You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
- 02111-1307, USA. */
+ Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
+ 02110-1301, USA. */
#include <config.h>
#include "dictionary.h"
#include <stdlib.h>
+#include <ctype.h>
#include "algorithm.h"
#include "alloc.h"
#include "case.h"
#include "error.h"
#include "hash.h"
#include "misc.h"
+#include "settings.h"
#include "str.h"
#include "value-labels.h"
#include "var.h"
{
struct dictionary *d;
size_t i;
-
+
assert (s != NULL);
-
+
d = dict_create ();
- for (i = 0; i < s->var_cnt; i++)
- dict_clone_var (d, s->var[i], s->var[i]->name);
+
+ for (i = 0; i < s->var_cnt; i++)
+ {
+ struct variable *sv = s->var[i];
+ struct variable *dv = dict_clone_var_assert (d, sv, sv->name);
+ var_set_short_name (dv, sv->short_name);
+ }
+
d->next_value_idx = s->next_value_idx;
d->split_cnt = s->split_cnt;
dict_set_label (d, dict_get_label (s));
dict_set_documents (d, dict_get_documents (s));
+ d->vector_cnt = s->vector_cnt;
+ d->vector = xmalloc (d->vector_cnt * sizeof *d->vector);
for (i = 0; i < s->vector_cnt; i++)
- dict_create_vector (d, s->vector[i]->name,
- s->vector[i]->var, s->vector[i]->cnt);
+ {
+ struct vector *sv = s->vector[i];
+ struct vector *dv = d->vector[i] = xmalloc (sizeof *dv);
+ int j;
+
+ dv->idx = i;
+ strcpy (dv->name, sv->name);
+ dv->cnt = sv->cnt;
+ dv->var = xmalloc (dv->cnt * sizeof *dv->var);
+ for (j = 0; j < dv->cnt; j++)
+ dv->var[j] = d->var[sv->var[j]->index];
+ }
return d;
}
assert (*cnt == count);
}
+
/* Creates and returns a new variable in D with the given NAME
and WIDTH. Returns a null pointer if the given NAME would
duplicate that of an existing variable in the dictionary. */
struct variable *
-dict_create_var (struct dictionary *d, const char *name, int width)
+dict_create_var (struct dictionary *d, const char *name, int width)
{
struct variable *v;
assert (d != NULL);
assert (name != NULL);
- assert (strlen (name) >= 1 && strlen (name) <= 8);
- assert (width >= 0 && width < 256);
+ assert (strlen (name) >= 1);
+ assert (strlen (name) <= LONG_NAME_LEN);
+
+ assert (width >= 0 && width < 256);
+
/* Make sure there's not already a variable by that name. */
if (dict_lookup_var (d, name) != NULL)
return NULL;
/* Allocate and initialize variable. */
v = xmalloc (sizeof *v);
- strncpy (v->name, name, sizeof v->name);
- v->name[8] = '\0';
- v->index = d->var_cnt;
+ str_copy_trunc (v->name, sizeof v->name, name);
v->type = width == 0 ? NUMERIC : ALPHA;
v->width = width;
v->fv = d->next_value_idx;
v->nv = width == 0 ? 1 : DIV_RND_UP (width, 8);
v->init = 1;
- v->reinit = dict_class_from_id (name) != DC_SCRATCH;
+ v->reinit = dict_class_from_id (v->name) != DC_SCRATCH;
+ v->index = d->var_cnt;
v->miss_type = MISSING_NONE;
if (v->type == NUMERIC)
{
- v->print.type = FMT_F;
- v->print.w = 8;
- v->print.d = 2;
+ v->print = f8_2;
+ v->alignment = ALIGN_RIGHT;
+ v->display_width = 8;
+ v->measure = MEASURE_SCALE;
}
else
{
- v->print.type = FMT_A;
- v->print.w = v->width;
- v->print.d = 0;
+ v->print = make_output_format (FMT_A, v->width, 0);
+ v->alignment = ALIGN_LEFT;
