Numerical Linear Algebra for Applications in Statistics. JE Gentle.
Springer. 1998. ISBN 0-387-98542-5.
- */
+*/
#include <config.h>
The matrix A will be overwritten. In ordinary uses of the sweep
operator, A will be the matrix
- __ __
+ __ __
|X'X X'Y|
| |
|Y'X Y'Y|
- -- --
+ -- --
- X refers to the design matrix and Y to the vector of dependent
- observations. reg_sweep sweeps on the diagonal elements of
- X'X.
+ X refers to the design matrix and Y to the vector of dependent
+ observations. reg_sweep sweeps on the diagonal elements of
+ X'X.
- The matrix A is assumed to be symmetric, so the sweep operation is
- performed only for the upper triangle of A.
+ The matrix A is assumed to be symmetric, so the sweep operation is
+ performed only for the upper triangle of A.
- LAST_COL is considered to be the final column in the augmented matrix,
- that is, the column to the right of the '=' sign of the system.
- */
+ LAST_COL is considered to be the final column in the augmented matrix,
+ that is, the column to the right of the '=' sign of the system.
+*/
int
reg_sweep (gsl_matrix * A, int last_col)
{
+ if (A == NULL)
+ return GSL_EFAULT;
+
+ if (A->size1 != A->size2)
+ return GSL_ENOTSQR;
+
double sweep_element;
double tmp;
int i;
int k;
gsl_matrix *B;
- if (A != NULL)
+
+ assert (last_col < A->size1);
+ gsl_matrix_swap_rows (A, A->size1 - 1, last_col);
+ gsl_matrix_swap_columns (A, A->size1 - 1 , last_col);
+
+ B = gsl_matrix_alloc (A->size1, A->size2);
+ for (k = 0; k < (A->size1 - 1); k++)
{
- if (A->size1 == A->size2)
+ sweep_element = gsl_matrix_get (A, k, k);
+ if (fabs (sweep_element) > GSL_DBL_MIN)
{
- assert (last_col < A->size1);
- gsl_matrix_swap_rows (A, A->size1 - 1, last_col);
- gsl_matrix_swap_columns (A, A->size1 - 1 , last_col);
-
- B = gsl_matrix_alloc (A->size1, A->size2);
- for (k = 0; k < (A->size1 - 1); k++)
+ tmp = -1.0 / sweep_element;
+ gsl_matrix_set (B, k, k, tmp);
+ /*
+ Rows before current row k.
+ */
+ for (i = 0; i < k; i++)
{
- sweep_element = gsl_matrix_get (A, k, k);
- if (fabs (sweep_element) > GSL_DBL_MIN)
+ for (j = i; j < A->size2; j++)
{
- tmp = -1.0 / sweep_element;
- gsl_matrix_set (B, k, k, tmp);
/*
- Rows before current row k.
- */
- for (i = 0; i < k; i++)
+ Use only the upper triangle of A.
+ */
+ if (j < k)
{
- for (j = i; j < A->size2; j++)
- {
- /*
- Use only the upper triangle of A.
- */
- if (j < k)
- {
- tmp = gsl_matrix_get (A, i, j) -
- gsl_matrix_get (A, i, k)
- * gsl_matrix_get (A, j, k) / sweep_element;
- gsl_matrix_set (B, i, j, tmp);
- }
- else if (j > k)
- {
- tmp = gsl_matrix_get (A, i, j) -
- gsl_matrix_get (A, i, k)
- * gsl_matrix_get (A, k, j) / sweep_element;
- gsl_matrix_set (B, i, j, tmp);
- }
- else
- {
- tmp = gsl_matrix_get (A, i, k) / sweep_element;
- gsl_matrix_set (B, i, j, tmp);
- }
- }
+ tmp = gsl_matrix_get (A, i, j) -
+ gsl_matrix_get (A, i, k)
+ * gsl_matrix_get (A, j, k) / sweep_element;
+ gsl_matrix_set (B, i, j, tmp);
}
- /*
- Current row k.
- */
- for (j = k + 1; j < A->size1; j++)
+ else if (j > k)
{
- tmp = gsl_matrix_get (A, k, j) / sweep_element;
- gsl_matrix_set (B, k, j, tmp);
+ tmp = gsl_matrix_get (A, i, j) -
+ gsl_matrix_get (A, i, k)
+ * gsl_matrix_get (A, k, j) / sweep_element;
+ gsl_matrix_set (B, i, j, tmp);
}
- /*
- Rows after the current row k.
- */
- for (i = k + 1; i < A->size1; i++)
+ else
{
- for (j = i; j < A->size2; j++)
- {
- tmp = gsl_matrix_get (A, i, j) -
- gsl_matrix_get (A, k, i)
- * gsl_matrix_get (A, k, j) / sweep_element;
- gsl_matrix_set (B, i, j, tmp);
- }
+ tmp = gsl_matrix_get (A, i, k) / sweep_element;
+ gsl_matrix_set (B, i, j, tmp);
}
}
- for (i = 0; i < A->size1; i++)
- for (j = i; j < A->size2; j++)
- {
- gsl_matrix_set (A, i, j, gsl_matrix_get (B, i, j));
- }
}
- gsl_matrix_free (B);
-
- gsl_matrix_swap_columns (A, A->size1 - 1 , last_col);
- gsl_matrix_swap_rows (A, A->size1 - 1, last_col);
-
- return GSL_SUCCESS;
+ /*
+ Current row k.
+ */
+ for (j = k + 1; j < A->size1; j++)
+ {
+ tmp = gsl_matrix_get (A, k, j) / sweep_element;
+ gsl_matrix_set (B, k, j, tmp);
+ }
+ /*
+ Rows after the current row k.
+ */
+ for (i = k + 1; i < A->size1; i++)
+ {
+ for (j = i; j < A->size2; j++)
+ {
+ tmp = gsl_matrix_get (A, i, j) -
+ gsl_matrix_get (A, k, i)
+ * gsl_matrix_get (A, k, j) / sweep_element;
+ gsl_matrix_set (B, i, j, tmp);
+ }
+ }
}
- return GSL_ENOTSQR;
+ for (i = 0; i < A->size1; i++)
+ for (j = i; j < A->size2; j++)
+ {
+ gsl_matrix_set (A, i, j, gsl_matrix_get (B, i, j));
+ }
}
- return GSL_EFAULT;
+ gsl_matrix_free (B);
+
+ gsl_matrix_swap_columns (A, A->size1 - 1 , last_col);
+ gsl_matrix_swap_rows (A, A->size1 - 1, last_col);
+
+ return GSL_SUCCESS;
}
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