/** * The type of a property is determined by the reflection service. * * @param string $targetType * @param string $propertyName * @param PropertyMappingConfigurationInterface $configuration * @return string * @throws InvalidTargetException */ public function getTypeOfChildProperty($targetType, $propertyName, PropertyMappingConfigurationInterface $configuration) { $configuredTargetType = $configuration->getConfigurationFor($propertyName)->getConfigurationValue(ObjectConverter::class, self::CONFIGURATION_TARGET_TYPE); if ($configuredTargetType !== null) { return $configuredTargetType; } $methodParameters = $this->reflectionService->getMethodParameters($targetType, '__construct'); if (isset($methodParameters[$propertyName]) && isset($methodParameters[$propertyName]['type'])) { return $methodParameters[$propertyName]['type']; } elseif ($this->reflectionService->hasMethod($targetType, ObjectAccess::buildSetterMethodName($propertyName))) { $methodParameters = $this->reflectionService->getMethodParameters($targetType, ObjectAccess::buildSetterMethodName($propertyName)); $methodParameter = current($methodParameters); if (!isset($methodParameter['type'])) { throw new InvalidTargetException('Setter for property "' . $propertyName . '" had no type hint or documentation in target object of type "' . $targetType . '".', 1303379158); } else { return $methodParameter['type']; } } else { $targetPropertyNames = $this->reflectionService->getClassPropertyNames($targetType); if (in_array($propertyName, $targetPropertyNames)) { $varTagValues = $this->reflectionService->getPropertyTagValues($targetType, $propertyName, 'var'); if (count($varTagValues) > 0) { // This ensures that FQCNs are returned without leading backslashes. Otherwise, something like @var \DateTime // would not find a property mapper. It is needed because the ObjectConverter doesn't use class schemata, // but reads the annotations directly. $declaredType = strtok(trim(current($varTagValues), " \n\t"), " \n\t"); try { $parsedType = TypeHandling::parseType($declaredType); } catch (InvalidTypeException $exception) { throw new \InvalidArgumentException(sprintf($exception->getMessage(), 'class "' . $targetType . '" for property "' . $propertyName . '"'), 1467699674); } return $parsedType['type'] . ($parsedType['elementType'] !== null ? '<' . $parsedType['elementType'] . '>' : ''); } else { throw new InvalidTargetException(sprintf('Public property "%s" had no proper type annotation (i.e. "@var") in target object of type "%s".', $propertyName, $targetType), 1406821818); } } } throw new InvalidTargetException(sprintf('Property "%s" has neither a setter or constructor argument, nor is public, in target object of type "%s".', $propertyName, $targetType), 1303379126); }
/** * Return the type of a given sub-property inside the $targetType * * @param string $targetType * @param string $propertyName * @param PropertyMappingConfigurationInterface $configuration * @return string * @api */ public function getTypeOfChildProperty($targetType, $propertyName, PropertyMappingConfigurationInterface $configuration) { $parsedTargetType = TypeHandling::parseType($targetType); return $parsedTargetType['elementType']; }
/** * Builds a base validator conjunction for the given data type. * * The base validation rules are those which were declared directly in a class (typically * a model) through some validate annotations on properties. * * If a property holds a class for which a base validator exists, that property will be * checked as well, regardless of a validate annotation * * Additionally, if a custom validator was defined for the class in question, it will be added * to the end of the conjunction. A custom validator is found if it follows the naming convention * "Replace '\Model\' by '\Validator\' and append 'Validator'". * * Example: $targetClassName is Neos\Foo\Domain\Model\Quux, then the validator will be found if it has the * name Neos\Foo\Domain\Validator\QuuxValidator * * @param string $indexKey The key to use as index in $this->baseValidatorConjunctions; calculated from target class name and validation groups * @param string $targetClassName The data type to build the validation conjunction for. Needs to be the fully qualified class name. * @param array $validationGroups The validation groups to build the validator for * @return void * @throws Exception\NoSuchValidatorException * @throws \InvalidArgumentException */ protected function buildBaseValidatorConjunction($indexKey, $targetClassName, array $validationGroups) { $conjunctionValidator = new ConjunctionValidator(); $this->baseValidatorConjunctions[$indexKey] = $conjunctionValidator; if (!TypeHandling::isSimpleType($targetClassName) && class_exists($targetClassName)) { // Model based validator $classSchema = $this->reflectionService->getClassSchema($targetClassName); if ($classSchema !