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pkg-monitoring-plugins/gl/vasnprintf.c

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Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
/* vsprintf with automatic memory allocation.
Imported Upstream version 1.4.16+git20130902
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Copyright (C) 1999, 2002-2013 Free Software Foundation, Inc.
Imported Upstream version 1.4.8
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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
Imported Upstream version 1.4.12
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the Free Software Foundation; either version 3, or (at your option)
Imported Upstream version 1.4.8
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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.
You should have received a copy of the GNU General Public License along
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
with this program; if not, see <http://www.gnu.org/licenses/>. */
Imported Upstream version 1.4.8
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Imported Upstream version 1.4.12
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/* This file can be parametrized with the following macros:
VASNPRINTF The name of the function being defined.
FCHAR_T The element type of the format string.
DCHAR_T The element type of the destination (result) string.
FCHAR_T_ONLY_ASCII Set to 1 to enable verification that all characters
in the format string are ASCII. MUST be set if
FCHAR_T and DCHAR_T are not the same type.
DIRECTIVE Structure denoting a format directive.
Depends on FCHAR_T.
DIRECTIVES Structure denoting the set of format directives of a
format string. Depends on FCHAR_T.
PRINTF_PARSE Function that parses a format string.
Depends on FCHAR_T.
DCHAR_CPY memcpy like function for DCHAR_T[] arrays.
DCHAR_SET memset like function for DCHAR_T[] arrays.
DCHAR_MBSNLEN mbsnlen like function for DCHAR_T[] arrays.
SNPRINTF The system's snprintf (or similar) function.
This may be either snprintf or swprintf.
TCHAR_T The element type of the argument and result string
of the said SNPRINTF function. This may be either
char or wchar_t. The code exploits that
sizeof (TCHAR_T) | sizeof (DCHAR_T) and
alignof (TCHAR_T) <= alignof (DCHAR_T).
DCHAR_IS_TCHAR Set to 1 if DCHAR_T and TCHAR_T are the same type.
DCHAR_CONV_FROM_ENCODING A function to convert from char[] to DCHAR[].
DCHAR_IS_UINT8_T Set to 1 if DCHAR_T is uint8_t.
DCHAR_IS_UINT16_T Set to 1 if DCHAR_T is uint16_t.
DCHAR_IS_UINT32_T Set to 1 if DCHAR_T is uint32_t. */
Imported Upstream version 1.4.8
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/* Tell glibc's <stdio.h> to provide a prototype for snprintf().
This must come before <config.h> because <config.h> may include
<features.h>, and once <features.h> has been included, it's too late. */
#ifndef _GNU_SOURCE
# define _GNU_SOURCE 1
#endif
Imported Upstream version 1.4.12
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#ifndef VASNPRINTF
# include <config.h>
#endif
Imported Upstream version 1.4.8
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#ifndef IN_LIBINTL
# include <alloca.h>
#endif
/* Specification. */
Imported Upstream version 1.4.12
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#ifndef VASNPRINTF
# if WIDE_CHAR_VERSION
# include "vasnwprintf.h"
# else
# include "vasnprintf.h"
# endif
Imported Upstream version 1.4.8
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#endif
Imported Upstream version 1.4.15
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#include <locale.h> /* localeconv() */
#include <stdio.h> /* snprintf(), sprintf() */
#include <stdlib.h> /* abort(), malloc(), realloc(), free() */
#include <string.h> /* memcpy(), strlen() */
#include <errno.h> /* errno */
#include <limits.h> /* CHAR_BIT */
#include <float.h> /* DBL_MAX_EXP, LDBL_MAX_EXP */
Imported Upstream version 1.4.12
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#if HAVE_NL_LANGINFO
# include <langinfo.h>
#endif
#ifndef VASNPRINTF
