realPart = (float) $realPart; $this->imaginaryPart = (float) $imaginaryPart; $this->suffix = strtolower($suffix); } /** * Gets the real part of this complex number * * @return Float */ public function getReal() { return $this->realPart; } /** * Gets the imaginary part of this complex number * * @return Float */ public function getImaginary() { return $this->imaginaryPart; } /** * Gets the suffix of this complex number * * @return String */ public function getSuffix() { return $this->suffix; } /** * Returns true if this is a real value, false if a complex value * * @return Bool */ public function isReal() { return $this->imaginaryPart == 0.0; } /** * Returns true if this is a complex value, false if a real value * * @return Bool */ public function isComplex() { return !$this->isReal(); } public function format() { $str = ""; if ($this->imaginaryPart != 0.0) { if (\abs($this->imaginaryPart) != 1.0) { $str .= $this->imaginaryPart . $this->suffix; } else { $str .= (($this->imaginaryPart < 0.0) ? '-' : '') . $this->suffix; } } if ($this->realPart != 0.0) { if (($str) && ($this->imaginaryPart > 0.0)) { $str = "+" . $str; } $str = $this->realPart . $str; } if (!$str) { $str = "0.0"; } return $str; } public function __toString() { return $this->format(); } /** * Validates whether the argument is a valid complex number, converting scalar or array values if possible * * @param mixed $complex The value to validate * @return Complex * @throws Exception If the argument isn't a Complex number or cannot be converted to one */ public static function validateComplexArgument($complex) { if (is_scalar($complex) || is_array($complex)) { $complex = new Complex($complex); } elseif (!is_object($complex) || !($complex instanceof Complex)) { throw new Exception('Value is not a valid complex number'); } return $complex; } /** * Returns the reverse of this complex number * * @return Complex */ public function reverse() { return new Complex( $this->imaginaryPart, $this->realPart, ($this->realPart == 0.0) ? null : $this->suffix ); } public function invertImaginary() { return new Complex( $this->realPart, $this->imaginaryPart * -1, ($this->imaginaryPart == 0.0) ? null : $this->suffix ); } public function invertReal() { return new Complex( $this->realPart * -1, $this->imaginaryPart, ($this->imaginaryPart == 0.0) ? null : $this->suffix ); } protected static $functions = [ 'abs', 'acos', 'acosh', 'acot', 'acoth', 'acsc', 'acsch', 'argument', 'asec', 'asech', 'asin', 'asinh', 'atan', 'atanh', 'conjugate', 'cos', 'cosh', 'cot', 'coth', 'csc', 'csch', 'exp', 'inverse', 'ln', 'log2', 'log10', 'negative', 'pow', 'rho', 'sec', 'sech', 'sin', 'sinh', 'sqrt', 'tan', 'tanh', 'theta', ]; protected static $operations = [ 'add', 'subtract', 'multiply', 'divideby', 'divideinto', ]; /** * Returns the result of the function call or operation * * @return Complex|float * @throws Exception|\InvalidArgumentException */ public function __call($functionName, $arguments) { $functionName = strtolower(str_replace('_', '', $functionName)); // Test for function calls if (in_array($functionName, self::$functions)) { $functionName = "\\" . __NAMESPACE__ . "\\{$functionName}"; return $functionName($this, ...$arguments); } // Test for operation calls if (in_array($functionName, self::$operations)) { $functionName = "\\" . __NAMESPACE__ . "\\{$functionName}"; return $functionName($this, ...$arguments); } throw new Exception('Function or Operation does not exist'); } }