silverstripe-framework/ORM/DataObjectSchema.php
2016-10-06 23:23:22 +01:00

945 lines
30 KiB
PHP

<?php
namespace SilverStripe\ORM;
use Exception;
use SilverStripe\Core\Injector\Injectable;
use SilverStripe\Core\Config\Configurable;
use SilverStripe\ORM\FieldType\DBComposite;
use SilverStripe\Core\ClassInfo;
use SilverStripe\Core\Config\Config;
use SilverStripe\Core\Object;
use InvalidArgumentException;
use LogicException;
/**
* Provides dataobject and database schema mapping functionality
*/
class DataObjectSchema {
use Injectable;
use Configurable;
/**
* Default separate for table namespaces. Can be set to any string for
* databases that do not support some characters.
*
* Defaults to \ to to conform to 3.x convention.
*
* @config
* @var string
*/
private static $table_namespace_separator = '\\';
/**
* Cache of database fields
*
* @var array
*/
protected $databaseFields = [];
/**
* Cache of composite database field
*
* @var array
*/
protected $compositeFields = [];
/**
* Cache of table names
*
* @var array
*/
protected $tableNames = [];
/**
* Clear cached table names
*/
public function reset() {
$this->tableNames = [];
$this->databaseFields = [];
$this->compositeFields = [];
}
/**
* Get all table names
*
* @return array
*/
public function getTableNames() {
$this->cacheTableNames();
return $this->tableNames;
}
/**
* Given a DataObject class and a field on that class, determine the appropriate SQL for
* selecting / filtering on in a SQL string. Note that $class must be a valid class, not an
* arbitrary table.
*
* The result will be a standard ANSI-sql quoted string in "Table"."Column" format.
*
* @param string $class Class name (not a table).
* @param string $field Name of field that belongs to this class (or a parent class)
* @return string The SQL identifier string for the corresponding column for this field
*/
public function sqlColumnForField($class, $field) {
$table = $this->tableForField($class, $field);
if(!$table) {
throw new InvalidArgumentException("\"{$field}\" is not a field on class \"{$class}\"");
}
return "\"{$table}\".\"{$field}\"";
}
/**
* Get table name for the given class.
*
* Note that this does not confirm a table actually exists (or should exist), but returns
* the name that would be used if this table did exist.
*
* @param string $class
* @return string Returns the table name, or null if there is no table
*/
public function tableName($class) {
$tables = $this->getTableNames();
$class = ClassInfo::class_name($class);
if(isset($tables[$class])) {
return $tables[$class];
}
return null;
}
/**
* Returns the root class (the first to extend from DataObject) for the
* passed class.
*
* @param string|object $class
* @return string
* @throws InvalidArgumentException
*/
public function baseDataClass($class) {
$class = ClassInfo::class_name($class);
$current = $class;
while ($next = get_parent_class($current)) {
if ($next === DataObject::class) {
return $current;
}
$current = $next;
}
throw new InvalidArgumentException("$class is not a subclass of DataObject");
}
/**
* Get the base table
*
* @param string|object $class
* @return string
*/
public function baseDataTable($class) {
return $this->tableName($this->baseDataClass($class));
}
/**
* fieldSpec should exclude virtual fields (such as composite fields), and only include fields with a db column.
*/
const DB_ONLY = 1;
/**
* fieldSpec should only return fields that belong to this table, and not any ancestors
*/
const UNINHERITED = 2;
/**
* fieldSpec should prefix all field specifications with the class name in RecordClass.Column(spec) format.
*/
const INCLUDE_CLASS = 4;
/**
* Get all DB field specifications for a class, including ancestors and composite fields.
*
* @param string|DataObject $classOrInstance
* @param int $options Bitmask of options
* - UNINHERITED Limit to only this table
* - DB_ONLY Exclude virtual fields (such as composite fields), and only include fields with a db column.
* - INCLUDE_CLASS Prefix the field specification with the class name in RecordClass.Column(spec) format.
