-/* PSPP - computes sample statistics.
- Copyright (C) 1997-9, 2000 Free Software Foundation, Inc.
+/* PSPP - a program for statistical analysis.
+ Copyright (C) 1997-9, 2000, 2006 Free Software Foundation, Inc.
- This program is free software; you can redistribute it and/or
- modify it under the terms of the GNU General Public License as
- published by the Free Software Foundation; either version 2 of the
- License, or (at your option) any later version.
+ This program is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
- This program is distributed in the hope that it will be useful, but
- WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- General Public License for more details.
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ GNU General Public License for more details.
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., 51 Franklin Street, Fifth Floor, Boston, MA
- 02110-1301, USA. */
+ along with this program. If not, see <http://www.gnu.org/licenses/>. */
#include <config.h>
#include "variable.h"
#include <stdlib.h>
-#include "cat-routines.h"
+
#include "category.h"
#include "data-out.h"
-#include "dictionary.h"
#include "format.h"
+#include "dictionary.h"
#include "identifier.h"
#include "missing-values.h"
-#include "value.h"
#include "value-labels.h"
#include "vardict.h"
+#include <libpspp/misc.h>
#include <libpspp/alloc.h>
#include <libpspp/assertion.h>
#include <libpspp/compiler.h>
#include <libpspp/hash.h>
#include <libpspp/message.h>
-#include <libpspp/misc.h>
#include <libpspp/str.h>
-#include "minmax.h"
-
#include "gettext.h"
#define _(msgid) gettext (msgid)
bool leave; /* Leave value from case to case? */
/* Data for use by containing dictionary. */
- struct vardict_info vardict;
+ struct vardict_info vardict;
/* Short name, used only for system and portable file input
- and output. Upper case only. There is no index for short
- names. Short names are not necessarily unique. Any
- variable may have no short name, indicated by an empty
- string. */
+ and output. Upper case only. Short names are not necessarily
+ unique. Any variable may have no short name, indicated by an
+ empty string. */
char short_name[SHORT_NAME_LEN + 1];
/* Each command may use these fields as needed. */
/* Returns true if VAR_TYPE is a valid variable type. */
bool
-var_type_is_valid (enum var_type var_type)
+var_type_is_valid (enum var_type var_type)
{
return var_type == VAR_NUMERIC || var_type == VAR_STRING;
}
/* Returns the variable type for the given width. */
enum var_type
-var_type_from_width (int width)
+var_type_from_width (int width)
{
return width != 0 ? VAR_STRING : VAR_NUMERIC;
}
variable is not added to a dictionary; for that, use
dict_create_var instead. */
struct variable *
-var_create (const char *name, int width)
+var_create (const char *name, int width)
{
struct variable *v;
-
+
assert (width >= 0 && width <= MAX_STRING);
v = xmalloc (sizeof *v);
V must not belong to a dictionary. If it does, use
dict_delete_var instead. */
void
-var_destroy (struct variable *v)
+var_destroy (struct variable *v)
{
- if (v != NULL)
+ if (v != NULL)
{
assert (!var_has_vardict (v));
cat_stored_values_destroy (v->obs_vals);
var_clear_aux (v);
val_labs_destroy (v->val_labs);
var_clear_label (v);
- free (v);
+ free (v);
}
}
\f
/* Return variable V's name. */
const char *
-var_get_name (const struct variable *v)
+var_get_name (const struct variable *v)
{
return v->name;
}
Do not use this function for a variable in a dictionary. Use
dict_rename_var instead. */
void
-var_set_name (struct variable *v, const char *name)
+var_set_name (struct variable *v, const char *name)
{
assert (v->vardict.dict_index == -1);
assert (var_is_plausible_name (name, false));
str_copy_trunc (v->name, sizeof v->name, name);
+ dict_var_changed (v);
}
/* Returns true if NAME is an acceptable name for a variable,
false otherwise. If ISSUE_ERROR is true, issues an
explanatory error message on failure. */
bool
-var_is_valid_name (const char *name, bool issue_error)
+var_is_valid_name (const char *name, bool issue_error)
{
bool plausible;
size_t length, i;
-
+
assert (name != NULL);
- /* Note that strlen returns number of BYTES, not the number of
+ /* Note that strlen returns number of BYTES, not the number of
CHARACTERS */
length = strlen (name);
plausible = var_is_plausible_name(name, issue_error);
- if ( ! plausible )
+ if ( ! plausible )
return false;
for (i = 0; i < length; i++)
{
- if (!lex_is_idn (name[i]))
+ if (!lex_is_idn (name[i]))
{
if (issue_error)
msg (SE, _("Character `%c' (in %s) may not appear in "
/* Returns true if NAME is an plausible name for a variable,
false otherwise. If ISSUE_ERROR is true, issues an
- explanatory error message on failure.
