/* PSPP - a program for statistical analysis.
- Copyright (C) 1997-9, 2000, 2006 Free Software Foundation, Inc.
+ Copyright (C) 1997-9, 2000, 2006, 2009, 2011 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
#include <libpspp/message.h>
#include <libpspp/misc.h>
#include <libpspp/str.h>
+#include <libpspp/pool.h>
+#include <libpspp/i18n.h>
#include "minmax.h"
char *);
static void output_hex (const void *, size_t bytes, char *);
\f
-/* Converts the INPUT value into printable form in the exactly
- FORMAT->W characters in OUTPUT according to format
- specification FORMAT. The output is recoded from native form
- into the given legacy character ENCODING. No null terminator
- is appended to the buffer. */
-void
-data_out_legacy (const union value *input, enum legacy_encoding encoding,
- const struct fmt_spec *format, char *output)
-{
- static data_out_converter_func *const converters[FMT_NUMBER_OF_FORMATS] =
+
+static data_out_converter_func *const converters[FMT_NUMBER_OF_FORMATS] =
{
#define FMT(NAME, METHOD, IMIN, OMIN, IO, CATEGORY) output_##METHOD,
#include "format.def"
};
+/* Similar to data_out. Additionally recodes the output from
+ native form into the given legacy character ENCODING.
+ OUTPUT must be provided by the caller and must be at least
+ FORMAT->w long. No null terminator is appended to OUTPUT.
+*/
+void
+data_out_legacy (const union value *input, const char *encoding,
+ const struct fmt_spec *format, char *output)
+{
assert (fmt_check_output (format));
converters[format->type] (input, format, output);
- if (encoding != LEGACY_NATIVE
+ if (0 != strcmp (encoding, C_ENCODING)
&& fmt_get_category (format->type) != FMT_CAT_BINARY)
- legacy_recode (LEGACY_NATIVE, output, encoding, output, format->w);
+ {
+ char *s = recode_string (encoding, C_ENCODING, output, format->w );
+ memcpy (output, s, format->w);
+ free (s);
+ }
}
-/* Same as data_out_legacy with ENCODING set to LEGACY_NATIVE. */
-void
-data_out (const union value *value, const struct fmt_spec *format,
- char *output)
+/* Converts the INPUT value into a UTF8 encoded string, according
+ to format specification FORMAT.
+
+ VALUE must be the correct width for FORMAT, that is, its
+ width must be fmt_var_width(FORMAT).
+
+ ENCODING must be the encoding of INPUT. Normally this can
+ be obtained by calling dict_get_encoding on the dictionary
+ with which INPUT is associated.
+
+ The return value is dynamically allocated, and must be freed
+ by the caller. If POOL is non-null, then the return value is
+ allocated on that pool.
+*/
+char *
+data_out_pool (const union value *input, const char *encoding,
+ const struct fmt_spec *format, struct pool *pool)
+{
+ const struct fmt_number_style *style = settings_get_style (format->type);
+ char *output;
+ char *t ;
+ assert (fmt_check_output (format));
+
+ output = xmalloc (format->w + style->extra_bytes + 1);
+
+ converters[format->type] (input, format, output);
+
+ t = recode_string_pool (UTF8, encoding, output, format->w, pool);
+ free (output);
+ return t;
+}
+
+char *
+data_out (const union value *input, const char *encoding, const struct fmt_spec *format)
{
- return data_out_legacy (value, LEGACY_NATIVE, format, output);
+ return data_out_pool (input, encoding, format, NULL);
}
\f
else
output_overflow (format, output);
}
+
+ output[format->w] = '\0';
}
/* Outputs Z format. */
*p = "}JKLMNOPQR"[*p - '0'];
}
memcpy (output, buf, format->w);
+ output[format->w] = '\0';
}
}
settings_get_output_integer_format (),
output);
}
+
+ output[format->w] = '\0';
}
/* Outputs PIB format. */
else
output_binary_integer (number, format->w,
settings_get_output_integer_format (), output);
+
+ output[format->w] = '\0';
}
/* Outputs PIBHEX format. */
output_binary_integer (number, format->w / 2, INTEGER_MSB_FIRST, tmp);
output_hex (tmp, format->w / 2, output);
}
+
}
/* Outputs RB format. */
{
double d = input->f;
memcpy (output, &d, format->w);
+
+ output[format->w] = '\0';
}
/* Outputs RBHEX format. */
char *output)
{
double d = input->f;
+
output_hex (&d, format->w / 2, output);
}
}
}
- buf_copy_lpad (output, format->w, tmp, p - tmp);
+ buf_copy_lpad (output, format->w, tmp, p - tmp, ' ');
+ output[format->w] = '\0';
return;
overflow:
};
if (input->f >= 1 && input->f < 8)
- buf_copy_str_rpad (output, format->w, weekdays[(int) input->f - 1]);
+ {
+ buf_copy_str_rpad (output, format->w,
+ weekdays[(int) input->f - 1], ' ');
+ output[format->w] = '\0';
+ }
else
{
