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# Non-standard PHP library (NSPL)

Non-standard PHP Library (NSPL) is a collection of modules that are meant to solve common day to day routine problems:

• nspl\f - provides functions that act on other functions. Helps to write code in functional programming paradigm
• nspl\op - provides functions that perform standard PHP operations and can be passed as callbacks to higher-order functions. Mimics Python's operator module
• nspl\a - provides missing array functions which also can be applied to traversable sequences
• nspl\a\lazy - provides lazy versions of functions from \nspl\a
• nspl\args - validates function arguments (will be moved into a separate package in version 2.0)
• nspl\ds - provides non-standard data structures and methods to work with them
• nspl\rnd - helps to pick random items from sequences of data

NSPL aims to make code compact and less verbose but still clear and readable. Look at the following example:

// get user ids
$userIds = map(propertyGetter('id'),$users);

// or sort them by age
$sortedByAge = sorted($users, methodCaller('getAge'));

// or check if they all are online
$online = all($users, methodCaller('isOnline'));

// or define new function as composition of the existing ones
$flatMap = compose(rpartial(flatten, 1), map);  In pure PHP it would look like this: // get user ids$userIds = array_map(function($user) { return$user->id; }, $users); // sort them by age, note that the following code modifies the original users array usort($users, function($user1,$user2) {
return $user1->getAge() -$user2->getAge();
});

// check if they all are online
$online = true; foreach ($users as $user) { if (!$user->isOnline()) {
$online = false; break; } } // define new function as composition of the existing ones$flatMap = function($function,$list) {
// note the inconsistency in array_map and array_reduce parameters
return array_reduce(array_map($function,$list), 'array_merge', []);
};


You can see more examples in the library reference below or here.

## Installation

#### Using composer

Define the following requirement in your composer.json file:

"require": {
"ihor/nspl": "~1.3"
}


or execute the following in the command line:

composer require ihor/nspl


For the latest version which contains way more functionality require version 2.0.*-dev

#### Manually

Checkout the code and include autoload.php:

include 'path/to/nspl/autoload.php';


# Reference

This is documentation for the dev version 2.0.*-dev which contains the latest changes. For the version 1.3 (latest stable version) documentation click here.

Here I assume that described functions are imported with use function:

use function nspl\a\zip;
$pairs = zip([1, 2, 3], ['a', 'b', 'c']);  If your PHP version is less than 5.6 you should import parent namespace and use functions with the namespace prefix: use nspl\a;$pairs = a\zip([1, 2, 3], ['a', 'b', 'c']);


## nspl\f

Provides functions that act on other functions. Helps to write code in the functional programming paradigm.

$oddNumbers = ppartial('range', array(0 => 1, 2 => 2));  ##### flipped($function)

Returns function which accepts arguments in the reversed order

##### compose($f,$g)

Returns new function which applies each given function to the result of another from right to left compose(f, g, h) is the same as f(g(h(x)))

use const \nspl\a\flatten;
use const \nspl\a\map;
use function \nspl\f\compose;
use function \nspl\f\partial;
use function \nspl\f\rpartial;

$flatMap = compose(rpartial(flatten, 1), map); assert(['hello', 'world', 'foo', 'bar'] ===$flatMap(partial('explode', ' '), ['hello world', 'foo bar']));

##### pipe($input,$function1, $function2) Passes $input to composition of functions (functions have to be in the reversed order)

use const \nspl\op\sum;
use const \nspl\a\filter;
use const \nspl\a\map;
use const \nspl\a\reduce;
use function \nspl\f\partial;

$isEven = function($x) { return $x % 2 === 0; };$square = function($x) { return$x * $x; }; // sum of squares of all even numbers less than 20$sum = pipe(
range(1, 20),
partial(filter, $isEven), partial(map,$square),
partial(reduce, sum)
);


Tip

You can use chaining to get rid of partials in sequence transformations:

use function \nspl\a\with;

$sum = with(range(1, 20)) ->filter($isEven)
->map($square) ->reduce(sum);  ##### curried($function, $withOptionalArgs = false) Returns a curried version of the function. If you are going to curry a function which reads args with func_get_args() then pass the number of args as the 2nd argument. If the second argument is true, then curry function with optional args otherwise curry it only with required args. Alternatively, you can pass the exact number of args you want to curry. ##### uncurried($function)

Returns normal (uncurried) version of a curried function

##### memoized($function) Returns memoized $function which returns the cached result when the same inputs occur again

$f = function($arg) {
echo sprintf("Performing heavy calculations with '%s'\n", $arg); return$arg;
};

$memoized = memoized($f);
echo $memoized('Hello world!') . "\n"; echo$memoized('Hello world!') . "\n";


which outputs

Performing heavy calculations with 'Hello world!'
Hello world!
Hello world!