# if WIDE_CHAR_VERSION
# include "wprintf-parse.h"
# else
# include "printf-parse.h"
# endif
Imported Upstream version 1.4.8
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#endif
/* Checked size_t computations. */
#include "xsize.h"
Imported Upstream version 1.4.16+git20130902
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#include "verify.h"
Imported Upstream version 1.4.12
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#if (NEED_PRINTF_DOUBLE || NEED_PRINTF_LONG_DOUBLE) && !defined IN_LIBINTL
# include <math.h>
# include "float+.h"
#endif
#if (NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE) && !defined IN_LIBINTL
# include <math.h>
Imported Upstream version 1.4.13+git200906171200
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# include "isnand-nolibm.h"
Imported Upstream version 1.4.12
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#endif
#if (NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_INFINITE_LONG_DOUBLE) && !defined IN_LIBINTL
# include <math.h>
# include "isnanl-nolibm.h"
# include "fpucw.h"
#endif
#if (NEED_PRINTF_DIRECTIVE_A || NEED_PRINTF_DOUBLE) && !defined IN_LIBINTL
# include <math.h>
Imported Upstream version 1.4.13+git200906171200
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# include "isnand-nolibm.h"
Imported Upstream version 1.4.12
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# include "printf-frexp.h"
#endif
#if (NEED_PRINTF_DIRECTIVE_A || NEED_PRINTF_LONG_DOUBLE) && !defined IN_LIBINTL
# include <math.h>
# include "isnanl-nolibm.h"
# include "printf-frexpl.h"
# include "fpucw.h"
#endif
/* Default parameters. */
#ifndef VASNPRINTF
# if WIDE_CHAR_VERSION
# define VASNPRINTF vasnwprintf
# define FCHAR_T wchar_t
# define DCHAR_T wchar_t
# define TCHAR_T wchar_t
# define DCHAR_IS_TCHAR 1
# define DIRECTIVE wchar_t_directive
# define DIRECTIVES wchar_t_directives
# define PRINTF_PARSE wprintf_parse
# define DCHAR_CPY wmemcpy
Imported Upstream version 1.4.13+git200906171200
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# define DCHAR_SET wmemset
Imported Upstream version 1.4.12
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# else
# define VASNPRINTF vasnprintf
# define FCHAR_T char
# define DCHAR_T char
# define TCHAR_T char
# define DCHAR_IS_TCHAR 1
# define DIRECTIVE char_directive
# define DIRECTIVES char_directives
# define PRINTF_PARSE printf_parse
# define DCHAR_CPY memcpy
Imported Upstream version 1.4.13+git200906171200
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# define DCHAR_SET memset
Imported Upstream version 1.4.12
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# endif
#endif
Imported Upstream version 1.4.8
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#if WIDE_CHAR_VERSION
Imported Upstream version 1.4.12
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/* TCHAR_T is wchar_t. */
Imported Upstream version 1.4.8
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# define USE_SNPRINTF 1
# if HAVE_DECL__SNWPRINTF
/* On Windows, the function swprintf() has a different signature than
Imported Upstream version 1.4.15
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on Unix; we use the function _snwprintf() or - on mingw - snwprintf()
instead. The mingw function snwprintf() has fewer bugs than the
MSVCRT function _snwprintf(), so prefer that. */
# if defined __MINGW32__
# define SNPRINTF snwprintf
# else
# define SNPRINTF _snwprintf
# endif
Imported Upstream version 1.4.8
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# else
/* Unix. */
# define SNPRINTF swprintf
# endif
#else
Imported Upstream version 1.4.12
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/* TCHAR_T is char. */
Imported Upstream version 1.4.13+git200906171200
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/* Use snprintf if it exists under the name 'snprintf' or '_snprintf'.
Imported Upstream version 1.4.12
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But don't use it on BeOS, since BeOS snprintf produces no output if the
Imported Upstream version 1.4.13+git200906171200
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size argument is >= 0x3000000.
