marc-mabe / php-enum
Simple and fast implementation of enumerations with native PHP
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Requires
- php: ^7.1 | ^8.0
- ext-reflection: *
Requires (Dev)
- phpbench/phpbench: ^0.16.10 || ^1.0.4
- phpstan/phpstan: ^1.3.1
- phpunit/phpunit: ^7.5.20 | ^8.5.22 | ^9.5.11
- vimeo/psalm: ^4.17.0 | ^5.26.1
- dev-master / 4.7.x-dev
- v4.7.1
- v4.7.0
- v4.6.1
- v4.6.0
- v4.6.0-rc1
- v4.4.0
- v4.3.0
- v4.3.0-rc1
- v4.2.0
- v4.1.1
- v4.1.0
- v4.0.0
- v4.0.0-rc1
- 3.x-dev
- v3.2.0
- v3.1.1
- v3.1.0
- v3.1.0-rc1
- v3.0.2
- v3.0.1
- v3.0.0
- v3.0.0-rc3
- v3.0.0-rc2
- v3.0.0-rc1
- 2.x-dev
- v2.3.2
- v2.3.1
- v2.3.0
- v2.3.0-rc1
- v2.2.1
- v2.2.0
- v2.1.0
- v2.0.0
- v2.0.0-beta1
- 1.x-dev
- v1.3.0
- v1.2.0
- v1.1.0
- v1.0.0
- 1.0.0-beta2
- 1.0.0-beta1
- dev-clear-serialization-error-message
- dev-php-8.2-3-4
This package is auto-updated.
Last update: 2024-11-28 12:12:56 UTC
README
This is a native PHP implementation to add enumeration support to PHP. It's an abstract class that needs to be extended to use it.
What is an Enumeration?
In computer programming, an enumerated type (also called enumeration or enum) is a data type consisting of a set of named values called elements, members or enumerators of the type. The enumerator names are usually identifiers that behave as constants in the language. A variable that has been declared as having an enumerated type can be assigned any of the enumerators as a value. In other words, an enumerated type has values that are different from each other, and that can be compared and assigned, but which do not have any particular concrete representation in the computer's memory; compilers and interpreters can represent them arbitrarily.
Usage
Basics
use MabeEnum\Enum; // define an own enumeration class class UserStatus extends Enum { const INACTIVE = 'i'; const ACTIVE = 'a'; const DELETED = 'd'; // all scalar data types and arrays are supported as enumerator values const NIL = null; const BOOLEAN = true; const INT = 1234; const STR = 'string'; const FLOAT = 0.123; const ARR = ['this', 'is', ['an', 'array']]; // Enumerators will be generated from public constants only public const PUBLIC_CONST = 'public constant'; // this will be an enumerator protected const PROTECTED_CONST = 'protected constant'; // this will NOT be an enumerator private const PRIVATE_CONST = 'private constant'; // this will NOT be an enumerator // works since PHP-7.0 - see https://wiki.php.net/rfc/context_sensitive_lexer const TRUE = 'true'; const FALSE = 'false'; const NULL = 'null'; const PUBLIC = 'public'; const PRIVATE = 'private'; const PROTECTED = 'protected'; const FUNCTION = 'function'; const TRAIT = 'trait'; const INTERFACE = 'interface'; // Doesn't work - see https://wiki.php.net/rfc/class_name_scalars // const CLASS = 'class'; } // ways to instantiate an enumerator $status = UserStatus::get(UserStatus::ACTIVE); // by value or instance $status = UserStatus::ACTIVE(); // by name as callable $status = UserStatus::byValue('a'); // by value $status = UserStatus::byName('ACTIVE'); // by name $status = UserStatus::byOrdinal(1); // by ordinal number // basic methods of an instantiated enumerator $status->getValue(); // returns the selected constant value $status->getName(); // returns the selected constant name $status->getOrdinal(); // returns the ordinal number of the selected constant // basic methods to list defined enumerators UserStatus::getEnumerators(); // returns a list of enumerator instances UserStatus::getValues(); // returns a list of enumerator values UserStatus::getNames(); // returns a list of enumerator names UserStatus::getOrdinals(); // returns a list of ordinal numbers UserStatus::getConstants(); // returns an associative array of enumerator names to enumerator values // same enumerators (of the same enumeration class) holds the same instance UserStatus::get(UserStatus::ACTIVE) === UserStatus::ACTIVE() UserStatus::get(UserStatus::DELETED) != UserStatus::INACTIVE() // simplified way to compare two enumerators $status = UserStatus::ACTIVE(); $status->is(UserStatus::ACTIVE); // true $status->is(UserStatus::ACTIVE()); // true $status->is(UserStatus::DELETED); // false $status->is(UserStatus::DELETED()); // false
Type-Hint
use MabeEnum\Enum; class User { protected $status; public function setStatus(UserStatus $status) { $this->status = $status; } public function getStatus() { if (!$this->status) { // initialize default $this->status = UserStatus::INACTIVE(); } return $this->status; } }
Type-Hint issue
Because in normal OOP the above example allows UserStatus
and types inherited from it.
