lix-website/themes/lix/assets/bootstrap/node_modules/gensequence/README.md

# GenSequence

[![Build Status](https://travis-ci.org/Jason3S/GenSequence.svg?branch=master)](https://travis-ci.org/Jason3S/GenSequence)
[![Coverage Status](https://coveralls.io/repos/github/Jason3S/GenSequence/badge.svg?branch=master)](https://coveralls.io/github/Jason3S/GenSequence?branch=master)

Small library to simplify working with Generators and Iterators in Javascript / Typescript

Javascript [Iterators and Generators](https://developer.mozilla.org/en/docs/Web/JavaScript/Guide/Iterators_and_Generators)
are very exciting and provide some powerful new ways to solve programming problems.

The purpose of this library is to make using the results of a generator function easier.
It is not intended as a replacement for arrays and the convenient [...genFn()] notation.
GenSequence is useful for cases where you might not want an array of all possible values.
GenSequence deals efficiently with large sequences because only one element at a time is evaluated.
Intermediate arrays are not created, saving memory and cpu cycles.

## Installation

```
npm install -S gensequence
```

## Usage

### Javascript
```
import genSequence from "gensequence";
```
or
```
import {genSequence} from "gensequence";
```


### Typescript
```
import {genSequence} from 'gensequence';
```

## Examples

### Fibonacci
The Fibonacci sequence can be very simply expressed using a generator.  Yet using the result of a generator can be a bit convoluted.
GenSequence provides a wrapper to add familiar functionality similar to arrays.

```javascript
function fibonacci() {
    function* fib() {
        let [a, b] = [0, 1];
        while (true) {
            yield b;
            [a, b] = [b, a + b];
        }
    }
    // Wrapper the Iterator result from calling the generator.
    return genSequence(fib);
}

let fib5 = fibonacci()
    .take(5)            // Take the first 5 from the fibonacci sequence
    .toArray();         // Convert it into an array
// fib5 == [1, 1, 2, 3, 5]

let fib6n7seq = fibonacci().skip(5).take(2);
let fib6n7arr = [...fib6n7seq];                 // GenSequence are easily converted into arrays.

let fib5th = fibonacci()
    .skip(4)            // Skip the first 4
    .first();           // Return the next one.
```

### RegEx Match

Regular expressions are wonderfully powerful.  Yet, working with the results can sometimes be a bit of a pain.

```javascript
function* execRegEx(reg: RegExp, text: string) {
    const regLocal = new RegExp(reg);
    let r;
    while (r = regLocal.exec(text)) {
        yield r;
    }
}

/* return a sequence of matched text */
function match(reg: RegExp, text: string) {
    return genSequence(execRegEx(reg, text))
        // extract the full match
        .map(a => a[0]);
}

/* extract words out of a string of text */
function matchWords(text: string) {
    return genSequence(match(/\w+/g, text));
}

/* convert some text into a set of unique words */
function toSetOfWords(text: string) {
    // Sequence can be used directly with a Set or Match
    return new Set(matchWords(text));
}

const text = 'Some long bit of text with many words, duplicate words...';
const setOfWords = toSetOfWords(text);
// Walk through the set of words and pull out the 4 letter one.
const setOf4LetterWords = new Set(genSequence(setOfWords).filter(a => a.length === 4));

```


## Reference
- `genSequence(Iterable|Array|()=>Iterable)` -- generate a new Iterable from an Iterable, Array or function with the following functions.

### Filters
- `.filter(fn)` -- just like array.filter, filters the sequence
- `.skip(n)` -- skip *n* entries in the sequence
- `.take(n)` -- take the next *n* entries in the sequence.

### Extenders
- `.concat(iterable)` -- this will extend the current sequence with the values from *iterable*
- `.concatMap(fnMap)` -- this is used to flatten the result of a map function.

### Mappers
- `.combine(fnCombiner, iterable)` -- is used to combine values from two different lists.
- `.map(fn)` -- just like array.map, allows you to convert the values in a sequence.
- `.pipe(...operatorFns)` -- pipe any amount of operators in sequence.
- `.scan(fn, init?)` -- similar to reduce, but returns a sequence of all the results of fn.

### Reducers
- `.all(fn)` -- true if all values in the sequence return true for *fn(value)* or the sequence is empty.
- `.any(fn)` -- true if any value in the sequence exists where *fn(value)* returns true.
- `.count()` -- return the number of values in the sequence.
- `.first()` -- return the next value in the sequence.
- `.first(fn)` -- return the next value in the sequence where *fn(value)* return true.
- `.forEach(fn)` -- apply *fn(value, index)* to all values.
- `.max()` -- return the largest value in the sequence.
- `.max(fn)` -- return the largest value of *fn(value)* in the sequence.
- `.min()` -- return the smallest value in the sequence.
- `.min(fn)` -- return the smallest value of *fn(value)* in the sequence.
- `.reduce(fn, init?)` -- just like array.reduce, reduces the sequence into a single result.
- `.reduceAsync(fn, init?)` -- just like array.reduce, reduces promises into the sequence into a single result chaining the promises, fn/init can be async or not, it will work, the previousValue, and currentValue will never be a promise.
- `.reduceToSequence(fn, init)` -- return a sequence of values that *fn* creates from looking at all the values and the initial sequence.