Also don't use it on Linux libc5, since there snprintf with size = 1
writes any output without bounds, like sprintf. */
# if (HAVE_DECL__SNPRINTF || HAVE_SNPRINTF) && !defined __BEOS__ && !(__GNU_LIBRARY__ == 1)
Imported Upstream version 1.4.12
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# define USE_SNPRINTF 1
# else
# define USE_SNPRINTF 0
# endif
Imported Upstream version 1.4.8
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# if HAVE_DECL__SNPRINTF
Imported Upstream version 1.4.15
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/* Windows. The mingw function snprintf() has fewer bugs than the MSVCRT
function _snprintf(), so prefer that. */
# if defined __MINGW32__
# define SNPRINTF snprintf
/* Here we need to call the native snprintf, not rpl_snprintf. */
# undef snprintf
# else
# define SNPRINTF _snprintf
# endif
Imported Upstream version 1.4.8
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# else
/* Unix. */
# define SNPRINTF snprintf
Imported Upstream version 1.4.12
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/* Here we need to call the native snprintf, not rpl_snprintf. */
# undef snprintf
Imported Upstream version 1.4.8
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# endif
#endif
Imported Upstream version 1.4.12
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/* Here we need to call the native sprintf, not rpl_sprintf. */
#undef sprintf
Imported Upstream version 1.4.8
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Imported Upstream version 1.4.13+git200906171200
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/* GCC >= 4.0 with -Wall emits unjustified "... may be used uninitialized"
warnings in this file. Use -Dlint to suppress them. */
#ifdef lint
# define IF_LINT(Code) Code
#else
# define IF_LINT(Code) /* empty */
#endif
/* Avoid some warnings from "gcc -Wshadow".
This file doesn't use the exp() and remainder() functions. */
#undef exp
#define exp expo
#undef remainder
#define remainder rem
Imported Upstream version 1.4.15
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#if (!USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99) && !WIDE_CHAR_VERSION
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if (HAVE_STRNLEN && !defined _AIX)
# define local_strnlen strnlen
# else
# ifndef local_strnlen_defined
# define local_strnlen_defined 1
static size_t
local_strnlen (const char *string, size_t maxlen)
{
const char *end = memchr (string, '\0', maxlen);
return end ? (size_t) (end - string) : maxlen;
}
# endif
# endif
#endif
Imported Upstream version 1.4.15
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#if (((!USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99) && WIDE_CHAR_VERSION) || ((!USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99 || (NEED_PRINTF_DIRECTIVE_LS && !defined IN_LIBINTL)) && !WIDE_CHAR_VERSION && DCHAR_IS_TCHAR)) && HAVE_WCHAR_T
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_WCSLEN
# define local_wcslen wcslen
# else
/* Solaris 2.5.1 has wcslen() in a separate library libw.so. To avoid
a dependency towards this library, here is a local substitute.
Define this substitute only once, even if this file is included
twice in the same compilation unit. */
# ifndef local_wcslen_defined
# define local_wcslen_defined 1
static size_t
local_wcslen (const wchar_t *s)
{
const wchar_t *ptr;
for (ptr = s; *ptr != (wchar_t) 0; ptr++)
;
return ptr - s;
}
# endif
# endif
#endif
Imported Upstream version 1.4.15
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#if (!USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99) && HAVE_WCHAR_T && WIDE_CHAR_VERSION
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_WCSNLEN
# define local_wcsnlen wcsnlen
# else
# ifndef local_wcsnlen_defined
# define local_wcsnlen_defined 1
static size_t
local_wcsnlen (const wchar_t *s, size_t maxlen)
{
const wchar_t *ptr;
for (ptr = s; maxlen > 0 && *ptr != (wchar_t) 0; ptr++, maxlen--)
;
return ptr - s;
}
# endif
# endif
#endif
#if (NEED_PRINTF_DIRECTIVE_A || NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_INFINITE_LONG_DOUBLE || NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE) && !defined IN_LIBINTL
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Determine the decimal-point character according to the current locale. */
# ifndef decimal_point_char_defined
# define decimal_point_char_defined 1
static char
Imported Upstream version 1.4.15
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decimal_point_char (void)
Imported Upstream version 1.4.8
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{
Imported Upstream version 1.4.12
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const char *point;
/* Determine it in a multithread-safe way. We know nl_langinfo is
Imported Upstream version 1.4.16+git20130902
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multithread-safe on glibc systems and Mac OS X systems, but is not required
Imported Upstream version 1.4.15
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to be multithread-safe by POSIX. sprintf(), however, is multithread-safe.