* @return array List of fields, where the key is the field name and the value is the field specification.
*/
public function fieldSpecs($classOrInstance, $options = 0) {
$class = ClassInfo::class_name($classOrInstance);
// Validate options
if (!is_int($options)) {
throw new InvalidArgumentException("Invalid options " . var_export($options, true));
}
$uninherited = ($options & self::UNINHERITED) === self::UNINHERITED;
$dbOnly = ($options & self::DB_ONLY) === self::DB_ONLY;
$includeClass = ($options & self::INCLUDE_CLASS) === self::INCLUDE_CLASS;
// Walk class hierarchy
$db = [];
$classes = $uninherited ? [$class] : ClassInfo::ancestry($class);
foreach($classes as $tableClass) {
// Find all fields on this class
$fields = $this->databaseFields($tableClass, false);
// Merge with composite fields
if (!$dbOnly) {
$compositeFields = $this->compositeFields($tableClass, false);
$fields = array_merge($fields, $compositeFields);
}
// Record specification
foreach ($fields as $name => $specification) {
$prefix = $includeClass ? "{$tableClass}." : "";
$db[$name] = $prefix . $specification;
}
}
return $db;
}
/**
* Get specifications for a single class field
*
* @param string|DataObject $classOrInstance Name or instance of class
* @param string $fieldName Name of field to retrieve
* @param int $options Bitmask of options
* - UNINHERITED Limit to only this table
* - DB_ONLY Exclude virtual fields (such as composite fields), and only include fields with a db column.
* - INCLUDE_CLASS Prefix the field specification with the class name in RecordClass.Column(spec) format.
* @return string|null Field will be a string in FieldClass(args) format, or
* RecordClass.FieldClass(args) format if using INCLUDE_CLASS. Will be null if no field is found.
*/
public function fieldSpec($classOrInstance, $fieldName, $options = 0) {
$specs = $this->fieldSpecs($classOrInstance, $options);
return isset($specs[$fieldName]) ? $specs[$fieldName] : null;
}
/**
* Find the class for the given table
*
* @param string $table
* @return string|null The FQN of the class, or null if not found
*/
public function tableClass($table) {
$tables = $this->getTableNames();
$class = array_search($table, $tables, true);
if($class) {
return $class;
}
// If there is no class for this table, strip table modifiers (e.g. _Live / _versions)
// from the end and re-attempt a search.
if(preg_match('/^(?<class>.+)(_[^_]+)$/i', $table, $matches)) {
$table = $matches['class'];
$class = array_search($table, $tables, true);
if($class) {
return $class;
}
}
return null;
}
/**
* Cache all table names if necessary
*/
protected function cacheTableNames() {
if($this->tableNames) {
return;
}
$this->tableNames = [];
foreach(ClassInfo::subclassesFor(DataObject::class) as $class) {
if($class === DataObject::class) {
continue;
}
$table = $this->buildTableName($class);
// Check for conflicts
$conflict = array_search($table, $this->tableNames, true);
if($conflict) {
throw new LogicException(
"Multiple classes (\"{$class}\", \"{$conflict}\") map to the same table: \"{$table}\""
);
}
$this->tableNames[$class] = $table;
}
}
/**
* Generate table name for a class.
*
* Note: some DB schema have a hard limit on table name length. This is not enforced by this method.
* See dev/build errors for details in case of table name violation.
*
* @param string $class
* @return string
*/
protected function buildTableName($class) {
$table = Config::inst()->get($class, 'table_name', Config::UNINHERITED);
// Generate default table name
if(!$table) {
$separator = $this->config()->get('table_namespace_separator');
$table = str_replace('\\', $separator, trim($class, '\\'));
}
return $table;
}
/**
* Return the complete map of fields to specification on this object, including fixed_fields.
* "ID" will be included on every table.
*
* @param string $class Class name to query from
* @param bool $aggregated Include fields in entire hierarchy, rather than just on this table
* @return array Map of fieldname to specification, similiar to {@link DataObject::$db}.