== null && $classSchema->isAggregateRoot()) { $objectValidator = new AggregateBoundaryValidator(array()); } else { $objectValidator = new GenericObjectValidator([]); } $conjunctionValidator->addValidator($objectValidator); foreach ($this->reflectionService->getClassPropertyNames($targetClassName) as $classPropertyName) { $classPropertyTagsValues = $this->reflectionService->getPropertyTagsValues($targetClassName, $classPropertyName); if (!isset($classPropertyTagsValues['var'])) { throw new \InvalidArgumentException(sprintf('There is no @var annotation for property "%s" in class "%s".', $classPropertyName, $targetClassName), 1363778104); } try { $parsedType = TypeHandling::parseType(trim(implode('', $classPropertyTagsValues['var']), ' \\')); } catch (InvalidTypeException $exception) { throw new \InvalidArgumentException(sprintf(' @var annotation of ' . $exception->getMessage(), 'class "' . $targetClassName . '", property "' . $classPropertyName . '"'), 1315564744, $exception); } if ($this->reflectionService->isPropertyAnnotatedWith($targetClassName, $classPropertyName, Flow\IgnoreValidation::class)) { continue; } $propertyTargetClassName = $parsedType['type']; if (TypeHandling::isCollectionType($propertyTargetClassName) === true) { $collectionValidator = $this->createValidator(Validator\CollectionValidator::class, ['elementType' => $parsedType['elementType'], 'validationGroups' => $validationGroups]); $objectValidator->addPropertyValidator($classPropertyName, $collectionValidator); } elseif (!TypeHandling::isSimpleType($propertyTargetClassName) && $this->objectManager->isRegistered($propertyTargetClassName) && $this->objectManager->getScope($propertyTargetClassName) === Configuration::SCOPE_PROTOTYPE) { $validatorForProperty = $this->getBaseValidatorConjunction($propertyTargetClassName, $validationGroups); if (count($validatorForProperty) > 0) { $objectValidator->addPropertyValidator($classPropertyName, $validatorForProperty); } } $validateAnnotations = $this->reflectionService->getPropertyAnnotations($targetClassName, $classPropertyName, Flow\Validate::class); foreach ($validateAnnotations as $validateAnnotation) { if (count(array_intersect($validateAnnotation->validationGroups, $validationGroups)) === 0) { // In this case, the validation groups for the property do not match current validation context continue; } $newValidator = $this->createValidator($validateAnnotation->type, $validateAnnotation->options); if ($newValidator === null) { throw new Exception\NoSuchValidatorException('Invalid validate annotation in ' . $targetClassName . '::' . $classPropertyName . ': Could not resolve class name for validator "' . $validateAnnotation->type . '".', 1241098027); } $objectValidator->addPropertyValidator($classPropertyName, $newValidator); } } if (count($objectValidator->getPropertyValidators()) === 0) { $conjunctionValidator->removeValidator($objectValidator); } } $this->addCustomValidators($targetClassName, $conjunctionValidator); }
/** * Adds (defines) a specific property and its type. * * @param string $name Name of the property * @param string $type Type of the property * @param boolean $lazy Whether the property should be lazy-loaded when reconstituting * @param boolean $transient Whether the property should not be considered for persistence * @return void * @throws \InvalidArgumentException */ public function addProperty($name, $type, $lazy = false, $transient = false) { try { $type = TypeHandling::parseType($type); } catch (InvalidTypeException $exception) { throw new \InvalidArgumentException(sprintf($exception->getMessage(), 'class "' . $name . '"'), 1315564474); } $this->properties[$name] = ['type' => $type['type'], 'elementType' => $type['elementType'], 'lazy' => $lazy, 'transient' => $transient]; }
/** * @test * @dataProvider types */ public function parseTypeReturnsArrayWithInformation($type, $expectedResult) { $this->assertEquals($expectedResult, TypeHandling::parseType($type), 'Failed for ' . $type); }
/** * @param ClassSchema $classSchema * @param string $propertyName * @return boolean * @throws InvalidPropertyTypeException * @throws \InvalidArgumentException */ protected function evaluateClassPropertyAnnotationsForSchema(ClassSchema $classSchema, $propertyName) { $skipArtificialIdentity = false; $className = $classSchema->getClassName(); if ($this->isPropertyAnnotatedWith($className, $propertyName, Flow\Transient::class)) { return false; } if ($this->isPropertyAnnotatedWith($className, $propertyName, Flow\Inject::class)) { return false; } if (!$this->isPropertyTaggedWith($className, $propertyName, 'var')) { return false; } $varTagValues = $this->getPropertyTagValues($className, $propertyName, 'var'); if (count($varTagValues) > 1) { throw new InvalidPropertyTypeException('More than one @var annotation given for "' . $className . '::$' . $propertyName . '"', 1367334366); } $declaredType = strtok(trim(current($varTagValues), " \n\t"), " \n\t"); try { TypeHandling::parseType($declaredType); } catch (InvalidTypeException $exception) { throw new \InvalidArgumentException(sprintf($exception->getMessage(), 'class "' . $className . '" for property "' . $propertyName . '"'), 1315564475); } if ($this->isPropertyAnnotatedWith($className, $propertyName, ORM\Id::class)) { $skipArtificialIdentity = true; } $classSchema->addProperty($propertyName, $declaredType, $this->isPropertyAnnotatedWith($className, $propertyName, Flow\Lazy::class), $this->isPropertyAnnotatedWith($className, $propertyName, Flow\Transient::class)); if ($this->isPropertyAnnotatedWith($className, $propertyName, Flow\Identity::class)) { $classSchema->markAsIdentityProperty($propertyName); } return $skipArtificialIdentity; }