### Cast
- `.toArray()` -- convert the sequence into an array.  This is the same as [...iterable].
- `.toIterable()` -- Casts a Sequence into an IterableIterator - used in cases where type checking is too strict.
initial commit of template 2024-04-27 03:39:10 +00:00			`# GenSequence`

			`[![Build Status](https://travis-ci.org/Jason3S/GenSequence.svg?branch=master)](https://travis-ci.org/Jason3S/GenSequence)`
			`[![Coverage Status](https://coveralls.io/repos/github/Jason3S/GenSequence/badge.svg?branch=master)](https://coveralls.io/github/Jason3S/GenSequence?branch=master)`

			`Small library to simplify working with Generators and Iterators in Javascript / Typescript`

			`Javascript [Iterators and Generators](https://developer.mozilla.org/en/docs/Web/JavaScript/Guide/Iterators_and_Generators)`
			`are very exciting and provide some powerful new ways to solve programming problems.`

			`The purpose of this library is to make using the results of a generator function easier.`
			`It is not intended as a replacement for arrays and the convenient [...genFn()] notation.`
			`GenSequence is useful for cases where you might not want an array of all possible values.`
			`GenSequence deals efficiently with large sequences because only one element at a time is evaluated.`
			`Intermediate arrays are not created, saving memory and cpu cycles.`

			`## Installation`

			```
			`npm install -S gensequence`
			```

			`## Usage`

			`### Javascript`
			```
			`import genSequence from "gensequence";`
			```
			`or`
			```
			`import {genSequence} from "gensequence";`
			```


			`### Typescript`
			```
			`import {genSequence} from 'gensequence';`
			```

			`## Examples`

			`### Fibonacci`
			`The Fibonacci sequence can be very simply expressed using a generator. Yet using the result of a generator can be a bit convoluted.`
			`GenSequence provides a wrapper to add familiar functionality similar to arrays.`

			```javascript
			`function fibonacci() {`
			`function* fib() {`
			`let [a, b] = [0, 1];`
			`while (true) {`
			`yield b;`
			`[a, b] = [b, a + b];`
			`}`
			`}`
			`// Wrapper the Iterator result from calling the generator.`
			`return genSequence(fib);`
			`}`

			`let fib5 = fibonacci()`
			`.take(5) // Take the first 5 from the fibonacci sequence`
			`.toArray(); // Convert it into an array`
			`// fib5 == [1, 1, 2, 3, 5]`

			`let fib6n7seq = fibonacci().skip(5).take(2);`
			`let fib6n7arr = [...fib6n7seq]; // GenSequence are easily converted into arrays.`

			`let fib5th = fibonacci()`
			`.skip(4) // Skip the first 4`
			`.first(); // Return the next one.`
			```

			`### RegEx Match`

			`Regular expressions are wonderfully powerful. Yet, working with the results can sometimes be a bit of a pain.`

			```javascript
			`function* execRegEx(reg: RegExp, text: string) {`
			`const regLocal = new RegExp(reg);`
			`let r;`
			`while (r = regLocal.exec(text)) {`
			`yield r;`
			`}`
			`}`

			`/* return a sequence of matched text */`
			`function match(reg: RegExp, text: string) {`
			`return genSequence(execRegEx(reg, text))`
			`// extract the full match`
			`.map(a => a[0]);`
			`}`

			`/* extract words out of a string of text */`
			`function matchWords(text: string) {`
			`return genSequence(match(/\w+/g, text));`
			`}`

			`/* convert some text into a set of unique words */`
			`function toSetOfWords(text: string) {`
			`// Sequence can be used directly with a Set or Match`
			`return new Set(matchWords(text));`
			`}`

			`const text = 'Some long bit of text with many words, duplicate words...';`
			`const setOfWords = toSetOfWords(text);`
			`// Walk through the set of words and pull out the 4 letter one.`
			`const setOf4LetterWords = new Set(genSequence(setOfWords).filter(a => a.length === 4));`

			```


			`## Reference`
			- `genSequence(Iterable\|Array\|()=>Iterable)` -- generate a new Iterable from an Iterable, Array or function with the following functions.

			`### Filters`
			- `.filter(fn)` -- just like array.filter, filters the sequence
			- `.skip(n)` -- skip n entries in the sequence
			- `.take(n)` -- take the next n entries in the sequence.

			`### Extenders`
			- `.concat(iterable)` -- this will extend the current sequence with the values from iterable
			- `.concatMap(fnMap)` -- this is used to flatten the result of a map function.

			`### Mappers`
			- `.combine(fnCombiner, iterable)` -- is used to combine values from two different lists.
			- `.map(fn)` -- just like array.map, allows you to convert the values in a sequence.
			- `.pipe(...operatorFns)` -- pipe any amount of operators in sequence.
			- `.scan(fn, init?)` -- similar to reduce, but returns a sequence of all the results of fn.

			`### Reducers`
			- `.all(fn)` -- true if all values in the sequence return true for fn(value) or the sequence is empty.
			- `.any(fn)` -- true if any value in the sequence exists where fn(value) returns true.
			- `.count()` -- return the number of values in the sequence.
			- `.first()` -- return the next value in the sequence.
			- `.first(fn)` -- return the next value in the sequence where fn(value) return true.
			- `.forEach(fn)` -- apply fn(value, index) to all values.
			- `.max()` -- return the largest value in the sequence.
			- `.max(fn)` -- return the largest value of fn(value) in the sequence.
			- `.min()` -- return the smallest value in the sequence.
			- `.min(fn)` -- return the smallest value of fn(value) in the sequence.
			- `.reduce(fn, init?)` -- just like array.reduce, reduces the sequence into a single result.
			- `.reduceAsync(fn, init?)` -- just like array.reduce, reduces promises into the sequence into a single result chaining the promises, fn/init can be async or not, it will work, the previousValue, and currentValue will never be a promise.
			- `.reduceToSequence(fn, init)` -- return a sequence of values that fn creates from looking at all the values and the initial sequence.

			`### Cast`
			- `.toArray()` -- convert the sequence into an array. This is the same as [...iterable].
			- `.toIterable()` -- Casts a Sequence into an IterableIterator - used in cases where type checking is too strict.