+ v->display_width = 8;
+ v->measure = MEASURE_NOMINAL;
}
v->write = v->print;
v->val_labs = val_labs_create (v->width);
v->label = NULL;
+ var_clear_short_name (v);
v->aux = NULL;
v->aux_dtor = NULL;
d->var[v->index] = v;
d->var_cnt++;
hsh_force_insert (d->name_tab, v);
+
d->next_value_idx += v->nv;
return v;
and WIDTH. Assert-fails if the given NAME would duplicate
that of an existing variable in the dictionary. */
struct variable *
-dict_create_var_assert (struct dictionary *d, const char *name, int width)
+dict_create_var_assert (struct dictionary *d, const char *name, int width)
{
struct variable *v = dict_create_var (d, name, width);
assert (v != NULL);
return v;
}
-/* Creates a new variable in D named NAME, as a copy of existing
- variable OV, which need not be in D or in any dictionary. */
+/* Creates and returns a new variable in D with name NAME, as a
+ copy of existing variable OV, which need not be in D or in any
+ dictionary. Returns a null pointer if the given NAME would
+ duplicate that of an existing variable in the dictionary. */
struct variable *
dict_clone_var (struct dictionary *d, const struct variable *ov,
const char *name)
assert (d != NULL);
assert (ov != NULL);
assert (name != NULL);
- assert (strlen (name) >= 1 && strlen (name) <= 8);
+
+ assert (strlen (name) >= 1);
+ assert (strlen (name) <= LONG_NAME_LEN);
nv = dict_create_var (d, name, ov->width);
if (nv == NULL)
return NULL;
+ /* Copy most members not copied via dict_create_var().
+ short_name[] is intentionally not copied, because there is
+ no reason to give a new variable with potentially a new name
+ the same short name. */
nv->init = 1;
nv->reinit = ov->reinit;
nv->miss_type = ov->miss_type;
nv->val_labs = val_labs_copy (ov->val_labs);
if (ov->label != NULL)
nv->label = xstrdup (ov->label);
+ nv->measure = ov->measure;
+ nv->display_width = ov->display_width;
+ nv->alignment = ov->alignment;
return nv;
}
-/* Changes the name of V in D to name NEW_NAME. Assert-fails if
- a variable named NEW_NAME is already in D, except that
- NEW_NAME may be the same as V's existing name. */
-void
-dict_rename_var (struct dictionary *d, struct variable *v,
- const char *new_name)
+/* Creates and returns a new variable in D with name NAME, as a
+ copy of existing variable OV, which need not be in D or in any
+ dictionary. Assert-fails if the given NAME would duplicate
+ that of an existing variable in the dictionary. */
+struct variable *
+dict_clone_var_assert (struct dictionary *d, const struct variable *ov,
+ const char *name)
{
- assert (d != NULL);
+ struct variable *v = dict_clone_var (d, ov, name);
assert (v != NULL);
- assert (new_name != NULL);
- assert (strlen (new_name) >= 1 && strlen (new_name) <= 8);
- assert (dict_contains_var (d, v));
-
- if (!strcmp (v->name, new_name))
- return;
-
- assert (dict_lookup_var (d, new_name) == NULL);
-
- hsh_force_delete (d->name_tab, v);
- strncpy (v->name, new_name, sizeof v->name);
- v->name[8] = '\0';
- hsh_force_insert (d->name_tab, v);
+ return v;
}
/* Returns the variable named NAME in D, or a null pointer if no
assert (d != NULL);