+ explanatory error message on failure.
This function makes no use of LC_CTYPE.
*/
bool
-var_is_plausible_name (const char *name, bool issue_error)
+var_is_plausible_name (const char *name, bool issue_error)
{
size_t length;
-
+
assert (name != NULL);
- /* Note that strlen returns number of BYTES, not the number of
+ /* Note that strlen returns number of BYTES, not the number of
CHARACTERS */
length = strlen (name);
- if (length < 1)
+ if (length < 1)
{
if (issue_error)
msg (SE, _("Variable name cannot be empty string."));
return false;
}
- else if (length > LONG_NAME_LEN)
+ else if (length > LONG_NAME_LEN)
{
if (issue_error)
msg (SE, _("Variable name %s exceeds %d-character limit."),
return false;
}
- if (lex_id_to_token (ss_cstr (name)) != T_ID)
+ if (lex_id_to_token (ss_cstr (name)) != T_ID)
{
if (issue_error)
msg (SE, _("`%s' may not be used as a variable name because it "
/* A hsh_compare_func that orders variables A and B by their
names. */
int
-compare_vars_by_name (const void *a_, const void *b_, const void *aux UNUSED)
+compare_vars_by_name (const void *a_, const void *b_, const void *aux UNUSED)
{
const struct variable *a = a_;
const struct variable *b = b_;
/* A hsh_hash_func that hashes variable V based on its name. */
unsigned
-hash_var_by_name (const void *v_, const void *aux UNUSED)
+hash_var_by_name (const void *v_, const void *aux UNUSED)
{
const struct variable *v = v_;
by their names. */
int
compare_var_ptrs_by_name (const void *a_, const void *b_,
- const void *aux UNUSED)
+ const void *aux UNUSED)
{
struct variable *const *a = a_;
struct variable *const *b = b_;
/* A hsh_hash_func that hashes pointer to variable V based on its
name. */
unsigned
-hash_var_ptr_by_name (const void *v_, const void *aux UNUSED)
+hash_var_ptr_by_name (const void *v_, const void *aux UNUSED)
{
struct variable *const *v = v_;
\f
/* Returns the type of variable V. */
enum var_type
-var_get_type (const struct variable *v)
+var_get_type (const struct variable *v)
{
return var_type_from_width (v->width);
}
/* Returns the width of variable V. */
int
-var_get_width (const struct variable *v)
+var_get_width (const struct variable *v)
{
return v->width;
}
/* Sets the width of V to WIDTH. */
void
-var_set_width (struct variable *v, int new_width)
+var_set_width (struct variable *v, int new_width)
{
+ const int old_width = v->width;
enum var_type new_type = var_type_from_width (new_width);
-
+
if (mv_is_resizable (&v->miss, new_width))
mv_resize (&v->miss, new_width);
else
mv_init (&v->miss, new_width);
- if (v->val_labs != NULL)
+ if (v->val_labs != NULL)
{
if (val_labs_can_set_width (v->val_labs, new_width))
val_labs_set_width (v->val_labs, new_width);
- else
+ else
{
val_labs_destroy (v->val_labs);
v->val_labs = NULL;
}
}
-
- if (var_get_type (v) != new_type)
+
+ if (var_get_type (v) != new_type)
{
v->print = (new_type == VAR_NUMERIC
? fmt_for_output (FMT_F, 8, 2)
: fmt_for_output (FMT_A, new_width, 0));
v->write = v->print;
}
- else if (new_type == VAR_STRING)
+ else if (new_type == VAR_STRING)
{
v->print.w = v->print.type == FMT_AHEX ? new_width * 2 : new_width;
v->write.w = v->write.type == FMT_AHEX ? new_width * 2 : new_width;
}
v->width = new_width;
+
+ {
+ const int old_val_count = value_cnt_from_width (old_width);
+ const int new_val_count = value_cnt_from_width (new_width);
+
+ if ( old_val_count != new_val_count)
+ dict_var_resized (v, new_val_count - old_val_count);
+ }
+
+ dict_var_changed (v);
}
/* Returns true if variable V is numeric, false otherwise. */
bool
-var_is_numeric (const struct variable *v)
+var_is_numeric (const struct variable *v)
{
