TypedDataManager.php
Same filename and directory in other branches
Namespace
Drupal\Core\TypedDataFile
-
core/
lib/ Drupal/ Core/ TypedData/ TypedDataManager.php
View source
<?php
namespace Drupal\Core\TypedData;
use Drupal\Component\Plugin\Exception\PluginException;
use Drupal\Core\Cache\CacheBackendInterface;
use Drupal\Core\DependencyInjection\ClassResolverInterface;
use Drupal\Core\DependencyInjection\DependencySerializationTrait;
use Drupal\Core\Extension\ModuleHandlerInterface;
use Drupal\Core\Plugin\DefaultPluginManager;
use Drupal\Core\TypedData\Attribute\DataType;
use Drupal\Core\TypedData\Validation\RecursiveValidator;
use Drupal\Core\Validation\ConstraintManager;
use Drupal\Core\Validation\ConstraintValidatorFactory;
use Drupal\Core\Validation\DrupalTranslator;
use Drupal\Core\Validation\ExecutionContextFactory;
use Symfony\Component\Validator\Validator\ValidatorInterface;
/**
* Manages data type plugins.
*/
class TypedDataManager extends DefaultPluginManager implements TypedDataManagerInterface {
use DependencySerializationTrait;
/**
* The validator used for validating typed data.
*
* @var \Symfony\Component\Validator\Validator\ValidatorInterface
*/
protected $validator;
/**
* The validation constraint manager to use for instantiating constraints.
*
* @var \Drupal\Core\Validation\ConstraintManager
*/
protected $constraintManager;
/**
* An array of typed data property prototypes.
*
* @var array
*/
protected $prototypes = [];
/**
* The class resolver.
*
* @var \Drupal\Core\DependencyInjection\ClassResolverInterface
*/
protected $classResolver;
/**
* Constructs a new TypedDataManager.
*
* @param \Traversable $namespaces
* An object that implements \Traversable which contains the root paths
* keyed by the corresponding namespace to look for plugin implementations.
* @param \Drupal\Core\Cache\CacheBackendInterface $cache_backend
* Cache backend instance to use.
* @param \Drupal\Core\Extension\ModuleHandlerInterface $module_handler
* The module handler.
* @param \Drupal\Core\DependencyInjection\ClassResolverInterface $class_resolver
* The class resolver.
*/
public function __construct(\Traversable $namespaces, CacheBackendInterface $cache_backend, ModuleHandlerInterface $module_handler, ClassResolverInterface $class_resolver) {
$this->alterInfo('data_type_info');
$this->setCacheBackend($cache_backend, 'typed_data_types_plugins');
$this->classResolver = $class_resolver;
parent::__construct('Plugin/DataType', $namespaces, $module_handler, NULL, DataType::class, 'Drupal\\Core\\TypedData\\Annotation\\DataType');
}
/**
* {@inheritdoc}
*/
public function createInstance($data_type, array $configuration = []) {
$data_definition = $configuration['data_definition'];
$type_definition = $this->getDefinition($data_type);
if (!isset($type_definition)) {
throw new \InvalidArgumentException("Invalid data type '{$data_type}' has been given");
}
// Allow per-data definition overrides of the used classes, i.e. take over
// classes specified in the type definition.
$class = $data_definition->getClass();
if (!isset($class)) {
throw new PluginException(sprintf('The plugin (%s) did not specify an instance class.', $data_type));
}
$typed_data = $class::createInstance($data_definition, $configuration['name'], $configuration['parent']);
$typed_data->setTypedDataManager($this);
return $typed_data;
}
/**
* {@inheritdoc}
*/
public function create(DataDefinitionInterface $definition, $value = NULL, $name = NULL, $parent = NULL) {
$typed_data = $this->createInstance($definition->getDataType(), [
'data_definition' => $definition,
'name' => $name,
'parent' => $parent,
]);
if (isset($value)) {
$typed_data->setValue($value, FALSE);
}
return $typed_data;
}
/**
* {@inheritdoc}
*/
public function createDataDefinition($data_type) {
$type_definition = $this->getDefinition($data_type);
if (!isset($type_definition)) {
throw new \InvalidArgumentException("Invalid data type '{$data_type}' has been given");
}
$class = $type_definition['definition_class'];
$data_definition = $class::createFromDataType($data_type);
if (method_exists($data_definition, 'setTypedDataManager')) {
$data_definition->setTypedDataManager($this);
}
return $data_definition;
}
/**
* {@inheritdoc}
*/
public function createListDataDefinition($item_type) {
$type_definition = $this->getDefinition($item_type);
if (!isset($type_definition)) {
throw new \InvalidArgumentException("Invalid data type '{$item_type}' has been given");
}
$class = $type_definition['list_definition_class'];
return $class::createFromItemType($item_type);
}
/**
* {@inheritdoc}
*/
public function getInstance(array $options) {
return $this->getPropertyInstance($options['object'], $options['property'], $options['value']);
}
/**
* {@inheritdoc}
*/
public function getPropertyInstance(TypedDataInterface $object, $property_name, $value = NULL) {
// For performance, try to reuse existing prototypes instead of
// constructing new objects when possible. A prototype is reused when
// creating a data object:
// - for a similar root object (same data type and settings),
// - at the same property path under that root object.
