<?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/>.
/**
* Numerical question definition class.
*
* @package qtype
* @subpackage numerical
* @copyright 2009 The Open University
* @license http://www.gnu.org/copyleft/gpl.html GNU GPL v3 or later
*/
defined('MOODLE_INTERNAL') || die();
require_once($CFG->dirroot . '/question/type/questionbase.php');
/**
* Represents a numerical question.
*
* @copyright 2009 The Open University
* @license http://www.gnu.org/copyleft/gpl.html GNU GPL v3 or later
*/
class qtype_numerical_question extends question_graded_automatically {
/** @var array of question_answer. */
public $answers = array();
/** @var int one of the constants UNITNONE, UNITRADIO, UNITSELECT or UNITINPUT. */
public $unitdisplay;
/** @var int one of the constants UNITGRADEDOUTOFMARK or UNITGRADEDOUTOFMAX. */
public $unitgradingtype;
/** @var number the penalty for a missing or unrecognised unit. */
public $unitpenalty;
/** @var boolean whether the units come before or after the number */
public $unitsleft;
/** @var qtype_numerical_answer_processor */
public $ap;
public function get_expected_data() {
$expected = array('answer' => PARAM_RAW_TRIMMED);
if ($this->has_separate_unit_field()) {
$expected['unit'] = PARAM_RAW_TRIMMED;
}
return $expected;
}
public function has_separate_unit_field() {
return $this->unitdisplay == qtype_numerical::UNITRADIO ||
$this->unitdisplay == qtype_numerical::UNITSELECT;
}
public function start_attempt(question_attempt_step $step, $variant) {
$step->set_qt_var('_separators',
$this->ap->get_point() . '$' . $this->ap->get_separator());
}
public function apply_attempt_state(question_attempt_step $step) {
list($point, $separator) = explode('$', $step->get_qt_var('_separators'));
$this->ap->set_characters($point, $separator);
}
public function summarise_response(array $response) {
if (isset($response['answer'])) {
$resp = $response['answer'];
} else {
$resp = null;
}
if ($this->has_separate_unit_field() && !empty($response['unit'])) {
$resp = $this->ap->add_unit($resp, $response['unit']);
}
return $resp;
}
public function un_summarise_response(string $summary) {
if ($this->has_separate_unit_field()) {
throw new coding_exception('Sorry, but at the moment un_summarise_response cannot handle the
has_separate_unit_field case for numerical questions.
If you need this, you will have to implement it yourself.');
}
if (!empty($summary)) {
return ['answer' => $summary];
} else {
return [];
}
}
public function is_gradable_response(array $response) {
return array_key_exists('answer', $response) &&
($response['answer'] || $response['answer'] === '0' || $response['answer'] === 0);
}
public function is_complete_response(array $response) {
if (!$this->is_gradable_response($response)) {
return false;
}
list($value, $unit) = $this->ap->apply_units($response['answer']);
if (is_null($value)) {
return false;
}
if ($this->unitdisplay != qtype_numerical::UNITINPUT && $unit) {
return false;
}
if ($this->has_separate_unit_field() && empty($response['unit'])) {
return false;
}
if ($this->ap->contains_thousands_seaparator($response['answer'])) {
return false;
}
return true;
}
public function get_validation_error(array $response) {
if (!$this->is_gradable_response($response)) {
return get_string('pleaseenterananswer', 'qtype_numerical');
}
list($value, $unit) = $this->ap->apply_units($response['answer']);
if (is_null($value)) {
return get_string('invalidnumber', 'qtype_numerical');
}
if ($this->unitdisplay != qtype_numerical::UNITINPUT && $unit) {
return get_string('invalidnumbernounit', 'qtype_numerical');
}
if ($this->has_separate_unit_field() && empty($response['unit'])) {
return get_string('unitnotselected', 'qtype_numerical');
}
if ($this->ap->contains_thousands_seaparator($response['answer'])) {
return get_string('pleaseenteranswerwithoutthousandssep', 'qtype_numerical',
$this->ap->get_separator());
}
return '';
}
public function is_same_response(array $prevresponse, array $newresponse) {
if (!question_utils::arrays_same_at_key_missing_is_blank(
$prevresponse, $newresponse, 'answer')) {
return false;
}
if ($this->has_separate_unit_field()) {
return question_utils::arrays_same_at_key_missing_is_blank(
$prevresponse, $newresponse, 'unit');
}
return true;
}
public function get_correct_response() {
$answer = $this->get_correct_answer();
if (!$answer) {
return array();
}
$response = array('answer' => str_replace('.', $this->ap->get_point(), $answer->answer));
if ($this->has_separate_unit_field()) {
$response['unit'] = $this->ap->get_default_unit();
} else if ($this->unitdisplay == qtype_numerical::UNITINPUT) {
$response['answer'] = $this->ap->add_unit($answer->answer);
}
return $response;
}
/**
* Get an answer that contains the feedback and fraction that should be
* awarded for this response.
