matrixbase::Inverse
Inverse
Description
Replace this matrix with the Inverse of this matrix.
Syntax
int Inverse( )
Parameters
Return
Returns 0 on success or one of the following error codes on failure:
-1 = Matrix is not N x N
366 = The matrix is singular, possibly due to rounding errors; or the underlying type of matrix is not double.
11 = N must not be less than 1.
73 = Memory allocation failed.
Examples
EX1
// Compute an inverse matrix
void matrixbase_Inverse_ex1()
{
int rc;
matrix<double> mat1 = {
{2, 3},
{3, 4}
};
// Inverse matrix is:
// {-4, 3}
// { 3, -2}
MatrixPage MatPg1;
MatPg1.Create("Origin");
MatrixLayer MatLy1 = MatPg1.Layers(0);
Matrix Mat1(MatLy1);
Mat1 = mat1;
printf(" Original matrix is %s.\n",Mat1.GetName());
MatrixPage MatPg2;
MatPg2.Create("Origin");
MatrixLayer MatLy2 = MatPg2.Layers(0);
Matrix Mat2(MatLy2);
Mat2 = mat1;
rc=Mat2.Inverse(); // Compute the inverse matrix
if(rc!=0)
printf(" Error: Inverse failed. Error Code=%d\n",rc);
else
printf(" Inverse matrix is %s.\n",Mat2.GetName());
}
EX2
#define MAKEMAT(X) MatrixLayer MatLy##X;MatLy##X.Create();Matrix Mat##X(MatLy##X)
void mDivideTest1_ex2()
{
matrix mat1 = {
{1, 2, 3},
{4, 5, 6},
{1, 1, 1}
};
matrix mat2 = {
{2, 3, 4},
{1, 1, 1},
{4, 5, 4}
};
MAKEMAT(1); MAKEMAT(2); MAKEMAT(3); MAKEMAT(4); MAKEMAT(5);
Mat1=mat1; Mat2=mat2;
matrix mat3;
mat3=mat2;
mat3.Inverse();
Mat3=mat1*mat3; //= mat1*Inv(mat2)
printf("%s = %s*Inv(%s) <== proper division of 2 matrices\n",Mat3.GetName(),Mat1.GetName(),Mat2.GetName());
Mat4=mat1/10;
printf("%s = %s/10 <== scaler division of a matrix\n",Mat4.GetName(),Mat1.GetName(),Mat2.GetName());
Mat5=mat1;
Mat5.DotDivide(mat2);
printf("%s = DotDivide(%s,%s) <== element-wise division of 2 matrices\n",Mat5.GetName(),Mat1.GetName(),Mat2.GetName());
}
Remark
Replace this matrix with the Inverse of this matrix. An error is returned if the underlying base type of the matrix is not double.
Note
The following is a summary of various matrix operations:
1) Multiplication:
1-1) * ... Proper multiplication of 2 matrices (mat1*mat2)
1-2) * ... Scaler multiplication of a matrix (mat1*A or A*mat1)
1-3) DotMultiply ... Element-wise multiplication of 2 matrices
1-4) Cross ... Cross product of 2 matrices
1-5) CumulativeProduct ... cumulative product of a matrix
2) Division:
2-1) / ... Not defined for 2 matrices. For proper division, multiply Inverse(mat1)
2-2) / ... Scaler division of a matrix (mat1/A)
2-3) DotDivide ... Element-wise division of 2 matrices
3) Addition:
3-1) + ... Element-wise addition of 2 matrices
3-2) + ... Scaler addition of a matrix (mat1+A or A+mat1)
3-3) SumColumns ... Summation of each column in a matrix
3-4) CumulativeSum ... Cumulative product of a matrix
4) Subtraction:
4-1) - ... Element-wise subtraction of 2 matrices
4-2) - ... Scaler subtraction of a matrix (mat1-A or A-mat1)
4-3) Difference ... Difference of adjacent 2 rows in a matrix (1st order differential)
5) Power:
5-1) ^ (or pow) ... Not defined as element-wise power of 2 matrices
5-2) ^ (or pow) ... Not defined as scaler power of a matrix
5-3) DotPower ... Element-wise power of 2 matrices
To depict the differences of above divisions, try the EX2.
See Also
matrixbase::GetReal, matrixbase::GetImaginary, matrixbase::GetPhase, matrixbase::GetAmplitude, matrixbase::Conjugate, matrixbase::Cross, matrixbase::MakeComplex
header to Include
origin.h
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