/*
- lib/linreg/coefficient.c
+ src/math/coefficient.c
Copyright (C) 2005 Free Software Foundation, Inc. Written by Jason H Stover.
/*
Accessor functions for matching coefficients and variables.
*/
+#include <config.h>
#include <math/coefficient.h>
#include <math/linreg/linreg.h>
#include "src/math/design-matrix.h"
};
void
-pspp_linreg_coeff_free (struct pspp_linreg_coeff *c)
+pspp_coeff_free (struct pspp_coeff *c)
{
free (c->v_info);
free (c);
coefficient structures for the linear model.
*/
void
-pspp_linreg_coeff_init (pspp_linreg_cache * c, struct design_matrix *X)
+pspp_coeff_init (struct pspp_coeff ** c, const struct design_matrix *X)
{
size_t i;
- size_t j;
int n_vals = 1;
- struct pspp_linreg_coeff *coeff;
- c->coeff = xnmalloc (X->m->size2 + 1, sizeof (*c->coeff));
- c->coeff[0] = xmalloc (sizeof (*c->coeff[0]));
- c->coeff[0]->v_info = NULL; /* Intercept has no associated variable. */
for (i = 0; i < X->m->size2; i++)
{
- j = i + 1; /* The first coefficient is the intercept. */
- c->coeff[j] = xmalloc (sizeof (*c->coeff[j]));
- coeff = c->coeff[j];
- coeff->n_vars = n_vals; /* Currently, no procedures allow
+ c[i] = xmalloc (sizeof (*c[i]));
+ c[i]->n_vars = n_vals; /* Currently, no procedures allow
interactions. This line will have to
change when procedures that allow
interaction terms are written.
*/
- coeff->v_info = xnmalloc (coeff->n_vars, sizeof (*coeff->v_info));
- assert (coeff->v_info != NULL);
- coeff->v_info->v =
+ c[i]->v_info = xnmalloc (c[i]->n_vars, sizeof (*c[i]->v_info));
+ assert (c[i]->v_info != NULL);
+ c[i]->v_info->v =
(const struct variable *) design_matrix_col_to_var (X, i);
- if (coeff->v_info->v->type == ALPHA)
+ if (var_is_alpha (c[i]->v_info->v))
{
size_t k;
- k = design_matrix_var_to_column (X, coeff->v_info->v);
+ k = design_matrix_var_to_column (X, c[i]->v_info->v);
assert (k <= i);
k = i - k;
- coeff->v_info->val =
- cat_subscript_to_value (k, (struct variable *) coeff->v_info->v);
+ c[i]->v_info->val =
+ cat_subscript_to_value (k, (struct variable *) c[i]->v_info->v);
}
}
}
void
-pspp_linreg_coeff_set_estimate (struct pspp_linreg_coeff *c, double estimate)
+pspp_coeff_set_estimate (struct pspp_coeff *c, double estimate)
{
c->estimate = estimate;
}
void
-pspp_linreg_coeff_set_std_err (struct pspp_linreg_coeff *c, double std_err)
+pspp_coeff_set_std_err (struct pspp_coeff *c, double std_err)
{
c->std_err = std_err;
}
Return the estimated value of the coefficient.
*/
double
-pspp_linreg_coeff_get_est (const struct pspp_linreg_coeff *c)
+pspp_coeff_get_est (const struct pspp_coeff *c)
{
if (c == NULL)
{
Return the standard error of the estimated coefficient.
*/
double
-pspp_linreg_coeff_get_std_err (const struct pspp_linreg_coeff *c)
+pspp_coeff_get_std_err (const struct pspp_coeff *c)
{
if (c == NULL)
{
How many variables are associated with this coefficient?
*/
int
-pspp_linreg_coeff_get_n_vars (struct pspp_linreg_coeff *c)
+pspp_coeff_get_n_vars (struct pspp_coeff *c)
{
if (c == NULL)
{
0 unless the coefficient refers to an interaction term.
*/
const struct variable *
-pspp_linreg_coeff_get_var (struct pspp_linreg_coeff *c, int i)
+pspp_coeff_get_var (struct pspp_coeff *c, int i)
{
if (c == NULL)
{
Which value is associated with this coefficient/variable combination?
*/
const union value *
-pspp_linreg_coeff_get_value (struct pspp_linreg_coeff *c,
+pspp_coeff_get_value (struct pspp_coeff *c,
const struct variable *v)
{
int i = 0;
{
return NULL;
}
- if (v->type == NUMERIC)
+ if (var_is_numeric (v))
{
return NULL;
}
while (i < c->n_vars)
{
- candidate = pspp_linreg_coeff_get_var (c, i);
- if (v->index == candidate->index)
+ candidate = pspp_coeff_get_var (c, i);
+ if (v == candidate)
{
return (c->v_info + i)->val;
}
Which coefficient is associated with V? The VAL argument is relevant
only to categorical variables.
*/
-const struct pspp_linreg_coeff *
+const struct pspp_coeff *
pspp_linreg_get_coeff (const pspp_linreg_cache * c,
const struct variable *v, const union value *val)
{
int i = 1;
- struct pspp_linreg_coeff *result = NULL;
+ struct pspp_coeff *result = NULL;
const struct variable *tmp = NULL;
if (c == NULL)
}
result = c->coeff[i];
- tmp = pspp_linreg_coeff_get_var (result, 0);
- while (tmp->index != v->index && i < c->n_coeffs)
+ tmp = pspp_coeff_get_var (result, 0);
+ while (tmp != v && i < c->n_coeffs)
{
result = c->coeff[i];
- tmp = pspp_linreg_coeff_get_var (result, 0);
+ tmp = pspp_coeff_get_var (result, 0);
i++;
}
if (i > c->n_coeffs)
{
return NULL;
}
- if (v->type == NUMERIC)
+ if (var_is_numeric (v))
{
return result;
}
If v is categorical, we need to ensure the coefficient
matches the VAL.
*/
- while (tmp->index != v->index && i < c->n_coeffs
- && compare_values (pspp_linreg_coeff_get_value (result, tmp),
- val, v->width))
+ while (tmp != v && i < c->n_coeffs
+ && compare_values (pspp_coeff_get_value (result, tmp),
+ val, var_get_width (v)))
{ /* FIX THIS */
i++;
result = c->coeff[i];
- tmp = pspp_linreg_coeff_get_var (result, 0);
+ tmp = pspp_coeff_get_var (result, 0);
}
if (i == c->n_coeffs)
{