#include "gettext.h"
#define _(msgid) gettext (msgid)
+/* Returns true if VAR_TYPE is a valid variable type. */
+bool
+var_type_is_valid (enum var_type var_type)
+{
+ return var_type == NUMERIC || var_type == ALPHA;
+}
+
/* Returns an adjective describing the given variable TYPE,
suitable for use in phrases like "numeric variable". */
const char *
{
return type == NUMERIC ? _("number") : _("string");
}
+\f
+/* Returns true if M is a valid variable measurement level,
+ false otherwise. */
+bool
+measure_is_valid (enum measure m)
+{
+ return m == MEASURE_NOMINAL || m == MEASURE_ORDINAL || m == MEASURE_SCALE;
+}
+/* Returns true if A is a valid alignment,
+ false otherwise. */
+bool
+alignment_is_valid (enum alignment a)
+{
+ return a == ALIGN_LEFT || a == ALIGN_RIGHT || a == ALIGN_CENTRE;
+}
+\f
/* Assign auxiliary data AUX to variable V, which must not
already have auxiliary data. Before V's auxiliary data is
cleared, AUX_DTOR(V) will be called. */
return id_hash;
}
+\f
+/* Return variable V's name. */
+const char *
+var_get_name (const struct variable *v)
+{
+ return v->name;
+}
+/* Sets V's name to NAME. */
+void
+var_set_name (struct variable *v, const char *name)
+{
+ assert (name[0] != '\0');
+ assert (lex_id_to_token (ss_cstr (name)) == T_ID);
+ str_copy_trunc (v->name, sizeof v->name, name);
+}
-\f
/* 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. */
const struct variable *a = a_;
const struct variable *b = b_;
- return strcasecmp (a->name, b->name);
+ return strcasecmp (var_get_name (a), var_get_name (b));
}
/* A hsh_hash_func that hashes variable V based on its name. */
{
const struct variable *v = v_;
- return hsh_hash_case_string (v->name);
+ return hsh_hash_case_string (var_get_name (v));
}
/* A hsh_compare_func that orders pointers to variables A and B
struct variable *const *a = a_;
struct variable *const *b = b_;
- return strcasecmp ((*a)->name, (*b)->name);
+ return strcasecmp (var_get_name (*a), var_get_name (*b));
}
/* A hsh_hash_func that hashes pointer to variable V based on its
{
struct variable *const *v = v_;
- return hsh_hash_case_string ((*v)->name);
+ return hsh_hash_case_string (var_get_name (*v));
+}
+\f
+/* Returns the type of a variable with the given WIDTH. */
+static enum var_type
+width_to_type (int width)
+{
+ return width == 0 ? NUMERIC : ALPHA;
+}
+
+/* Returns the type of variable V. */
+enum var_type
+var_get_type (const struct variable *v)
+{
+ return width_to_type (v->width);
+}
+
+/* Returns the width of variable V. */
+int
+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)
+{
+ enum var_type new_type = width_to_type (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 (val_labs_can_set_width (v->val_labs, new_width))
+ val_labs_set_width (v->val_labs, new_width);
+ else
+ {
+ val_labs_destroy (v->val_labs);
+ v->val_labs = NULL;
+ }
+ }
+
+ if (var_get_type (v) != new_type)
+ {
+ v->print = (new_type == NUMERIC
+ ? fmt_for_output (FMT_F, 8, 2)
+ : fmt_for_output (FMT_A, new_width, 0));
+ v->write = v->print;
+ }
+ else if (new_type == ALPHA)
+ {
+ 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;
+}
+
+/* Returns true if variable V is numeric, false otherwise. */
+bool
+var_is_numeric (const struct variable *v)
+{
+ return var_get_type (v) == NUMERIC;
+}
+
+/* Returns true if variable V is a string variable, false
+ otherwise. */
+bool
+var_is_alpha (const struct variable *v)
+{
+ return var_get_type (v) == ALPHA;
+}
+
+/* Returns true if variable V is a short string variable, false
+ otherwise. */
+bool
+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)
+{
+ return v->width > MAX_SHORT_STRING;
+}
+
+/* Returns true if variable V is a very long string variable,
+ false otherwise. */
+bool
+var_is_very_long_string (const struct variable *v)
+{
+ return v->width > MAX_LONG_STRING;
+}
+
+/* Returns variable V's missing values. */
+const struct missing_values *
+var_get_missing_values (const struct variable *v)
+{
+ return &v->miss;
+}
+
+/* Sets variable V's missing values to MISS, which must be of the
+ correct width. */
+void
+var_set_missing_values (struct variable *v, const struct missing_values *miss)
+{
+ if (miss != NULL)
+ {
+ assert (v->width == mv_get_width (miss));
+ mv_copy (&v->miss, miss);
+ }
+ else
+ mv_init (&v->miss, v->width);
+}
+
+/* Sets variable V to have no user-missing values. */
+void
+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)
+{
+ return !mv_is_empty (&v->miss);
+}
+
+/* Returns true if VALUE is system missing or user-missing value
+ for V, false otherwise. */
+bool
+var_is_value_missing (const struct variable *v, const union value *value)
+{
+ return mv_is_value_missing (&v->miss, value);
+}
+
+/* Returns true if D is system missing or a missing value in V,
+ false otherwise.
