#include <math/covariance.h>
#include <math/categoricals.h>
+#include <math/moments.h>
#include <gsl/gsl_matrix.h>
#include <linreg/sweep.h>
#include <language/command.h>
#include <data/procedure.h>
+#include <data/value.h>
#include <data/dictionary.h>
-
#include <language/dictionary/split-file.h>
#include <libpspp/hash.h>
#include <libpspp/taint.h>
struct hsh_table *group_hash;
struct per_var_ws *vws;
+
+ struct moments1 *totals;
+ double minimum;
+ double maximum;
};
/* Routines to show the output tables */
static void show_anova_table (const struct oneway_spec *, const struct oneway_workspace *);
-static void show_descriptives (const struct oneway_spec *);
+static void show_descriptives (const struct oneway_spec *, const struct oneway_workspace *);
static void show_homogeneity (const struct oneway_spec *, const struct oneway_workspace *);
static void output_oneway (const struct oneway_spec *, struct oneway_workspace *ws);
free (value);
}
+
+
static void postcalc (const struct oneway_spec *cmd);
static void precalc (const struct oneway_spec *cmd);
+struct descriptive_data
+{
+ struct moments1 *mom;
+ double minimum;
+ double maximum;
+};
+
+static void *
+makeit (void)
+{
+ struct descriptive_data *dd = xmalloc (sizeof *dd);
+ dd->mom = moments1_create (MOMENT_VARIANCE);
+ dd->minimum = DBL_MAX;
+ dd->maximum = -DBL_MAX;
+
+ return dd;
+}
+
+static void
+updateit (void *user_data, const struct variable *wv,
+ const struct variable *catvar, const struct ccase *c, void *aux)
+{
+ const union value *val = case_data_idx (c, 0);
+ struct descriptive_data *dd = user_data;
+ struct oneway_workspace *ws = aux;
+
+ double weight = 1.0;
+ if (wv)
+ weight = case_data (c, wv)->f;
+
+ moments1_add (dd->mom, val->f, weight);
+ moments1_add (ws->totals, val->f, weight);
+
+ if (val->f * weight < dd->minimum)
+ dd->minimum = val->f * weight;
+
+ if (val->f * weight > dd->maximum)
+ dd->maximum = val->f * weight;
+
+
+ if (val->f * weight < ws->minimum)
+ ws->minimum = val->f * weight;
+
+ if (val->f * weight > ws->maximum)
+ ws->maximum = val->f * weight;
+}
static void
run_oneway (const struct oneway_spec *cmd,
struct casereader *reader;
struct ccase *c;
-
struct oneway_workspace ws;
ws.vws = xmalloc (cmd->n_vars * sizeof (*ws.vws));
+ ws.totals = moments1_create (MOMENT_VARIANCE);
+ ws.minimum = DBL_MAX;
+ ws.maximum = -DBL_MAX;
+
for (v = 0; v < cmd->n_vars; ++v)
{
struct categoricals *cats = categoricals_create (&cmd->indep_var, 1,
- cmd->wv, cmd->exclude);
+ cmd->wv, cmd->exclude,
+ makeit,
+ updateit, &ws);
ws.vws[v].cov = covariance_2pass_create (1, &cmd->vars[v],
cats,
postcalc (cmd);
+ for (v = 0; v < cmd->n_vars; ++v)
+ {
+ struct categoricals *cats = covariance_get_categoricals (ws.vws[v].cov);
+
+ categoricals_done (cats);
+ }
+
if ( cmd->stats & STATS_HOMOGENEITY )
levene (dict, casereader_clone (input), cmd->indep_var,
cmd->n_vars, cmd->vars, cmd->exclude);
}
if (cmd->stats & STATS_DESCRIPTIVES)
- show_descriptives (cmd);
+ show_descriptives (cmd, ws);
if (cmd->stats & STATS_HOMOGENEITY)
show_homogeneity (cmd, ws);
/* Show the descriptives table */
static void
-show_descriptives (const struct oneway_spec *cmd)
+show_descriptives (const struct oneway_spec *cmd, const struct oneway_workspace *ws)
{
size_t v;
int n_cols = 10;
const double confidence = 0.95;
const double q = (1.0 - confidence) / 2.0;
- const struct fmt_spec *wfmt = cmd->wv ? var_get_print_format (cmd->wv) : & F_8_0;
+ const struct fmt_spec *wfmt = cmd->wv ? var_get_print_format (cmd->wv) : &F_8_0;
int n_rows = 2;
- for ( v = 0; v < cmd->n_vars; ++v )
- n_rows += group_proc_get (cmd->vars[v])->n_groups + 1;
+ for (v = 0; v < cmd->n_vars; ++v)
+ n_rows += ws->actual_number_of_groups + 1;
t = tab_create (n_cols, n_rows);
tab_headers (t, 2, 0, 2, 0);
-
/* Put a frame around the entire box, and vertical lines inside */
tab_box (t,
TAL_2, TAL_2,
tab_text (t, 8, 1, TAB_CENTER | TAT_TITLE, _("Minimum"));
tab_text (t, 9, 1, TAB_CENTER | TAT_TITLE, _("Maximum"));
-
tab_title (t, _("Descriptives"));
-
row = 2;
for (v = 0; v < cmd->n_vars; ++v)
{
- double T;
- double std_error;
-
- struct group_proc *gp = group_proc_get (cmd->vars[v]);
-
- struct group_statistics *gs;
- struct group_statistics *totals = &gp->ugs;
-
