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Array iteration methods summarized
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array_iteration_thoughts.md

While attempting to explain JavaScript's reduce method on arrays, conceptually, I came up with the following - hopefully it's helpful; happy to tweak it if anyone has suggestions.

Intro

JavaScript Arrays have lots of built in methods on their prototype. Some of them mutate - ie, they change the underlying array in-place. Luckily, most of them do not - they instead return an entirely distinct array. Since arrays are conceptually a contiguous list of items, it helps code clarity and maintainability a lot to be able to operate on them in a "functional" way. (I'll also insist on referring to an array as a "list" - although in some languages, List is a native data type, in JS and this post, I'm referring to the concept. Everywhere I use the word "list" you can assume I'm talking about a JS Array) This means, to perform a single operation on the list as a whole ("atomically"), and to return a new list - thus making it much simpler to think about both the old list and the new one, what they contain, and what happened during the operation.

Below are some of the methods that iterate - in other words, that operate on the entire list, one item at a time. When you call them, you provide a callback function - a single function that expects to operate on one item at a time. Based on the Array method you've chosen, the callback gets specific arguments, and may be expected to return a certain kind of value - and (except for forEach) the return value determines the final return value of the overarching array operation. Although most of the methods are guaranteed to execute for each item in the array - for all of them - some of the methods can stop iterating partway through; when applicable, this is indicated below.

All array methods iterate in what is traditionally called "left to right" - more accurately (and less ethnocentrically) from index 0, to index length - 1 - also called "start" to "end". reduceRight is an exception in that it iterates in reverse - from end to start.

forEach:

  • callback answers: here’s an item. do something nutty with it, i don't care what.
  • callback gets these arguments: item, index, list
  • final return value: nothing - in other words, undefined
  • example use case:
[1, 2, 3].forEach(function (item, index) {
  console.log(item, index);
});

map:

  • callback answers: here’s an item. what should i put in the new list in its place?
  • callback gets these arguments: item, index, list
  • final return value: list of new items
  • example use case:
const three = [1, 2, 3];
const doubled = three.map(function (item) {
  return item * 2;
});
console.log(three === doubled, doubled); // false, [2, 4, 6]

filter:

  • callback is a predicate - it should return a truthy or falsy value
  • callback answers: should i keep this item?
  • callback gets these arguments: item, index, list
  • final return value: list of kept items
  • example use case:
const ints = [1, 2, 3];
const evens = ints.filter(function (item) {
  return item % 2 === 0;
});
console.log(ints === evens, evens); // false, [2]

reduce:

  • callback answers: here’s the result from the previous iteration. what should i pass to the next iteration?
  • callback gets these arguments: result, item, index, list
  • final return value: result of last iteration
  • example use case:
// NOTE: `reduce` and `reduceRight` take an optional "initialValue" argument, after the reducer callback.
// if omitted, it will default to the first item.
const sum = [1, 2, 3].reduce(function (result, item) {
  return result + item;
}, 0); // if the `0` is omitted, `1` will be the first `result`, and `2` will be the first `item`

reduceRight: (same as reduce, but in reversed order: last-to-first)

some:

  • callback is a predicate - it should return a truthy or falsy value
  • callback answers: does this item meet your criteria?
  • callback gets these arguments: item, index, list
  • final return value: true after the first item that meets your criteria, else false
  • note: stops iterating once it receives a truthy value from your callback.
  • example use case:
const hasNegativeNumbers = [1, 2, 3, -1, 4].some(function (item) {
  return item < 0;
});
console.log(hasNegativeNumbers); // true

every:

  • callback is a predicate - it should return a truthy or falsy value
  • callback answers: does this item meet your criteria?
  • callback gets these arguments: item, index, list
  • final return value: false after the first item that failed to meet your criteria, else true
  • note: stops iterating once it receives a falsy value from your callback.
  • example use case:
const allPositiveNumbers = [1, 2, 3].every(function (item) {
  return item > 0;
});
console.log(allPositiveNumbers); // true

find:

  • callback is a predicate - it should return a truthy or falsy value
  • callback answers: is this item what you’re looking for?
  • callback gets these arguments: item, index, list
  • final return value: the item you’re looking for, or undefined
  • note: stops iterating once it receives a truthy value from your callback.
  • example use case:
const objects = [{ id: 'a' }, { id: 'b' }, { id: 'c' }];
const found = objects.find(function (item) {
  return item.id === 'b';
});
console.log(found === objects[1]); // true

findIndex:

  • callback is a predicate - it should return a truthy or falsy value
  • callback answers: is this item what you’re looking for?
  • callback gets these arguments: item, index, list
  • final return value: the index of the item you’re looking for, or -1
  • note: stops iterating once it receives a truthy value from your callback.
  • example use case:
const objects = [{ id: 'a' }, { id: 'b' }, { id: 'c' }];
const foundIndex = objects.findIndex(function (item) {
  return item.id === 'b';
});
console.log(foundIndex === 1); // true

sort:

  • callback is a comparator - it should return either a number either < 0, 0, or > 0
  • callback answers: how do the two items compare with each other
  • callback gets these arguments: oneElement, theOtherElement
  • final return value: number < 0, if oneElement should preceed theOtherElement, 0 to keep the relative order, > 0 to place oneElement at a later index than theOtherElement
  • example use case:
const objects = ['John', 'Doe', 'Foo', 'Bar'];
const sortedObjects = objects.sort( (one, two) => -one.localeCompare(two) ); // reverses the string in reverse order
console.log(sortedObjects); // ['John', 'Foo', 'Doe', 'Bar']
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