/scalp

Some Scala useful classes ported to PHP.

Primary LanguagePHP

Build Status Scrutinizer Code Quality

Scalp

Scalp

Option

The Option type represents optional value. It can be either Some value or None.

function divide(int $x, int $y): Option
{
    return $y === 0 ? None() : Some(intdiv($x, $y));
}

println(divide(42, 6));
println(divide(42, 0));
Some[int](7)
None

Option can be used as collection with map, flatMap or filter.

$option = Option(42);

$square = function (int $x): int {
   return $x ** 2;
};

println($option->map($square));

$isOdd = function (int $x): bool {
   return $x % 2 === 1;
};

println($option->filter($isOdd));

$squareRoot = function (int $x): Option {
   return $x >= 0 ? Some(sqrt($x)) : None();
};

println($option->flatMap($squareRoot));
Some[integer](1764)
None
Some[double](6.4807406984079)

Computation performed on Some can also be performed on None without any side effect. The only difference is that the result is always None.

println(None()->map($square));
println(None()->filter($isOdd));
println(None()->flatMap($squareRoot));
None
None
None

Function Currying

Function currying allows to use function as a function of lower arity by providing arguments in separated steps.

use function Scalp\curry;
use function Scalp\println;

$match = curry('preg_match');

$containsFoo = $match('/foo/');
$containsBar = $match('/bar/');

println($containsFoo('foobar'));   // 1
println($containsFoo('foofoo'));   // 1
println($containsFoo('barbar'));   // 0

println($containsBar('foobar'));   // 1
println($containsBar('foofoo'));   // 0
println($containsBar('barbar'));   // 1

Partial Function Application

Partial function application lets to apply some of function arguments immediately, while rest of them can be applied later.

$isEven = function (int $x): bool {
    return $x % 2 === 0;
};

$filterEven = papply(array_filter, __, $isEven);

println(AnyToString(
    $filterEven([-2, -1, 0, 1, 2])
));

println(AnyToString(
    $filterEven([11, 13, 17, 19])
));
Array(-2, 0, 2)
Array()

Tuple

Tuple is a data structure that holds elements of different types. Pair is factory function for Tuple with two elements.

$singleton = Tuple(42);

$pair      = Pair('Life', 42);

$triple    = Tuple('text', 27, false);

Tuple exposes its elements by properties with names _1, _2 to _N.

Elements of Tuple cannot be set.

Scalp\Conversion

AnyToString

Converts any type to string. In case of value type looks for implicit conversion function and if not found casts to value string. In case of object type at first looks if object implements toString or __toString method, then looks for implicit conversion and if none of then has been found return object hash id.

echo AnyToString(null) . "\n";
echo AnyToString(false) . "\n";
echo AnyToString(36.6) . "\n";
echo AnyToString(printAny(new class { function toString(): string { return 'Hello World!'; }});) . "\n";
null
false
36.6
Hello World!

Implicit conversion

Implicit conversion is a function that convert value of one type into another.

Current version does not provide support for implicit conversion. Very simplified version is used by AnyToString. Implicit conversion should have name following convention [TypeA]To[TypeB]. In example in case of conversions able to convert value of some type to string, AnyToString will look for functions with name [Type]ToString.

Scalp\PatternMatching

Pattern matching is a mechanism for checking value against a pattern. You can think of it as of advanced switch statement. In opposition to switch and if statements, pattern matching is an expression (it returns value, like ternary operator ?:). General use of pattern matching expression:

$result = match($subject)
    ->case($pattern1, $callableToRunForPattern1)
    ->case($pattern2, $callableToRunForPattern2)
    ...
    ->case($patternN, $callableToRunForPatternN)
    ->done();

Case patterns are checked in order of declaration. When more general pattern is declared before specific one, it will always fall into the general case.

Case classes and type deconstruction

CaseClass is an interface that ensures existing of deconstruct method. Deconstruct method should return arguments used to construct instance of given type. You can use trait Deconstruction to provide the ability to deconstruct. It enables pattern matching to compare immutable complex type values.

In example the Option type is implemented as case class.

abstract class Option implements CaseClass
{
    use Deconstruction;

    ...
}

final class Some extends Option
{
    private $value;

    public function __construct($value)
    {
        $this->construct($value);

        $this->value = $value;
    }

    ...
}

Patterns

The most basic pattern is Any, it will match anything.

$res0 = match(42)
    ->case(Any(), function (): string { return 'Anything'; })
    ->done();

// $res0 === 'Anything'

$res1 = match(Some(42))
    ->case(Any(), function (): string { return 'Anything'; })
    ->done();

// $res1 === 'Anything'

Value pattern does regular comparison with === for primitive types or == for objects. When loose comparison is used, objects properties are also compared with == (see 3rd example).