*/
public function databaseFields($class, $aggregated = true) {
$class = ClassInfo::class_name($class);
if($class === DataObject::class) {
return [];
}
$this->cacheDatabaseFields($class);
$fields = $this->databaseFields[$class];
if (!$aggregated) {
return $fields;
}
// Recursively merge
$parentFields = $this->databaseFields(get_parent_class($class));
return array_merge($fields, array_diff_key($parentFields, $fields));
}
/**
* Gets a single database field.
*
* @param string $class Class name to query from
* @param string $field Field name
* @param bool $aggregated Include fields in entire hierarchy, rather than just on this table
* @return string|null Field specification, or null if not a field
*/
public function databaseField($class, $field, $aggregated = true) {
$fields = $this->databaseFields($class, $aggregated);
return isset($fields[$field]) ? $fields[$field] : null;
}
/**
* Check if the given class has a table
*
* @param string $class
* @return bool
*/
public function classHasTable($class) {
$fields = $this->databaseFields($class, false);
return !empty($fields);
}
/**
* Returns a list of all the composite if the given db field on the class is a composite field.
* Will check all applicable ancestor classes and aggregate results.
*
* Can be called directly on an object. E.g. Member::composite_fields(), or Member::composite_fields(null, true)
* to aggregate.
*
* Includes composite has_one (Polymorphic) fields
*
* @param string $class Name of class to check
* @param bool $aggregated Include fields in entire hierarchy, rather than just on this table
* @return array List of composite fields and their class spec
*/
public function compositeFields($class, $aggregated = true) {
$class = ClassInfo::class_name($class);
if($class === DataObject::class) {
return [];
}
$this->cacheDatabaseFields($class);
// Get fields for this class
$compositeFields = $this->compositeFields[$class];
if(!$aggregated) {
return $compositeFields;
}
// Recursively merge
$parentFields = $this->compositeFields(get_parent_class($class));
return array_merge($compositeFields, array_diff_key($parentFields, $compositeFields));
}
/**
* Get a composite field for a class
*
* @param string $class Class name to query from
* @param string $field Field name
* @param bool $aggregated Include fields in entire hierarchy, rather than just on this table
* @return string|null Field specification, or null if not a field
*/
public function compositeField($class, $field, $aggregated = true) {
$fields = $this->compositeFields($class, $aggregated);
return isset($fields[$field]) ? $fields[$field] : null;
}
/**
* Cache all database and composite fields for the given class.
* Will do nothing if already cached
*
* @param string $class Class name to cache
*/
protected function cacheDatabaseFields($class) {
// Skip if already cached
if (isset($this->databaseFields[$class]) && isset($this->compositeFields[$class])) {
return;
}
$compositeFields = array();
$dbFields = array();
// Ensure fixed fields appear at the start
$fixedFields = DataObject::config()->get('fixed_fields');
if(get_parent_class($class) === DataObject::class) {
// Merge fixed with ClassName spec and custom db fields
$dbFields = $fixedFields;
} else {
$dbFields['ID'] = $fixedFields['ID'];
}
// Check each DB value as either a field or composite field
$db = Config::inst()->get($class, 'db', Config::UNINHERITED) ?: array();
foreach($db as $fieldName => $fieldSpec) {
$fieldClass = strtok($fieldSpec, '(');
if(singleton($fieldClass) instanceof DBComposite) {
$compositeFields[$fieldName] = $fieldSpec;
} else {
$dbFields[$fieldName] = $fieldSpec;
}
}
// Add in all has_ones
$hasOne = Config::inst()->get($class, 'has_one', Config::UNINHERITED) ?: array();
foreach($hasOne as $fieldName => $hasOneClass) {
if($hasOneClass === DataObject::class) {
$compositeFields[$fieldName] = 'PolymorphicForeignKey';
} else {
$dbFields["{$fieldName}ID"] = 'ForeignKey';
}
}
// Merge composite fields into DB
foreach($compositeFields as $fieldName => $fieldSpec) {
$fieldObj = Object::create_from_string($fieldSpec, $fieldName);
$fieldObj->setTable($class);
$nestedFields = $fieldObj->compositeDatabaseFields();
foreach($nestedFields as $nestedName => $nestedSpec) {
$dbFields["{$fieldName}{$nestedName}"] = $nestedSpec;
}
}
// Prevent field-less tables with only 'ID'
if(count($dbFields) < 2) {
$dbFields = [];
}
// Return cached results
$this->databaseFields[$class] = $dbFields;
$this->compositeFields[$class] = $compositeFields;
}
/**
* Returns the table name in the class hierarchy which contains a given
* field column for a {@link DataObject}. If the field does not exist, this
* will return null.
