Skip to content

Latest commit

 

History

History
100 lines (75 loc) · 2.71 KB

README.md

File metadata and controls

100 lines (75 loc) · 2.71 KB

Fae

CodeFactor GitHub release (latest by date) GitHub Workflow Status GitHub codecov

Fae is a fully-fledged library that supports the functional style of programming in Deno and is inspired from Ramda. This style provides many benefits like it never mutates input data and is used to create function pipelines. Fae functions are automatically curried. The data to be operated on is generally supplied last. It results in easy to build functions as sequences of simpler or atomic functions (pipelines), each of which transforms the data and passes it along to the next.

Fae provides over 110 functions that help programmers to write clean and concise code.

Installing

Deno allows you to directly import modules from URLs!

To import and use the client in your file, add the following import statement:

import * as Fae from 'https://deno.land/x/[email protected]/mod.ts';

Function usage and documentation can be found here

Running tests

deno test
# for coverage tests
deno test --coverage --unstable

Usage

import * as Fae from 'https://deno.land/x/[email protected]/mod.ts';

// arithmetic functions
Fae.add(10, 20); // 30
Fae.add(10)(20); // 30

const add20 = Fae.add(20);
add20(10); // 30
add20(125); // 145

// Expression - (2*5+5-10)/2
const double = Fae.multiply(2);
const half = Fae.divide(Fae._, 2);
const add5 = Fae.add(5);
const subtract10 = Fae.subtract(Fae._, 10);

half(subtract10(add5(double(15)))); // 12.5
Fae.compose(half, subtract10, add5, double)(15); // 12.5
Fae.pipe(double, add5, subtract10, half)(15); // 12.5

With lenses

import {
  inc,
  lens,
  over,
  set,
  view,
} from 'https://deno.land/x/[email protected]/mod.ts';

const array = [1, 2, 3, 4, 5, 6, 7, 8];

// gets element at index `0`
function getter(a: number[]) {
  return a[0];
}

// returns a new array by setting passed value `val` at index `0`
function setter(val: number, a: number[]) {
  const x = [...a];
  x[0] = val;
  return x;
}

const l = lens(getter, setter);

const viewResult = view(l, array);
const overResult = over(l, inc, array);
const setResult = set(l, 12, array);

console.log(viewResult); // 1
console.log(overResult); // [2, 2, 3, 4, 5, 6, 7, 8]
console.log(setResult); // [12, 2, 3, 4, 5, 6, 7, 8]