es[v].sorted_reader = casewriter_make_reader (es[v].sorted_writer);
es[v].sorted_writer = NULL;
- imax = casereader_get_case_cnt (es[v].sorted_reader);
+ imax = casereader_get_n_cases (es[v].sorted_reader);
es[v].maxima = pool_calloc (examine->pool, examine->calc_extremes, sizeof (*es[v].maxima));
es[v].minima = pool_calloc (examine->pool, examine->calc_extremes, sizeof (*es[v].minima));
{
const int n_os = 5 + examine->n_percentiles;
- struct order_stats **os ;
es[v].percentiles = pool_calloc (examine->pool, examine->n_percentiles, sizeof (*es[v].percentiles));
es[v].trimmed_mean = trimmed_mean_create (es[v].cc, 0.05);
es[v].shapiro_wilk = NULL;
- os = xcalloc (n_os, sizeof *os);
+ struct order_stats **os = XCALLOC (n_os, struct order_stats *);
os[0] = &es[v].trimmed_mean->parent;
es[v].quartiles[0] = percentile_create (0.25, es[v].cc);
{
struct ccase *c = casereader_peek (input, 0);
- cmd->id_idx = case_get_value_cnt (c);
+ cmd->id_idx = case_get_n_values (c);
input = casereader_create_arithmetic_sequence (input, 1.0, 1.0);
case_unref (c);
if (percentiles_seen && examine.n_percentiles == 0)
{
examine.n_percentiles = 7;
- examine.ptiles = xcalloc (examine.n_percentiles,
- sizeof (*examine.ptiles));
+ examine.ptiles = xcalloc (examine.n_percentiles, sizeof (*examine.ptiles));
examine.ptiles[0] = 5;
examine.ptiles[1] = 10;