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<?php namespace PhpOffice\PhpSpreadsheet\Shared\JAMA; use PhpOffice\PhpSpreadsheet\Calculation\Exception as CalculationException; use PhpOffice\PhpSpreadsheet\Calculation\Information\ExcelError; use PhpOffice\PhpSpreadsheet\Shared\StringHelper; /** * Matrix class. * * @author Paul Meagher * @author Michael Bommarito * @author Lukasz Karapuda * @author Bartek Matosiuk * * @version 1.8 * * @see https://math.nist.gov/javanumerics/jama/ */ class Matrix { const POLYMORPHIC_ARGUMENT_EXCEPTION = 'Invalid argument pattern for polymorphic function.'; const ARGUMENT_TYPE_EXCEPTION = 'Invalid argument type.'; const ARGUMENT_BOUNDS_EXCEPTION = 'Invalid argument range.'; const MATRIX_DIMENSION_EXCEPTION = 'Matrix dimensions are not equal.'; const ARRAY_LENGTH_EXCEPTION = 'Array length must be a multiple of m.'; const MATRIX_SPD_EXCEPTION = 'Can only perform operation on symmetric positive definite matrix.'; /** * Matrix storage. * * @var array */ public $A = []; /** * Matrix row dimension. * * @var int */ private $m; /** * Matrix column dimension. * * @var int */ private $n; /** * Polymorphic constructor. * * As PHP has no support for polymorphic constructors, we use tricks to make our own sort of polymorphism using func_num_args, func_get_arg, and gettype. In essence, we're just implementing a simple RTTI filter and calling the appropriate constructor. */ public function __construct(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { //Rectangular matrix - m x n initialized from 2D array case 'array': $this->m = count($args[0]); $this->n = count($args[0][0]); $this->A = $args[0]; break; //Square matrix - n x n case 'integer': $this->m = $args[0]; $this->n = $args[0]; $this->A = array_fill(0, $this->m, array_fill(0, $this->n, 0)); break; //Rectangular matrix - m x n case 'integer,integer': $this->m = $args[0]; $this->n = $args[1]; $this->A = array_fill(0, $this->m, array_fill(0, $this->n, 0)); break; //Rectangular matrix - m x n initialized from packed array case 'array,integer': $this->m = $args[1]; if ($this->m != 0) { $this->n = count($args[0]) / $this->m; } else { $this->n = 0; } if (($this->m * $this->n) == count($args[0])) { for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $this->A[$i][$j] = $args[0][$i + $j * $this->m]; } } } else { throw new CalculationException(self::ARRAY_LENGTH_EXCEPTION); } break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } } else { throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } } /** * getArray. * * @return array Matrix array */ public function getArray() { return $this->A; } /** * getRowDimension. * * @return int Row dimension */ public function getRowDimension() { return $this->m; } /** * getColumnDimension. * * @return int Column dimension */ public function getColumnDimension() { return $this->n; } /** * get. * * Get the i,j-th element of the matrix. * * @param int $i Row position * @param int $j Column position * * @return float|int */ public function get($i = null, $j = null) { return $this->A[$i][$j]; } /** * getMatrix. * * Get a submatrix * * @return Matrix Submatrix */ public function getMatrix(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { //A($i0...; $j0...) case 'integer,integer': [$i0, $j0] = $args; if ($i0 >= 0) { $m = $this->m - $i0; } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } if ($j0 >= 0) { $n = $this->n - $j0; } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } $R = new self($m, $n); for ($i = $i0; $i < $this->m; ++$i) { for ($j = $j0; $j < $this->n; ++$j) { $R->set($i, $j, $this->A[$i][$j]); } } return $R; break; //A($i0...$iF; $j0...$jF) case 'integer,integer,integer,integer': [$i0, $iF, $j0, $jF] = $args; if (($iF > $i0) && ($this->m >= $iF) && ($i0 >= 0)) { $m = $iF - $i0; } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } if (($jF > $j0) && ($this->n >= $jF) && ($j0 >= 0)) { $n = $jF - $j0; } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } $R = new self($m + 1, $n + 1); for ($i = $i0; $i <= $iF; ++$i) { for ($j = $j0; $j <= $jF; ++$j) { $R->set($i - $i0, $j - $j0, $this->A[$i][$j]); } } return $R; break; //$R = array of row indices; $C = array of column indices case 'array,array': [$RL, $CL] = $args; if (count($RL) > 0) { $m = count($RL); } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } if (count($CL) > 0) { $n = count($CL); } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } $R = new self($m, $n); for ($i = 0; $i < $m; ++$i) { for ($j = 0; $j < $n; ++$j) { $R->set($i, $j, $this->A[$RL[$i]][$CL[$j]]); } } return $R; break; //A($i0...