$res2 = match(42)
    ->case(Value(13), function (): string { return 'Number 13'; })
    ->case(Value('42'), function (): string { return 'String "42"'; })
    ->case(Value(42), function (): string { return 'Number 42'; })
    ->case(Any(), function (): string { return 'Fallback'; })
    ->done();

// $res2 === 'Number 42'

$res3 = match(Some(42))
    ->case(Value(Some(13)), function (): string { return 'Some 13'; })
    ->case(Value(Some(42)), function (): string { return 'Some 42'; })
    ->case(Any(), function (): string { return 'Fallback'; })
    ->done();

// $res3 === 'Some 42'

$res4 = match(Some(42))
    ->case(Value(Some('42')), function (): string { return 'Some 42'; })
    ->case(Any(), function (): string { return 'Fallback'; })
    ->done();

// $res4 === 'Some 42'

The Type can be used as simple pattern that checks value type.

$res5 = match(42)
    ->case(Type('string'), function (): string { return 'String'; })
    ->case(Type('integer'), function (): string { return 'Integer'; })
    ->case(Any(), function (): string { return 'Not integer'; })
    ->done();

// $res5 === 'integer'

$res6 = match(Some(42))
    ->case(Type(None::class), function (): string { return 'None'; })
    ->case(Type(Some::class), function (): string { return 'Some'; })
    ->case(Any(), function (): string { return 'Neither'; })
    ->done();

// $res6 === 'Some'

Type pattern works with CaseClass deconstruction. It gives tha ability to look inside type construction and pattern match its arguments.

$res7 = match(Some(42))
    ->case(Type(Some::class, Value('42')), returnString('Inner value is string'))
    ->case(Type(Some::class, Value(42)), returnString('Inner value is integer'))
    ->case(Any(), returnString('Fallback'))
    ->done();

// $res7 === 'Inner value is integer'

Value binding

Every value matched by a pattern can be bound and used as handler argument.

$res8 = match(new Tuple('2 * 7 = ', 14))
    ->case(
        Type(Tuple::class, Any()->bind(), Any()->bind()),
        function (string $question, int $answer): string { return concat('Solution: ', $question, AnyToString($answer)); }
    )
    ->case(Any(), returnString('Fallback'))
    ->done();

// $res8 === 'Solution: 2 * 7 = 14'

Example

abstract class Notification implements CaseClass {};

final class Email extends Notification
{
    public function __construct(string $sender, string $title, string $body) { ... }
}

final class SMS extends Notification
{
    public function __construct(string $caller, string $message) { ... }
}

final class VoiceRecording extends Notification
{
    public function __construct(string $contactName, string $link) { ... }
}

function showNotification(Notification $notification): string
{
    return match($notification)
        ->case(
            Type(Email::class, Type('string')->bind(), Type('string')->bind(), Any()),
            papply(concat, 'You got an email from ', __, 'with title: ', __)
        )
        ->case(
            Type(SMS::class, Type('string')->bind(), Type('string')->bind()),
            papply(concat, 'You got an SMS from ', __, '! Message: ', __)
        )
        ->case(
            Type(VoiceRecording::class, Type('string')->bind(), Type('string')->bind()),
            papply(concat, 'You received a Voice Recording from ', __, '! Click the link to hear it: ', __)
        )
        ->done();
}

$someSms = new SMS('12345', 'Are you there?');
$someVoiceRecording = new VoiceRecording('Tom', 'voicerecording.org/id/123');

println(showNotification($someSms));
println(showNotification($someVoiceRecording));
You got an SMS from 12345! Message: Are you there?
You received a Voice Recording from Tom! Click the link to hear it: voicerecording.org/id/123

Scalp\Utils

Delayed

The Delayed type represents a postponed computation. It is created from a callable -- the computation and its run arguments. The Delayed type is callable type, when called it executes the postponed computation. In order to create delayed computation use factory method dalay(callable $f, ...$args).

use function Scalp\Utils\delay;

$delayed = delay(function (int $x): int { return $x * $x; }, 2);

echo $delayed();
4

TryCatch

The TryCatch type represents computation that may either result in an exception, or return successful value.

use function Scalp\Utils\delay;
use function Scalp\Utils\TryCatch;

$computation = function (int $divisor): int {
    return intdiv(42, $divisor);
};

$success = TryCatch(delay($computation, 7));
$failure = TryCatch(delay($computation, 0));

echo "Success: $success\n";
echo "Failure: $failure\n";
Success: Success[integer](6)
Failure: Failure[DivisionByZeroError]("Division by zero")