*
* @param string $candidateClass
* @param string $fieldName
* @return string
*/
public function tableForField($candidateClass, $fieldName) {
$class = $this->classForField($candidateClass, $fieldName);
if($class) {
return $this->tableName($class);
}
return null;
}
/**
* Returns the class name in the class hierarchy which contains a given
* field column for a {@link DataObject}. If the field does not exist, this
* will return null.
*
* @param string $candidateClass
* @param string $fieldName
* @return string
*/
public function classForField($candidateClass, $fieldName) {
// normalise class name
$candidateClass = ClassInfo::class_name($candidateClass);
if($candidateClass === DataObject::class) {
return null;
}
// Short circuit for fixed fields
$fixed = DataObject::config()->get('fixed_fields');
if(isset($fixed[$fieldName])) {
return $this->baseDataClass($candidateClass);
}
// Find regular field
while($candidateClass) {
$fields = $this->databaseFields($candidateClass, false);
if(isset($fields[$fieldName])) {
return $candidateClass;
}
$candidateClass = get_parent_class($candidateClass);
}
return null;
}
/**
* Return information about a specific many_many component. Returns a numeric array.
* The first item in the array will be the class name of the relation.
*
* Standard many_many return type is:
*
* array(
* <manyManyClass>, Name of class for relation. E.g. "Categories"
* <classname>, The class that relation is defined in e.g. "Product"
* <candidateName>, The target class of the relation e.g. "Category"
* <parentField>, The field name pointing to <classname>'s table e.g. "ProductID".
* <childField>, The field name pointing to <candidatename>'s table e.g. "CategoryID".
* <joinTableOrRelation> The join table between the two classes e.g. "Product_Categories".
* If the class name is 'ManyManyThroughList' then this is the name of the
* has_many relation.
* )
* @param string $class Name of class to get component for
* @param string $component The component name
* @return array|null
*/
public function manyManyComponent($class, $component) {
$classes = ClassInfo::ancestry($class);
foreach($classes as $parentClass) {
// Check if the component is defined in many_many on this class
$manyMany = Config::inst()->get($parentClass, 'many_many', Config::UNINHERITED);
if(isset($manyMany[$component])) {
return $this->parseManyManyComponent($parentClass, $component, $manyMany[$component]);
}
// Check if the component is defined in belongs_many_many on this class
$belongsManyMany = Config::inst()->get($parentClass, 'belongs_many_many', Config::UNINHERITED);
if (!isset($belongsManyMany[$component])) {
continue;
}
// Extract class and relation name from dot-notation
list($childClass, $relationName)
= $this->parseBelongsManyManyComponent($parentClass, $component, $belongsManyMany[$component]);
// Build inverse relationship from other many_many, and swap parent/child
list($relationClass, $childClass, $parentClass, $childField, $parentField, $joinTable)
= $this->manyManyComponent($childClass, $relationName);
return [$relationClass, $parentClass, $childClass, $parentField, $childField, $joinTable];
}
return null;
}
/**
* Parse a belongs_many_many component to extract class and relationship name
*
* @param string $parentClass Name of class
* @param string $component Name of relation on class
* @param string $specification specification for this belongs_many_many
* @return array Array with child class and relation name
*/
protected function parseBelongsManyManyComponent($parentClass, $component, $specification)
{
$childClass = $specification;
$relationName = null;
if (strpos($specification, '.') !== false) {
list($childClass, $relationName) = explode('.', $specification, 2);
}
// We need to find the inverse component name, if not explicitly given
if (!$relationName) {
$relationName = $this->getManyManyInverseRelationship($childClass, $parentClass);
}
// Check valid relation found
if (!$relationName) {
throw new LogicException(
"belongs_many_many relation {$parentClass}.{$component} points to "
. "{$specification} without matching many_many"
);
}
// Return relatios
return array($childClass, $relationName);
}
/**
* Return the many-to-many extra fields specification for a specific component.