##### throttled($function,$wait)

Returns throttled version of the passed function, that, when invoked repeatedly, will only actually call the original function at most once per every wait milliseconds.

$f = function() { echo "Invoked\n"; };$throttled = throttled($f, 10);$startedAt = microtime(true);
do {
$throttled(); } while((microtime(true) -$startedAt) * 1000 < 30); // 30ms


which outputs

Invoked
Invoked
Invoked

##### Callbacks

nspl\f provides all its functions as callbacks in its constants which have the same names as the functions.

use const \nspl\a\map;
use const \nspl\a\filter;

$incListItems = partial(map, function($v) { return $v + 1; });$filterNumbers = partial(filter, 'is_numeric');


Check more \nspl\f examples here.

## nspl\op

Class nspl\op provides functions that perform standard PHP operations and can be passed as callbacks to higher-order functions. Mimics Python's operator module. For example:

use const nspl\op\sum;
use function nspl\a\reduce;

assert(6 === reduce(sum, [1, 2, 3]));

##### Callbacks

The module provides the following operations both as functions and callbacks. See an example below.

Function Operation
sum +
sub -
mul *
div /
mod %
inc ++
dec --
neg -
band &
bxor ^
bor |
bnot ~
lshift <<
rshift >>
lt <
le <=
eq ==
idnt ===
ne !=
nidnt !==
gt >
ge >=
and_ &&
or_ ||
xor_ xor
not !
concat .
instanceof_ instanceof
int (int)
bool (bool)
float (float)
str (string)
array_ (array)
object (object)
##### itemGetter($key) Returns a function that returns key value for a given array use function nspl\op\itemGetter; use function nspl\a\map; assert([2, 5, 8] === map(itemGetter(1), [[1, 2, 3], [4, 5, 6], [7, 8, 9]]));  ##### propertyGetter($property)

Returns a function that returns property value for a given object

$userIds = map(propertyGetter('id'),$users);

##### methodCaller($method, array$args = array())

Returns a function that returns method result for a given object on predefined arguments

$userIds = map(methodCaller('getId'),$users);

##### instanceCreator($class) Returns a function that returns a new instance of a predefined class, passing its parameters to the constructor $users = map(instanceCreator(User::class), $usersData);  Check more \nspl\op examples here. ## nspl\a Provides missing array functions which also can be applied to traversable sequences ##### all($sequence, $predicate) Returns true if all of the $sequenceitems satisfy the predicate (or if the$sequence is empty). If the predicate was not passed returns true if all of the $sequence items are true.

assert(true === all([true, true, true]));

##### any($sequence,$predicate)

Returns true if any of the $sequence items satisfy the predicate. If the predicate was not passed returns true if any of the $sequence items are true.

assert(true === any([true, false, false]));

##### map($function,$sequence)

Applies function of one argument to each sequence item

assert(['A', 'B', 'C'] === map('strtoupper', ['a', 'b', 'c']));

##### flatMap($function,$sequence)

Applies function of one argument to each sequence item and flattens the result

$duplicate = function($v) { return [$v,$v]; }
assert(['hello', 'hello', 'world', 'world'] === flatMap($duplicate, ['hello', 'world']));  ##### zip($sequence1, $sequence2) Zips two or more sequences assert([[1, 'a'], [2, 'b'], [3, 'c']] === zip([1, 2, 3], ['a', 'b', 'c']));  ##### zipWith($function, $sequence1,$sequence2)

Generalises zip by zipping with the function given as the first argument, instead of an array-creating function

use const \nspl\op\sum;

assert([101, 1002, 10003] === zipWith(sum, [1, 2, 3], [100, 1000, 10000]));