$root_definition = $object->getRoot()
->getDataDefinition();
// If the root object is a list, we want to look at the data type and the
// settings of its item definition.
if ($root_definition instanceof ListDataDefinition) {
$root_definition = $root_definition->getItemDefinition();
}
// Root data type and settings.
$parts[] = $root_definition->getDataType();
if ($settings = $root_definition->getSettings()) {
// Include the settings serialized as JSON as part of the key. The JSON is
// a shorter string than the serialized form, so array access is faster.
$parts[] = json_encode($settings);
}
// Property path for the requested data object.
$parts[] = $object->getPropertyPath();
// Only property instances of complex data types should be cached by the
// property name, as they represent different properties. Properties of list
// data types are the items of the list and the property name represents
// only the delta in that list and not an unique property, which is why all
// items should use the same prototype.
if ($object instanceof ComplexDataInterface) {
$parts[] = $property_name;
}
$key = implode(':', $parts);
// Create the prototype if needed.
if (!isset($this->prototypes[$key])) {
// Fetch the data definition for the child object from the parent.
if ($object instanceof ComplexDataInterface) {
$definition = $object->getDataDefinition()
->getPropertyDefinition($property_name);
}
elseif ($object instanceof ListInterface) {
$definition = $object->getItemDefinition();
}
else {
throw new \InvalidArgumentException("The passed object has to either implement the ComplexDataInterface or the ListInterface.");
}
if (!$definition) {
throw new \InvalidArgumentException("Property {$property_name} is unknown.");
}
// Create the prototype without any value, but with initial parenting
// so that constructors can set up the objects correctly.
$this->prototypes[$key] = $this->create($definition, NULL, $property_name, $object);
}
// Clone the prototype, update its parenting information, and assign the
// value.
$property = clone $this->prototypes[$key];
$property->setContext($property_name, $object);
if (isset($value)) {
$property->setValue($value, FALSE);
}
return $property;
}
/**
* Sets the validator for validating typed data.
*
* @param \Symfony\Component\Validator\Validator\ValidatorInterface $validator
* The validator object to set.
*/
public function setValidator(ValidatorInterface $validator) {
$this->validator = $validator;
}
/**
* {@inheritdoc}
*/
public function getValidator() {
if (!isset($this->validator)) {
$this->validator = new RecursiveValidator(new ExecutionContextFactory(new DrupalTranslator()), new ConstraintValidatorFactory($this->classResolver), $this);
}
return $this->validator;
}
/**
* {@inheritdoc}
*/
public function setValidationConstraintManager(ConstraintManager $constraintManager) {
$this->constraintManager = $constraintManager;
}
/**
* {@inheritdoc}
*/
public function getValidationConstraintManager() {
return $this->constraintManager;
}
/**
* {@inheritdoc}
*/
public function getDefaultConstraints(DataDefinitionInterface $definition) {
$constraints = [];
$type_definition = $this->getDefinition($definition->getDataType());
// Auto-generate a constraint for data types implementing a primitive
// interface.
if (is_subclass_of($type_definition['class'], '\\Drupal\\Core\\TypedData\\PrimitiveInterface')) {
$constraints['PrimitiveType'] = [];
}
// Add in constraints specified by the data type.
if (isset($type_definition['constraints'])) {
$constraints += $type_definition['constraints'];
}
// Add the NotNull constraint for required data.
if ($definition->isRequired()) {
$constraints['NotNull'] = [];
}
// Check if the class provides allowed values.
if (is_subclass_of($definition->getClass(), 'Drupal\\Core\\TypedData\\OptionsProviderInterface')) {
$constraints['AllowedValues'] = [];
}
return $constraints;
}
/**
* {@inheritdoc}
*/
public function clearCachedDefinitions() {
parent::clearCachedDefinitions();
$this->prototypes = [];
}
/**
* {@inheritdoc}
*/
public function getCanonicalRepresentation(TypedDataInterface $data) {
$data_definition = $data->getDataDefinition();
// In case a list is passed, respect the 'wrapped' key of its data type.
if ($data_definition instanceof ListDataDefinitionInterface) {
$data_definition = $data_definition->getItemDefinition();
}
// Get the plugin definition of the used data type.
$type_definition = $this->getDefinition($data_definition->getDataType());
if (!empty($type_definition['unwrap_for_canonical_representation'])) {
return $data->getValue();
}
return $data;
}
}Classes
| Title | Deprecated | Summary |
|---|---|---|
| TypedDataManager | Manages data type plugins. |
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