"Invalid value given. Scalar expected", self::NOT_STEP => "The input is not a valid step" ]; /** * @var mixed */ protected $baseValue = 0; /** * @var mixed */ protected $step = 1; /** * Set default options for this instance * * @param array $options */ public function __construct($options = []) { if ($options instanceof Traversable) { $options = iterator_to_array($options); } elseif (! is_array($options)) { $options = func_get_args(); $temp['baseValue'] = array_shift($options); if (! empty($options)) { $temp['step'] = array_shift($options); } $options = $temp; } if (isset($options['baseValue'])) { $this->setBaseValue($options['baseValue']); } if (isset($options['step'])) { $this->setStep($options['step']); } parent::__construct($options); } /** * Sets the base value from which the step should be computed * * @param mixed $baseValue * @return Step */ public function setBaseValue($baseValue) { $this->baseValue = $baseValue; return $this; } /** * Returns the base value from which the step should be computed * * @return string */ public function getBaseValue() { return $this->baseValue; } /** * Sets the step value * * @param mixed $step * @return Step */ public function setStep($step) { $this->step = (float) $step; return $this; } /** * Returns the step value * * @return string */ public function getStep() { return $this->step; } /** * Returns true if $value is a scalar and a valid step value * * @param mixed $value * @return bool */ public function isValid($value) { if (! is_numeric($value)) { $this->error(self::INVALID); return false; } $this->setValue($value); $substract = $this->sub($value, $this->baseValue); $fmod = $this->fmod($substract, $this->step); if ($fmod !== 0.0 && $fmod !== $this->step) { $this->error(self::NOT_STEP); return false; } return true; } /** * replaces the internal fmod function which give wrong results on many cases * * @param float $x * @param float $y * @return float */ protected function fmod($x, $y) { if ($y == 0.0) { return 1.0; } //find the maximum precision from both input params to give accurate results $precision = $this->getPrecision($x) + $this->getPrecision($y); return round($x - $y * floor($x / $y), $precision); } /** * replaces the internal substraction operation which give wrong results on some cases * * @param float $x * @param float $y * @return float */ private function sub($x, $y) { $precision = $this->getPrecision($x) + $this->getPrecision($y); return round($x - $y, $precision); } /** * @param float $float * @return int */ private function getPrecision($float) { $segment = substr($float, strpos($float, '.') + 1); return $segment ? strlen($segment) : 0; } }