iteragain
Another Javascript library for iterating.
Pure JavaScript, Iterable/Iterator/Generator-function utilities. No dependencies and shipped with types as is.
Iterators and Iterables in Javascript has basically no supporting methods or functions. This package provides easy to use, lazy evaluation methods to save on memory and unnecessary processing. Support with using the already existing next() method and usage in “for of” loops, this makes using Iterators as easy as using an Array.
This package can be used like in Python with standalone functions like map, filter, etc. Or be used with method chaining by calling iter which returns an instance of the ExtendedIterator class. Either is supported for however you want to handle iterators.
You can see the full list of modules and the documentation on everything here.
See iteragain-es for the ES modules exported version of this package.
Code examples
A performance benefit over user Array’s higher-order methods
// This is an example of using Array higher-order methods.
// And this particular one will iterate over `someArray` 3 times.
const result1 = someArray.map(iteratee).filter(predicate).reduce(reducer);
// This example of using `iter` returns the same result, but it will only iterate over `someArray` once.
const result2 = iter(someArray).map(iteratee).filter(predicate).reduce(reducer).toArray();
equal(result1, result2); // Asserts that the results are the same.Basic use of iter and some standalone functions
// Import from the root index
import { iter } from 'iteragain';
// Or from the file itself (tree shakeable):
import iter from 'iteragain/iter';
let nums = iter([1, 2, 3, 4, 5])
.map(n => n * n)
.filter(n => n % 2 === 0)
.toArray();
// [4, 16]
// Or use the standalone functions instead of `iter`:
import { map, filter, toArray } from 'iteragain';
nums = toArray(filter(map([1, 2, 3, 4, 5], n => n * n), n => n % 2 === 0)); // [4, 16]Using the range standalone function.
import range from 'iteragain/range';
range(10).toArray(); // [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
range(10, 0).toArray(); // [10, 9, 8, 7, 6, 5, 4, 3, 2, 1]
range(0, -10).toArray(); // [0, -1, -2, -3, -4, -5, -6, -7, -8, -9]
range(0, 10, 2).toArray(); // [0, 2, 4, 6, 8]
let r = range(3);
const nums = [...r, ...r]; // [0, 1, 2, 0, 1, 2], can be reused after a full iteration.
r = range(0, 10, 2);
// The following methods do not iterate/access the internal iterator:
r.length; // 10, (a readonly property)
r.includes(4); // true
r.nth(-1); // 8 (the last element)
r.nth(1); // 2 (the second element)
r.nth(10); // undefined (the 10th element doesn't exist)
r.index(4); // 2 (the index of the value 4)Iterating through any object’s properties recursively.
import iter from 'iteragain/iter';
const obj = { a: 1, b: { c: 2, d: { e: 3 }, f: 4 } };
const keys = iter(obj)
.map(([key, _value, _parent]) => key)
.toArray();
// ['a', 'c', 'e', 'd', 'b', 'f'] Post-order depth first search traversal of `obj`.Supports passing functions as input and using an optional sentinel value to stop iteration
import iter from 'iteragain/iter';
const it = iter(() => someFunction(1, 2, 3), null)
// Will call `someFunction` with the arguments [1, 2, 3] for each iteration until it returns `null`:
const results = it.toArray();Inpired by
iterplus, iterare, lodash, rxjs and the Python itertools and more-itertools modules. See benchmark section for performance against some of these.
Benchmark
Starting benchmark suite: index.bm.ts
for of loop x 2,015 ops/sec, ±47 ops/sec or ±2.33% (90 runs sampled)
iteragain x 1,431 ops/sec, ±25 ops/sec or ±1.74% (92 runs sampled)
iterare x 1,368 ops/sec, ±20 ops/sec or ±1.48% (95 runs sampled)
rxjs x 989 ops/sec, ±10 ops/sec or ±1.05% (93 runs sampled)