* @param number $value the numerical value of a response.
* @param number $multiplier for the unit the student gave, if any. When no
* unit was given, or an unrecognised unit was given, $multiplier will be null.
* @return question_answer the matching answer.
*/
public function get_matching_answer($value, $multiplier) {
if (is_null($value) || $value === '') {
return null;
}
if (!is_null($multiplier)) {
$scaledvalue = $value * $multiplier;
} else {
$scaledvalue = $value;
}
foreach ($this->answers as $answer) {
if ($answer->within_tolerance($scaledvalue)) {
< $answer->unitisright = !is_null($multiplier);
return $answer;
} else if ($answer->within_tolerance($value)) {
< $answer->unitisright = false;
return $answer;
}
}
return null;
}
> /**
public function get_correct_answer() {
> * Checks if the provided $multiplier is appropriate for the unit of the given $value,
foreach ($this->answers as $answer) {
> * ensuring that multiplying $value by the $multiplier yields the expected $answer.
$state = question_state::graded_state_for_fraction($answer->fraction);
> *
if ($state == question_state::$gradedright) {
> * @param qtype_numerical_answer $answer The expected result when multiplying $value by the appropriate $multiplier.
return $answer;
> * @param float $value The provided value
}
> * @param float|null $multiplier The multiplier value for the unit of $value.
}
> * @return bool Returns true if the $multiplier is correct for the unit of $value, false otherwise.
return null;
> */
}
> public function is_unit_right(qtype_numerical_answer $answer, float $value, ?float $multiplier): bool {
> if (is_null($multiplier)) {
/**
> return false;
* Adjust the fraction based on whether the unit was correct.
> }
* @param number $fraction
>
* @param bool $unitisright
> return $answer->within_tolerance($multiplier * $value);
* @return number
> }
*/
>
public function apply_unit_penalty($fraction, $unitisright) {
if ($unitisright) {
return $fraction;
}
if ($this->unitgradingtype == qtype_numerical::UNITGRADEDOUTOFMARK) {
$fraction -= $this->unitpenalty * $fraction;
} else if ($this->unitgradingtype == qtype_numerical::UNITGRADEDOUTOFMAX) {
$fraction -= $this->unitpenalty;
}
return max($fraction, 0);
}
public function grade_response(array $response) {
if ($this->has_separate_unit_field()) {
$selectedunit = $response['unit'];
} else {
$selectedunit = null;
}
list($value, $unit, $multiplier) = $this->ap->apply_units(
$response['answer'], $selectedunit);
> /** @var qtype_numerical_answer $answer */
$answer = $this->get_matching_answer($value, $multiplier);
if (!$answer) {
return array(0, question_state::$gradedwrong);
}
< $fraction = $this->apply_unit_penalty($answer->fraction, $answer->unitisright);
> $unitisright = $this->is_unit_right($answer, $value, $multiplier);
> $fraction = $this->apply_unit_penalty($answer->fraction, $unitisright);
return array($fraction, question_state::graded_state_for_fraction($fraction));
}
public function classify_response(array $response) {
if (!$this->is_gradable_response($response)) {
return array($this->id => question_classified_response::no_response());
}
if ($this->has_separate_unit_field()) {
$selectedunit = $response['unit'];
} else {
$selectedunit = null;
}
list($value, $unit, $multiplier) = $this->ap->apply_units($response['answer'], $selectedunit);
> /** @var qtype_numerical_answer $ans */
$ans = $this->get_matching_answer($value, $multiplier);
$resp = $response['answer'];
if ($this->has_separate_unit_field()) {
$resp = $this->ap->add_unit($resp, $unit);
}
if ($value === null) {
// Invalid response shown as no response (but show actual response).