return var_get_type (v) == VAR_NUMERIC;
}
/* Returns true if variable V is a string variable, false
otherwise. */
bool
-var_is_alpha (const struct variable *v)
+var_is_alpha (const struct variable *v)
{
return var_get_type (v) == VAR_STRING;
}
/* Returns true if variable V is a short string variable, false
otherwise. */
bool
-var_is_short_string (const struct variable *v)
+var_is_short_string (const struct variable *v)
{
return v->width > 0 && v->width <= MAX_SHORT_STRING;
}
/* Returns true if variable V is a long string variable, false
otherwise. */
bool
-var_is_long_string (const struct variable *v)
+var_is_long_string (const struct variable *v)
{
return v->width > MAX_SHORT_STRING;
}
/* Returns the number of "union value"s need to store a value of
variable V. */
size_t
-var_get_value_cnt (const struct variable *v)
+var_get_value_cnt (const struct variable *v)
{
- return v->width == 0 ? 1 : DIV_RND_UP (v->width, MAX_SHORT_STRING);
+ return value_cnt_from_width (v->width);
}
\f
/* Returns variable V's missing values. */
const struct missing_values *
-var_get_missing_values (const struct variable *v)
+var_get_missing_values (const struct variable *v)
{
return &v->miss;
}
void
var_set_missing_values (struct variable *v, const struct missing_values *miss)
{
- if (miss != NULL)
+ if (miss != NULL)
{
assert (mv_is_resizable (miss, v->width));
mv_copy (&v->miss, miss);
}
else
mv_init (&v->miss, v->width);
+
+ dict_var_changed (v);
}
/* Sets variable V to have no user-missing values. */
void
-var_clear_missing_values (struct variable *v)
+var_clear_missing_values (struct variable *v)
{
var_set_missing_values (v, NULL);
}
/* Returns true if V has any user-missing values,
false otherwise. */
bool
-var_has_missing_values (const struct variable *v)
+var_has_missing_values (const struct variable *v)
{
return !mv_is_empty (&v->miss);
}
-/* Returns true if VALUE is system missing or user-missing value
- for V, false otherwise. */
+/* Returns true if VALUE is in the given CLASS of missing values
+ in V, false otherwise. */
bool
-var_is_value_missing (const struct variable *v, const union value *value)
+var_is_value_missing (const struct variable *v, const union value *value,
+ enum mv_class class)
{
- return mv_is_value_missing (&v->miss, value);
+ return mv_is_value_missing (&v->miss, value, class);
}
-/* Returns true if D is system missing or a missing value in V,
- false otherwise.
+/* Returns true if D is in the given CLASS of missing values in
+ V, false otherwise.
V must be a numeric variable. */
bool
-var_is_num_missing (const struct variable *v, double d)
+var_is_num_missing (const struct variable *v, double d, enum mv_class class)
{
- return mv_is_num_missing (&v->miss, d);
+ return mv_is_num_missing (&v->miss, d, class);
}
/* Returns true if S[] is a missing value for V, false otherwise.
S[] must contain exactly as many characters as V's width.
V must be a string variable. */
bool
-var_is_str_missing (const struct variable *v, const char s[])
+var_is_str_missing (const struct variable *v, const char s[],
+ enum mv_class class)
{
- return mv_is_str_missing (&v->miss, s);
-}
-
-/* Returns true if VALUE is a missing value for V, false
- otherwise. */
-bool
-var_is_value_user_missing (const struct variable *v, const union value *value)
-{
- return mv_is_value_user_missing (&v->miss, value);
-}
-
-/* Returns true if D is a user-missing value for V, false
- otherwise. V must be a numeric variable. */
-bool
-var_is_num_user_missing (const struct variable *v, double d)
-{
- return mv_is_num_user_missing (&v->miss, d);
-}
-
-/* Returns true if S[] is a missing value for V, false otherwise.