##### reduce($function,$sequence, $initial = 0) Applies function of two arguments cumulatively to the sequence items, from left to right to reduce the sequence to a single value assert(6 === reduce(function($a, $b) { return$a + $b; }, [1, 2, 3])); // Which is the same as use const \nspl\op\sum; assert(6 === reduce(sum, [1, 2, 3]));  ##### filter($predicate, $sequence) Returns sequence items that satisfy the predicate assert([1, 2, 3] === filter('is_numeric', ['a', 1, 'b', 2, 'c', 3]));  ##### filterNot($predicate, $sequence) Returns sequence items that don't satisfy the predicate assert(['a', 'b', 'c'] === filterNot('is_numeric', ['a', 1, 'b', 2, 'c', 3]));  ##### take($sequence, $N,$step = 1)

Returns the first N sequence items with the given step

assert([1, 3, 5] === take([1, 2, 3, 4, 5, 6, 7, 8, 9], 3, 2));

##### takeKeys($sequence, array$keys)

Returns sequence containing only the given keys

assert(array('hello' => 1, 'world' => 2) === takeKeys(array('hello' => 1, 'world' => 2, 'foo' => 3), ['hello', 'world']));

##### takeWhile($predicate,$sequence)

Returns the longest sequence prefix of all items which satisfy the predicate

assert([1, 2, 3] === takeWhile('is_numeric', [1, 2, 3, 'a', 'b', 'c', 4, 5, 6]));

##### first($sequence) Returns the first sequence item assert(1 === first([1, 2, 3, 4, 5, 6, 7, 8, 9]));  ##### second($sequence)

Returns the second sequence item

assert(2 === second([1, 2, 3, 4, 5, 6, 7, 8, 9]));

##### drop($sequence,$N)

Drops the first N sequence items

assert([7, 8, 9] === drop([1, 2, 3, 4, 5, 6, 7, 8, 9], 6));

##### dropKeys($sequence, array$keys)

Returns array containing all keys except the given ones

assert(array('hello' => 1, 'world' => 2) === dropKeys(array('hello' => 1, 'world' => 2, 'foo' => 3), ['foo']));

##### dropWhile($predicate,$sequence)

Drops the longest sequence prefix of all items which satisfy the predicate

assert(['a', 'b', 'c', 4, 5, 6] === dropWhile('is_numeric', [1, 2, 3, 'a', 'b', 'c', 4, 5, 6]));


$indexedById = indexed([ array('id' => 1, 'name' => 'John'), array('id' => 2, 'name' => 'Kate'), array('id' => 3, 'name' => 'Robert'), ], 'id');  ##### sorted($sequence, $reversed = false,$key = null, $cmp = null) Returns array which contains sorted items from the passed sequence If $reversed is true then return reversed sorted sequence. If $reversed is not boolean and $key was not passed then acts as a $key parameter $key is a function of one argument that is used to extract a comparison key from each item $cmp is a function of two arguments which returns a negative number, zero or positive number depending on whether the first argument is smaller than, equal to, or larger than the second argument assert([1, 2, 3] === sorted([2, 3, 1])); assert(['c', 'b', 'a'] === sorted(['c', 'a', 'b'], true));$usersSortedByName = sorted($users, function($u) { return $u->getName(); }); // Which is the same as use function \nspl\op\methodCaller;$usersSortedByName = sorted($users, methodCaller('getName'));  Check more \nspl\a\sorted examples here. ##### keySorted($sequence, $reversed = false) Returns array which contains sequence items sorted by keys assert(array('a' => 1, 'b' => 2, 'c' => 3) === keySorted(array('b' => 2, 'c' => 3, 'a' => 1));  ##### flatten($sequence, $depth = null) Flattens multidimensional sequence assert([1, 2, 3, 4, 5, 6, 7, 8, 9] === flatten([[1, [2, [3]]], [[[4, 5, 6]]], 7, 8, [9]])); assert([1, 2, [3], [4, 5, 6], 7, 8, 9] === flatten([[1, [2, [3]]], [[[4, 5, 6]]], 7, 8, [9]], 2));  ##### pairs($sequence, $valueKey = false) Returns a list of (key, value) pairs. If $valueKey is true then returns (value, key) pairs.

assert([['a', 'hello'], ['b', 'world'], ['c', 42]] === pairs(array('a' => 'hello', 'b' => 'world', 'c' => 42)));

##### merge($sequence1,$sequence2)

Returns array containing $sequence1 items and $sequence2 items

assert([1, 2, 3, 4, 5, 6] === merge([1, 2, 3], [4, 5, 6]));

##### reorder(array $list,$from, $to) Moves list item to another position assert([2, 0, 1] === reorder([0, 1, 2], 2, 0)); // move item from the 2nd position to the begining of the list  ##### value($array, $key,$default = null)

