over them multiple times:

var oneTwoThreeAgainAndAgain = {
  // The `*` here is the `*` from `function*`
  *[Symbol.iterator]() {
    yield 1;
    yield 2;
    yield 3;
  },
};

Note the * before the method. This is a strange shorthand for the following:

var oneTwoThreeAgainAndAgain = {
  [Symbol.iterator]: function* () {
    yield 1;
    yield 2;
    yield 3;
  },
};

The function is implied since it’s inside an object literal, but we still have to put the * somewhere so JavaScript knows it’s a generator. Weird, I know.

Remember, generators return objects which are simultaneously iterators and iterables, which is why you can use them directly in a for...of loop or return them from a Symbol.iterator method.

for (var x of oneTwoThreeAgainAndAgain) {
  console.log(x);
}

for (var y of oneTwoThreeAgainAndAgain) {
  console.log(y);
}

Tada! We got 1, 2, 3 twice, just like we wanted initially.

Destructuring

If you’re familiar with the form…

var [a, b, c] = oneTwoThreeAgainAndAgain;
console.log(a);
console.log(b);
console.log(c);

…it’s good to know that this actually works with not just arrays, but any iterable on the right hand side!

If you want, you can ignore extra values too:

var [first] = oneTwoThreeAgainAndAgain;
console.log(first);

You can even write commas with no variable name to grab a value from the iterable but ignore it.

var [, second, third] = oneTwoThreeAgainAndAgain;
console.log(second, third);

Truncating infinity

Because iterators don’t store their values permanently like arrays, they can even be infinite!

var evenNumbers = {
  *[Symbol.iterator]() {
    var n = 0;
    while (true) {
      yield n;
      n += 2;
    }
  },
};

If you use a for...of loop on this, it will never end. So you’ll need to add a break or return into the loop at some point to jump back out.

for (var n of evenNumbers) {
  if (n > 10) {
    break;
  }
  console.log(n);
}

NOTE: I’m sure the functional programmers in the back are cringing right now. Don’t worry, it’s not too hard to write functions like take and map and filter which operate on iterables instead of just arrays. More on that in a later post.

This will print out 0, 2, 4, 6, 8, 10.

Alternatively, you can use destructuring to grab just the numbers you need, ignoring the extra values just like before. Remember that generators pause after yielding, so you don’t have to worry about the function running forever.

var [zero, two, four] = evenNumbers;
console.log(zero);
console.log(two);
console.log(four);

For more about destructuring, see the MDN article on destructuring.

Cleaning up

Usually it’s safe to just jump out of an iterator when you’re done, but sometimes you have some cleanup work to do at the end. Luckily, TC39 thought of that when creating iterators. Internally, there’s a .return() method that iterators can optionally have. The built-in for...of loop automatically calls it for you!

var count123 = {
  i: 1,

  [Symbol.iterator]() {
    return {
      next() {
        this.i++;
        if (this.i > 3) {
          return { done: true };
        }
        return { done: false, value: this.i };
      },

      return() {
        this.i = 0;
      },
    };
  },
};

Yowza! We’ve been avoiding writing iterators by hand because it stinks. Luckily, good old try...finally can take its place inside a generator.

function* count123() {
  try {
    yield 1;
    yield 2;
    yield 3;
  } finally {
    // This gets called even if you break after the first yield
    console.log("I'm all done!");
  }
}

var [a, b] = count123();
console.log(a);
console.log(b);

This will log “I’m all done!” then log 1, 2, because the iterator was aborted before it yielded the value 3.

A more realistic example would be canceling some kind of network request or resetting global state which was changed by the iterator.

Conclusion

For robust code, write functions that return iterable objects using generators. Wow, what a mouthful. Basically stuff that looks like this:

function myFunction(/* ... */) {
  return {
    *[Symbol.iterator]() {
      // yield ...
    },
  };
}

Unless you’re making network calls or reading values which may change. In that case, just use regular generator functions and make it someone else’s responsibility to call your generator more than once.

function* myGenerator(/* ... */) {
  // yield ...
}

Iterators work in straight ES5 code, but the for...of loop compiles to quite a bit of code if you look at the output from Babel. Worse, generators produce incredibly large, confusing code, and require a runtime library. See my post on Babel for more info.

That being said, iterators are really cool. Even though they’re a bit confusing, it’s one of the first things in JS where we really have built-in extensibility on a feature, so we’re not just limited to the language’s built-in assumptions.


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