localeconv() is rarely multithread-safe. */
Imported Upstream version 1.4.16+git20130902
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# if HAVE_NL_LANGINFO && (__GLIBC__ || defined __UCLIBC__ || (defined __APPLE__ && defined __MACH__))
Imported Upstream version 1.4.12
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point = nl_langinfo (RADIXCHAR);
# elif 1
char pointbuf[5];
sprintf (pointbuf, "%#.0f", 1.0);
point = &pointbuf[1];
# else
point = localeconv () -> decimal_point;
# endif
/* The decimal point is always a single byte: either '.' or ','. */
return (point[0] != '\0' ? point[0] : '.');
}
# endif
#endif
Imported Upstream version 1.4.8
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Imported Upstream version 1.4.12
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#if NEED_PRINTF_INFINITE_DOUBLE && !NEED_PRINTF_DOUBLE && !defined IN_LIBINTL
/* Equivalent to !isfinite(x) || x == 0, but does not require libm. */
static int
is_infinite_or_zero (double x)
{
return isnand (x) || x + x == x;
}
#endif
#if NEED_PRINTF_INFINITE_LONG_DOUBLE && !NEED_PRINTF_LONG_DOUBLE && !defined IN_LIBINTL
Imported Upstream version 1.4.13+git200906171200
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/* Equivalent to !isfinite(x) || x == 0, but does not require libm. */
Imported Upstream version 1.4.12
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static int
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is_infinite_or_zerol (long double x)
Imported Upstream version 1.4.12
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{
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return isnanl (x) || x + x == x;
Imported Upstream version 1.4.12
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}
#endif
#if (NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_DOUBLE) && !defined IN_LIBINTL
/* Converting 'long double' to decimal without rare rounding bugs requires
real bignums. We use the naming conventions of GNU gmp, but vastly simpler
(and slower) algorithms. */
typedef unsigned int mp_limb_t;
# define GMP_LIMB_BITS 32
Imported Upstream version 1.4.16+git20130902
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verify (sizeof (mp_limb_t) * CHAR_BIT == GMP_LIMB_BITS);
Imported Upstream version 1.4.12
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typedef unsigned long long mp_twolimb_t;
# define GMP_TWOLIMB_BITS 64
Imported Upstream version 1.4.16+git20130902
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verify (sizeof (mp_twolimb_t) * CHAR_BIT == GMP_TWOLIMB_BITS);
Imported Upstream version 1.4.12
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/* Representation of a bignum >= 0. */
typedef struct
{
size_t nlimbs;
mp_limb_t *limbs; /* Bits in little-endian order, allocated with malloc(). */
} mpn_t;
/* Compute the product of two bignums >= 0.
Return the allocated memory in case of success, NULL in case of memory
allocation failure. */
static void *
multiply (mpn_t src1, mpn_t src2, mpn_t *dest)
{
const mp_limb_t *p1;
const mp_limb_t *p2;
size_t len1;
size_t len2;
if (src1.nlimbs <= src2.nlimbs)
Imported Upstream version 1.4.8
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{
Imported Upstream version 1.4.12
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len1 = src1.nlimbs;
p1 = src1.limbs;
len2 = src2.nlimbs;
p2 = src2.limbs;
}
else
{
len1 = src2.nlimbs;
p1 = src2.limbs;
len2 = src1.nlimbs;
p2 = src1.limbs;
}
/* Now 0 <= len1 <= len2. */
if (len1 == 0)
{
/* src1 or src2 is zero. */
dest->nlimbs = 0;
dest->limbs = (mp_limb_t *) malloc (1);
Imported Upstream version 1.4.8
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}
Imported Upstream version 1.4.12
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else
{
/* Here 1 <= len1 <= len2. */
size_t dlen;
mp_limb_t *dp;
size_t k, i, j;
Imported Upstream version 1.4.8
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Imported Upstream version 1.4.12
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dlen = len1 + len2;
dp = (mp_limb_t *) malloc (dlen * sizeof (mp_limb_t));
if (dp == NULL)
Imported Upstream version 1.4.15
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return NULL;
Imported Upstream version 1.4.12
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for (k = len2; k > 0; )
Imported Upstream version 1.4.15
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dp[--k] = 0;
Imported Upstream version 1.4.12
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for (i = 0; i < len1; i++)
Imported Upstream version 1.4.15
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{
mp_limb_t digit1 = p1[i];
mp_twolimb_t carry = 0;
for (j = 0; j < len2; j++)
{
mp_limb_t digit2 = p2[j];
carry += (mp_twolimb_t) digit1 * (mp_twolimb_t) digit2;
carry += dp[i + j];
dp[i + j] = (mp_limb_t) carry;
carry = carry >> GMP_LIMB_BITS;
}
dp[i + len2] = (mp_limb_t) carry;
}
Imported Upstream version 1.4.12
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/* Normalise. */
while (dlen > 0 && dp[dlen - 1] == 0)
Imported Upstream version 1.4.15
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dlen--;
Imported Upstream version 1.4.12
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dest->nlimbs = dlen;
dest->limbs = dp;
}
return dest->limbs;
}
/* Compute the quotient of a bignum a >= 0 and a bignum b > 0.
