thenBy
is a javascript micro library that helps sorting arrays on multiple keys. It allows you to use the native Array::sort() method of javascript, but pass in multiple functions to sort that are composed with firstBy().thenBy().thenBy()
style.
Example:
// first by length of name, then by population, then by ID
data.sort(
firstBy(function (v1, v2) { return v1.name.length - v2.name.length; })
.thenBy(function (v1, v2) { return v1.population - v2.population; })
.thenBy(function (v1, v2) { return v1.id - v2.id; })
);
thenBy
also offers some nice shortcuts that make the most common ways of sorting even easier and more readable.
Javascript sorting relies heavily on passing discriminator functions that return -1, 0 or 1 for a pair of items. While this is very flexible, often you want to sort on the value of a simple property. As a convenience, thenBy.js builds the appropriate compare function for you if you pass in a property name (instead of a function). The example above would then look like this:
// first by length of name, then by population, then by ID
data.sort(
firstBy(function (v1, v2) { return v1.name.length - v2.name.length; })
.thenBy("population")
.thenBy("id")
);
If an element doesn't have the property defined, it will sort like the empty string (""). Typically, this will be at the top.
You can also pass a function that takes a single item and returns its sorting key. This turns the above expression into:
// first by length of name, then by population, then by ID
data.sort(
firstBy(function (v) { return v.name.length; })
.thenBy("population")
.thenBy("id")
);
Note that javascript contains a number of standard functions that can be passed in here as well. The Number() function will make your sorting sort on numeric values instead of lexical values:
var values = ["2", "20", "03", "-2", "0", 200, "2"];
var sorted = values.sort(firstBy(Number));
thenBy.js allows you to pass in a second parameter for direction
. If you pass in 'desc' or -1, the sorting will be reversed. So:
// first by length of name descending, then by population descending, then by ID ascending
data.sort(
firstBy(function (v1, v2) { return v1.name.length - v2.name.length; }, -1)
.thenBy("population", "desc")
.thenBy("id")
);
(as of v1.2.0) All of the shortcut methods allow you to sort case insensitive as well. The second parameter expects an options object (if it is a number, it is interpreted as direction
as above). The ignoreCase property can be set to true, like this:
// first by name, case insensitive, then by population
data.sort(
firstBy("name", {ignoreCase:true})
.thenBy("population")
);
If you want to use both descending and ignoreCase, you have to use the options syntax for direction as well:
// sort by name, case insensitive and descending
data.sort(firstBy("name", {ignoreCase:true, direction:"desc"}));
If you have more specific wishes for the exact sort order, but still want to use the convenience of unary functions or sorting on property names, you can pass in you own compare function in the options. Here we use a compare function that known about the relative values of playing cards::
const cards = ['2', '3', '4', '5', '6', '7', '8', '9', '10', 'J', 'Q', 'K', 'A'];
var cardCompare = (c1, c2) =>{
return cards.indexOf(c1) - cards.indexOf(c2);
}
var handOfCards = [
{ id: 7, suit:"c", card:"A" },
{ id: 8, suit:"d", card:"10" },
// etc
];
handOfCards.sort(firstBy("card", {cmp: cardCompare, direction: "desc"}));
You can use the cmp
function together with direction
, but not with ignoreCase
(for obvious reasons).
One of the more interesting custom compare functions you may want to pass in is the native compare
function that is exposed by Intl.Collator
. This compare function knows about the different sorting rules in different cultures. Many browsers have these implemented, but in NodeJS, the API is implemented, but only for the English culture. You would use it with thenBy like this:
// in German, ä sorts with a
var germanCompare = new Intl.Collator('de').compare;
// in Swedish, ä sorts after z
var swedishCompare = new Intl.Collator('sv').compare;
data.sort(
firstBy("name", {cmp: swedishCompare})
);
Check the details on using Intl.Collator.
thenBy constructs a comparer function for you. It does this by combining the functions you pass in with a number of small utility functions that perform tasks like "reverting", "combining the current sort order with the previous one", etc. Also, these operations try to work correctly, no matter what content is in the sorted array. There are two steps here that cost time: constructing the über-function and running it. The construction time should always be negligible. The run time however can be slower than when you carefully handcraft the compare function. Still, normally you shouldn't worry about this, but if you're sorting very large sets, it could matter. For example, there is some overhead in making several small functions call each other instead of creating one piece of code. Also, if you know your data well, and know that a specific field is always present and is always a number, you could code a significantly faster compare function then thenBy's results. The unit tests contain an extreme example.
If you use thenBy to combine multiple compare functions into one (where each function expects two parameters), the difference is small. Using unary functions adds some overhead, using direction:desc adds some, using only a property name adds a little, but will check for missing values, which could be optimized. Ignoring case will slow down, but not more so than when handcoded.
npm install @codingame/thenby
or
yarn add @codingame/thenby
then in your app:
var firstBy = require('@codingame/thenby');
or in TypeScript/ES6:
import { firstBy } from "@codingame/thenby";