*
* @param string $class
* @param string $component
* @return array|null
*/
public function manyManyExtraFieldsForComponent($class, $component) {
// Get directly declared many_many_extraFields
$extraFields = Config::inst()->get($class, 'many_many_extraFields');
if (isset($extraFields[$component])) {
return $extraFields[$component];
}
// If not belongs_many_many then there are no components
while ($class && ($class !== DataObject::class)) {
$belongsManyMany = Config::inst()->get($class, 'belongs_many_many', Config::UNINHERITED);
if (isset($belongsManyMany[$component])) {
// Reverse relationship and find extrafields from child class
list($childClass, $relationName) = $this->parseBelongsManyManyComponent($class, $component,
$belongsManyMany[$component]);
return $this->manyManyExtraFieldsForComponent($childClass, $relationName);
}
$class = get_parent_class($class);
}
return null;
}
/**
* Return data for a specific has_many component.
*
* @param string $class Parent class
* @param string $component
* @param bool $classOnly If this is TRUE, than any has_many relationships in the form
* "ClassName.Field" will have the field data stripped off. It defaults to TRUE.
* @return string|null
*/
public function hasManyComponent($class, $component, $classOnly = true) {
$hasMany = (array)Config::inst()->get($class, 'has_many');
if(!isset($hasMany[$component])) {
return null;
}
// Remove has_one specifier if given
$hasMany = $hasMany[$component];
$hasManyClass = strtok($hasMany, '.');
// Validate
$this->checkRelationClass($class, $component, $hasManyClass, 'has_many');
return $classOnly ? $hasManyClass : $hasMany;
}
/**
* Return data for a specific has_one component.
*
* @param string $class
* @param string $component
* @return string|null
*/
public function hasOneComponent($class, $component) {
$hasOnes = Config::inst()->get($class, 'has_one');
if(!isset($hasOnes[$component])) {
return null;
}
// Validate
$relationClass = $hasOnes[$component];
$this->checkRelationClass($class, $component, $relationClass, 'has_one');
return $relationClass;
}
/**
* Return data for a specific belongs_to component.
*
* @param string $class
* @param string $component
* @param bool $classOnly If this is TRUE, than any has_many relationships in the
* form "ClassName.Field" will have the field data stripped off. It defaults to TRUE.