Please think about the following example:
class ExtendedUserStatus extends UserStatus { const EXTENDED = 'extended'; } $user = new User(); $user->setStatus(ExtendedUserStatus::EXTENDED());
Now the setter receives a status it doesn't know about but allows it.
Solution 1: Finalize the enumeration
final class UserStatus extends Enum { // ... } class User { protected $status; public function setStatus(UserStatus $status) { $this->status = $status; } }
-
Nice and obvious solution
-
Resulting behaviour matches native enumeration implementation of most other languages (like Java)
But as this library emulates enumerations it has a few downsides:
-
Enumerator values can not be used directly
$user->setStatus(UserStatus::ACTIVE)
fails$user->setStatus(UserStatus::ACTIVE())
works
-
Does not help if the enumeration was defined in an external library
Solution 2: Using Enum::get()
class User { public function setStatus($status) { $this->status = UserStatus::get($status); } }
-
Makes sure the resulting enumerator exactly matches an enumeration. (Inherited enumerators are not allowed).
-
Allows enumerator values directly
$user->setStatus(UserStatus::ACTIVE)
works$user->setStatus(UserStatus::ACTIVE())
works
-
Also works for enumerations defined in external libraries
But of course this solution has downsides, too:
-
Looses declarative type-hint
-
A bit slower
EnumSet
An EnumSet
is a specialized Set implementation for use with enumeration types.
All of the enumerators in an EnumSet
must come from a single enumeration type that is specified, when the set is
created.
Enum sets are represented internally as bit vectors. The bit vector is either an integer type or a binary string type
depending on how many enumerators are defined in the enumeration type. This representation is extremely compact and
efficient. Bulk operations will run very quickly. Enumerators of an EnumSet
are unique and ordered based on its
ordinal number by design.
It implements IteratorAggregate
and Countable
to be directly iterable with foreach
and countable with count()
.
The EnumSet
has a mutable and an immutable interface.
Mutable methods start with set
, add
or remove
while immutable methods start with with
.
use MabeEnum\EnumSet; // create a new EnumSet and initialize with the given enumerators $enumSet = new EnumSet('UserStatus', [UserStatus::ACTIVE()]); // modify an EnumSet (mutable interface) // add enumerators (by value or by instance) $enumSet->addIterable([UserStatus::INACTIVE, UserStatus::DELETED()]); // or $enumSet->add(UserStatus::INACTIVE); $enumSet->add(UserStatus::DELETED()); // remove enumerators (by value or by instance) $enumSet->removeIterable([UserStatus::INACTIVE, UserStatus::DELETED()]); // or $enumSet->remove(UserStatus::INACTIVE); $enumSet->remove(UserStatus::DELETED()); // The immutable interface will create a new EnumSet for each modification // add enumerators (by value or by instance) $enumSet = $enumSet->withIterable([UserStatus::INACTIVE, UserStatus::DELETED()]); // or $enumSet = $enumSet->with(UserStatus::INACTIVE); $enumSet = $enumSet->with(UserStatus::DELETED()); // remove enumerators (by value or by instance) $enumSet->withoutIterable([UserStatus::INACTIVE, UserStatus::DELETED()]); // or $enumSet = $enumSet->without(UserStatus::INACTIVE); $enumSet = $enumSet->without(UserStatus::DELETED()); // Test if an enumerator exists (by value or by instance) $enumSet->has(UserStatus::INACTIVE); // bool // count the number of enumerators $enumSet->count(); count($enumSet); // test for elements $enumSet->isEmpty(); // convert to array $enumSet->getValues(); // List of enumerator values $enumSet->getEnumerators(); // List of enumerator instances $enumSet->getNames(); // List of enumerator names $enumSet->getOrdinals(); // List of ordinal numbers // iterating over the set foreach ($enumSet as $ordinal => $enum) { gettype($ordinal); // int (the ordinal number of the enumerator) get_class($enum); // UserStatus (enumerator object) } // compare two EnumSets $enumSet->isEqual($other); // Check if the EnumSet is the same as other $enumSet->isSubset($other); // Check if the EnumSet is a subset of other $enumSet->isSuperset($other); // Check if the EnumSet is a superset of other // union, intersect, difference and symmetric difference // ... the mutable interface will modify the set $enumSet->setUnion($other); // Enumerators from both this and other (this | other) $enumSet->setIntersect($other); // Enumerators common to both this and other (this & other) $enumSet->setDiff($other); // Enumerators in this but not in other (this - other) $enumSet->setSymDiff($other); // Enumerators in either this and other but not in both (this ^ other) // ... the immutable interface will produce a new set $enumSet = $enumSet->withUnion($other); // Enumerators from both this and other (this | other) $enumSet = $enumSet->withIntersect($other); // Enumerators common to both this and other (this & other) $enumSet = $enumSet->withDiff($other); // Enumerators in this but not in other (this - other) $enumSet = $enumSet->withSymDiff($other); // Enumerators in either this and other but not in both (this ^ other)
EnumMap
An EnumMap
maps enumerators of the same type to data assigned to.