assert (name != NULL);
- assert (strlen (name) >= 1 && strlen (name) <= 8);
-
- strncpy (v.name, name, sizeof v.name);
- v.name[8] = '\0';
+ str_copy_trunc (v.name, sizeof v.name, name);
return hsh_find (d->name_tab, &v);
}
assert (d != NULL);
assert (v != NULL);
assert (dict_contains_var (d, v));
- assert (d->var[v->index] == v);
/* Delete aux data. */
var_clear_aux (v);
dict_delete_var (d, *vars++);
}
+/* Moves V to 0-based position IDX in D. Other variables in D,
+ if any, retain their relative positions. Runs in time linear
+ in the distance moved. */
+void
+dict_reorder_var (struct dictionary *d, struct variable *v,
+ size_t new_index)
+{
+ size_t min_idx, max_idx;
+ size_t i;
+
+ assert (d != NULL);
+ assert (v != NULL);
+ assert (dict_contains_var (d, v));
+ assert (new_index < d->var_cnt);
+
+ move_element (d->var, d->var_cnt, sizeof *d->var, v->index, new_index);
+
+ min_idx = min (v->index, new_index);
+ max_idx = max (v->index, new_index);
+ for (i = min_idx; i <= max_idx; i++)
+ d->var[i]->index = i;
+}
+
/* Reorders the variables in D, placing the COUNT variables
listed in ORDER in that order at the beginning of D. The
other variables in D, if any, retain their relative
d->var = new_var;
}
+/* Changes the name of V in D to name NEW_NAME. Assert-fails if
+ a variable named NEW_NAME is already in D, except that
+ NEW_NAME may be the same as V's existing name. */
+void
+dict_rename_var (struct dictionary *d, struct variable *v,
+ const char *new_name)
+{
+ assert (d != NULL);
+ assert (v != NULL);
+ assert (new_name != NULL);
+ assert (var_is_valid_name (new_name, false));
+ assert (dict_contains_var (d, v));
+ assert (!compare_var_names (v->name, new_name, NULL)
+ || dict_lookup_var (d, new_name) == NULL);
+
+ hsh_force_delete (d->name_tab, v);
+ str_copy_trunc (v->name, sizeof v->name, new_name);
+ hsh_force_insert (d->name_tab, v);
+
+ if (get_algorithm () == ENHANCED)
+ var_clear_short_name (v);
+}
+
/* Renames COUNT variables specified in VARS to the names given
in NEW_NAMES within dictionary D. If the renaming would
result in a duplicate variable name, returns zero and stores a
assert (count == 0 || vars != NULL);
assert (count == 0 || new_names != NULL);
+ /* Remove the variables to be renamed from the name hash,
+ save their names, and rename them. */
old_names = xmalloc (count * sizeof *old_names);
for (i = 0; i < count; i++)
{
assert (d->var[vars[i]->index] == vars[i]);
+ assert (var_is_valid_name (new_names[i], false));
hsh_force_delete (d->name_tab, vars[i]);
old_names[i] = xstrdup (vars[i]->name);
+ strcpy (vars[i]->name, new_names[i]);
}
-
+
+ /* Add the renamed variables back into the name hash,
+ checking for conflicts. */
for (i = 0; i < count; i++)
{
assert (new_names[i] != NULL);
assert (*new_names[i] != '\0');
- assert (strlen (new_names[i]) < 9);
- strcpy (vars[i]->name, new_names[i]);
- if (hsh_insert (d->name_tab, vars[i]) != NULL)
+ assert (strlen (new_names[i]) >= 1);
+ assert (strlen (new_names[i]) <= LONG_NAME_LEN);
+
+ if (hsh_insert (d->name_tab, vars[i]) != NULL)
{
+ /* There is a name conflict.