$iF); $CL = array of column indices case 'integer,integer,array': [$i0, $iF, $CL] = $args; if (($iF > $i0) && ($this->m >= $iF) && ($i0 >= 0)) { $m = $iF - $i0; } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } if (count($CL) > 0) { $n = count($CL); } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } $R = new self($m, $n); for ($i = $i0; $i < $iF; ++$i) { for ($j = 0; $j < $n; ++$j) { $R->set($i - $i0, $j, $this->A[$i][$CL[$j]]); } } return $R; break; //$RL = array of row indices case 'array,integer,integer': [$RL, $j0, $jF] = $args; if (count($RL) > 0) { $m = count($RL); } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } if (($jF >= $j0) && ($this->n >= $jF) && ($j0 >= 0)) { $n = $jF - $j0; } else { throw new CalculationException(self::ARGUMENT_BOUNDS_EXCEPTION); } $R = new self($m, $n + 1); for ($i = 0; $i < $m; ++$i) { for ($j = $j0; $j <= $jF; ++$j) { $R->set($i, $j - $j0, $this->A[$RL[$i]][$j]); } } return $R; break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } } else { throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } } /** * checkMatrixDimensions. * * Is matrix B the same size? * * @param Matrix $B Matrix B * * @return bool */ public function checkMatrixDimensions($B = null) { if ($B instanceof self) { if (($this->m == $B->getRowDimension()) && ($this->n == $B->getColumnDimension())) { return true; } throw new CalculationException(self::MATRIX_DIMENSION_EXCEPTION); } throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } // function checkMatrixDimensions() /** * set. * * Set the i,j-th element of the matrix. * * @param int $i Row position * @param int $j Column position * @param float|int $c value */ public function set($i = null, $j = null, $c = null): void { // Optimized set version just has this $this->A[$i][$j] = $c; } // function set() /** * identity. * * Generate an identity matrix. * * @param int $m Row dimension * @param int $n Column dimension * * @return Matrix Identity matrix */ public function identity($m = null, $n = null) { return $this->diagonal($m, $n, 1); } /** * diagonal. * * Generate a diagonal matrix * * @param int $m Row dimension * @param int $n Column dimension * @param mixed $c Diagonal value * * @return Matrix Diagonal matrix */ public function diagonal($m = null, $n = null, $c = 1) { $R = new self($m, $n); for ($i = 0; $i < $m; ++$i) { $R->set($i, $i, $c); } return $R; } /** * getMatrixByRow. * * Get a submatrix by row index/range * * @param int $i0 Initial row index * @param int $iF Final row index * * @return Matrix Submatrix */ public function getMatrixByRow($i0 = null, $iF = null) { if (is_int($i0)) { if (is_int($iF)) { return $this->getMatrix($i0, 0, $iF + 1, $this->n); } return $this->getMatrix($i0, 0, $i0 + 1, $this->n); } throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } /** * getMatrixByCol. * * Get a submatrix by column index/range * * @param int $j0 Initial column index * @param int $jF Final column index * * @return Matrix Submatrix */ public function getMatrixByCol($j0 = null, $jF = null) { if (is_int($j0)) { if (is_int($jF)) { return $this->getMatrix(0, $j0, $this->m, $jF + 1); } return $this->getMatrix(0, $j0, $this->m, $j0 + 1); } throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } /** * transpose. * * Tranpose matrix * * @return Matrix Transposed matrix */ public function transpose() { $R = new self($this->n, $this->m); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $R->set($j, $i, $this->A[$i][$j]); } } return $R; } // function transpose() /** * trace. * * Sum of diagonal elements * * @return float Sum of diagonal elements */ public function trace() { $s = 0; $n = min($this->m, $this->n); for ($i = 0; $i < $n; ++$i) { $s += $this->A[$i][$i]; } return $s; } /** * plus. * * A + B * * @return Matrix Sum */ public function