Scalar type declarations come in two flavours: coercive (default) and strict. The following types for parameters can now be enforced (either coercively or strictly): strings (string), integers (int), floating-point numbers (float), and booleans (bool). They augment the other types introduced in PHP 5: class names, interfaces, array and callable.
<?php
// Coercive mode
function sumOfInts(int ...$ints)
{
return array_sum($ints);
}
var_dump(sumOfInts(2, '3', 4.1));
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
int(9)
To enable strict mode, a single declare directive must be placed at the top of the file. This means that the strictness of typing for scalars is configured on a per-file basis. This directive not only affects the type declarations of parameters, but also a function's return type (see return type declarations, built-in PHP functions, and functions from loaded extensions.
Full documentation and examples of scalar type declarations can be found in the type declaration reference.
PHP 7 adds support for return type declarations. Similarly to argument type declarations, return type declarations specify the type of the value that will be returned from a function. The same types are available for return type declarations as are available for argument type declarations.
<?php
function arraysSum(array ...$arrays): array
{
return array_map(function(array $array): int {
return array_sum($array);
}, $arrays);
}
print_r(arraysSum([1,2,3], [4,5,6], [7,8,9]));
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
Array ( [0] => 6 [1] => 15 [2] => 24 )
Full documentation and examples of return type declarations can be found in the return type declarations. reference.
The null coalescing operator (??) has been added as
syntactic sugar for the common case of needing to use a ternary in
conjunction with isset(). It returns its first operand
if it exists and is not NULL
; otherwise it returns its second operand.
<?php
// Fetches the value of $_GET['user'] and returns 'nobody'
// if it does not exist.
$username = $_GET['user'] ?? 'nobody';
// This is equivalent to:
$username = isset($_GET['user']) ? $_GET['user'] : 'nobody';
// Coalescing can be chained: this will return the first
// defined value out of $_GET['user'], $_POST['user'], and
// 'nobody'.
$username = $_GET['user'] ?? $_POST['user'] ?? 'nobody';
?>
The spaceship operator is used for comparing two expressions. It returns -1, 0 or 1 when $a is respectively less than, equal to, or greater than $b. Comparisons are performed according to PHP's usual type comparison rules.
<?php
// Integers
echo 1 <=> 1; // 0
echo 1 <=> 2; // -1
echo 2 <=> 1; // 1
// Floats
echo 1.5 <=> 1.5; // 0
echo 1.5 <=> 2.5; // -1
echo 2.5 <=> 1.5; // 1
// Strings
echo "a" <=> "a"; // 0
echo "a" <=> "b"; // -1
echo "b" <=> "a"; // 1
?>
Array constants can now be defined with define(). In PHP 5.6, they could only be defined with const.
<?php
define('ANIMALS', [
'dog',
'cat',
'bird'
]);
echo ANIMALS[1]; // outputs "cat"
?>
Support for anonymous classes has been added via new class. These can be used in place of full class definitions for throwaway objects:
<?php
interface Logger {
public function log(string $msg);
}
class Application {
private $logger;
public function getLogger(): Logger {
return $this->logger;
}
public function setLogger(Logger $logger) {
$this->logger = $logger;
}
}
$app = new Application;
$app->setLogger(new class implements Logger {
public function log(string $msg) {
echo $msg;
}
});
var_dump($app->getLogger());
?>
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
object(class@anonymous)#2 (0) { }
Full documentation can be found in the anonymous class reference.
This takes a Unicode codepoint in hexadecimal form, and outputs that codepoint in UTF-8 to a double-quoted string or a heredoc. Any valid codepoint is accepted, with leading 0's being optional.
echo "\u{aa}";
echo "\u{0000aa}";
echo "\u{9999}";
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
ª ª (same as before but with optional leading 0's) 香
Closure::call() is a more performant, shorthand way of temporarily binding an object scope to a closure and invoking it.
<?php
class A {private $x = 1;}
// Pre PHP 7 code
$getX = function() {return $this->x;};
$getXCB = $getX->bindTo(new A, 'A'); // intermediate closure
echo $getXCB();
// PHP 7+ code
$getX = function() {return $this->x;};
echo $getX->call(new A);
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
1 1
This feature seeks to provide better security when unserializing objects on untrusted data. It prevents possible code injections by enabling the developer to whitelist classes that can be unserialized.