- V must be a string variable.
- S[] must contain exactly as many characters as V's width. */
-bool
-var_is_str_user_missing (const struct variable *v, const char s[])
-{
- return mv_is_str_user_missing (&v->miss, s);
-}
-
-/* Returns true if V is a numeric variable and VALUE is the
- system missing value. */
-bool
-var_is_value_system_missing (const struct variable *v,
- const union value *value)
-{
- return mv_is_value_system_missing (&v->miss, value);
+ return mv_is_str_missing (&v->miss, s, class);
}
\f
/* Returns variable V's value labels,
possibly a null pointer if it has none. */
const struct val_labs *
-var_get_value_labels (const struct variable *v)
+var_get_value_labels (const struct variable *v)
{
return v->val_labs;
}
/* Returns true if variable V has at least one value label. */
bool
-var_has_value_labels (const struct variable *v)
+var_has_value_labels (const struct variable *v)
{
return val_labs_count (v->val_labs) > 0;
}
changed to V's width.
If VLS is null, then V's value labels, if any, are removed. */
void
-var_set_value_labels (struct variable *v, const struct val_labs *vls)
+var_set_value_labels (struct variable *v, const struct val_labs *vls)
{
val_labs_destroy (v->val_labs);
v->val_labs = NULL;
assert (val_labs_can_set_width (vls, v->width));
v->val_labs = val_labs_copy (vls);
val_labs_set_width (v->val_labs, v->width);
+ dict_var_changed (v);
}
}
/* Makes sure that V has a set of value labels,
by assigning one to it if necessary. */
static void
-alloc_value_labels (struct variable *v)
+alloc_value_labels (struct variable *v)
{
assert (!var_is_long_string (v));
if (v->val_labs == NULL)
V must not be a long string variable. */
bool
var_add_value_label (struct variable *v,
- const union value *value, const char *label)
+ const union value *value, const char *label)
{
alloc_value_labels (v);
return val_labs_add (v->val_labs, *value, label);
/* Removes V's value labels, if any. */
void
-var_clear_value_labels (struct variable *v)
+var_clear_value_labels (struct variable *v)
{
var_set_value_labels (v, NULL);
}
/* Returns the label associated with VALUE for variable V,
or a null pointer if none. */
const char *
-var_lookup_value_label (const struct variable *v, const union value *value)
+var_lookup_value_label (const struct variable *v, const union value *value)
{
return val_labs_find (v->val_labs, *value);
}
var_get_value_name (const struct variable *v, const union value *value)
{
const char *name = var_lookup_value_label (v, value);
- if (name == NULL)
+ if (name == NULL)
{
static char buf[MAX_STRING + 1];
data_out (value, &v->print, buf);
/* Returns V's print format specification. */
const struct fmt_spec *
-var_get_print_format (const struct variable *v)
+var_get_print_format (const struct variable *v)
{
return &v->print;
}
valid format specification for outputting a variable of V's
width. */
void
-var_set_print_format (struct variable *v, const struct fmt_spec *print)
+var_set_print_format (struct variable *v, const struct fmt_spec *print)
{
assert (fmt_check_width_compat (print, v->width));
v->print = *print;
+ dict_var_changed (v);
}
/* Returns V's write format specification. */
const struct fmt_spec *
-var_get_write_format (const struct variable *v)
+var_get_write_format (const struct variable *v)
{
return &v->write;
}
valid format specification for outputting a variable of V's
width. */
void
-var_set_write_format (struct variable *v, const struct fmt_spec *write)
+var_set_write_format (struct variable *v, const struct fmt_spec *write)
{
assert (fmt_check_width_compat (write, v->width));
v->write = *write;
+ dict_var_changed (v);
}
/* Sets V's print and write format specifications to FORMAT,
which must be a valid format specification for outputting a
variable of V's width. */
void
-var_set_both_formats (struct variable *v, const struct fmt_spec *format)
+var_set_both_formats (struct variable *v, const struct fmt_spec *format)
{
var_set_print_format (v, format);
var_set_write_format (v, format);
/* Returns V's variable label, or a null pointer if it has none. */
const char *
