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<?php // This file is part of Moodle - http://moodle.org/ // // Moodle is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // Moodle is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with Moodle. If not, see <http://www.gnu.org/licenses/>. /** * Allocates the submissions randomly * * @package workshopallocation_random * @subpackage mod_workshop * @copyright 2009 David Mudrak <david.mudrak@gmail.com> * @license http://www.gnu.org/copyleft/gpl.html GNU GPL v3 or later */ defined('MOODLE_INTERNAL') || die(); global $CFG; // access to global variables during unit test require_once(__DIR__ . '/../lib.php'); // interface definition require_once(__DIR__ . '/../../locallib.php'); // workshop internal API require_once(__DIR__ . '/settings_form.php'); // settings form /** * Allocates the submissions randomly */ class workshop_random_allocator implements workshop_allocator { /** constants used to pass status messages between init() and ui() */ const MSG_SUCCESS = 1; /** workshop instance */ protected $workshop; /** mform with settings */ protected $mform; /** * @param workshop $workshop Workshop API object */ public function __construct(workshop $workshop) { $this->workshop = $workshop; } /** * Allocate submissions as requested by user * * @return workshop_allocation_result */ public function init() { global $PAGE; $result = new workshop_allocation_result($this); $customdata = array(); $customdata['workshop'] = $this->workshop; $this->mform = new workshop_random_allocator_form($PAGE->url, $customdata); if ($this->mform->is_cancelled()) { redirect($this->workshop->view_url()); } else if ($settings = $this->mform->get_data()) { $settings = workshop_random_allocator_setting::instance_from_object($settings); $this->execute($settings, $result); return $result; } else { // this branch is executed if the form is submitted but the data // doesn't validate and the form should be redisplayed // or on the first display of the form. $result->set_status(workshop_allocation_result::STATUS_VOID); return $result; } } /** * Executes the allocation based on the given settings * * @param workshop_random_allocator_setting $setting * @param workshop_allocation_result allocation result logger */ public function execute(workshop_random_allocator_setting $settings, workshop_allocation_result $result) { $authors = $this->workshop->get_potential_authors(); $authors = $this->workshop->get_grouped($authors); $reviewers = $this->workshop->get_potential_reviewers(!$settings->assesswosubmission); $reviewers = $this->workshop->get_grouped($reviewers); $assessments = $this->workshop->get_all_assessments(); $newallocations = array(); // array of array(reviewer => reviewee) if ($settings->numofreviews) { if ($settings->removecurrent) { // behave as if there were no current assessments $curassessments = array(); } else { $curassessments = $assessments; } $options = array(); $options['numofreviews'] = $settings->numofreviews; $options['numper'] = $settings->numper; $options['excludesamegroup'] = $settings->excludesamegroup; $randomallocations = $this->random_allocation($authors, $reviewers, $curassessments, $result, $options); $newallocations = array_merge($newallocations, $randomallocations); $result->log(get_string('numofrandomlyallocatedsubmissions', 'workshopallocation_random', count($randomallocations))); unset($randomallocations); } if ($settings->addselfassessment) { $selfallocations = $this->self_allocation($authors, $reviewers, $assessments); $newallocations = array_merge($newallocations, $selfallocations); $result->log(get_string('numofselfallocatedsubmissions', 'workshopallocation_random', count($selfallocations))); unset($selfallocations); } if (empty($newallocations)) { $result->log(get_string('noallocationtoadd', 'workshopallocation_random'), 'info'); } else { $newnonexistingallocations = $newallocations; $this->filter_current_assessments($newnonexistingallocations, $assessments); $this->add_new_allocations($newnonexistingallocations, $authors, $reviewers); $allreviewers = $reviewers[0]; $allreviewersreloaded = false; foreach ($newallocations as $newallocation) { $reviewerid = key($newallocation); $authorid = current($newallocation); $a = new stdClass(); if (isset($allreviewers[$reviewerid])) { $a->reviewername = fullname($allreviewers[$reviewerid]); } else { // this may happen if $settings->assesswosubmission is false but the reviewer // of the re-used assessment has not submitted anything. let us reload // the list of reviewers name including those without their submission if (!