a is written as a = q * b + r with 0 <= r < b. q is the quotient, r
the remainder.
Finally, round-to-even is performed: If r > b/2 or if r = b/2 and q is odd,
q is incremented.
Return the allocated memory in case of success, NULL in case of memory
allocation failure. */
static void *
divide (mpn_t a, mpn_t b, mpn_t *q)
{
/* Algorithm:
First normalise a and b: a=[a[m-1],...,a[0]], b=[b[n-1],...,b[0]]
with m>=0 and n>0 (in base beta = 2^GMP_LIMB_BITS).
If m<n, then q:=0 and r:=a.
If m>=n=1, perform a single-precision division:
r:=0, j:=m,
while j>0 do
{Here (q[m-1]*beta^(m-1)+...+q[j]*beta^j) * b[0] + r*beta^j =
= a[m-1]*beta^(m-1)+...+a[j]*beta^j und 0<=r<b[0]<beta}
j:=j-1, r:=r*beta+a[j], q[j]:=floor(r/b[0]), r:=r-b[0]*q[j].
Normalise [q[m-1],...,q[0]], yields q.
If m>=n>1, perform a multiple-precision division:
We have a/b < beta^(m-n+1).
Imported Upstream version 1.4.13+git200906171200
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s:=intDsize-1-(highest bit in b[n-1]), 0<=s<intDsize.
Imported Upstream version 1.4.12
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Shift a and b left by s bits, copying them. r:=a.
r=[r[m],...,r[0]], b=[b[n-1],...,b[0]] with b[n-1]>=beta/2.
For j=m-n,...,0: {Here 0 <= r < b*beta^(j+1).}
Compute q* :
q* := floor((r[j+n]*beta+r[j+n-1])/b[n-1]).
In case of overflow (q* >= beta) set q* := beta-1.
Compute c2 := ((r[j+n]*beta+r[j+n-1]) - q* * b[n-1])*beta + r[j+n-2]
and c3 := b[n-2] * q*.
{We have 0 <= c2 < 2*beta^2, even 0 <= c2 < beta^2 if no overflow
occurred. Furthermore 0 <= c3 < beta^2.
If there was overflow and
r[j+n]*beta+r[j+n-1] - q* * b[n-1] >= beta, i.e. c2 >= beta^2,
the next test can be skipped.}
While c3 > c2, {Here 0 <= c2 < c3 < beta^2}
Put q* := q* - 1, c2 := c2 + b[n-1]*beta, c3 := c3 - b[n-2].
If q* > 0:
Put r := r - b * q* * beta^j. In detail:
[r[n+j],...,r[j]] := [r[n+j],...,r[j]] - q* * [b[n-1],...,b[0]].
hence: u:=0, for i:=0 to n-1 do
u := u + q* * b[i],
r[j+i]:=r[j+i]-(u mod beta) (+ beta, if carry),
u:=u div beta (+ 1, if carry in subtraction)
r[n+j]:=r[n+j]-u.