<?php
// converts all objects into __PHP_Incomplete_Class object
$data = unserialize($foo, ["allowed_classes" => false]);
// converts all objects into __PHP_Incomplete_Class object except those of MyClass and MyClass2
$data = unserialize($foo, ["allowed_classes" => ["MyClass", "MyClass2"]]);
// default behaviour (same as omitting the second argument) that accepts all classes
$data = unserialize($foo, ["allowed_classes" => true]);
The new IntlChar class seeks to expose additional ICU functionality. The class itself defines a number of static methods and constants that can be used to manipulate unicode characters.
<?php
printf('%x', IntlChar::CODEPOINT_MAX);
echo IntlChar::charName('@');
var_dump(IntlChar::ispunct('!'));
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
10ffff COMMERCIAL AT bool(true)
In order to use this class, the Intl extension must be installed.
Expectations are a backwards compatible enhancement to the older assert() function. They allow for zero-cost assertions in production code, and provide the ability to throw custom exceptions when the assertion fails.
While the old API continues to be maintained for compatibility, assert() is now a language construct, allowing the first parameter to be an expression rather than just a string to be evaluated or a boolean value to be tested.
<?php
ini_set('assert.exception', 1);
class CustomError extends AssertionError {}
assert(false, new CustomError('Some error message'));
?>
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
Fatal error: Uncaught CustomError: Some error message
Full details on this feature, including how to configure it in both development and production environments, can be found in the expectations section of the assert() reference.
Classes, functions and constants being imported from the same namespace can now be grouped together in a single use statement.
<?php
// Pre PHP 7 code
use some\namespace\ClassA;
use some\namespace\ClassB;
use some\namespace\ClassC as C;
use function some\namespace\fn_a;
use function some\namespace\fn_b;
use function some\namespace\fn_c;
use const some\namespace\ConstA;
use const some\namespace\ConstB;
use const some\namespace\ConstC;
// PHP 7+ code
use some\namespace\{ClassA, ClassB, ClassC as C};
use function some\namespace\{fn_a, fn_b, fn_c};
use const some\namespace\{ConstA, ConstB, ConstC};
?>
This feature builds upon the generator functionality introduced into PHP 5.5. It enables for a return statement to be used within a generator to enable for a final expression to be returned (return by reference is not allowed). This value can be fetched using the new Generator::getReturn() method, which may only be used once the generator has finished yielding values.
<?php
$gen = (function() {
yield 1;
yield 2;
return 3;
})();
foreach ($gen as $val) {
echo $val, PHP_EOL;
}
echo $gen->getReturn(), PHP_EOL;
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
1 2 3
Being able to explicitly return a final value from a generator is a handy ability to have. This is because it enables for a final value to be returned by a generator (from perhaps some form of coroutine computation) that can be specifically handled by the client code executing the generator. This is far simpler than forcing the client code to firstly check whether the final value has been yielded, and then if so, to handle that value specifically.
Generators can now delegate to another generator, Traversable object or array automatically, without needing to write boilerplate in the outermost generator by using the yield from construct.
<?php
function gen()
{
yield 1;
yield 2;
yield from gen2();
}
function gen2()
{
yield 3;
yield 4;
}
foreach (gen() as $val)
{
echo $val, PHP_EOL;
}
?>
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
1 2 3 4
The new intdiv() function performs an integer division of its operands and returns it.
<?php
var_dump(intdiv(10, 3));
?>
Das oben gezeigte Beispiel erzeugt folgende Ausgabe:
int(3)
session_start() now accepts an array of options that override the session configuration directives normally set in php.ini.
These options have also been expanded to support session.lazy_write, which is on by default and causes PHP to only overwrite any session file if the session data has changed, and read_and_close, which is an option that can only be passed to session_start() to indicate that the session data should be read and then the session should immediately be closed unchanged.
For example, to set session.cache_limiter to private and immediately close the session after reading it:
<?php
session_start([
'cache_limiter' => 'private',
'read_and_close' => true,
]);
?>
The new preg_replace_callback_array() function enables code to be written more cleanly when using the preg_replace_callback() function. Prior to PHP 7, callbacks that needed to be executed per regular expression required the callback function to be polluted with lots of branching.
Now, callbacks can be registered to each regular expression using an associative array, where the key is a regular expression and the value is a callback.
Two new functions have been added to generate cryptographically secure integers and strings in a cross platform way: random_bytes() and random_int().
Previously, list() was not guaranteed to operate correctly with objects implementing ArrayAccess. This has been fixed.