#include <libpspp/str.h>
#include <math/histogram.h>
#include <math/moments.h>
-#include <output/chart.h>
+#include <output/chart-item.h>
#include <output/charts/piechart.h>
#include <output/charts/plot-hist.h>
-#include <output/manager.h>
-#include <output/output.h>
-#include <output/table.h>
+#include <output/tab.h>
#include "freq.h"
hist = freq_tab_to_hist (ft,v);
- histogram_plot_n (hist, var_to_string(v),
- vf->tab.valid_cases,
- d[frq_mean],
- d[frq_stddev],
- normal);
+ chart_item_submit (histogram_chart_create (
+ hist->gsl_hist, var_to_string(v),
+ vf->tab.valid_cases,
+ d[frq_mean],
+ d[frq_stddev],
+ normal));
- statistic_destroy ((struct statistic *)hist);
+ statistic_destroy (&hist->parent);
}
if ( chart == GFT_PIE)
\f
/* Frequency table display. */
-/* Sets the widths of all the columns and heights of all the rows in
- table T for driver D. */
-static void
-full_dim (struct tab_table *t, struct outp_driver *d, void *aux UNUSED)
-{
- int i = 0;
- int columns = 5;
-
- if (cmd.labels == FRQ_LABELS)
- {
- t->w[0] = MIN (tab_natural_width (t, d, 0), d->prop_em_width * 15);
- i = 1;
- columns ++;
- }
-
- for (;i < columns; i++)
- t->w[i] = MAX (tab_natural_width (t, d, i), d->prop_em_width * 8);
-
- for (i = 0; i < t->nr; i++)
- t->h[i] = d->font_height;
-}
-
/* Displays a full frequency table for variable V. */
static void
dump_full (const struct variable *v, const struct variable *wv)
struct freq_tab *ft;
struct freq_mutable *f;
struct tab_table *t;
- int r;
+ int r, x;
double cum_total = 0.0;
double cum_freq = 0.0;
- struct init
- {
- int c, r;
- const char *s;
- };
-
- const struct init *p;
-
- static const struct init vec[] =
- {
- {4, 0, N_("Valid")},
- {5, 0, N_("Cum")},
- {1, 1, N_("Value")},
- {2, 1, N_("Frequency")},
- {3, 1, N_("Percent")},
- {4, 1, N_("Percent")},
- {5, 1, N_("Percent")},
- {0, 0, NULL},
- {1, 0, NULL},
- {2, 0, NULL},
- {3, 0, NULL},
- {-1, -1, NULL},
+ static const char *headings[] = {
+ N_("Value"),
+ N_("Frequency"),
+ N_("Percent"),
+ N_("Valid Percent"),
+ N_("Cum Percent")
};
const bool lab = (cmd.labels == FRQ_LABELS);
vf = get_var_freqs (v);
ft = &vf->tab;
n_categories = ft->n_valid + ft->n_missing;
- t = tab_create (5 + lab, n_categories + 3, 0);
- tab_headers (t, 0, 0, 2, 0);
- tab_dim (t, full_dim, NULL);
+ t = tab_create (5 + lab, n_categories + 2);
+ tab_headers (t, 0, 0, 1, 0);
if (lab)
- tab_text (t, 0, 1, TAB_CENTER | TAT_TITLE, _("Value Label"));
+ tab_text (t, 0, 0, TAB_CENTER | TAT_TITLE, _("Value Label"));
- for (p = vec; p->s; p++)
- tab_text (t, lab ? p->c : p->c - 1, p->r,
- TAB_CENTER | TAT_TITLE, gettext (p->s));
+ for (x = 0; x < 5; x++)
+ tab_text (t, lab + x, 0, TAB_CENTER | TAT_TITLE, gettext (headings[x]));
- r = 2;
+ r = 1;
for (f = ft->valid; f < ft->missing; f++)
{
double percent, valid_percent;
tab_box (t, TAL_1, TAL_1,
cmd.spaces == FRQ_SINGLE ? -1 : TAL_GAP, TAL_1,
0, 0, 4 + lab, r);
