#include "vardict.h"
#include "variable.h"
#include "vector.h"
-#include <libpspp/alloc.h>
#include <libpspp/array.h>
#include <libpspp/compiler.h>
#include <libpspp/hash.h>
#include <libpspp/str.h>
#include "minmax.h"
+#include "xalloc.h"
#include "gettext.h"
#define _(msgid) gettext (msgid)
size_t split_cnt; /* SPLIT FILE count. */
struct variable *weight; /* WEIGHT variable. */
struct variable *filter; /* FILTER variable. */
- size_t case_limit; /* Current case limit (N command). */
+ casenumber case_limit; /* Current case limit (N command). */
char *label; /* File label. */
struct string documents; /* Documents, as a string. */
struct vector **vector; /* Vectors of variables. */
}
/* Creates and returns a (deep) copy of an existing
- dictionary. */
+ dictionary.
+
+ The new dictionary's case indexes are copied from the old
+ dictionary. If the new dictionary won't be used to access
+ cases produced with the old dictionary, then the new
+ dictionary's case indexes should be compacted with
+ dict_compact_values to save space. */
struct dictionary *
dict_clone (const struct dictionary *s)
{
for (i = 0; i < s->var_cnt; i++)
{
+ const struct vardict_info *svdi;
+ struct vardict_info dvdi;
struct variable *sv = s->var[i];
struct variable *dv = dict_clone_var_assert (d, sv, var_get_name (sv));
size_t i;
for (i = 0; i < var_get_short_name_cnt (sv); i++)
var_set_short_name (dv, i, var_get_short_name (sv, i));
+
+ svdi = var_get_vardict (sv);
+ dvdi = *svdi;
+ dvdi.dict = d;
+ var_set_vardict (dv, &dvdi);
}
d->next_value_idx = s->next_value_idx;
return d->var[idx];
}
-inline void
+/* Sets *VARS to an array of pointers to variables in D and *CNT
+ to the number of variables in *D. All variables are returned
+ except for those, if any, in the classes indicated by EXCLUDE.
+ (There is no point in putting DC_SYSTEM in EXCLUDE as
+ dictionaries never include system variables.) */
+void
dict_get_vars (const struct dictionary *d, const struct variable ***vars,
- size_t *cnt, unsigned exclude_classes)
+ size_t *cnt, enum dict_class exclude)
{
- dict_get_vars_mutable (d, (struct variable ***) vars, cnt, exclude_classes);
+ dict_get_vars_mutable (d, (struct variable ***) vars, cnt, exclude);
}
/* Sets *VARS to an array of pointers to variables in D and *CNT
to the number of variables in *D. All variables are returned
- if EXCLUDE_CLASSES is 0, or it may contain one or more of (1u
- << DC_ORDINARY), (1u << DC_SYSTEM), or (1u << DC_SCRATCH) to
- exclude the corresponding type of variable. */
+ except for those, if any, in the classes indicated by EXCLUDE.
+ (There is no point in putting DC_SYSTEM in EXCLUDE as
+ dictionaries never include system variables.) */
void
dict_get_vars_mutable (const struct dictionary *d, struct variable ***vars,
- size_t *cnt, unsigned exclude_classes)
+ size_t *cnt, enum dict_class exclude)
{
size_t count;
size_t i;
assert (d != NULL);
assert (vars != NULL);
assert (cnt != NULL);
- assert ((exclude_classes & ~((1u << DC_ORDINARY)
- | (1u << DC_SYSTEM)
- | (1u << DC_SCRATCH))) == 0);
+ assert (exclude == (exclude & DC_ALL));
count = 0;
for (i = 0; i < d->var_cnt; i++)
{
- enum dict_class class = dict_class_from_id (var_get_name (d->var[i]));
- if (!(exclude_classes & (1u << class)))
+ enum dict_class class = var_get_dict_class (d->var[i]);
+ if (!(class & exclude))
count++;
}
*cnt = 0;
for (i = 0; i < d->var_cnt; i++)
{
- enum dict_class class = dict_class_from_id (var_get_name (d->var[i]));
- if (!(exclude_classes & (1u << class)))
+ enum dict_class class = var_get_dict_class (d->var[i]);
+ if (!(class & exclude))
(*vars)[(*cnt)++] = d->var[i];
}
assert (*cnt == count);
result = hsh_find (d->name_tab, target);
var_destroy (target);
+ if ( result && var_has_vardict (result))
+ {
+ const struct vardict_info *vdi = var_get_vardict (result);
+ assert (vdi->dict == d);
+ }
+
return result;
}
active on the dictionary's dataset, because those
transformations might reference the deleted variable. The
safest time to delete a variable is just after a procedure has
- been executed, as done by MODIFY VARS.