* @return string|null
*/
public function belongsToComponent($class, $component, $classOnly = true) {
$belongsTo = (array)Config::inst()->get($class, 'belongs_to');
if(!isset($belongsTo[$component])) {
return null;
}
// Remove has_one specifier if given
$belongsTo = $belongsTo[$component];
$belongsToClass = strtok($belongsTo, '.');
// Validate
$this->checkRelationClass($class, $component, $belongsToClass, 'belongs_to');
return $classOnly ? $belongsToClass : $belongsTo;
}
/**
*
* @param string $parentClass Parent class name
* @param string $component ManyMany name
* @param string|array $specification Declaration of many_many relation type
* @return array
*/
protected function parseManyManyComponent($parentClass, $component, $specification)
{
// Check if this is many_many_through
if (is_array($specification)) {
// Validate join, parent and child classes
$joinClass = $this->checkManyManyJoinClass($parentClass, $component, $specification);
$parentClass = $this->checkManyManyFieldClass($parentClass, $component, $joinClass, $specification, 'from');
$joinChildClass = $this->checkManyManyFieldClass($parentClass, $component, $joinClass, $specification, 'to');
return [
ManyManyThroughList::class,
$parentClass,
$joinChildClass,
$specification['from'] . 'ID',
$specification['to'] . 'ID',
$joinClass,
];
}
// Validate $specification class is valid
$this->checkRelationClass($parentClass, $component, $specification, 'many_many');
// automatic scaffolded many_many table
$classTable = $this->tableName($parentClass);
$parentField = "{$classTable}ID";
if ($parentClass === $specification) {
$childField = "ChildID";
} else {
$candidateTable = $this->tableName($specification);
$childField = "{$candidateTable}ID";
}
$joinTable = "{$classTable}_{$component}";
return [
ManyManyList::class,
$parentClass,
$specification,
$parentField,
$childField,
$joinTable,
];
}
/**
* Find a many_many on the child class that points back to this many_many
*
* @param string $childClass
* @param string $parentClass
* @return string|null
*/
protected function getManyManyInverseRelationship($childClass, $parentClass)
{
$otherManyMany = Config::inst()->get($childClass, 'many_many', Config::UNINHERITED);
if (!$otherManyMany) {
return null;
}
foreach ($otherManyMany as $inverseComponentName => $nextClass) {
if ($nextClass === $parentClass) {
return $inverseComponentName;
}
}
return null;
}
/**
* Tries to find the database key on another object that is used to store a
* relationship to this class. If no join field can be found it defaults to 'ParentID'.
*
* If the remote field is polymorphic then $polymorphic is set to true, and the return value
* is in the form 'Relation' instead of 'RelationID', referencing the composite DBField.
*
* @param string $class
* @param string $component Name of the relation on the current object pointing to the
* remote object.
* @param string $type the join type - either 'has_many' or 'belongs_to'
* @param boolean $polymorphic Flag set to true if the remote join field is polymorphic.
* @return string
* @throws Exception
*/
public function getRemoteJoinField($class, $component, $type = 'has_many', &$polymorphic = false) {
// Extract relation from current object
if($type === 'has_many') {
$remoteClass = $this->hasManyComponent($class, $component, false);
} else {
$remoteClass = $this->belongsToComponent($class, $component, false);
}
if(empty($remoteClass)) {
throw new Exception("Unknown $type component '$component' on class '$class'");
}
if(!ClassInfo::exists(strtok($remoteClass, '.'))) {
throw new Exception(
"Class '$remoteClass' not found, but used in $type component '$component' on class '$class'"
);
}
// If presented with an explicit field name (using dot notation) then extract field name
$remoteField = null;
if(strpos($remoteClass, '.') !== false) {
list($remoteClass, $remoteField) = explode('.', $remoteClass);
}
// Reference remote has_one to check against
$remoteRelations = Config::inst()->get($remoteClass, 'has_one');
// Without an explicit field name, attempt to match the first remote field
// with the same type as the current class
if(empty($remoteField)) {
// look for remote has_one joins on this class or any parent classes
$remoteRelationsMap = array_flip($remoteRelations);
foreach(array_reverse(ClassInfo::ancestry($class)) as $class) {
if(array_key_exists($class, $remoteRelationsMap)) {
$remoteField = $remoteRelationsMap[$class];
break;
}
}
}
// In case of an indeterminate remote field show an error
if(empty($remoteField)) {
$polymorphic = false;
$message = "No has_one found on class '$remoteClass'";
if($type == 'has_many') {
// include a hint for has_many that is missing a has_one
