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Direktori : /home/silvzytp/ccd-ind-code/vendor/markbaker/complex/classes/src/ |
Current File : /home/silvzytp/ccd-ind-code/vendor/markbaker/complex/classes/src/Operations.php |
<?php namespace Complex; use InvalidArgumentException; class Operations { /** * Adds two or more complex numbers * * @param array of string|integer|float|Complex $complexValues The numbers to add * @return Complex */ public static function add(...$complexValues): Complex { if (count($complexValues) < 2) { throw new \Exception('This function requires at least 2 arguments'); } $base = array_shift($complexValues); $result = clone Complex::validateComplexArgument($base); foreach ($complexValues as $complex) { $complex = Complex::validateComplexArgument($complex); if ($result->isComplex() && $complex->isComplex() && $result->getSuffix() !== $complex->getSuffix()) { throw new Exception('Suffix Mismatch'); } $real = $result->getReal() + $complex->getReal(); $imaginary = $result->getImaginary() + $complex->getImaginary(); $result = new Complex( $real, $imaginary, ($imaginary == 0.0) ? null : max($result->getSuffix(), $complex->getSuffix()) ); } return $result; } /** * Divides two or more complex numbers * * @param array of string|integer|float|Complex $complexValues The numbers to divide * @return Complex */ public static function divideby(...$complexValues): Complex { if (count($complexValues) < 2) { throw new \Exception('This function requires at least 2 arguments'); } $base = array_shift($complexValues); $result = clone Complex::validateComplexArgument($base); foreach ($complexValues as $complex) { $complex = Complex::validateComplexArgument($complex); if ($result->isComplex() && $complex->isComplex() && $result->getSuffix() !== $complex->getSuffix()) { throw new Exception('Suffix Mismatch'); } if ($complex->getReal() == 0.0 && $complex->getImaginary() == 0.0) { throw new InvalidArgumentException('Division by zero'); } $delta1 = ($result->getReal() * $complex->getReal()) + ($result->getImaginary() * $complex->getImaginary()); $delta2 = ($result->getImaginary() * $complex->getReal()) - ($result->getReal() * $complex->getImaginary()); $delta3 = ($complex->getReal() * $complex->getReal()) + ($complex->getImaginary() * $complex->getImaginary()); $real = $delta1 / $delta3; $imaginary = $delta2 / $delta3; $result = new Complex( $real, $imaginary, ($imaginary == 0.0) ? null : max($result->getSuffix(), $complex->getSuffix()) ); } return $result; } /** * Divides two or more complex numbers * * @param array of string|integer|float|Complex $complexValues The numbers to divide * @return Complex */ public static function divideinto(...$complexValues): Complex { if (count($complexValues) < 2) { throw new \Exception('This function requires at least 2 arguments'); } $base = array_shift($complexValues); $result = clone Complex::validateComplexArgument($base); foreach ($complexValues as $complex) { $complex = Complex::validateComplexArgument($complex); if ($result->isComplex() && $complex->isComplex() && $result->getSuffix() !== $complex->getSuffix()) { throw new Exception('Suffix Mismatch'); } if ($result->getReal() == 0.0 && $result->getImaginary() == 0.0) { throw new InvalidArgumentException('Division by zero'); } $delta1 = ($complex->getReal() * $result->getReal()) + ($complex->getImaginary() * $result->getImaginary()); $delta2 = ($complex->getImaginary() * $result->getReal()) - ($complex->getReal() * $result->getImaginary()); $delta3 = ($result->getReal() * $result->getReal()) + ($result->getImaginary() * $result->getImaginary()); $real = $delta1 / $delta3; $imaginary = $delta2 / $delta3; $result = new Complex( $real, $imaginary, ($imaginary == 0.0) ? null : max($result->getSuffix(), $complex->getSuffix()) ); } return $result; } /** * Multiplies two or more complex numbers * * @param array of string|integer|float|Complex $complexValues The numbers to multiply * @return Complex */ public static function multiply(...$complexValues): Complex { if (count($complexValues) < 2) { throw new \Exception('This function requires at least 2 arguments'); } $base = array_shift($complexValues); $result = clone Complex::validateComplexArgument($base); foreach ($complexValues as $complex) { $complex = Complex::validateComplexArgument($complex); if ($result->isComplex() && $complex->isComplex() && $result->getSuffix() !== $complex->getSuffix()) { throw new Exception('Suffix Mismatch'); } $real = ($result->getReal() * $complex->getReal()) - ($result->getImaginary() * $complex->getImaginary()); $imaginary = ($result->getReal() * $complex->getImaginary()) + ($result->getImaginary() * $complex->getReal()); $result = new Complex( $real, $imaginary, ($imaginary == 0.0) ? null : max($result->getSuffix(), $complex->getSuffix()) ); } return $result; } /** * Subtracts two or more complex numbers * * @param array of string|integer|float|Complex $complexValues The numbers to subtract * @return Complex */ public static function subtract(...$complexValues): Complex { if (count($complexValues) < 2) { throw new \Exception('This function requires at least 2 arguments'); } $base = array_shift($complexValues); $result = clone Complex::validateComplexArgument($base); foreach ($complexValues as $complex) { $complex = Complex::validateComplexArgument($complex); if ($result->isComplex() && $complex->isComplex() && $result->getSuffix() !== $complex->getSuffix()) { throw new Exception('Suffix Mismatch'); } $real = $result->getReal() - $complex->getReal(); $imaginary = $result->getImaginary() - $complex->getImaginary(); $result = new Complex( $real, $imaginary, ($imaginary == 0.0) ? null : max($result->getSuffix(), $complex->getSuffix()) ); } return $result; } }