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PHP Class for handling Matrices
Matrix Transform
This library currently provides the following operations:
together with functions for
adjoint
antidiagonal
cofactors
determinant
diagonal
identity
inverse
minors
trace
transpose
solve
Given Matrices A and B, calculate X for A.X = B
and classes for
LU Decomposition with partial row pivoting,
such that [P].[A] = [L].[U] and [A] = [P]|.[L].[U]
QR Decomposition
such that [A] = [Q].[R]
To create a new Matrix object, provide an array as the constructor argument
$grid = [
[16, 3, 2, 13],
[ 5, 10, 11, 8],
[ 9, 6, 7, 12],
[ 4, 15, 14, 1],
];
$matrix = new Matrix\Matrix($grid);
The Builder
class provides helper methods for creating specific matrices, specifically an identity matrix of a specified size; or a matrix of a specified dimensions, with every cell containing a set value.
$matrix = Matrix\Builder::createFilledMatrix(1, 5, 3);
Will create a matrix of 5 rows and 3 columns, filled with a 1
in every cell; while
$matrix = Matrix\Builder::createIdentityMatrix(3);
will create a 3x3 identity matrix.
Matrix objects are immutable: whenever you call a method or pass a grid to a function that returns a matrix value, a new Matrix object will be returned, and the original will remain unchanged. This also allows you to chain multiple methods as you would for a fluent interface (as long as they are methods that will return a Matrix result).
To perform mathematical operations with Matrices, you can call the appropriate method against a matrix value, passing other values as arguments
$matrix1 = new Matrix\Matrix([
[2, 7, 6],
[9, 5, 1],
[4, 3, 8],
]);
$matrix2 = new Matrix\Matrix([
[1, 2, 3],
[4, 5, 6],
[7, 8, 9],
]);
var_dump($matrix1->multiply($matrix2)->toArray());
or pass all values to the appropriate function
$matrix1 = new Matrix\Matrix([
[2, 7, 6],
[9, 5, 1],
[4, 3, 8],
]);
$matrix2 = new Matrix\Matrix([
[1, 2, 3],
[4, 5, 6],
[7, 8, 9],
]);
var_dump(Matrix\multiply($matrix1, $matrix2)->toArray());
You can pass in the arguments as Matrix objects, or as arrays.
If you want to perform the same operation against multiple values (e.g. to add three or more matrices), then you can pass multiple arguments to any of the operations.
When calling any of the available functions for a matrix value, you can either call the relevant method for the Matrix object
$grid = [
[16, 3, 2, 13],
[ 5, 10, 11, 8],
[ 9, 6, 7, 12],
[ 4, 15, 14, 1],
];
$matrix = new Matrix\Matrix($grid);
echo $matrix->trace();
or you can call the function as you would in procedural code, passing the Matrix object as an argument
$grid = [
[16, 3, 2, 13],
[ 5, 10, 11, 8],
[ 9, 6, 7, 12],
[ 4, 15, 14, 1],
];
$matrix = new Matrix\Matrix($grid);
echo Matrix\trace($matrix);
When called procedurally using the function, you can pass in the argument as a Matrix object, or as an array.
$grid = [
[16, 3, 2, 13],
[ 5, 10, 11, 8],
[ 9, 6, 7, 12],
[ 4, 15, 14, 1],
];
echo Matrix\trace($grid);
As an alternative, it is also possible to call the method directly from the Functions
class.
$grid = [
[16, 3, 2, 13],
[ 5, 10, 11, 8],
[ 9, 6, 7, 12],
[ 4, 15, 14, 1],
];
$matrix = new Matrix\Matrix($grid);
echo Matrix\Functions::trace($matrix);
Used this way, methods must be called statically, and the argument must be the Matrix object, and cannot be an array.
The library also provides classes for matrix decomposition. You can access these using
$grid = [
[1, 2],
[3, 4],
];
$matrix = new Matrix\Matrix($grid);
$decomposition = new Matrix\Decomposition\QR($matrix);
$Q = $decomposition->getQ();
$R = $decomposition->getR();
or alternatively us the Decomposition
factory, identifying which form of decomposition you want to use
$grid = [
[1, 2],
[3, 4],
];
$matrix = new Matrix\Matrix($grid);
$decomposition = Matrix\Decomposition\Decomposition::decomposition(Matrix\Decomposition\Decomposition::QR, $matrix);
$Q = $decomposition->getQ();
$R = $decomposition->getR();