$allreviewersreloaded) { $allreviewers = $this->workshop->get_potential_reviewers(false); $allreviewersreloaded = true; } if (isset($allreviewers[$reviewerid])) { $a->reviewername = fullname($allreviewers[$reviewerid]); } else { // this should not happen usually unless the list of participants was changed // in between two cycles of allocations $a->reviewername = '#'.$reviewerid; } } if (isset($authors[0][$authorid])) { $a->authorname = fullname($authors[0][$authorid]); } else { $a->authorname = '#'.$authorid; } if (in_array($newallocation, $newnonexistingallocations)) { $result->log(get_string('allocationaddeddetail', 'workshopallocation_random', $a), 'ok', 1); } else { $result->log(get_string('allocationreuseddetail', 'workshopallocation_random', $a), 'ok', 1); } } } if ($settings->removecurrent) { $delassessments = $this->get_unkept_assessments($assessments, $newallocations, $settings->addselfassessment); // random allocator should not be able to delete assessments that have already been graded // by reviewer $result->log(get_string('numofdeallocatedassessment', 'workshopallocation_random', count($delassessments)), 'info'); foreach ($delassessments as $delassessmentkey => $delassessmentid) { $author = (object) []; $reviewer = (object) []; username_load_fields_from_object($author, $assessments[$delassessmentid], 'author'); username_load_fields_from_object($reviewer, $assessments[$delassessmentid], 'reviewer'); $a = [ 'authorname' => fullname($author), 'reviewername' => fullname($reviewer), ]; if (!is_null($assessments[$delassessmentid]->grade)) { $result->log(get_string('allocationdeallocategraded', 'workshopallocation_random', $a), 'error', 1); unset($delassessments[$delassessmentkey]); } else { $result->log(get_string('assessmentdeleteddetail', 'workshopallocation_random', $a), 'info', 1); } } $this->workshop->delete_assessment($delassessments); } $result->set_status(workshop_allocation_result::STATUS_EXECUTED); } /** * Returns the HTML code to print the user interface */ public function ui() { global $PAGE; $output = $PAGE->get_renderer('mod_workshop'); $m = optional_param('m', null, PARAM_INT); // status message code $message = new workshop_message(); if ($m == self::MSG_SUCCESS) { $message->set_text(get_string('randomallocationdone', 'workshopallocation_random')); $message->set_type(workshop_message::TYPE_OK); } $out = $output->container_start('random-allocator'); $out .= $output->render($message); // the nasty hack follows to bypass the sad fact that moodle quickforms do not allow to actually // return the HTML content, just to display it ob_start(); $this->mform->display(); $out .= ob_get_contents(); ob_end_clean(); // if there are some not-grouped participant in a group mode, warn the user $gmode = groups_get_activity_groupmode($this->workshop->cm, $this->workshop->course); if (VISIBLEGROUPS == $gmode or SEPARATEGROUPS == $gmode) { $users = $this->workshop->get_potential_authors() + $this->workshop->get_potential_reviewers(); $users = $this->workshop->get_grouped($users); if (isset($users[0])) { $nogroupusers = $users[0]; foreach ($users as $groupid => $groupusers) { if ($groupid == 0) { continue; } foreach ($groupusers as $groupuserid => $groupuser) { unset($nogroupusers[$groupuserid]); } } if (!empty($nogroupusers)) { $list = array(); foreach ($nogroupusers as $nogroupuser) { $list[] = fullname($nogroupuser); } $a = implode(', ', $list); $out .= $output->box(get_string('nogroupusers', 'workshopallocation_random', $a), 'generalbox warning nogroupusers'); } } } // TODO $out .= $output->heading(get_string('stats', 'workshopallocation_random')); $out .= $output->container_end(); return $out; } /** * Delete all data related to a given workshop module instance * * This plugin does not store any data. * * @see workshop_delete_instance() * @param int $workshopid id of the workshop module instance being deleted * @return void */ public static function delete_instance($workshopid) { return; } /** * Return an array of possible numbers of reviews to be done * * Should contain numbers 1, 2, 3, ... 