Returns array value by key if it exists otherwise returns the default value

$data = array('a' => 1, 'b' => 2, 'c' => 3); assert(2 === value($data, 'b', -1));
assert(-1 === value($data, 'd', -1));  ##### values($sequence)

Returns list of the sequence values

assert([1, 2, 3] === values(array('a' => 1, 'b' => 2, 'c' => 3)));

##### keys($sequence) Returns list of the sequence keys assert(['a', 'b', 'c'] === keys(array('a' => 1, 'b' => 2, 'c' => 3)));  ##### in($item, $sequence) Checks if the item is present in array or traversable object assert(true === in(1, [1, 2, 3]);  ##### diff($sequence1, $sequence2) Computes the difference of arrays or traversable objects assert([1] === diff([1, 2, 3], new ArrayObject([2, 3, 4]));  ##### intersect($sequence1, $sequence2) Computes the intersection of arrays or traversable objects assert([2, 3] === intersect([1, 2, 3], new ArrayObject([2, 3, 4]));  ##### cartesianProduct($sequences)

Computes the cartesian product of two or more arrays or traversable objects

assert([
[1, 'a'],
[1, 'b'],
[2, 'a'],
[2, 'b'],
], cartesianProduct([1, 2], ['a', 'b']));

assert([
array('hello' => 1, 'world' => 'a'),
array('hello' => 1, 'world' => 'b'),
array('hello' => 2, 'world' => 'a'),
array('hello' => 2, 'world' => 'b'),
], cartesianProduct(array('hello' => [1, 2], 'world' => ['a', 'b'])));

##### isList($var) Returns true if the variable is a list ##### Chaining It is possible to chain array function calls using the with function: use function nspl\op\sum;$square = function($n) { return$n * $n; };$isEven = function($n) { return$n % 2 === 0; };

$sum = with(range(1, 5)) ->filter($isEven)
->map($square) ->reduce(sum); assert(20 ===$sum);

##### Callbacks

nspl\a provides all its functions as callbacks in its constants which have the same names as the functions.

use const \nspl\a\first;
assert([1, 2, 3] === map(first, [[1, 'a'], [2, 'b'], [3, 'c']]));


Check more \nspl\a examples here.

## nspl\a\lazy

Provides lazy versions of functions from nspl\a

This module might be useful when you don't need to process all the values from an array or any other traversable sequence. To understand how these lazy functions work let's have a look at the following example.

Let's define a function which wraps a generator function and logs all the values it yields. It will help up us to see the order of function calls:

// Calls generator function and logs the yielded values
function logged(callable $generatorFunction) { static$count = 1;
return function(...$args) use ($generatorFunction, &$count) { foreach ($generatorFunction(...$args) as$value) {
echo $count++ . '. ' . (string)$generatorFunction . ' -> ' . $value . "\n"; yield$value;
};
};
}


To have some data to operate on, let's define a function which returns all natural numbers. Since it returns all the natural numbers it never terminates:

function naturalNumbers()
{
$current = 1; while (true) yield$current++;
}
const naturalNumbers = 'naturalNumbers';


Also, let's define the operations we want to perform on those numbers:

// Returns square of a number
function square($n) { return$n * $n; } const square = 'square'; // Checks if a number is even function isEven($n)
{
return $n % 2 === 0; } const isEven = 'isEven';  Now let's assume we want to take the first three even natural numbers and calculate their squares: use const nspl\a\lazy\{take, map, filter};$map = logged(map);
$take = logged(take);$filter = logged(filter);
$numbers = logged(naturalNumbers)();$evenNumbers = $filter(isEven,$numbers); // filter only even numbers
$firstThreeEvenNumbers =$take($evenNumbers, 3); // take only first 3 even numbers$result = $map(square,$firstThreeEvenNumbers); // and calculate their squares