+ been executed, as done by DELETE VARIABLES.
Pointers to V within D are not a problem, because
dict_delete_var() knows to remove V from split variables,
assert (d != NULL);
for (i = 0; i < d->var_cnt; )
- if (dict_class_from_id (var_get_name (d->var[i])) == DC_SCRATCH)
+ if (var_get_dict_class (d->var[i]) == DC_SCRATCH)
dict_delete_var (d, d->var[i]);
else
i++;
return d->weight;
}
-/* Returns the value of D's weighting variable in case C, except that a
- negative weight is returned as 0. Returns 1 if the dictionary is
- unweighted. Will warn about missing, negative, or zero values if
- warn_on_invalid is true. The function will set warn_on_invalid to false
- if an invalid weight is found. */
+/* Returns the value of D's weighting variable in case C, except
+ that a negative weight is returned as 0. Returns 1 if the
+ dictionary is unweighted. Will warn about missing, negative,
+ or zero values if *WARN_ON_INVALID is true. The function will
+ set *WARN_ON_INVALID to false if an invalid weight is
+ found. */
double
dict_get_case_weight (const struct dictionary *d, const struct ccase *c,
bool *warn_on_invalid)
{
assert (d != NULL);
assert (v == NULL || dict_contains_var (d, v));
+ assert (v == NULL || var_is_numeric (v));
d->filter = v;
/* Returns the case limit for dictionary D, or zero if the number
of cases is unlimited. */
-size_t
+casenumber
dict_get_case_limit (const struct dictionary *d)
{
assert (d != NULL);
/* Sets CASE_LIMIT as the case limit for dictionary D. Use
0 for CASE_LIMIT to indicate no limit. */
void
-dict_set_case_limit (struct dictionary *d, size_t case_limit)
+dict_set_case_limit (struct dictionary *d, casenumber case_limit)
{
assert (d != NULL);
cnt = 0;
for (i = 0; i < d->var_cnt; i++)
{
- enum dict_class class = dict_class_from_id (var_get_name (d->var[i]));
+ enum dict_class class = var_get_dict_class (d->var[i]);
if (!(exclude_classes & (1u << class)))
cnt += var_get_value_cnt (d->var[i]);
}
return d->split_cnt;
}
-/* Removes variable V from the set of split variables in dictionary D */
+/* Removes variable V, which must be in D, from D's set of split
+ variables. */
void
-dict_unset_split_var (struct dictionary *d,
- struct variable *v)
+dict_unset_split_var (struct dictionary *d, struct variable *v)
{
- const int count = d->split_cnt;
- d->split_cnt = remove_equal (d->split, d->split_cnt, sizeof *d->split,
- &v, compare_var_ptrs, NULL);
+ int orig_count;
- if ( count == d->split_cnt)
- return;
+ assert (dict_contains_var (d, v));
- if ( d->callbacks && d->callbacks->split_changed )
- d->callbacks->split_changed (d, d->cb_data);
+ orig_count = d->split_cnt;
+ d->split_cnt = remove_equal (d->split, d->split_cnt, sizeof *d->split,
+ &v, compare_var_ptrs, NULL);
+ if (orig_count != d->split_cnt)
+ {
+ /* We changed the set of split variables so invoke the
+ callback. */
+ if (d->callbacks && d->callbacks->split_changed)
+ d->callbacks->split_changed (d, d->cb_data);
+ }
}
/* Sets CNT split vars SPLIT in dictionary D. */
assert (d != NULL);
free (d->label);
- if (label == NULL)
- d->label = NULL;
- else if (strlen (label) < 60)
- d->label = xstrdup (label);
- else
- {
- d->label = xmalloc (61);
- memcpy (d->label, label, 60);
- d->label[60] = '\0';
- }
+ d->label = label != NULL ? xstrndup (label, 60) : NULL;
}
/* Returns the documents for D, or a null pointer if D has no
if ( var_has_vardict (v))
{
const struct vardict_info *vdi = var_get_vardict (v);
- struct dictionary *d;
-
- d = vdi->dict;
+ struct dictionary *d = vdi->dict;
if ( d->callbacks && d->callbacks->var_changed )
d->callbacks->var_changed (d, var_get_dict_index (v), d->cb_data);