{Since always u = (q* * [b[i-1],...,b[0]] div beta^i) + 1
< q* + 1 <= beta,
the carry u does not overflow.}
If a negative carry occurs, put q* := q* - 1
and [r[n+j],...,r[j]] := [r[n+j],...,r[j]] + [0,b[n-1],...,b[0]].
Set q[j] := q*.
Normalise [q[m-n],..,q[0]]; this yields the quotient q.
Shift [r[n-1],...,r[0]] right by s bits and normalise; this yields the
rest r.
The room for q[j] can be allocated at the memory location of r[n+j].
Finally, round-to-even:
Shift r left by 1 bit.
If r > b or if r = b and q[0] is odd, q := q+1.
*/
const mp_limb_t *a_ptr = a.limbs;
size_t a_len = a.nlimbs;
const mp_limb_t *b_ptr = b.limbs;
size_t b_len = b.nlimbs;
mp_limb_t *roomptr;
mp_limb_t *tmp_roomptr = NULL;
mp_limb_t *q_ptr;
size_t q_len;
mp_limb_t *r_ptr;
size_t r_len;
/* Allocate room for a_len+2 digits.
(Need a_len+1 digits for the real division and 1 more digit for the
final rounding of q.) */
roomptr = (mp_limb_t *) malloc ((a_len + 2) * sizeof (mp_limb_t));
if (roomptr == NULL)
return NULL;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Normalise a. */
while (a_len > 0 && a_ptr[a_len - 1] == 0)
a_len--;
/* Normalise b. */
for (;;)
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (b_len == 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Division by zero. */
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (b_ptr[b_len - 1] == 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
b_len--;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
break;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Here m = a_len >= 0 and n = b_len > 0. */
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (a_len < b_len)
{
/* m<n: trivial case. q=0, r := copy of a. */
r_ptr = roomptr;
r_len = a_len;
memcpy (r_ptr, a_ptr, a_len * sizeof (mp_limb_t));
q_ptr = roomptr + a_len;
q_len = 0;
}
else if (b_len == 1)
{
/* n=1: single precision division.
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
beta^(m-1) <= a < beta^m ==> beta^(m-2) <= a/b < beta^m */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
r_ptr = roomptr;
q_ptr = roomptr + 1;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mp_limb_t den = b_ptr[0];
mp_limb_t remainder = 0;
const mp_limb_t *sourceptr = a_ptr + a_len;
mp_limb_t *destptr = q_ptr + a_len;
size_t count;
for (count = a_len; count > 0; count--)
{
mp_twolimb_t num =
((mp_twolimb_t) remainder << GMP_LIMB_BITS) | *--sourceptr;
*--destptr = num / den;
remainder = num % den;
}
/* Normalise and store r. */
if (remainder > 0)
{
r_ptr[0] = remainder;
r_len = 1;
}
else
r_len = 0;
/* Normalise q. */
q_len = a_len;
if (q_ptr[q_len - 1] == 0)
q_len--;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
else
{
/* n>1: multiple precision division.
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
beta^(m-1) <= a < beta^m, beta^(n-1) <= b < beta^n ==>
beta^(m-n-1) <= a/b < beta^(m-n+1). */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Determine s. */
size_t s;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mp_limb_t msd = b_ptr[b_len - 1]; /* = b[n-1], > 0 */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* Determine s = GMP_LIMB_BITS - integer_length (msd).
Code copied from gnulib's integer_length.c. */
# if __GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4)
s = __builtin_clz (msd);
# else
# if defined DBL_EXPBIT0_WORD && defined DBL_EXPBIT0_BIT
if (GMP_LIMB_BITS <= DBL_MANT_BIT)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* Use 'double' operations.