foreach ($result as$value) {
echo "\nNext value is $value \n\n"; }  When we run this example we'll see the following output: 1. naturalNumbers -> 1 2. naturalNumbers -> 2 3. \nspl\a\lazy\filter -> 2 4. \nspl\a\lazy\take -> 2 5. \nspl\a\lazy\map -> 4 Next value is 4 6. naturalNumbers -> 3 7. naturalNumbers -> 4 8. \nspl\a\lazy\filter -> 4 9. \nspl\a\lazy\take -> 4 10. \nspl\a\lazy\map -> 16 Next value is 16 11. naturalNumbers -> 5 12. naturalNumbers -> 6 13. \nspl\a\lazy\filter -> 6 14. \nspl\a\lazy\take -> 6 15. \nspl\a\lazy\map -> 36 Next value is 36  If we used regular non-lazy versions of these functions, we would generate all the natural numbers, then filtered only even numbers, then took only the first three of them and then calculated their squares. Instead of that, you see that functions were called one by one passing the result to the next function until we completed the full cycle: 1. We took the first natural number 1. It wasn't even, so we skipped it 2. We took the next one 2, it was even 3. So it passed the filter function 4. It was the first number we took, so it passed through the take function as well 5. Then we calculated its square and printed the result The same repeated on steps 6-10 and 11-15. On step 14 the take function took the last third number. So after step 15, when map requested the next value take didn't yield anything, and the whole iteration was finished. Check this example here. It possible to rewrite the code above using chaining: $result = with(naturalNumbers())
->filter(isEven)
->take(3)
->map(square);


Tip

Note that while functions from \nspl\a\lazy allow you to avoid redundant computations, in case when you need to process all sequence values, functions from \nspl\a will do the job faster.

## nspl\args

Helps to validate function arguments

##### expects($constraints,$arg, $atPosition = null,$otherwiseThrow = '\InvalidArgumentException')

Checks that argument satisfies the required constraints otherwise throws the corresponding exception.

$constraints are callable(s) which return(s) true if the argument satisfies the requirements or it also might contain the required class name(s) If $atPosition is null, then the position is calculated automatically comparing given argument to the actual arguments passed to the function $otherwiseThrow defines exception which will be thrown if the given argument is invalid, it can be the exception class or exception object use const \nspl\args\int; use const \nspl\args\string; use const \nspl\args\arrayAccess; use function \nspl\args\expects; function nth($sequence, $n) { expects([arrayAccess, string],$sequence);
expects(int, $n); return$sequence[$n]; } nth('hello world', 'blah');  Outputs: InvalidArgumentException: Argument 2 passed to nth() must be integer, string 'blah' given in /path/to/example.php on line 17 Call Stack: 0.0002 230304 1. {main}() /path/to/example.php:0 0.0023 556800 2. sqr() /path/to/example.php:17  ##### expectsAll($constraints, array $args, array$atPositions = [], $otherwiseThrow = '\InvalidArgumentException') Checks that all specified arguments satisfy the required constraints otherwise throws the corresponding exception. use const \nspl\args\numeric; use function \nspl\args\expects; function sum($x, $y) { expectsAll(numeric, [$x, $y]); return$x + $y; }  ##### expectsOptional($constraints, $arg,$atPosition = null, $otherwiseThrow = '\InvalidArgumentException') Checks that argument is null or satisfies the required constraints otherwise throws the corresponding exception. function splitBy($string, $separator = ' ',$limit = null)
{
expectsAll(string, [$string,$separator]);
expectsOptional(int, $limit); return explode($separator, $string,$limit);
}

##### Predefined constraints

The module provides predefined constraints. Which can be one of the two types:

• OR-constraints which are evaluated with or operator (e.g. expects([int, string], $arg) evaluates as $arg has to be an int or a string)
• AND-constraints which are evaluated with and operator (e.g. expects([string, longerThan(3), shorterThan(10)], $arg) evaluates as $arg has to be a string longer than 3 characters and shorter than 10 characters). If you want to evaluate several AND-constraints as they were OR-constraints you can use any constraint. If you want to evaluate several OR-constraints as they were AND-constraints you can use all constraint
Callback Explanation Type
bool Checks that argument is a bool OR
int Checks that argument is an int OR
float Checks that argument is a float OR
numeric Checks that argument is numeric OR
string Checks that argument is a string OR
array_ Checks that argument is an array OR
object Checks that argument is an object OR
callable_ Checks that argument is callable OR
arrayKey Checks that argument can be an array key OR
traversable Checks that argument can be traversed with foreach OR
arrayAccess Checks that argument supports array index access OR
nonEmpty Checks that argument is not empty AND
positive Checks that argument is positive (> 0) AND
nonNegative Checks that argument is not negative (>= 0) AND
nonZero Checks that argument is not zero (!== 0) AND
any(constraint1, ..., constraintN) Checks constraints as if they were OR-constraints AND
all(constraint1, ..., constraintN) Checks constraints as if they were AND-constraints AND
not(constraint1, ..., constraintN) Checks that argument does't satisfy all listed constraints AND
values(value1, ..., valueN) Checks that argument is one of the specified values AND
longerThan($threshold) Checks that string argument is longer than given threshold AND shorterThan($threshold) Checks that string argument is shorter than given threshold AND
biggerThan($threshold) Checks that number is bigger than given threshold AND smallerThan($threshold) Checks that number is smaller than given threshold AND
hasKey($key) Checks that argument supports array index access and has given key AND hasKeys($key1, ..., $keyN) Checks that argument supports array index access and has given keys AND hasMethod($method) Checks that argument is an object and has given method AND
hasMethods($method1, ...,$methodN) Checks that argument is an object and has given methods AND
function setUsername($username) { expects([string, longerThan(3), shorterThan(10)],$username);
// ...
}