+ Back out all the name changes that have already
+ taken place, and indicate failure. */
size_t fail_idx = i;
if (err_name != NULL)
*err_name = new_names[i];
}
success = 0;
- break;
+ goto done;
}
}
+ /* Clear short names. */
+ if (get_algorithm () == ENHANCED)
+ for (i = 0; i < count; i++)
+ var_clear_short_name (vars[i]);
+
+ done:
+ /* Free the old names we kept around. */
for (i = 0; i < count; i++)
free (old_names[i]);
free (old_names);
i++;
}
else
- dict_delete_var (default_dict, v);
+ dict_delete_var (d, v);
}
}
struct variable **var, size_t cnt)
{
struct vector *vector;
+ size_t i;
assert (d != NULL);
assert (name != NULL);
- assert (strlen (name) > 0 && strlen (name) < 9);
+ assert (var_is_valid_name (name, false));
assert (var != NULL);
assert (cnt > 0);
d->vector = xrealloc (d->vector, (d->vector_cnt + 1) * sizeof *d->vector);
vector = d->vector[d->vector_cnt] = xmalloc (sizeof *vector);
vector->idx = d->vector_cnt++;
- strncpy (vector->name, name, 8);
- vector->name[8] = '\0';
+ str_copy_trunc (vector->name, sizeof vector->name, name);
vector->var = xmalloc (cnt * sizeof *var);
- memcpy (vector->var, var, cnt * sizeof *var);
+ for (i = 0; i < cnt; i++)
+ {
+ assert (dict_contains_var (d, var[i]));
+ vector->var[i] = var[i];
+ }
vector->cnt = cnt;
return 1;
assert (name != NULL);
for (i = 0; i < d->vector_cnt; i++)
- if (!strcmp (d->vector[i]->name, name))
+ if (!strcasecmp (d->vector[i]->name, name))
return d->vector[i];
return NULL;
}
d->vector = NULL;
d->vector_cnt = 0;
}
+
+/* Compares two strings. */
+static int
+compare_strings (const void *a, const void *b, void *aux UNUSED)
+{
+ return strcmp (a, b);
+}
+
+/* Hashes a string. */
+static unsigned
+hash_string (const void *s, void *aux UNUSED)
+{
+ return hsh_hash_string (s);
+}
+
+/* Assigns a valid, unique short_name[] to each variable in D.
+ Each variable whose actual name is short has highest priority
+ for that short name. Otherwise, variables with an existing
+ short_name[] have the next highest priority for a given short
+ name; if it is already taken, then the variable is treated as
+ if short_name[] had been empty. Otherwise, long names are
+ truncated to form short names. If that causes conflicts,
+ variables are renamed as PREFIX_A, PREFIX_B, and so on. */
+void
+dict_assign_short_names (struct dictionary *d)
+{
+ struct hsh_table *short_names;
+ size_t i;
+
+ /* Give variables whose names are short the corresponding short
+ names, and clear short_names[] that conflict with a variable
+ name. */
+ for (i = 0; i < d->var_cnt; i++)
+ {
+ struct variable *v = d->var[i];
+ if (strlen (v->name) <= SHORT_NAME_LEN)
+ var_set_short_name (v, v->name);
+ else if (dict_lookup_var (d, v->short_name) != NULL)
+ var_clear_short_name (v);
+ }
+
+ /* Each variable with an assigned short_name[] now gets it
+ unless there is a conflict. */
+ short_names = hsh_create (d->var_cnt, compare_strings, hash_string,
+ NULL, NULL);
+ for (i = 0; i < d->var_cnt; i++)
+ {
+ struct variable *v = d->var[i];
+ if (v->short_name[0] && hsh_insert (short_names, v->short_name) != NULL)
+ var_clear_short_name (v);
+ }
+
+ /* Now assign short names to remaining variables. */
+ for (i = 0; i < d->var_cnt; i++)
+ {
+ struct variable *v = d->var[i];
+ if (v->short_name[0] == '\0')
+ {
+ int sfx;
+
+ /* Form initial short_name. */
+ var_set_short_name (v, v->name);
+
+ /* Try _A, _B, ... _AA, _AB, etc., if needed. */
+ for (sfx = 0; hsh_insert (short_names, v->short_name) != NULL; sfx++)
+ var_set_short_name_suffix (v, v->name, sfx);
+ }
+ }
+
+ /* Get rid of hash table. */
+ hsh_destroy (short_names);
+}