plus(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $M->set($i, $j, $M->get($i, $j) + $this->A[$i][$j]); } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * plusEquals. * * A = A + B * * @return $this */ public function plusEquals(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $validValues = true; $value = $M->get($i, $j); if ((is_string($this->A[$i][$j])) && (strlen($this->A[$i][$j]) > 0) && (!is_numeric($this->A[$i][$j]))) { $this->A[$i][$j] = trim($this->A[$i][$j], '"'); $validValues &= StringHelper::convertToNumberIfFraction($this->A[$i][$j]); } if ((is_string($value)) && (strlen($value) > 0) && (!is_numeric($value))) { $value = trim($value, '"'); $validValues &= StringHelper::convertToNumberIfFraction($value); } if ($validValues) { $this->A[$i][$j] += $value; } else { $this->A[$i][$j] = ExcelError::NAN(); } } } return $this; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * minus. * * A - B * * @return Matrix Sum */ public function minus(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $M->set($i, $j, $M->get($i, $j) - $this->A[$i][$j]); } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * minusEquals. * * A = A - B * * @return $this */ public function minusEquals(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $validValues = true; $value = $M->get($i, $j); if ((is_string($this->A[$i][$j])) && (strlen($this->A[$i][$j]) > 0) && (!is_numeric($this->A[$i][$j]))) { $this->A[$i][$j] = trim($this->A[$i][$j], '"'); $validValues &= StringHelper::convertToNumberIfFraction($this->A[$i][$j]); } if ((is_string($value)) && (strlen($value) > 0) && (!is_numeric($value))) { $value = trim($value, '"'); $validValues &= StringHelper::convertToNumberIfFraction($value); } if ($validValues) { $this->A[$i][$j] -= $value; } else { $this->A[$i][$j] = ExcelError::NAN(); } } } return $this; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * arrayTimes. * * Element-by-element multiplication * Cij = Aij * Bij * * @return Matrix Matrix Cij */ public function arrayTimes(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $M->set($i, $j, $M->get($i, $j) * $this->A[$i][$j]); } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * arrayTimesEquals. * * Element-by-element multiplication * Aij = Aij * Bij * * @return $this */ public function arrayTimesEquals(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $validValues = true; $value = $M->get($i, $j); if ((is_string($this->A[$i][$j])) && (strlen($this->A[$i][$j]) > 0) && (!is_numeric($this->A[$i][$j]))) { $this->A[$i][$j] = trim($this->A[$i][$j], '"'); $validValues &= StringHelper::convertToNumberIfFraction($this->A[$i][$j]); } if ((is_string($value)) && (strlen($value) > 0) && (!is_numeric($value))) { $value = trim($value, '"'); $validValues &= StringHelper::convertToNumberIfFraction($value); } if ($validValues) { $this->A[$i][$j] *= $value; } else { $this->A[$i][$j] = ExcelError::NAN(); } } } return $this; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * arrayRightDivide. * * Element-by-element right division * A / B * * @return Matrix Division result */ public function arrayRightDivide(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $validValues = true; $value = $M->get($i, $j); if ((is_string($this->A[$i][$j])) && (strlen($this->A[$i][$j]) > 0) && (!is_numeric($this->A[$i][$j]))) { $this->A[$i][$j] = trim($this->A[$i][$j], '"'); $validValues &= StringHelper::convertToNumberIfFraction($this->A[$i][$j]); } if ((is_string($value)) && (strlen($value) > 0) && (!is_numeric($value))) { $value = trim($value, '"'); $validValues &= StringHelper::convertToNumberIfFraction($value); } if ($validValues) { if ($value == 0) { // Trap for Divide by Zero error $M->set($i, $j, '#DIV/0!'); } else { $M->set($i, $j, $this->A[$i][$j] / $value); } } else { $M->set($i, $j, ExcelError::NAN()); } } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * arrayRightDivideEquals. * * Element-by-element right division * Aij = Aij / Bij * * @return Matrix Matrix Aij */ public function arrayRightDivideEquals(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $this->A[$i][$j] = $this->A[$i][$j] / $M->get($i, $j); } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * arrayLeftDivide. * * Element-by-element Left division * A / B * * @return Matrix Division result */ public function