const char *s = var_to_string (cmd->vars[v]);
const struct fmt_spec *fmt = var_get_print_format (cmd->vars[v]);
- struct group_statistics *const *gs_array =
- (struct group_statistics *const *) hsh_sort (gp->group_hash);
int count = 0;
+ struct per_var_ws *pvw = &ws->vws[v];
+ const struct categoricals *cats = covariance_get_categoricals (pvw->cov);
+
tab_text (t, 0, row, TAB_LEFT | TAT_TITLE, s);
if ( v > 0)
tab_hline (t, TAL_1, 0, n_cols - 1, row);
- for (count = 0; count < hsh_count (gp->group_hash); ++count)
+ for (count = 0; count < categoricals_total (cats); ++count)
{
+ double T;
+ double n, mean, variance;
+
+ const union value *gval = categoricals_get_value_by_subscript (cats, count);
+ const struct descriptive_data *dd = categoricals_get_user_data_by_subscript (cats, count);
+
+ moments1_calculate (dd->mom, &n, &mean, &variance, NULL, NULL);
+
+ double std_dev = sqrt (variance);
+ double std_error = std_dev / sqrt (n) ;
+
struct string vstr;
+
ds_init_empty (&vstr);
- gs = gs_array[count];
- var_append_value_name (cmd->indep_var, &gs->id, &vstr);
+ var_append_value_name (cmd->indep_var, gval, &vstr);
tab_text (t, 1, row + count,
TAB_LEFT | TAT_TITLE,
/* Now fill in the numbers ... */
- tab_fixed (t, 2, row + count, 0, gs->n, 8, 0);
+ tab_fixed (t, 2, row + count, 0, n, 8, 0);
- tab_double (t, 3, row + count, 0, gs->mean, NULL);
+ tab_double (t, 3, row + count, 0, mean, NULL);
- tab_double (t, 4, row + count, 0, gs->std_dev, NULL);
+ tab_double (t, 4, row + count, 0, std_dev, NULL);
- std_error = gs->std_dev / sqrt (gs->n) ;
- tab_double (t, 5, row + count, 0,
- std_error, NULL);
+
+ tab_double (t, 5, row + count, 0, std_error, NULL);
/* Now the confidence interval */
- T = gsl_cdf_tdist_Qinv (q, gs->n - 1);
+ T = gsl_cdf_tdist_Qinv (q, n - 1);
tab_double (t, 6, row + count, 0,
- gs->mean - T * std_error, NULL);
+ mean - T * std_error, NULL);
tab_double (t, 7, row + count, 0,
- gs->mean + T * std_error, NULL);
+ mean + T * std_error, NULL);
/* Min and Max */
- tab_double (t, 8, row + count, 0, gs->minimum, fmt);
- tab_double (t, 9, row + count, 0, gs->maximum, fmt);
+ tab_double (t, 8, row + count, 0, dd->minimum, fmt);
+ tab_double (t, 9, row + count, 0, dd->maximum, fmt);
}
- tab_text (t, 1, row + count,
- TAB_LEFT | TAT_TITLE, _("Total"));
+ {
+ double T;
+ double n, mean, variance;
- tab_double (t, 2, row + count, 0, totals->n, wfmt);
+ moments1_calculate (ws->totals, &n, &mean, &variance, NULL, NULL);
- tab_double (t, 3, row + count, 0, totals->mean, NULL);
+ double std_dev = sqrt (variance);
+ double std_error = std_dev / sqrt (n) ;
- tab_double (t, 4, row + count, 0, totals->std_dev, NULL);
+ tab_text (t, 1, row + count,
+ TAB_LEFT | TAT_TITLE, _("Total"));
- std_error = totals->std_dev / sqrt (totals->n) ;
+ tab_double (t, 2, row + count, 0, n, wfmt);
- tab_double (t, 5, row + count, 0, std_error, NULL);
+ tab_double (t, 3, row + count, 0, mean, NULL);
- /* Now the confidence interval */
+ tab_double (t, 4, row + count, 0, std_dev, NULL);
- T = gsl_cdf_tdist_Qinv (q, totals->n - 1);
+ tab_double (t, 5, row + count, 0, std_error, NULL);
- tab_double (t, 6, row + count, 0,
- totals->mean - T * std_error, NULL);
+ /* Now the confidence interval */
- tab_double (t, 7, row + count, 0,
- totals->mean + T * std_error, NULL);
+ T = gsl_cdf_tdist_Qinv (q, n - 1);
- /* Min and Max */
+ tab_double (t, 6, row + count, 0,
+ mean - T * std_error, NULL);
- tab_double (t, 8, row + count, 0, totals->minimum, fmt);
- tab_double (t, 9, row + count, 0, totals->maximum, fmt);
+ tab_double (t, 7, row + count, 0,
+ mean + T * std_error, NULL);
+
+ /* Min and Max */
+
+ tab_double (t, 8, row + count, 0, ws->minimum, fmt);
+ tab_double (t, 9, row + count, 0, ws->maximum, fmt);
+ }
- row += gp->n_groups + 1;
+ row += categoricals_total (cats) + 1;
}
tab_submit (t);
int n_cols = 5;
size_t n_rows = cmd->n_vars + 1;
- struct tab_table *t;
-
-
- t = tab_create (n_cols, n_rows);
+ struct tab_table *t = tab_create (n_cols, n_rows);
tab_headers (t, 1, 0, 1, 0);
-
/* Put a frame around the entire box, and vertical lines inside */
tab_box (t,
TAL_2, TAL_2,
tab_hline (t, TAL_2, 0, n_cols - 1, 1);
tab_vline (t, TAL_2, 3, 0, n_rows - 1);
-
tab_title (t, _("Contrast Tests"));
tab_text (t, 2, 0, TAB_CENTER | TAT_TITLE, _("Contrast"));