return array($this->id => new question_classified_response(null, $resp, 0));
} else if (!$ans) {
// Does not match any answer.
return array($this->id => new question_classified_response(0, $resp, 0));
}
< return array($this->id => new question_classified_response($ans->id,
< $resp,
< $this->apply_unit_penalty($ans->fraction, $ans->unitisright)));
> $unitisright = $this->is_unit_right($ans, $value, $multiplier);
> return [
> $this->id => new question_classified_response($ans->id, $resp, $this->apply_unit_penalty($ans->fraction, $unitisright))
> ];
}
public function check_file_access($qa, $options, $component, $filearea, $args,
$forcedownload) {
if ($component == 'question' && $filearea == 'answerfeedback') {
$currentanswer = $qa->get_last_qt_var('answer');
if ($this->has_separate_unit_field()) {
$selectedunit = $qa->get_last_qt_var('unit');
} else {
$selectedunit = null;
}
list($value, $unit, $multiplier) = $this->ap->apply_units(
$currentanswer, $selectedunit);
$answer = $this->get_matching_answer($value, $multiplier);
$answerid = reset($args); // Itemid is answer id.
return $options->feedback && $answer && $answerid == $answer->id;
} else if ($component == 'question' && $filearea == 'hint') {
return $this->check_hint_file_access($qa, $options, $args);
} else {
return parent::check_file_access($qa, $options, $component, $filearea,
$args, $forcedownload);
}
}
/**
* Return the question settings that define this question as structured data.
*
* @param question_attempt $qa the current attempt for which we are exporting the settings.
* @param question_display_options $options the question display options which say which aspects of the question
* should be visible.
* @return mixed structure representing the question settings. In web services, this will be JSON-encoded.
*/
public function get_question_definition_for_external_rendering(question_attempt $qa, question_display_options $options) {
// This is a partial implementation, returning only the most relevant question settings for now,
// ideally, we should return as much as settings as possible (depending on the state and display options).
return [
'unitgradingtype' => $this->unitgradingtype,
'unitpenalty' => $this->unitpenalty,
'unitdisplay' => $this->unitdisplay,
'unitsleft' => $this->unitsleft,
];
}
}
/**
* Subclass of {@link question_answer} with the extra information required by
* the numerical question type.
*
* @copyright 2009 The Open University
* @license http://www.gnu.org/copyleft/gpl.html GNU GPL v3 or later
*/
class qtype_numerical_answer extends question_answer {
/** @var float allowable margin of error. */
public $tolerance;
/** @var integer|string see {@link get_tolerance_interval()} for the meaning of this value. */
public $tolerancetype = 2;
public function __construct($id, $answer, $fraction, $feedback, $feedbackformat, $tolerance) {
parent::__construct($id, $answer, $fraction, $feedback, $feedbackformat);
< $this->tolerance = abs($tolerance);
> $this->tolerance = abs((float)$tolerance);
}
public function get_tolerance_interval() {
if ($this->answer === '*') {
throw new coding_exception('Cannot work out tolerance interval for answer *.');
}
// Smallest number that, when added to 1, is different from 1.
$epsilon = pow(10, -1 * ini_get('precision'));
// We need to add a tiny fraction depending on the set precision to make
// the comparison work correctly, otherwise seemingly equal values can
// yield false. See MDL-3225.
$tolerance = abs($this->tolerance) + $epsilon;
switch ($this->tolerancetype) {
case 1: case 'relative':
$range = abs($this->answer) * $tolerance;
return array($this->answer - $range, $this->answer + $range);
case 2: case 'nominal':
$tolerance = $this->tolerance + $epsilon * max(abs($this->tolerance), abs($this->answer), $epsilon);
return array($this->answer - $tolerance, $this->answer + $tolerance);
case 3: case 'geometric':
$quotient = 1 + abs($tolerance);
> if ($this->answer < 0) {
return array($this->answer / $quotient, $this->answer * $quotient);
> return array($this->answer * $quotient, $this->answer / $quotient);
> }
default:
throw new coding_exception('Unknown tolerance type ' . $this->tolerancetype);
}
}
public function within_tolerance($value) {
if ($this->answer === '*') {
return true;
}
list($min, $max) = $this->get_tolerance_interval();
return $min <= $value && $value <= $max;
}
}