It implements ArrayAccess
, Countable
and IteratorAggregate
so elements can be accessed, iterated and counted like a normal array
using $enumMap[$key]
, foreach
and count()
.
use MabeEnum\EnumMap; // create a new EnumMap $enumMap = new EnumMap('UserStatus'); // read and write key-value-pairs like an array $enumMap[UserStatus::INACTIVE] = 'inaktiv'; $enumMap[UserStatus::ACTIVE] = 'aktiv'; $enumMap[UserStatus::DELETED] = 'gelöscht'; $enumMap[UserStatus::INACTIVE]; // 'inaktiv'; $enumMap[UserStatus::ACTIVE]; // 'aktiv'; $enumMap[UserStatus::DELETED]; // 'gelöscht'; isset($enumMap[UserStatus::DELETED]); // true unset($enumMap[UserStatus::DELETED]); isset($enumMap[UserStatus::DELETED]); // false // ... no matter if you use enumerator values or enumerator objects $enumMap[UserStatus::INACTIVE()] = 'inaktiv'; $enumMap[UserStatus::ACTIVE()] = 'aktiv'; $enumMap[UserStatus::DELETED()] = 'gelöscht'; $enumMap[UserStatus::INACTIVE()]; // 'inaktiv'; $enumMap[UserStatus::ACTIVE()]; // 'aktiv'; $enumMap[UserStatus::DELETED()]; // 'gelöscht'; isset($enumMap[UserStatus::DELETED()]); // true unset($enumMap[UserStatus::DELETED()]); isset($enumMap[UserStatus::DELETED()]); // false // count number of attached elements $enumMap->count(); count($enumMap); // test for elements $enumMap->isEmpty(); // support for null aware exists check $enumMap[UserStatus::NULL] = null; isset($enumMap[UserStatus::NULL]); // false $enumMap->has(UserStatus::NULL); // true // iterating over the map foreach ($enumMap as $enum => $value) { get_class($enum); // UserStatus (enumerator object) gettype($value); // mixed (the value the enumerators maps to) } // get a list of keys (= a list of enumerator objects) $enumMap->getKeys(); // get a list of values (= a list of values the enumerator maps to) $enumMap->getValues();
Serializing
Because this enumeration implementation is based on a singleton pattern and in PHP it's currently impossible to unserialize a singleton without creating a new instance this feature isn't supported without any additional work.
As of it's an often requested feature there is a trait that can be added to your enumeration definition. The trait adds serialization functionallity and injects the unserialized enumeration instance in case it's the first one. This reduces singleton behavior breakage but still it beaks if it's not the first instance and you could result in two different instance of the same enumeration.
Use it with caution!
PS: EnumSet
and EnumMap
are serializable by default as long as you don't set other non-serializable values.
Example of using EnumSerializableTrait
use MabeEnum\Enum; use MabeEnum\EnumSerializableTrait; use Serializable; class CardinalDirection extends Enum implements Serializable { use EnumSerializableTrait; const NORTH = 'n'; const EAST = 'e'; const WEST = 'w'; const SOUTH = 's'; } $north1 = CardinalDirection::NORTH(); $north2 = unserialize(serialize($north1)); var_dump($north1 === $north2); // returns FALSE as described above var_dump($north1->is($north2)); // returns TRUE - this way the two instances are treated equal var_dump($north2->is($north1)); // returns TRUE - equality works in both directions
Generics and Static Code Analyzer
With version 4.3 we have added support for generics and added better type support.
EnumSet<T of Enum>
EnumMap<T of Enum>
Generic types will be detected by PHPStan and Psalm.
Additionally, we have developed an extension for PHPStan to make enumerator accessor methods known.
Why not SplEnum
SplEnum
is not built-in into PHP and requires pecl extension installed.- Instances of the same value of an
SplEnum
are not the same instance. - No support for
EnumMap
orEnumSet
.
Changelog
Changes are documented in the release page.
Install
Composer
Add marc-mabe/php-enum
to the project's composer.json dependencies and run
php composer.phar install
GIT
git clone git://github.com/marc-mabe/php-enum.git
ZIP / TAR
Download the last version from Github and extract it.
Versioning and Releases
This project follows SemVer specification.
There are no LTS releases and we don't have (fixed) time based release windows. Instead releases happen as necessary.
We do support at least all maintained PHP versions.
Bug fixes will be backported to the latest maintained minor release.
Critical bug fixes and security relates fixes can also be backported to older releases.
New BSD License
The files in this archive are released under the New BSD License. You can find a copy of this license in LICENSE.txt file.