10 and possibly others up to a reasonable value * * @return array of integers */ public static function available_numofreviews_list() { $options = []; for ($i = 100; $i > 20; $i = $i - 10) { $options[$i] = $i; } for ($i = 20; $i >= 0; $i--) { $options[$i] = $i; } return $options; } /** * Allocates submissions to their authors for review * * If the submission has already been allocated, it is skipped. If the author is not found among * reviewers, the submission is not assigned. * * @param array $authors grouped of {@see workshop::get_potential_authors()} * @param array $reviewers grouped by {@see workshop::get_potential_reviewers()} * @param array $assessments as returned by {@see workshop::get_all_assessments()} * @return array of new allocations to be created, array of array(reviewerid => authorid) */ protected function self_allocation($authors=array(), $reviewers=array(), $assessments=array()) { if (!isset($authors[0]) || !isset($reviewers[0])) { // no authors or no reviewers return array(); } $alreadyallocated = array(); foreach ($assessments as $assessment) { if ($assessment->authorid == $assessment->reviewerid) { $alreadyallocated[$assessment->authorid] = 1; } } $add = array(); // list of new allocations to be created foreach ($authors[0] as $authorid => $author) { // for all authors in all groups if (isset($reviewers[0][$authorid])) { // if the author can be reviewer if (!isset($alreadyallocated[$authorid])) { // and the allocation does not exist yet, then $add[] = array($authorid => $authorid); } } } return $add; } /** * Creates new assessment records * * @param array $newallocations pairs 'reviewerid' => 'authorid' * @param array $dataauthors authors by group, group [0] contains all authors * @param array $datareviewers reviewers by group, group [0] contains all reviewers * @return bool */ protected function add_new_allocations(array $newallocations, array $dataauthors, array $datareviewers) { global $DB; $newallocations = $this->get_unique_allocations($newallocations); $authorids = $this->get_author_ids($newallocations); $submissions = $this->workshop->get_submissions($authorids); $submissions = $this->index_submissions_by_authors($submissions); foreach ($newallocations as $newallocation) { $reviewerid = key($newallocation); $authorid = current($newallocation); if (!isset($submissions[$authorid])) { throw new moodle_exception('unabletoallocateauthorwithoutsubmission', 'workshop'); } $submission = $submissions[$authorid]; $status = $this->workshop->add_allocation($submission, $reviewerid, 1, true); // todo configurable weight? if (workshop::ALLOCATION_EXISTS == $status) { debugging('newallocations array contains existing allocation, this should not happen'); } } } /** * Flips the structure of submission so it is indexed by authorid attribute * * It is the caller's responsibility to make sure the submissions are not teacher * examples so no user is the author of more submissions. * * @param string $submissions array indexed by submission id * @return array indexed by author id */ protected function index_submissions_by_authors($submissions) { $byauthor = array(); if (is_array($submissions)) { foreach ($submissions as $submissionid => $submission) { if (isset($byauthor[$submission->authorid])) { throw new moodle_exception('moresubmissionsbyauthor', 'workshop'); } $byauthor[$submission->authorid] = $submission; } } return $byauthor; } /** * Extracts unique list of authors' IDs from the structure of new allocations * * @param array $newallocations of pairs 'reviewerid' => 'authorid' * @return array of authorids */ protected function get_author_ids($newallocations) { $authors = array(); foreach ($newallocations as $newallocation) { $authorid = reset($newallocation); if (!in_array($authorid, $authors)) { $authors[] = $authorid; } } return $authors; } /** * Removes duplicate allocations * * @param mixed $newallocations array of 'reviewerid' => 'authorid' pairs * @return array */ protected function get_unique_allocations($newallocations) { return array_merge(array_map('unserialize', array_unique(array_map('serialize', $newallocations)))); } /** * Returns the list of assessments to remove * * If user selects "removecurrentallocations", we should remove all current assessment records * and insert new ones. But this would needlessly waste table ids. Instead, let us find only those * assessments that have not been re-allocated in this run of allocation. So, the once-allocated * submissions are kept with their original id. * * @param array $assessments list of current assessments * @param mixed $newallocations array of 'reviewerid' => 'authorid' pairs * @param bool $keepselfassessments do not remove already allocated self assessments * @return array of assessments ids to be removed */ protected function get_unkept_assessments($assessments, $newallocations, $keepselfassessments) { $keepids = array(); // keep these assessments foreach ($assessments as $assessmentid => $assessment) { $aaid = $assessment->authorid; $arid = $assessment->reviewerid; if (($keepselfassessments) && ($aaid == $arid)) { $keepids[$assessmentid] = null; continue; } foreach ($newallocations as $newallocation) { $nrid = key($newallocation); $naid = current($newallocation); if (array($arid, $aaid) == array($nrid, $naid)) { // re-allocation found - let us continue with the next assessment $keepids[$assessmentid] = null; continue 2; } } } return array_keys(array_diff_key($assessments, $keepids)); } /** * Allocates submission reviews randomly * * The algorithm of this function has been described at http://moodle.org/mod/forum/discuss.php?d=128473 * Please see the PDF attached to the post before you study the implementation. The goal of the function * is to connect each "circle" (circles are representing either authors or reviewers) with a required * number of "squares" (the other type than circles are). * * The passed $options array must provide keys: * (int)numofreviews - number of reviews to be allocated to each circle * (int)numper - what user type the circles represent. * (bool)excludesamegroup - whether to prevent peer submissions from the same group in visible group mode * * @param array $authors structure of grouped authors * @param array $reviewers structure of grouped reviewers * @param array $assessments currently assigned assessments to be kept * @param workshop_allocation_result $result allocation result logger * @param array $options allocation options * @return array array of (reviewerid => authorid) pairs */ protected function random_allocation($authors, $reviewers, $assessments, $result, array $options) { if (empty($authors) || empty($reviewers)) { // nothing to be done return array(); } $numofreviews = $options['numofreviews']; $numper = $options['numper']; if (workshop_random_allocator_setting::NUMPER_SUBMISSION == $numper) { // circles are authors, squares are reviewers $result->log(get_string('resultnumperauthor', 'workshopallocation_random', $numofreviews), 'info'); $allcircles = $authors; $allsquares = $reviewers; // get current workload list($circlelinks, $squarelinks) = $this->convert_assessments_to_links($assessments); } elseif (workshop_random_allocator_setting::NUMPER_REVIEWER == $numper) { // circles are reviewers, squares are authors $result->log(get_string('resultnumperreviewer', 'workshopallocation_random', $numofreviews), 'info'); $allcircles = $reviewers; $allsquares = $authors; // get current workload list($squarelinks, $circlelinks) = $this->convert_assessments_to_links($assessments); } else { throw new moodle_exception('unknownusertypepassed', 'workshop'); } // get the users that are not in any group. in visible groups mode, these users are exluded // from allocation by this method // $nogroupcircles is array (int)$userid => undefined if (isset($allcircles[0])) { $nogroupcircles = array_flip(array_keys($allcircles[0])); } else { $nogroupcircles = array(); } foreach ($allcircles as $circlegroupid => $circles) { if ($circlegroupid == 0) { continue; } foreach ($circles as $circleid => $circle) { unset($nogroupcircles[$circleid]); } } // $result->log('circle links = ' . json_encode($circlelinks), 'debug'); // $result->log('square links = ' . json_encode($squarelinks), 'debug'); $squareworkload = array(); // individual workload indexed by squareid $squaregroupsworkload = array(); // group workload indexed by squaregroupid foreach ($allsquares as $squaregroupid => $squares) { $squaregroupsworkload[$squaregroupid] = 0; foreach ($squares as $squareid => $square) { if (!isset($squarelinks[$squareid])) { $squarelinks[$squareid] = array(); } $squareworkload[$squareid] = count($squarelinks[$squareid]); $squaregroupsworkload[$squaregroupid] += $squareworkload[$squareid]; } $squaregroupsworkload[$squaregroupid] /= count($squares); } unset($squaregroupsworkload[0]); // [0] is not real group, it contains all users // $result->log('square workload = ' . json_encode($squareworkload), 'debug'); // $result->log('square group workload = ' . json_encode($squaregroupsworkload), 'debug'); $gmode = groups_get_activity_groupmode($this->workshop->cm, $this->workshop->course); if (SEPARATEGROUPS == $gmode) { // shuffle all groups but [0] which means "all users" $circlegroups = array_keys(array_diff_key($allcircles, array(0 => null))); shuffle($circlegroups); } else { // all users will be processed at once $circlegroups = array(0); } // $result->log('circle groups = ' . json_encode($circlegroups), 'debug'); foreach ($circlegroups as $circlegroupid) { $result->log('processing circle group id ' . $circlegroupid, 'debug'); $circles = $allcircles[$circlegroupid]; // iterate over all circles in the group until the requested number of links per circle exists // or it is not possible to fulfill that requirment // during the first iteration, we try to make sure that at least one circlelink exists. during the // second iteration, we try to allocate two, etc. for ($requiredreviews = 1; $requiredreviews <= $numofreviews; $requiredreviews++) { $this->shuffle_assoc($circles); $result->log('iteration ' . $requiredreviews, 'debug'); foreach ($circles as $circleid => $circle) { if (VISIBLEGROUPS == $gmode and isset($nogroupcircles[$circleid])) { $result->log('skipping circle id ' . $circleid, 'debug'); continue; } $result->log('processing circle id ' . $circleid, 'debug'); if (!isset($circlelinks[$circleid])) { $circlelinks[$circleid] = array(); } $keeptrying = true; // is there a chance to find a square for this circle? $failedgroups = array(); // array of groupids where the square should be chosen from (because // of their group workload) but it was not possible (for example there // was the only square and it had been already connected while ($keeptrying && (count($circlelinks[$circleid]) < $requiredreviews)) { // firstly, choose a group to pick the square from if (NOGROUPS == $gmode) { if (in_array(0, $failedgroups)) { $keeptrying = false; $result->log(get_string('resultnomorepeers', 'workshopallocation_random'), 'error', 1); break; } $targetgroup = 0; } elseif (SEPARATEGROUPS == $gmode) { if (in_array($circlegroupid, $failedgroups)) { $keeptrying = false; $result->log(get_string('resultnomorepeersingroup', 'workshopallocation_random'), 'error', 1); break; } $targetgroup = $circlegroupid; } elseif (VISIBLEGROUPS == $gmode) { $trygroups = array_diff_key($squaregroupsworkload, array(0 => null)); // all but [0] $trygroups = array_diff_key($trygroups, array_flip($failedgroups)); // without previous failures if ($options['excludesamegroup']) { // exclude groups the circle is member of $excludegroups = array(); foreach (array_diff_key($allcircles, array(0 => null)) as $exgroupid => $exgroupmembers) { if (array_key_exists($circleid, $exgroupmembers)) { $excludegroups[$exgroupid] = null; } } $trygroups = array_diff_key($trygroups, $excludegroups); } $targetgroup = $this->get_element_with_lowest_workload($trygroups); } if ($targetgroup === false) { $keeptrying = false; $result->log(get_string('resultnotenoughpeers', 'workshopallocation_random'), 'error', 1); break; } $result->log('next square should be from group id ' . $targetgroup, 'debug', 1); // now, choose a square from the target group $trysquares = array_intersect_key($squareworkload, $allsquares[$targetgroup]); // $result->log('individual workloads in this group are ' . json_encode($trysquares), 'debug', 1); unset($trysquares[$circleid]); // can't allocate to self $trysquares = array_diff_key($trysquares, array_flip($circlelinks[$circleid])); // can't re-allocate the same $targetsquare = $this->get_element_with_lowest_workload($trysquares); if (false === $targetsquare) { $result->log('unable to find an available square. trying another group', 'debug', 1); $failedgroups[] = $targetgroup; continue; } $result->log('target square = ' . $targetsquare, 'debug', 1); // ok - we have found the square $circlelinks[$circleid][] = $targetsquare; $squarelinks[$targetsquare][] = $circleid; $squareworkload[$targetsquare]++; $result->log('increasing square workload to ' . $squareworkload[$targetsquare], 'debug', 1); if ($targetgroup) { // recalculate the group workload $squaregroupsworkload[$targetgroup] = 0; foreach ($allsquares[$targetgroup] as $squareid => $square) { $squaregroupsworkload[$targetgroup] += $squareworkload[$squareid]; } $squaregroupsworkload[$targetgroup] /= count($allsquares[$targetgroup]); $result->log('increasing group workload to ' . $squaregroupsworkload[$targetgroup], 'debug', 1); } } // end of processing this circle } // end of one iteration of processing circles in the group } // end of all iterations over circles in the group } // end of processing circle groups $returned = array(); if (workshop_random_allocator_setting::NUMPER_SUBMISSION == $numper) { // circles are authors, squares are reviewers foreach ($circlelinks as $circleid => $squares) { foreach ($squares as $squareid) { $returned[] = array($squareid => $circleid); } } } if (workshop_random_allocator_setting::NUMPER_REVIEWER == $numper) { // circles are reviewers, squares are authors foreach ($circlelinks as $circleid => $squares) { foreach ($squares as $squareid) { $returned[] = array($circleid => $squareid); } } } return $returned; } /** * Extracts the information about reviews from the authors' and reviewers' perspectives * * @param array $assessments array of assessments as returned by {@link workshop::get_all_assessments()} * @return array of two arrays */ protected function convert_assessments_to_links($assessments) { $authorlinks = array(); // [authorid] => array(reviewerid, reviewerid, ...) $reviewerlinks = array(); // [reviewerid] => array(authorid, authorid, ...) foreach ($assessments as $assessment) { if (!isset($authorlinks[$assessment->authorid])) { $authorlinks[$assessment->authorid] = array(); } if (!isset($reviewerlinks[$assessment->reviewerid])) { $reviewerlinks[$assessment->reviewerid] = array(); } $authorlinks[$assessment->authorid][] = $assessment->reviewerid; $reviewerlinks[$assessment->reviewerid][] = $assessment->authorid; } return array($authorlinks, $reviewerlinks); } /** * Selects an element with the lowest workload * * If there are more elements with the same workload, choose one of them randomly. This may be * used to select a group or user. * * @param array $workload [groupid] => (int)workload * @return mixed int|bool id of the selected element or false if it is impossible to choose */ protected function get_element_with_lowest_workload($workload) { $precision = 10; if (empty($workload)) { return false; } $minload = round(min($workload), $precision); $minkeys = array(); foreach ($workload as $key => $val) { if (round($val, $precision) == $minload) { $minkeys[$key] = $val; } } return array_rand($minkeys); } /** * Shuffle the order of array elements preserving the key=>values * * @param array $array to be shuffled * @return true */ protected function shuffle_assoc(&$array) { if (count($array) > 1) { // $keys needs to be an array, no need to shuffle 1 item or empty arrays, anyway $keys = array_keys($array); shuffle($keys); foreach($keys as $key) { $new[$key] = $array[$key]; } $array = $new; } return true; // because this behaves like in-built shuffle(), which returns true } /** * Filter new allocations so that they do not contain an already existing assessment * * @param mixed $newallocations array of ('reviewerid' => 'authorid') tuples * @param array $assessments array of assessment records * @return void */ protected function filter_current_assessments(&$newallocations, $assessments) { foreach ($assessments as $assessment) { $allocation = array($assessment->reviewerid => $assessment->authorid); $foundat = array_keys($newallocations, $allocation); $newallocations = array_diff_key($newallocations, array_flip($foundat)); } } } /** * Data object defining the settings structure for the random allocator */ class workshop_random_allocator_setting { /** aim to a number of reviews per one submission {@see self::$numper} */ const NUMPER_SUBMISSION = 1; /** aim to a number of reviews per one reviewer {@see self::$numper} */ const NUMPER_REVIEWER = 2; /** @var int number of reviews */ public $numofreviews; /** @var int either {@link self::NUMPER_SUBMISSION} or {@link self::NUMPER_REVIEWER} */ public $numper; /** @var bool prevent reviews by peers from the same group */ public $excludesamegroup; /** @var bool remove current allocations */ public $removecurrent; /** @var bool participants can assess without having submitted anything */ public $assesswosubmission; /** @var bool add self-assessments */ public $addselfassessment;> /** @var bool scheduled allocation status */ > public $enablescheduled;/** * Use the factory method {@link self::instance_from_object()} */ protected function __construct() { } /** * Factory method making the instance from data in the passed object * * @param stdClass $data an object holding the values for our public properties * @return workshop_random_allocator_setting */ public static function instance_from_object(stdClass $data) { $i = new self(); if (!isset($data->numofreviews)) { throw new coding_exception('Missing value of the numofreviews property'); } else { $i->numofreviews = (int)$data->numofreviews; } if (!isset($data->numper)) { throw new coding_exception('Missing value of the numper property'); } else { $i->numper = (int)$data->numper; if ($i->numper !== self::NUMPER_SUBMISSION and $i->numper !== self::NUMPER_REVIEWER) { throw new coding_exception('Invalid value of the numper property'); } } foreach (array('excludesamegroup', 'removecurrent', 'assesswosubmission', 'addselfassessment') as $k) { if (isset($data->$k)) { $i->$k = (bool)$data->$k; } else { $i->$k = false; } } return $i; } /** * Factory method making the instance from data in the passed text * * @param string $text as returned by {@link self::export_text()} * @return workshop_random_allocator_setting */ public static function instance_from_text($text) { return self::instance_from_object(json_decode($text)); } /** * Exports the instance data as a text for persistant storage * * The returned data can be later used by {@self::instance_from_text()} factory method * to restore the instance data. The current implementation uses JSON export format. * * @return string JSON representation of our public properties */ public function export_text() { $getvars = function($obj) { return get_object_vars($obj); }; return json_encode($getvars($this)); } }