+ V must be a numeric variable. */
+bool
+var_is_num_missing (const struct variable *v, double d)
+{
+ return mv_is_num_missing (&v->miss, d);
+}
+
+/* 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[])
+{
+ 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);
+}
+\f
+/* Print and write formats. */
+
+/* Returns V's print format specification. */
+const struct fmt_spec *
+var_get_print_format (const struct variable *v)
+{
+ return &v->print;
+}
+
+/* Sets V's print format specification to PRINT, which must be a
+ valid format specification for outputting a variable of V's
+ width. */
+void
+var_set_print_format (struct variable *v, const struct fmt_spec *print)
+{
+ assert (fmt_check_width_compat (print, v->width));
+ v->print = *print;
+}
+
+/* Returns V's write format specification. */
+const struct fmt_spec *
+var_get_write_format (const struct variable *v)
+{
+ return &v->write;
+}
+
+/* Sets V's write format specification to WRITE, which must be a
+ valid format specification for outputting a variable of V's
+ width. */
+void
+var_set_write_format (struct variable *v, const struct fmt_spec *write)
+{
+ assert (fmt_check_width_compat (write, v->width));
+ v->write = *write;
+}
+
+/* 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_print_format (v, format);
+ var_set_write_format (v, format);
+}
+\f
+/* Returns V's variable label, or a null pointer if it has none. */
+const char *
+var_get_label (const struct variable *v)
+{
+ return v->label;
+}
+
+/* Sets V's variable label to LABEL, stripping off leading and
+ trailing white space and truncating to 255 characters.
+ If LABEL is a null pointer or if LABEL is an empty string
+ (after stripping white space), then V's variable label (if
+ any) is removed. */
+void
+var_set_label (struct variable *v, const char *label)
+{
+ free (v->label);
+ v->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))
+ v->label = ss_xstrdup (s);
+ }
+}
+
+/* Removes any variable label from V. */
+void
+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)
+{
+ return v->label != NULL;
}
\f
+/* Returns V's measurement level. */
+enum measure
+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)
+{
+ assert (measure_is_valid (measure));
+ v->measure = measure;
+}
+
+/* Returns V's display width, which applies only to GUIs. */
+int
+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)
+{
+ v->display_width = display_width;
+}
+
+/* Returns V's display alignment, which applies only to GUIs. */
+enum alignment
+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)
+{
+ assert (alignment_is_valid (alignment));
+ v->alignment = alignment;
+}
+\f
+/* 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)
+{
+ return v->width == 0 ? 1 : DIV_RND_UP (v->width, MAX_SHORT_STRING);
+}
+
+/* Return whether variable V's values should be preserved from
+ case to case. */
+bool
+var_get_leave (const struct variable *v)
+{
+ return v->leave;
+}
+\f
+/* Returns V's short name, if it has one, or a null pointer
+ otherwise.
+
+ Short names are used only for system and portable file input
+ and output. They are upper-case only, not necessarily unique,
+ and limited to SHORT_NAME_LEN characters (plus a null
+ terminator). Any variable may have no short name, indicated
+ by returning a null pointer. */
+const char *
+var_get_short_name (const struct variable *v)
+{
+ return v->short_name[0] != '\0' ? v->short_name : NULL;
+}
+
/* Sets V's short_name to SHORT_NAME, truncating it to
SHORT_NAME_LEN characters and converting it to uppercase in
- the process. */
+ 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)
{
assert (v != NULL);
- assert (short_name[0] == '\0' || var_is_plausible_name (short_name, false));
-
- str_copy_trunc (v->short_name, sizeof v->short_name, short_name);
- str_uppercase (v->short_name);
+ assert (short_name == NULL || var_is_plausible_name (short_name, false));
+
+ if (short_name != NULL)
+ {
+ str_copy_trunc (v->short_name, sizeof v->short_name, short_name);
+ str_uppercase (v->short_name);
+ }
+ else
+ v->short_name[0] = '\0';
}
/* Clears V's short name. */
/* Sets V's short name to BASE, followed by a suffix of the form
_A, _B, _C, ..., _AA, _AB, etc. according to the value of
- SUFFIX. Truncates BASE as necessary to fit. */
+ SUFFIX_NUMBER. Truncates BASE as necessary to fit. */
void
-var_set_short_name_suffix (struct variable *v, const char *base, int suffix)
+var_set_short_name_suffix (struct variable *v, const char *base,
+ int suffix_number)
{
- char string[SHORT_NAME_LEN + 1];
+ char suffix[SHORT_NAME_LEN + 1];
+ char short_name[SHORT_NAME_LEN + 1];
char *start, *end;
int len, ofs;
assert (v != NULL);
- assert (suffix >= 0);
- assert (strlen (v->short_name) > 0);
+ assert (suffix_number >= 0);
/* Set base name. */
var_set_short_name (v, base);
- /* Compose suffix_string. */
- start = end = string + sizeof string - 1;
+ /* Compose suffix. */
+ start = end = suffix + sizeof suffix - 1;
*end = '\0';
do
{
- *--start = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"[suffix % 26];
- if (start <= string + 1)
+ *--start = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"[suffix_number % 26];
+ if (start <= suffix + 1)
msg (SE, _("Variable suffix too large."));
- suffix /= 26;
+ suffix_number /= 26;
}
- while (suffix > 0);
+ while (suffix_number > 0);
*--start = '_';
- /* Append suffix_string to V's short name. */
+ /* Append suffix to V's short name. */
+ str_copy_trunc (short_name, sizeof short_name, base);
len = end - start;
- if (len + strlen (v->short_name) > SHORT_NAME_LEN)
+ if (len + strlen (short_name) > SHORT_NAME_LEN)
ofs = SHORT_NAME_LEN - len;
else
- ofs = strlen (v->short_name);
- strcpy (v->short_name + ofs, start);
+ ofs = strlen (short_name);
+ strcpy (short_name + ofs, start);
+
+ /* Set name. */
+ var_set_short_name (v, short_name);
}