-var_get_label (const struct variable *v)
+var_get_label (const struct variable *v)
{
return v->label;
}
(after stripping white space), then V's variable label (if
any) is removed. */
void
-var_set_label (struct variable *v, const char *label)
+var_set_label (struct variable *v, const char *label)
{
free (v->label);
v->label = NULL;
- if (label != NULL)
+ if (label != NULL)
{
struct substring s = ss_cstr (label);
ss_trim (&s, ss_cstr (CC_SPACES));
ss_truncate (&s, 255);
- if (!ss_is_empty (s))
+ if (!ss_is_empty (s))
v->label = ss_xstrdup (s);
+ dict_var_changed (v);
}
}
/* Removes any variable label from V. */
void
-var_clear_label (struct variable *v)
+var_clear_label (struct variable *v)
{
var_set_label (v, NULL);
}
/* Returns true if V has a variable V,
false otherwise. */
bool
-var_has_label (const struct variable *v)
+var_has_label (const struct variable *v)
{
return v->label != NULL;
}
/* Returns V's measurement level. */
enum measure
-var_get_measure (const struct variable *v)
+var_get_measure (const struct variable *v)
{
return v->measure;
}
/* Sets V's measurement level to MEASURE. */
void
-var_set_measure (struct variable *v, enum measure measure)
+var_set_measure (struct variable *v, enum measure measure)
{
assert (measure_is_valid (measure));
v->measure = measure;
+ dict_var_changed (v);
}
\f
/* Returns V's display width, which applies only to GUIs. */
int
-var_get_display_width (const struct variable *v)
+var_get_display_width (const struct variable *v)
{
return v->display_width;
}
+
+
+
/* Sets V's display width to DISPLAY_WIDTH. */
void
-var_set_display_width (struct variable *v, int display_width)
+var_set_display_width (struct variable *v, int display_width)
{
v->display_width = display_width;
+ dict_var_changed (v);
}
\f
/* Returns true if A is a valid alignment,
/* Returns V's display alignment, which applies only to GUIs. */
enum alignment
-var_get_alignment (const struct variable *v)
+var_get_alignment (const struct variable *v)
{
return v->alignment;
}
/* Sets V's display alignment to ALIGNMENT. */
void
-var_set_alignment (struct variable *v, enum alignment alignment)
+var_set_alignment (struct variable *v, enum alignment alignment)
{
assert (alignment_is_valid (alignment));
v->alignment = alignment;
+ dict_var_changed (v);
}
\f
/* Whether variables' values should be preserved from case to
/* Returns true if variable V's value should be left from case to
case, instead of being reset to 0, system-missing, or blanks. */
bool
-var_get_leave (const struct variable *v)
+var_get_leave (const struct variable *v)
{
return v->leave;
}
/* Sets V's leave setting to LEAVE. */
void
-var_set_leave (struct variable *v, bool leave)
+var_set_leave (struct variable *v, bool leave)
{
assert (leave || !var_must_leave (v));
v->leave = leave;
+ dict_var_changed (v);
}
/* Returns true if V must be left from case to case,
false if it can be set either way. */
bool
-var_must_leave (const struct variable *v)
+var_must_leave (const struct variable *v)
{
return dict_class_from_id (v->name) == DC_SCRATCH;
}
terminator). Any variable may have no short name, indicated
by returning a null pointer. */
const char *
-var_get_short_name (const struct variable *v)
+var_get_short_name (const struct variable *v)
{
return v->short_name[0] != '\0' ? v->short_name : NULL;
}
the process. Specifying a null pointer for SHORT_NAME clears
the variable's short name. */
void
-var_set_short_name (struct variable *v, const char *short_name)
+var_set_short_name (struct variable *v, const char *short_name)
{
assert (v != NULL);
assert (short_name == NULL || var_is_plausible_name (short_name, false));
- if (short_name != NULL)
+ if (short_name != NULL)
{
str_copy_trunc (v->short_name, sizeof v->short_name, short_name);
- str_uppercase (v->short_name);
+ str_uppercase (v->short_name);
}
else
v->short_name[0] = '\0';
+ dict_var_changed (v);
}
/* Clears V's short name. */
void
-var_clear_short_name (struct variable *v)
+var_clear_short_name (struct variable *v)
{
assert (v != NULL);
for which "dict_get_var (dict, index)" will return V.