arrayLeftDivide(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $M->set($i, $j, $M->get($i, $j) / $this->A[$i][$j]); } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * arrayLeftDivideEquals. * * Element-by-element Left division * Aij = Aij / Bij * * @return Matrix Matrix Aij */ public function arrayLeftDivideEquals(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $this->A[$i][$j] = $M->get($i, $j) / $this->A[$i][$j]; } } return $M; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * times. * * Matrix multiplication * * @return Matrix Product */ public function times(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $B = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } if ($this->n == $B->m) { $C = new self($this->m, $B->n); for ($j = 0; $j < $B->n; ++$j) { $Bcolj = []; for ($k = 0; $k < $this->n; ++$k) { $Bcolj[$k] = $B->A[$k][$j]; } for ($i = 0; $i < $this->m; ++$i) { $Arowi = $this->A[$i]; $s = 0; for ($k = 0; $k < $this->n; ++$k) { $s += $Arowi[$k] * $Bcolj[$k]; } $C->A[$i][$j] = $s; } } return $C; } throw new CalculationException(self::MATRIX_DIMENSION_EXCEPTION); case 'array': $B = new self($args[0]); if ($this->n == $B->m) { $C = new self($this->m, $B->n); for ($i = 0; $i < $C->m; ++$i) { for ($j = 0; $j < $C->n; ++$j) { $s = '0'; for ($k = 0; $k < $C->n; ++$k) { $s += $this->A[$i][$k] * $B->A[$k][$j]; } $C->A[$i][$j] = $s; } } return $C; } throw new CalculationException(self::MATRIX_DIMENSION_EXCEPTION); case 'integer': $C = new self($this->A); for ($i = 0; $i < $C->m; ++$i) { for ($j = 0; $j < $C->n; ++$j) { $C->A[$i][$j] *= $args[0]; } } return $C; case 'double': $C = new self($this->m, $this->n); for ($i = 0; $i < $C->m; ++$i) { for ($j = 0; $j < $C->n; ++$j) { $C->A[$i][$j] = $args[0] * $this->A[$i][$j]; } } return $C; case 'float': $C = new self($this->A); for ($i = 0; $i < $C->m; ++$i) { for ($j = 0; $j < $C->n; ++$j) { $C->A[$i][$j] *= $args[0]; } } return $C; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } } else { throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } } /** * power. * * A = A ^ B * * @return $this */ public function power(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { $validValues = true; $value = $M->get($i, $j); if ((is_string($this->A[$i][$j])) && (strlen($this->A[$i][$j]) > 0) && (!is_numeric($this->A[$i][$j]))) { $this->A[$i][$j] = trim($this->A[$i][$j], '"'); $validValues &= StringHelper::convertToNumberIfFraction($this->A[$i][$j]); } if ((is_string($value)) && (strlen($value) > 0) && (!is_numeric($value))) { $value = trim($value, '"'); $validValues &= StringHelper::convertToNumberIfFraction($value); } if ($validValues) { $this->A[$i][$j] = $this->A[$i][$j] ** $value; } else { $this->A[$i][$j] = ExcelError::NAN(); } } } return $this; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * concat. * * A = A & B * * @return $this */ public function concat(...$args) { if (count($args) > 0) { $match = implode(',', array_map('gettype', $args)); switch ($match) { case 'object': if ($args[0] instanceof self) { $M = $args[0]; } else { throw new CalculationException(self::ARGUMENT_TYPE_EXCEPTION); } break; case 'array': $M = new self($args[0]); break; default: throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); break; } $this->checkMatrixDimensions($M); for ($i = 0; $i < $this->m; ++$i) { for ($j = 0; $j < $this->n; ++$j) { // @phpstan-ignore-next-line $this->A[$i][$j] = trim($this->A[$i][$j], '"') . trim($M->get($i, $j), '"'); } } return $this; } throw new CalculationException(self::POLYMORPHIC_ARGUMENT_EXCEPTION); } /** * Solve A*X = B. * * @param Matrix $B Right hand side * * @return Matrix ... Solution if A is square, least squares solution otherwise */ public function solve(self $B) { if ($this->m == $this->n) { $LU = new LUDecomposition($this); return $LU->solve($B); } $QR = new QRDecomposition($this); return $QR->solve($B); } /** * Matrix inverse or pseudoinverse. * * @return Matrix ... Inverse(A) if A is square, pseudoinverse otherwise. */ public function inverse() { return $this->solve($this->identity($this->m, $this->m)); } /** * det. * * Calculate determinant * * @return float Determinant */ public function det() { $L = new LUDecomposition($this); return $L->det(); } }
webs 1.0 - Enhanced UI