$message .= ", the has_many relation from '$class' to '$remoteClass'";
$message .= " requires a has_one on '$remoteClass'";
}
throw new Exception($message);
}
// If given an explicit field name ensure the related class specifies this
if(empty($remoteRelations[$remoteField])) {
throw new Exception("Missing expected has_one named '$remoteField'
on class '$remoteClass' referenced by $type named '$component'
on class {$class}"
);
}
// Inspect resulting found relation
if($remoteRelations[$remoteField] === DataObject::class) {
$polymorphic = true;
return $remoteField; // Composite polymorphic field does not include 'ID' suffix
} else {
$polymorphic = false;
return $remoteField . 'ID';
}
}
/**
* Validate the to or from field on a has_many mapping class
*
* @param string $parentClass Name of parent class
* @param string $component Name of many_many component
* @param string $joinClass Class for the joined table
* @param array $specification Complete many_many specification
* @param string $key Name of key to check ('from' or 'to')
* @return string Class that matches the given relation
* @throws InvalidArgumentException
*/
protected function checkManyManyFieldClass($parentClass, $component, $joinClass, $specification, $key)
{
// Ensure value for this key exists
if (empty($specification[$key])) {
throw new InvalidArgumentException(
"many_many relation {$parentClass}.{$component} has missing {$key} which "
. "should be a has_one on class {$joinClass}"
);
}
// Check that the field exists on the given object
$relation = $specification[$key];
$relationClass = $this->hasOneComponent($joinClass, $relation);
if (empty($relationClass)) {
throw new InvalidArgumentException(
"many_many through relation {$parentClass}.{$component} {$key} references a field name "
. "{$joinClass}::{$relation} which is not a has_one"
);
}
// Check for polymorphic
if ($relationClass === DataObject::class) {
throw new InvalidArgumentException(
"many_many through relation {$parentClass}.{$component} {$key} references a polymorphic field "
. "{$joinClass}::{$relation} which is not supported"
);
}
// Validate the join class isn't also the name of a field or relation on either side
// of the relation
$field = $this->fieldSpec($relationClass, $joinClass);
if ($field) {
throw new InvalidArgumentException(
"many_many through relation {$parentClass}.{$component} {$key} class {$relationClass} "
. " cannot have a db field of the same name of the join class {$joinClass}"
);
}
// Validate bad types on parent relation
if ($key === 'from' && $relationClass !== $parentClass) {
throw new InvalidArgumentException(
"many_many through relation {$parentClass}.{$component} {$key} references a field name "
. "{$joinClass}::{$relation} of type {$relationClass}; {$parentClass} expected"
);
}
return $relationClass;
}
/**
* @param string $parentClass Name of parent class
* @param string $component Name of many_many component
* @param array $specification Complete many_many specification
* @return string Name of join class
*/
protected function checkManyManyJoinClass($parentClass, $component, $specification)
{
if (empty($specification['through'])) {
throw new InvalidArgumentException(
"many_many relation {$parentClass}.{$component} has missing through which should be "
. "a DataObject class name to be used as a join table"
);
}
$joinClass = $specification['through'];
if (!class_exists($joinClass)) {
throw new InvalidArgumentException(
"many_many relation {$parentClass}.{$component} has through class \"{$joinClass}\" which does not exist"
);
}
return $joinClass;
}
/**
* Validate a given class is valid for a relation
*
* @param string $class Parent class
* @param string $component Component name
* @param string $relationClass Candidate class to check
* @param string $type Relation type (e.g. has_one)
*/
protected function checkRelationClass($class, $component, $relationClass, $type)
{
if (!is_string($component) || is_numeric($component)) {
throw new InvalidArgumentException(
"{$class} has invalid {$type} relation name"
);
}
if (!is_string($relationClass)) {
throw new InvalidArgumentException(
"{$type} relation {$class}.{$component} is not a class name"
);
}
if (!class_exists($relationClass)) {
throw new InvalidArgumentException(
"{$type} relation {$class}.{$component} references class {$relationClass} which doesn't exist"
);
}
// Support polymorphic has_one
if ($type === 'has_one') {
$valid = is_a($relationClass, DataObject::class, true);
} else {
$valid = is_subclass_of($relationClass, DataObject::class, true);
}
if (!$valid) {
throw new InvalidArgumentException(
"{$type} relation {$class}.{$component} references class {$relationClass} "
. " which is not a subclass of " . DataObject::class
);
}
}
}