/* Statistics. */
enum
{
- frq_mean = 0, frq_semean, frq_median, frq_mode, frq_stddev, frq_variance,
- frq_kurt, frq_sekurt, frq_skew, frq_seskew, frq_range, frq_min, frq_max,
- frq_sum, frq_n_stats
+ FRQ_MEAN, FRQ_SEMEAN, FRQ_MEDIAN, FRQ_MODE, FRQ_STDDEV, FRQ_VARIANCE,
+ FRQ_KURT, FRQ_SEKURT, FRQ_SKEW, FRQ_SESKEW, FRQ_RANGE, FRQ_MIN, FRQ_MAX,
+ FRQ_SUM, FRQ_N_STATS
};
/* Description of a statistic. */
};
/* Table of statistics, indexed by dsc_*. */
-static const struct frq_info st_name[frq_n_stats + 1] =
+static const struct frq_info st_name[FRQ_N_STATS + 1] =
{
{FRQ_ST_MEAN, N_("Mean")},
{FRQ_ST_SEMEAN, N_("S.E. Mean")},
/* Groups of statistics. */
#define BI BIT_INDEX
-#define frq_default \
- (BI (frq_mean) | BI (frq_stddev) | BI (frq_min) | BI (frq_max))
-#define frq_all \
- (BI (frq_sum) | BI(frq_min) | BI(frq_max) \
- | BI(frq_mean) | BI(frq_semean) | BI(frq_stddev) \
- | BI(frq_variance) | BI(frq_kurt) | BI(frq_sekurt) \
- | BI(frq_skew) | BI(frq_seskew) | BI(frq_range) \
- | BI(frq_range) | BI(frq_mode) | BI(frq_median))
+#define FRQ_DEFAULT \
+ (BI (FRQ_MEAN) | BI (FRQ_STDDEV) | BI (FRQ_MIN) | BI (FRQ_MAX))
+#define FRQ_ALL \
+ (BI (FRQ_SUM) | BI(FRQ_MIN) | BI(FRQ_MAX) \
+ | BI(FRQ_MEAN) | BI(FRQ_SEMEAN) | BI(FRQ_STDDEV) \
+ | BI(FRQ_VARIANCE) | BI(FRQ_KURT) | BI(FRQ_SEKURT) \
+ | BI(FRQ_SKEW) | BI(FRQ_SESKEW) | BI(FRQ_RANGE) \
+ | BI(FRQ_RANGE) | BI(FRQ_MODE) | BI(FRQ_MEDIAN))
/* Statistics; number of statistics. */
static unsigned long stats;
double *groups; /* Groups. */
/* Statistics. */
- double stat[frq_n_stats];
+ double stat[FRQ_N_STATS];
/* Variable attributes. */
int width;
static void determine_charts (void);
-static void calc_stats (const struct variable *v, double d[frq_n_stats]);
+static void calc_stats (const struct variable *v, double d[FRQ_N_STATS]);
static void precalc (struct casereader *, struct dataset *);
static void calc (const struct ccase *, const struct dataset *);
/* Figure out statistics to calculate. */
stats = 0;
if (cmd.a_statistics[FRQ_ST_DEFAULT] || !cmd.sbc_statistics)
- stats |= frq_default;
+ stats |= FRQ_DEFAULT;
if (cmd.a_statistics[FRQ_ST_ALL])
- stats |= frq_all;
+ stats |= FRQ_ALL;
if (cmd.sort != FRQ_AVALUE && cmd.sort != FRQ_DVALUE)
- stats &= ~BIT_INDEX (frq_median);
- for (i = 0; i < frq_n_stats; i++)
+ stats &= ~BIT_INDEX (FRQ_MEDIAN);
+ for (i = 0; i < FRQ_N_STATS; i++)
if (cmd.a_statistics[st_name[i].st_indx])
stats |= BIT_INDEX (i);
- if (stats & frq_kurt)
- stats |= BIT_INDEX (frq_sekurt);
- if (stats & frq_skew)
- stats |= BIT_INDEX (frq_seskew);
+ if (stats & FRQ_KURT)
+ stats |= BIT_INDEX (FRQ_SEKURT);
+ if (stats & FRQ_SKEW)
+ stats |= BIT_INDEX (FRQ_SESKEW);
/* Calculate n_stats. */
n_stats = 0;
- for (i = 0; i < frq_n_stats; i++)
+ for (i = 0; i < FRQ_N_STATS; i++)
if ((stats & BIT_INDEX (i)))
n_stats++;
add_percentile (j / (double) cmd.n_ntiles[i], true);
}
}
- if (stats & BIT_INDEX (frq_median))
+ if (stats & BIT_INDEX (FRQ_MEDIAN))
{
/* Treat the median as the 50% percentile.
