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psalm/docs/annotating_code/templated_annotations.md

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# Templating
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Docblocks allow you to tell Psalm some simple information about how your code works. For example `@return int` in a function return type tells Psalm that a function should return an `int` and `@return MyContainer` tells Psalm that a function should return an instance of a user-defined class `MyContainer`. In either case, Psalm can check that the function actually returns those types _and_ that anything calling that function uses its returned value properly.
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Templated types allow you to tell Psalm even more information about how your code works.
Let's look at a simple class `MyContainer`:
```php
<?php
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class MyContainer {
private $value;
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public function __construct($value) {
$this->value = $value;
}
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public function getValue() {
return $this->value;
}
}
```
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When Psalm handles the return type of `$my_container->getValue()` it doesn't know what it's getting out, because the value can be arbitrary.
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Templated annotations provide us with a workaround - we can define a generic/templated param `T` that is a placeholder for the value inside `MyContainer`:
```php
<?php
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/**
* @template T
*/
class MyContainer {
/** @var T */
private $value;
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/** @param T $value */
public function __construct($value) {
$this->value = $value;
}
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/** @return T */
public function getValue() {
return $this->value;
}
}
```
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Now we can substitute values for that templated param when we reference `MyContainer` in docblocks e.g. `@return MyContainer<int>`. This tells Psalm to substitute `T` for `int` when evaluating that return type, effectively treating it as a class that looks like
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```php
<?php
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class One_off_instance_of_MyContainer {
/** @var int */
private $value;
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/** @param int $value */
public function __construct($value) {
$this->value = $value;
}
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/** @return int */
public function getValue() {
return $this->value;
}
}
```
This pattern can be used in large number of different situations like mocking, collections, iterators and loading arbitrary objects. Psalm has a large number of annotations to make it easy to use templated types in your codebase.
## `@template`
The `@template` tag allows classes and functions to declare a generic type parameter.
As a very simple example, this function returns whatever is passed in:
```php
<?php
/**
* @template T
* @psalm-param T $t
* @return T
*/
function mirror($t) {
return $t;
}
$a = 5;
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$b = mirror($a); // Psalm knows the result is an int
$c = "foo";
$d = mirror($c); // Psalm knows the result is string
```
Psalm also uses `@template` annotations in its stubbed versions of PHP array functions e.g.
```php
<?php
/**
* Takes one array with keys and another with values and combines them
*
* @template TKey
* @template TValue
*
* @param array<mixed, TKey> $arr
* @param array<mixed, TValue> $arr2
* @return array<TKey, TValue>
*/
function array_combine(array $arr, array $arr2) {}
```
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### Notes
- `@template` tag order matters for class docblocks, as they dictate the order in which those generic parameters are referenced in docblocks.
- The names of your templated types (e.g. `TKey`, `TValue` don't matter outside the scope of the class or function in which they're declared.
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## @param class-string&lt;T&gt;
Psalm also allows you to parameterize class types
```php
<?php
/**
* @template T
* @psalm-param class-string<T> $class
* @return T
*/
function instantiator(string $class) {
return new $class();
}
class Foo {}
$a = instantiator(Foo::class); // Psalm knows the result is an object of type Foo
```
## Template inheritance
Psalm allows you to extend templated classes with `@extends`/`@template-extends`:
```php
<?php
/**
* @template T
*/
class ParentClass {}
/**
* @extends ParentClass<int>
*/
class ChildClass extends ParentClass {}
```
similarly you can implement interfaces with `@implements`/`@template-implements`
```php
<?php
/**
* @template T
*/
interface IFoo {}
/**
* @implements IFoo<int>
*/
class Foo implements IFoo {}
```
and import traits with `@use`/`@template-use`
```php
<?php
/**
* @template T
*/
trait MyTrait {}
class Foo {
/**
* @use MyTrait<int>
*/
use MyTrait;
}
```
You can also extend one templated class with another, e.g.
```php
<?php
/**
* @template T1
*/
class ParentClass {}
/**
* @template T2
* @extends ParentClass<T2>
*/
class ChildClass extends ParentClass {}
```
## Template constraints
You can use `@template of <type>` to restrict input. For example, to restrict to a given class you can use
```php
<?php
class Foo {}
class FooChild extends Foo {}
/**
* @template T of Foo
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* @psalm-param T $t
* @return array<int, T>
*/
function makeArray($t) {
return [$t];
}
$a = makeArray(new Foo()); // typed as array<int, Foo>
$b = makeArray(new FooChild()); // typed as array<int, FooChild>
$c = makeArray(new stdClass()); // type error
```
Templated types aren't limited to key-value pairs, and you can re-use templates across multiple arguments of a template-supporting type:
```php
<?php
/**
* @template T0 as array-key
*
* @template-implements IteratorAggregate<T0, int>
*/
abstract class Foo implements IteratorAggregate {
/**
* @var int
*/
protected $rand_min;
/**
* @var int
*/
protected $rand_max;
public function __construct(int $rand_min, int $rand_max) {
$this->rand_min = $rand_min;
$this->rand_max = $rand_max;
}
/**
* @return Generator<T0, int, mixed, T0>
*/
public function getIterator() : Generator {
$j = random_int($this->rand_min, $this->rand_max);
for($i = $this->rand_min; $i <= $j; $i += 1) {
yield $this->getFuzzyType($i) => $i ** $i;
}
return $this->getFuzzyType($j);
}
/**
* @return T0
*/
abstract protected function getFuzzyType(int $i);
}
/**
* @template-extends Foo<int>
*/
class Bar extends Foo {
protected function getFuzzyType(int $i) : int {
return $i;
}
}
/**
* @template-extends Foo<string>
*/
class Baz extends Foo {
protected function getFuzzyType(int $i) : string {
return static::class . '[' . $i . ']';
}
}
```
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## Template covariance
Imagine you have code like this:
```php
<?php
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class Animal {}
class Dog extends Animal {}
class Cat extends Animal {}
/**
* @template T
*/
class Collection {
/**
* @var array<int, T>
*/
public array $list;
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/**
* @param array<int, T> $list
*/
public function __construct(array $list) {
$this->list = $list;
}
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/**
* @param T $t
*/
public function add($t) : void {
$this->list[] = $t;
}
}
/**
* @param Collection<Animal> $collection
*/
function addAnimal(Collection $collection) : void {
$collection->add(new Cat());
}
/**
* @param Collection<Dog> $dog_collection
*/
function takesDogList(Collection $dog_collection) : void {
addAnimal($dog_collection);
}
```
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That last call `addAnimal($dog_collection)` breaks the type of the collection suddenly a collection of dogs becomes a collection of dogs _or_ cats. That is bad.
