. /** * @package moodlecore * @subpackage backup-structure * @copyright 2010 onwards Eloy Lafuente (stronk7) {@link http://stronk7.com} * @license http://www.gnu.org/copyleft/gpl.html GNU GPL v3 or later * * TODO: Finish phpdocs */ /** * Instantiable class representing one optigroup element for conditional branching * * Objects of this class are internally nested elements, so they support having both * final elements and children (more nested elements) and are able to have one source * and all the stuff supported by nested elements. Their main differences are: * * - Support for conditional execution, using simple equality checks with outer values. * - Don't have representation in the hierarchy, so: * - Their level is the level of the parent of their enclosing optigroup. * - Act as one "path bridge" when looking for parent path values * - They don't support attributes * * Their main use is to allow conditional branching, basically for optional submodules * like question types, assignment subtypes... where different subtrees of information * must be exported. It's correct to assume that each submodule will define its own * optigroup_element for backup purposes. */ class backup_optigroup_element extends backup_nested_element { private $conditionparam; // Unprocessed param representing on path to look for value private $procconditionparam; // Processed base_element param to look for value private $conditionvalue; // Value to compare the the param value with /** * Constructor - instantiates one backup_optigroup_element * * @param string $name of the element * @param array $final_elements this element will handle (optional, defaults to null) * @param string $condition_param param (path) we are using as source for comparing (optional, defaults to null) * @param string $condition_value value we are comparing to (optional, defaults to null) */ public function __construct($name, $final_elements = null, $conditionparam = null, $conditionvalue = null) { parent::__construct($name, null, $final_elements); $this->set_condition($conditionparam, $conditionvalue); } // Public API starts here /** * Sets the condition for this optigroup */ public function set_condition($conditionparam, $conditionvalue) { // We only resolve the condition if the parent of the element (optigroup) already has parent // else, we'll resolve it once the optigroup parent is defined if ($this->get_parent() && $this->get_parent()->get_parent() && $conditionparam !== null) { $this->procconditionparam = $this->find_element($conditionparam); } $this->conditionparam = $conditionparam; $this->conditionvalue = $conditionvalue; } public function get_condition_param() { return $this->conditionparam; } public function get_condition_value() { return $this->conditionvalue; } /** * Evaluate the condition, returning if matches (true) or no (false) */ public function condition_matches() { $match = false; // By default no match $param = $this->procconditionparam; if ($param instanceof base_atom && $param->is_set()) { $match = ($param->get_value() == $this->conditionvalue); // blame $DB for not having === ! } else { $match = ($param == $this->conditionvalue); } return $match; } /** * Return the level of this element, that will be, the level of the parent (doesn't consume level) * (note this os only a "cosmetic" effect (to_string) as fact as the real responsible for this * is the corresponding structure_processor for the final output. */ public function get_level() { return $this->get_parent() == null ? 1 : $this->get_parent()->get_level(); } /** * process one optigroup_element * * Note that this ONLY processes the final elements in order to get all them * before processing any nested element. Pending nested elements are processed * by the optigroup caller. */ public function process($processor) { if (!$processor instanceof base_processor) { // No correct processor, throw exception throw new base_element_struct_exception('incorrect_processor'); } $iterator = $this->get_iterator($processor); // Get the iterator over backup-able data $itcounter = 0; // To check that the iterator only has 1 ocurrence foreach ($iterator as $key => $values) { // Process each "ocurrrence" of the nested element (recordset or array) // Fill the values of the attributes and final elements with the $values from the iterator $this->fill_values($values); // Delegate the process of each final_element foreach ($this->get_final_elements() as $final_element) { $final_element->process($processor); } // Everything processed, clean values before next iteration $this->clean_values(); // Increment counters for this element $this->counter++; $itcounter++; // optigroup_element, check we only have 1 element always if ($itcounter > 1) { throw new base_element_struct_exception('optigroup_element_only_one_ocurrence', $this->get_name()); } } // Close the iterator (DB recordset / array iterator) $iterator->close(); } // Forbidden API starts here /** * Adding optigroups is forbidden */ public function add_add_optigroup($optigroup) { throw new base_element_struct_exception('optigroup_element_not_optigroup'); } /** * Adding attributes is forbidden */ public function add_attributes($attributes) { throw new base_element_struct_exception('optigroup_element_not_attributes'); } /** * Instantiating attributes is forbidden */ protected function get_new_attribute($name) { throw new base_element_struct_exception('optigroup_element_not_attributes'); } // Protected API starts here /** * Returns one instace of the @final_element class to work with * when final_elements are added simply by name */ protected function get_new_final_element($name) { return new backup_final_element($name); } /** * Set the parent of the optigroup_element and, at the same time, * process the condition param */ protected function set_parent($element) { parent::set_parent($element); // Force condition param calculation $this->set_condition($this->conditionparam, $this->conditionvalue); } }