We output it in the percentiles table as "50 (Median)." */
add_percentile (0.5, true);
- stats &= ~BIT_INDEX (frq_median);
+ stats &= ~BIT_INDEX (FRQ_MEDIAN);
n_stats--;
}
if (cmd.sbc_histogram)
if (cmd.sbc_histogram && var_is_numeric (v) && ft->n_valid > 0)
{
- double d[frq_n_stats];
+ double d[FRQ_N_STATS];
struct histogram *histogram;
calc_stats (v, d);
chart_item_submit (histogram_chart_create (
histogram->gsl_hist, var_to_string(v),
vf->tab.valid_cases,
- d[frq_mean],
- d[frq_stddev],
+ d[FRQ_MEAN],
+ d[FRQ_STDDEV],
hist.draw_normal));
statistic_destroy (&histogram->parent);
/* Calculates all the pertinent statistics for variable V, putting them in
array D[]. */
static void
-calc_stats (const struct variable *v, double d[frq_n_stats])
+calc_stats (const struct variable *v, double d[FRQ_N_STATS])
{
struct freq_tab *ft = &get_var_freqs (v)->tab;
double W = ft->valid_cases;
moments_pass_one (m, f->value.f, f->count);
for (f = ft->valid; f < ft->missing; f++)
moments_pass_two (m, f->value.f, f->count);
- moments_calculate (m, NULL, &d[frq_mean], &d[frq_variance],
- &d[frq_skew], &d[frq_kurt]);
+ moments_calculate (m, NULL, &d[FRQ_MEAN], &d[FRQ_VARIANCE],
+ &d[FRQ_SKEW], &d[FRQ_KURT]);
moments_destroy (m);
/* Formulas below are taken from _SPSS Statistical Algorithms_. */
- d[frq_min] = ft->valid[0].value.f;
- d[frq_max] = ft->valid[ft->n_valid - 1].value.f;
- d[frq_mode] = X_mode;
- d[frq_range] = d[frq_max] - d[frq_min];
- d[frq_sum] = d[frq_mean] * W;
- d[frq_stddev] = sqrt (d[frq_variance]);
- d[frq_semean] = d[frq_stddev] / sqrt (W);
- d[frq_seskew] = calc_seskew (W);
- d[frq_sekurt] = calc_sekurt (W);
+ d[FRQ_MIN] = ft->valid[0].value.f;
+ d[FRQ_MAX] = ft->valid[ft->n_valid - 1].value.f;
+ d[FRQ_MODE] = X_mode;
+ d[FRQ_RANGE] = d[FRQ_MAX] - d[FRQ_MIN];
+ d[FRQ_SUM] = d[FRQ_MEAN] * W;
+ d[FRQ_STDDEV] = sqrt (d[FRQ_VARIANCE]);
+ d[FRQ_SEMEAN] = d[FRQ_STDDEV] / sqrt (W);
+ d[FRQ_SESKEW] = calc_seskew (W);
+ d[FRQ_SEKURT] = calc_sekurt (W);
}
/* Displays a table of all the statistics requested for variable V. */
{
const struct fmt_spec *wfmt = wv ? var_get_print_format (wv) : &F_8_0;
struct freq_tab *ft;
- double stat_value[frq_n_stats];
+ double stat_value[FRQ_N_STATS];
struct tab_table *t;
int i, r;
r=2; /* N missing and N valid are always dumped */
- for (i = 0; i < frq_n_stats; i++)
+ for (i = 0; i < FRQ_N_STATS; i++)
if (stats & BIT_INDEX (i))
{
tab_text (t, 0, r, TAB_LEFT | TAT_TITLE,
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