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To prevent this, Psalm emits an error when calling `addAnimal($dog_collection)` saying "addAnimal expects a `Collection<Animal>`, but `Collection<Dog>` was passed". If you haven't encountered this rule before it's probably confusing to you any function that accepted an `Animal` would be happy to accept a subtype thereof. But as we see in the example above, doing so can lead to problems.
But there are also times where it's perfectly safe to pass template param subtypes:
```php
<?php
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abstract class Animal {
abstract public function getNoise() : string;
}
class Dog extends Animal {
public function getNoise() : string { return "woof"; }
}
class Cat extends Animal {
public function getNoise() : string { return "miaow"; }
}
/**
* @template T
*/
class Collection {
/** @var array<int, T> */
public array $list = [];
}
/**
* @param Collection<Animal> $collection
*/
function getNoises(Collection $collection) : void {
foreach ($collection->list as $animal) {
echo $animal->getNoise();
}
}
/**
* @param Collection<Dog> $dog_collection
*/
function takesDogList(Collection $dog_collection) : void {
getNoises($dog_collection);
}
```
Here we're not doing anything bad we're just iterating over an array of objects. But Psalm still gives that same basic error "getNoises expects a `Collection<Animal>`, but `Collection<Dog>` was passed".
We can tell Psalm that it's safe to pass subtypes for the templated param `T` by using the annotation `@template-covariant T`:
```php
<?php
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/**
* @template-covariant T
*/
class Collection {
/** @var array<int, T> */
public array $list = [];
}
```
Doing this for the above example produces no errors: [https://psalm.dev/r/5254af7a8b](https://psalm.dev/r/5254af7a8b)
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But `@template-covariant` doesn't get rid of _all_ errors if you add it to the first example, you get a new error [https://psalm.dev/r/0fcd699231](https://psalm.dev/r/0fcd699231) complaining that you're attempting to use a covariant template parameter for function input. Thats no good, as it means you're likely altering the collection somehow (which is, again, a violation).
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### But what about immutability?
Psalm has [comprehensive support for declaring functional immutability](https://psalm.dev/articles/immutability-and-beyond).
If we make sure that the class is immutable, we can declare a class with an `add` method that still takes a covariant param as input, but which does not modify the collection at all, instead returning a new one:
```php
<?php
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/**
* @template-covariant T
* @psalm-immutable
*/
class Collection {
/**
* @var array<int, T>
*/
public array $list = [];
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/**
* @param array<int, T> $list
*/
public function __construct(array $list) {
$this->list = $list;
}
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/**
* @param T $t
* @return Collection<T>
*/
public function add($t) : Collection {
return new Collection(array_merge($this->list, [$t]));
}
}
```
This is perfectly valid, and Psalm won't complain.
## Builtin templated classes and interfaces
Psalm has support for a number of builtin classes and interfaces that you can extend/implement in your own code.
- `interface Traversable<TKey, TValue>`
- `interface ArrayAccess<TKey, TValue>`
- `interface IteratorAggregate<TKey, TValue> extends Traversable<TKey, TValue>`
- `interface Iterator<TKey, TValue> extends Traversable<TKey, TValue>`
- `interface SeekableIterator<TKey, TValue> extends Iterator<TKey, TValue>`
- `class Generator<TKey, TValue, TSend, TReturn> extends Traversable<TKey, TValue>`
- `class ArrayObject<TKey, TValue> implements IteratorAggregate<TKey, TValue>, ArrayAccess<TKey, TValue>`
- `class ArrayIterator<TKey of array-key, TValue> implements SeekableIterator<TKey, TValue>, ArrayAccess<TKey, TValue>`
- `class DOMNodeList<TNode of DOMNode> implements Traversable<int, TNode>`
- `class SplDoublyLinkedList<TKey, TValue> implements Iterator<TKey, TValue>, ArrayAccess<TKey, TValue>`
- `class SplQueue<TValue> extends SplDoublyLinkedList<int, TValue>`