Number.php in Zircon Profile 8
Same filename in this branch
Same filename and directory in other branches
Contains \Drupal\Component\Utility\Number.
Namespace
Drupal\Component\UtilityFile
core/lib/Drupal/Component/Utility/Number.phpView source
<?php
/**
* @file
* Contains \Drupal\Component\Utility\Number.
*/
namespace Drupal\Component\Utility;
/**
* Provides helper methods for manipulating numbers.
*
* @ingroup utility
*/
class Number {
/**
* Verifies that a number is a multiple of a given step.
*
* The implementation assumes it is dealing with IEEE 754 double precision
* floating point numbers that are used by PHP on most systems.
*
* This is based on the number/range verification methods of webkit.
*
* @param numeric $value
* The value that needs to be checked.
* @param numeric $step
* The step scale factor. Must be positive.
* @param numeric $offset
* (optional) An offset, to which the difference must be a multiple of the
* given step.
*
* @return bool
* TRUE if no step mismatch has occurred, or FALSE otherwise.
*
* @see http://opensource.apple.com/source/WebCore/WebCore-1298/html/NumberInputType.cpp
*/
public static function validStep($value, $step, $offset = 0.0) {
$double_value = (double) abs($value - $offset);
// The fractional part of a double has 53 bits. The greatest number that
// could be represented with that is 2^53. If the given value is even bigger
// than $step * 2^53, then dividing by $step will result in a very small
// remainder. Since that remainder can't even be represented with a single
// precision float the following computation of the remainder makes no sense
// and we can safely ignore it instead.
if ($double_value / pow(2.0, 53) > $step) {
return TRUE;
}
// Now compute that remainder of a division by $step.
$remainder = (double) abs($double_value - $step * round($double_value / $step));
// $remainder is a double precision floating point number. Remainders that
// can't be represented with single precision floats are acceptable. The
// fractional part of a float has 24 bits. That means remainders smaller than
// $step * 2^-24 are acceptable.
$computed_acceptable_error = (double) ($step / pow(2.0, 24));
return $computed_acceptable_error >= $remainder || $remainder >= $step - $computed_acceptable_error;
}
/**
* Generates a sorting code from an integer.
*
* Consists of a leading character indicating length, followed by N digits
* with a numerical value in base 36 (alphadecimal). These codes can be sorted
* as strings without altering numerical order.
*
* It goes:
* 00, 01, 02, ..., 0y, 0z,
* 110, 111, ... , 1zy, 1zz,
* 2100, 2101, ..., 2zzy, 2zzz,
* 31000, 31001, ...
*
* @param int $i
* The integer value to convert.
*
* @return string
* The alpha decimal value.
*
* @see \Drupal\Component\Utility\Number::alphadecimalToInt
*/
public static function intToAlphadecimal($i = 0) {
$num = base_convert((int) $i, 10, 36);
$length = strlen($num);
return chr($length + ord('0') - 1) . $num;
}
/**
* Decodes a sorting code back to an integer.
*
* @param string $string
* The alpha decimal value to convert
*
* @return int
* The integer value.
*
* @see \Drupal\Component\Utility\Number::intToAlphadecimal
*/
public static function alphadecimalToInt($string = '00') {
return (int) base_convert(substr($string, 1), 36, 10);
}
}