if (input->f != SYSMIS)
msg (ME, _("Weekday number %f is not between 1 and 7."), input->f);
output_missing (format, output);
}
+
}
/* Outputs MONTH format. */
};
if (input->f >= 1 && input->f < 13)
- buf_copy_str_rpad (output, format->w, months[(int) input->f - 1]);
+ {
+ buf_copy_str_rpad (output, format->w, months[(int) input->f - 1], ' ');
+ output[format->w] = '\0';
+ }
else
{
if (input->f != SYSMIS)
msg (ME, _("Month number %f is not between 1 and 12."), input->f);
output_missing (format, output);
}
+
}
/* Outputs A format. */
output_A (const union value *input, const struct fmt_spec *format,
char *output)
{
- memcpy (output, input->s, format->w);
+ memcpy (output, value_str (input, format->w), format->w);
+ output[format->w] = '\0';
}
/* Outputs AHEX format. */
output_AHEX (const union value *input, const struct fmt_spec *format,
char *output)
{
- output_hex (input->s, format->w / 2, output);
+ output_hex (value_str (input, format->w), format->w / 2, output);
}
\f
/* Decimal and scientific formatting. */
the negative suffix, plus (if negative) the negative
prefix. */
width = rounder_width (r, decimals, &integer_digits, &add_neg_prefix);
- width += ss_length (style->neg_suffix);
+ width += style->neg_suffix.width;
if (add_neg_prefix)
- width += ss_length (style->neg_prefix);
+ width += style->neg_prefix.width;
if (width > format->w)
continue;
if (format->w > width)
p = mempset (p, ' ', format->w - width);
if (add_neg_prefix)
- p = mempcpy (p, ss_data (style->neg_prefix),
- ss_length (style->neg_prefix));
+ p = stpcpy (p, style->neg_prefix.s);
if (add_affixes)
- p = mempcpy (p, ss_data (style->prefix), ss_length (style->prefix));
+ p = stpcpy (p, style->prefix.s);
if (!add_grouping)
p = mempcpy (p, magnitude, integer_digits);
else
p = mempcpy (p, &magnitude[integer_digits + 1], decimals);
}
if (add_affixes)
- p = mempcpy (p, ss_data (style->suffix), ss_length (style->suffix));
+ p = stpcpy (p, style->suffix.s);
if (add_neg_prefix)
- p = mempcpy (p, ss_data (style->neg_suffix),
- ss_length (style->neg_suffix));
+ p = stpcpy (p, style->neg_suffix.s);
else
- p = mempset (p, ' ', ss_length (style->neg_suffix));
- assert (p == output + format->w);
+ p = mempset (p, ' ', style->neg_suffix.width);
+
+ assert (p >= output + format->w);
+ assert (p <= output + format->w + style->extra_bytes);
+ *p = '\0';
return true;
}
char buf[64], *p;
/* Allocate minimum required space. */
- width = 6 + ss_length (style->neg_suffix);
+ width = 6 + style->neg_suffix.width;
if (number < 0)
- width += ss_length (style->neg_prefix);
+ width += style->neg_prefix.width;
if (width > format->w)
return false;
if (width < format->w)
p = mempset (p, ' ', format->w - width);
if (number < 0)
- p = mempcpy (p, ss_data (style->neg_prefix),
- ss_length (style->neg_prefix));
+ p = stpcpy (p, style->neg_prefix.s);
if (add_affixes)
- p = mempcpy (p, ss_data (style->prefix), ss_length (style->prefix));
+ p = stpcpy (p, style->prefix.s);
if (fraction_width > 0)
sprintf (p, "%#.*E", fraction_width - 1, fabs (number));
else
/* Add suffixes. */
p = strchr (p, '\0');
if (add_affixes)
- p = mempcpy (p, ss_data (style->suffix), ss_length (style->suffix));
+ p = stpcpy (p, style->suffix.s);
if (number < 0)
- p = mempcpy (p, ss_data (style->neg_suffix),
- ss_length (style->neg_suffix));
+ p = stpcpy (p, style->neg_suffix.s);
else
- p = mempset (p, ' ', ss_length (style->neg_suffix));
+ p = mempset (p, ' ', style->neg_suffix.width);
- assert (p == buf + format->w);
- memcpy (output, buf, format->w);
+ assert (p >= output + format->w);
+ assert (p <= output + format->w + style->extra_bytes);
+ *p = '\0';
return true;
}
else
s = "Unknown";
- buf_copy_str_lpad (output, format->w, s);
+ buf_copy_str_lpad (output, format->w, s, ' ');
}
else
output_overflow (format, output);
+
+ output[format->w] = '\0';
}
/* Formats OUTPUT as a missing value for the given FORMAT. */
}
else
output[format->w - 1] = '.';
+
+ output[format->w] = '\0';
}
/* Formats OUTPUT for overflow given FORMAT. */
output_overflow (const struct fmt_spec *format, char *output)
{
memset (output, '*', format->w);
+ output[format->w] = '\0';
}
/* Converts the integer part of NUMBER to a packed BCD number
char decimal[64];
assert (digits < sizeof decimal);
+
+ output[DIV_RND_UP (digits, 2)] = '\0';
if (number != SYSMIS
&& number >= 0.
&& number < power10 (digits)
*output++ = hex_digits[data[i] >> 4];
*output++ = hex_digits[data[i] & 15];
}
+ *output = '\0';
}