function setState($state) { expects(values('running', 'idle', 'stopped'),$state);
// ...
}


Duck-typing example:

class Service
{
// ...
public function setCache($cache) { expects(withMethods('set', 'get'),$cache);
$this->cache =$cache;
}
// ....
}

##### Custom constraints

It is possible to use custom constraints. Just define a new function which returns true when argument satisfies the constraint:

function even($value) { return is_int($value) && $value %2 === 0; } function half($number)
{
expects('even', $number); return$number / 2;
}


or we can make it more convenient to use introducing a constant:

const even = 'even';

function half($number) { expects(even,$number);
return $number / 2; } half('pie');  Outputs: InvalidArgumentException: Argument 1 passed to half() must be even, string 'pie' given in /path/to/example.php on line 25 Call Stack: 0.0009 253640 1. {main}() /path/to/example.php:0 0.0123 673984 2. half() /path/to/example.php:25  If you need to create a constraint which takes arguments, you must create a callable object which implements \nspl\args\Constraint interface. It contains two methods: • __invoke($value) - returns true if the value satisfies the constraint
• __toString() - returns text which will be used in the exception when the value doesn't satisfy the constraint. The text must contain a message which goes after "must" in the exception message.

## nspl\ds

Provides non-standard data structures and methods to work with them

##### DefaultArray

Array with a default value for missing keys. If you pass a function as default value it will be called without arguments to provide a default value for the given key, this value will be inserted in the array for the key, and returned. Using DefaultArray turns this code:

$a = array(); foreach([1, 2, 1, 1, 3, 3, 3] as$v) {
if (!isset($a[$v])) {
$a[$v] = 0;
}
++$a[$v];
}


into this:

$a = defaultarray(0); foreach([1, 2, 1, 1, 3, 3, 3] as$v) {
++$a[$v];
}

##### defaultarray($default,$data = array())

Returns new DefaultArray

##### Set

An array-like collection that contains no duplicate elements. It supports basic set operations which take other sets, arrays and traversable objects as arguments

$set = set(1, 2);$set->add('hello');
$set[] = 'world';$set->delete('hello');

$array = [1, 2, 3];$intersection = $set->intersection($array);

$anotherSet = Set::fromArray([1, 2, 3]);$difference = $set->difference($anotherSet);

$iterator = new \ArrayIterator([1, 2, 3]);$union = $set->union($iterator);

$isSubset =$set->isSubset([1, 2, 'hello', 'world']);

$isSuperset =$set->isSuperset([1, 2]);

##### set

Returns new Set

Check more \nspl\ds examples here.

## nspl\rnd

##### randomString($length) Returns a random alpha-numeric string of the given length ##### choice($sequence)

Returns a random item from a non-empty sequence

$nextFavouriteColor = weightedChoice(pairs(array( 'red' => 0.2, 'green' => 0.3, 'blue' => 0.5, )));  ##### sample($population, $length,$preserveKeys = false)

Returns a k length list of unique items chosen from the population sequence

Check more \nspl\rnd examples here.

## nspl

##### getType(\$var)

Returns the variable type or its class name if it is an object

• Rewrite library using the latest features from PHP 7.2
• Move nspl\args` into a separate module

# Contributing

This project uses semantic versioning to tag releases. Please submit your pull requests to the latest release branch where the issue was introduced.

# Feedback

There are no mailing lists or discussion groups yet. Please use GitHub issues and pull request or follow me on Twitter @IhorBurlachenko

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