- tab_hline (t, TAL_2, 0, 4 + lab, 2);
+ tab_hline (t, TAL_2, 0, 4 + lab, 1);
tab_hline (t, TAL_2, 0, 4 + lab, r);
tab_joint_text (t, 0, r, 0 + lab, r, TAB_RIGHT | TAT_TITLE, _("Total"));
tab_vline (t, TAL_0, 1, r, r);
tab_submit (t);
}
-/* Sets the widths of all the columns and heights of all the rows in
- table T for driver D. */
-static void
-condensed_dim (struct tab_table *t, struct outp_driver *d, void *aux UNUSED)
-{
- int cum_w = MAX (outp_string_width (d, _("Cum"), OUTP_PROPORTIONAL),
- MAX (outp_string_width (d, _("Cum"), OUTP_PROPORTIONAL),
- outp_string_width (d, "000", OUTP_PROPORTIONAL)));
-
- int i;
-
- for (i = 0; i < 2; i++)
- t->w[i] = MAX (tab_natural_width (t, d, i), d->prop_em_width * 8);
- for (i = 2; i < 4; i++)
- t->w[i] = cum_w;
- for (i = 0; i < t->nr; i++)
- t->h[i] = d->font_height;
-}
-
/* Display condensed frequency table for variable V. */
static void
dump_condensed (const struct variable *v, const struct variable *wv)
vf = get_var_freqs (v);
ft = &vf->tab;
n_categories = ft->n_valid + ft->n_missing;
- t = tab_create (4, n_categories + 2, 0);
+ t = tab_create (4, n_categories + 2);
tab_headers (t, 0, 0, 2, 0);
tab_text (t, 0, 1, TAB_CENTER | TAT_TITLE, _("Value"));
tab_text (t, 2, 1, TAB_CENTER | TAT_TITLE, _("Pct"));
tab_text (t, 3, 0, TAB_CENTER | TAT_TITLE, _("Cum"));
tab_text (t, 3, 1, TAB_CENTER | TAT_TITLE, _("Pct"));
- tab_dim (t, condensed_dim, NULL);
r = 2;
for (f = ft->valid; f < ft->missing; f++)
0, 0, 3, r - 1);
tab_hline (t, TAL_2, 0, 3, 2);
tab_title (t, "%s", var_to_string (v));
- tab_columns (t, SOM_COL_DOWN, 1);
tab_submit (t);
}
\f
}
calc_stats (v, stat_value);
- t = tab_create (3, n_stats + n_percentiles + 2, 0);
- tab_dim (t, tab_natural_dimensions, NULL);
+ t = tab_create (3, n_stats + n_percentiles + 2);
tab_box (t, TAL_1, TAL_1, -1, -1 , 0 , 0 , 2, tab_nr(t) - 1) ;
var_get_print_format (v));
}
- tab_columns (t, SOM_COL_DOWN, 1);
if (show_varname)
tab_title (t, "%s", var_to_string (v));
- else
- tab_flags (t, SOMF_NO_TITLE);
tab_submit (t);
double x_min = DBL_MAX;
double x_max = -DBL_MAX;
- struct statistic *hist;
+ struct histogram *hist;
const double bins = 11;
struct hsh_iterator hi;
for( i = 0 ; i < ft->n_valid ; ++i )
{
frq = &ft->valid[i];
- histogram_add ((struct histogram *)hist, frq->value.f, frq->count);
+ histogram_add (hist, frq->value.f, frq->count);
}
- return (struct histogram *)hist;
+ return hist;
}
ds_init_empty (&slices[i].label);
var_append_value_name (var, &frq->value, &slices[i].label);
- slices[i].magnetude = frq->count;
+ slices[i].magnitude = frq->count;
}
return slices;
slices = freq_tab_to_slice_array(frq_tab, var, &n_slices);
- piechart_plot(var_to_string(var), slices, n_slices);
+ chart_item_submit (piechart_create (var_to_string(var), slices, n_slices));
for (i = 0 ; i < n_slices ; ++i )
- {
- ds_destroy (&slices[i].label);
- }
+ ds_destroy (&slices[i].label);
- free(slices);
+ free (slices);
}