V must be in a dictionary. */
size_t
-var_get_dict_index (const struct variable *v)
+var_get_dict_index (const struct variable *v)
{
assert (v->vardict.dict_index != -1);
return v->vardict.dict_index;
index)" will return the data for V in that case.
V must be in a dictionary. */
size_t
-var_get_case_index (const struct variable *v)
+var_get_case_index (const struct variable *v)
{
assert (v->vardict.case_index != -1);
return v->vardict.case_index;
/* Returns V's auxiliary data, or a null pointer if none has been
attached. */
void *
-var_get_aux (const struct variable *v)
+var_get_aux (const struct variable *v)
{
return v->aux;
}
cleared, AUX_DTOR(V) will be called. (var_dtor_free, below,
may be appropriate for use as AUX_DTOR.) */
void *
-var_attach_aux (struct variable *v,
- void *aux, void (*aux_dtor) (struct variable *))
+var_attach_aux (const struct variable *v_,
+ void *aux, void (*aux_dtor) (struct variable *))
{
+ struct variable *v = (struct variable *) v_ ; /* cast away const */
assert (v->aux == NULL);
assert (aux != NULL);
v->aux = aux;
/* Remove auxiliary data, if any, from V, and return it, without
calling any associated destructor. */
void *
-var_detach_aux (struct variable *v)
+var_detach_aux (struct variable *v)
{
void *aux = v->aux;
assert (aux != NULL);
/* Clears auxiliary data, if any, from V, and calls any
associated destructor. */
void
-var_clear_aux (struct variable *v)
+var_clear_aux (struct variable *v)
{
assert (v != NULL);
- if (v->aux != NULL)
+ if (v->aux != NULL)
{
if (v->aux_dtor != NULL)
v->aux_dtor (v);
destructor (passed as AUX_DTOR to var_attach_aux()) for the
case where the auxiliary data should be passed to free(). */
void
-var_dtor_free (struct variable *v)
+var_dtor_free (struct variable *v)
{
free (v->aux);
}
/* Returns V's observed categorical values,
which V must have. */
struct cat_vals *
-var_get_obs_vals (const struct variable *v)
+var_get_obs_vals (const struct variable *v)
{
assert (v->obs_vals != NULL);
return v->obs_vals;
/* Sets V's observed categorical values to CAT_VALS. */
void
-var_set_obs_vals (struct variable *v, struct cat_vals *cat_vals)
+var_set_obs_vals (const struct variable *v_, struct cat_vals *cat_vals)
{
+ struct variable *v = (struct variable *) v_ ; /* cast away const */
cat_stored_values_destroy (v->obs_vals);
v->obs_vals = cat_vals;
}
/* Returns true if V has observed categorical values,
false otherwise. */
bool
-var_has_obs_vals (const struct variable *v)
+var_has_obs_vals (const struct variable *v)
{
return v->obs_vals != NULL;
}
/* Returns the dictionary class corresponding to a variable named
NAME. */
enum dict_class
-dict_class_from_id (const char *name)
+dict_class_from_id (const char *name)
{
- switch (name[0])
+ switch (name[0])
{
default:
return DC_ORDINARY;
/* Returns the name of dictionary class DICT_CLASS. */
const char *
-dict_class_to_name (enum dict_class dict_class)
+dict_class_to_name (enum dict_class dict_class)
{
- switch (dict_class)
+ switch (dict_class)
{
case DC_ORDINARY:
return _("ordinary");
\f
/* Returns V's vardict structure. */
const struct vardict_info *
-var_get_vardict (const struct variable *v)
+var_get_vardict (const struct variable *v)
{
assert (var_has_vardict (v));
return &v->vardict;
/* Sets V's vardict data to VARDICT. */
void
-var_set_vardict (struct variable *v, const struct vardict_info *vardict)
+var_set_vardict (struct variable *v, const struct vardict_info *vardict)
{
assert (vardict->dict_index >= 0);
assert (vardict->case_index >= 0);
/* Returns true if V has vardict data. */
bool
-var_has_vardict (const struct variable *v)
+var_has_vardict (const struct variable *v)
{
return v->vardict.dict_index != -1;
}
/* Clears V's vardict data. */
void
-var_clear_vardict (struct variable *v)
+var_clear_vardict (struct variable *v)
{
v->vardict.dict_index = v->vardict.case_index = -1;
}