/** * Iterates through the given $properties setting them on the specified $node using the appropriate TypeConverters. * * @param object $nodeLike * @param NodeType $nodeType * @param array $properties * @param TYPO3CRContext $context * @param PropertyMappingConfigurationInterface $configuration * @return void * @throws TypeConverterException */ protected function setNodeProperties($nodeLike, NodeType $nodeType, array $properties, TYPO3CRContext $context, PropertyMappingConfigurationInterface $configuration = null) { $nodeTypeProperties = $nodeType->getProperties(); unset($properties['_lastPublicationDateTime']); foreach ($properties as $nodePropertyName => $nodePropertyValue) { if (substr($nodePropertyName, 0, 2) === '__') { continue; } $nodePropertyType = isset($nodeTypeProperties[$nodePropertyName]['type']) ? $nodeTypeProperties[$nodePropertyName]['type'] : null; switch ($nodePropertyType) { case 'reference': $nodePropertyValue = $context->getNodeByIdentifier($nodePropertyValue); break; case 'references': $nodeIdentifiers = json_decode($nodePropertyValue); $nodePropertyValue = array(); if (is_array($nodeIdentifiers)) { foreach ($nodeIdentifiers as $nodeIdentifier) { $referencedNode = $context->getNodeByIdentifier($nodeIdentifier); if ($referencedNode !== null) { $nodePropertyValue[] = $referencedNode; } } } elseif ($nodeIdentifiers !== null) { throw new TypeConverterException(sprintf('node type "%s" expects an array of identifiers for its property "%s"', $nodeType->getName(), $nodePropertyName), 1383587419); } break; case 'DateTime': if ($nodePropertyValue !== '' && ($nodePropertyValue = \DateTime::createFromFormat(\DateTime::W3C, $nodePropertyValue)) !== false) { $nodePropertyValue->setTimezone(new \DateTimeZone(date_default_timezone_get())); } else { $nodePropertyValue = null; } break; case 'integer': $nodePropertyValue = intval($nodePropertyValue); break; case 'boolean': if (is_string($nodePropertyValue)) { $nodePropertyValue = $nodePropertyValue === 'true' ? true : false; } break; case 'array': $nodePropertyValue = json_decode($nodePropertyValue, true); break; } if (substr($nodePropertyName, 0, 1) === '_') { $nodePropertyName = substr($nodePropertyName, 1); ObjectAccess::setProperty($nodeLike, $nodePropertyName, $nodePropertyValue); continue; } if (!isset($nodeTypeProperties[$nodePropertyName])) { if ($configuration !== null && $configuration->shouldSkipUnknownProperties()) { continue; } else { throw new TypeConverterException(sprintf('Node type "%s" does not have a property "%s" according to the schema', $nodeType->getName(), $nodePropertyName), 1359552744); } } $innerType = $nodePropertyType; if ($nodePropertyType !== null) { try { $parsedType = TypeHandling::parseType($nodePropertyType); $innerType = $parsedType['elementType'] ?: $parsedType['type']; } catch (InvalidTypeException $exception) { } } if (is_string($nodePropertyValue) && $this->objectManager->isRegistered($innerType) && $nodePropertyValue !== '') { $nodePropertyValue = $this->propertyMapper->convert(json_decode($nodePropertyValue, true), $nodePropertyType, $configuration); } $nodeLike->setProperty($nodePropertyName, $nodePropertyValue); } }
/** * Create a property mapping configuration for the given dataType to convert a Node property value from the given dataType to a simple type. * * @param string $dataType * @return PropertyMappingConfigurationInterface */ protected function createConfiguration($dataType) { if (!isset($this->generatedPropertyMappingConfigurations[$dataType])) { $propertyMappingConfiguration = new PropertyMappingConfiguration(); $propertyMappingConfiguration->allowAllProperties(); $parsedType = ['elementType' => null, 'type' => $dataType]; // Special handling for "reference(s)", should be deprecated and normlized to array<NodeInterface> if ($dataType !== 'references' && $dataType !== 'reference') { $parsedType = TypeHandling::parseType($dataType); } if ($this->setTypeConverterForType($propertyMappingConfiguration, $dataType) === false) { $this->setTypeConverterForType($propertyMappingConfiguration, $parsedType['type']); } $elementConfiguration = $propertyMappingConfiguration->forProperty('*'); $this->setTypeConverterForType($elementConfiguration, $parsedType['elementType']); $this->generatedPropertyMappingConfigurations[$dataType] = $propertyMappingConfiguration; } return $this->generatedPropertyMappingConfigurations[$dataType]; }