Assumes an IEEE 754 'double' implementation. */
# define DBL_EXP_MASK ((DBL_MAX_EXP - DBL_MIN_EXP) | 7)
# define DBL_EXP_BIAS (DBL_EXP_MASK / 2 - 1)
# define NWORDS \
((sizeof (double) + sizeof (unsigned int) - 1) / sizeof (unsigned int))
union { double value; unsigned int word[NWORDS]; } m;
/* Use a single integer to floating-point conversion. */
m.value = msd;
s = GMP_LIMB_BITS
- (((m.word[DBL_EXPBIT0_WORD] >> DBL_EXPBIT0_BIT) & DBL_EXP_MASK)
- DBL_EXP_BIAS);
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
else
# undef NWORDS
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
s = 31;
if (msd >= 0x10000)
{
msd = msd >> 16;
s -= 16;
}
if (msd >= 0x100)
{
msd = msd >> 8;
s -= 8;
}
if (msd >= 0x10)
{
msd = msd >> 4;
s -= 4;
}
if (msd >= 0x4)
{
msd = msd >> 2;
s -= 2;
}
if (msd >= 0x2)
{
msd = msd >> 1;
s -= 1;
}
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
# endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* 0 <= s < GMP_LIMB_BITS.
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
Copy b, shifting it left by s bits. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (s > 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
tmp_roomptr = (mp_limb_t *) malloc (b_len * sizeof (mp_limb_t));
if (tmp_roomptr == NULL)
{
free (roomptr);
return NULL;
}
{
const mp_limb_t *sourceptr = b_ptr;
mp_limb_t *destptr = tmp_roomptr;
mp_twolimb_t accu = 0;
size_t count;
for (count = b_len; count > 0; count--)
{
accu += (mp_twolimb_t) *sourceptr++ << s;
*destptr++ = (mp_limb_t) accu;
accu = accu >> GMP_LIMB_BITS;
}
/* accu must be zero, since that was how s was determined. */
if (accu != 0)
abort ();
}
b_ptr = tmp_roomptr;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Copy a, shifting it left by s bits, yields r.
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
Memory layout:
At the beginning: r = roomptr[0..a_len],
at the end: r = roomptr[0..b_len-1], q = roomptr[b_len..a_len] */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
r_ptr = roomptr;
if (s == 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
memcpy (r_ptr, a_ptr, a_len * sizeof (mp_limb_t));
r_ptr[a_len] = 0;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
const mp_limb_t *sourceptr = a_ptr;
mp_limb_t *destptr = r_ptr;
mp_twolimb_t accu = 0;
size_t count;
for (count = a_len; count > 0; count--)
{
accu += (mp_twolimb_t) *sourceptr++ << s;
*destptr++ = (mp_limb_t) accu;
accu = accu >> GMP_LIMB_BITS;
}
*destptr++ = (mp_limb_t) accu;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
q_ptr = roomptr + b_len;
q_len = a_len - b_len + 1; /* q will have m-n+1 limbs */
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
size_t j = a_len - b_len; /* m-n */
mp_limb_t b_msd = b_ptr[b_len - 1]; /* b[n-1] */
mp_limb_t b_2msd = b_ptr[b_len - 2]; /* b[n-2] */
mp_twolimb_t b_msdd = /* b[n-1]*beta+b[n-2] */
((mp_twolimb_t) b_msd << GMP_LIMB_BITS) | b_2msd;
/* Division loop, traversed m-n+1 times.
j counts down, b is unchanged, beta/2 <= b[n-1] < beta. */
for (;;)
{
mp_limb_t q_star;
mp_limb_t c1;
if (r_ptr[j + b_len] < b_msd) /* r[j+n] < b[n-1] ? */
{
/* Divide r[j+n]*beta+r[j+n-1] by b[n-1], no overflow. */
mp_twolimb_t num =
((mp_twolimb_t) r_ptr[j + b_len] << GMP_LIMB_BITS)
| r_ptr[j + b_len - 1];
q_star = num / b_msd;
c1 = num % b_msd;
}
else
{
/* Overflow, hence r[j+n]*beta+r[j+n-1] >= beta*b[n-1]. */
q_star = (mp_limb_t)~(mp_limb_t)0; /* q* = beta-1 */
/* Test whether r[j+n]*beta+r[j+n-1] - (beta-1)*b[n-1] >= beta
<==> r[j+n]*beta+r[j+n-1] + b[n-1] >= beta*b[n-1]+beta
<==> b[n-1] < floor((r[j+n]*beta+r[j+n-1]+b[n-1])/beta)
{<= beta !}.
If yes, jump directly to the subtraction loop.
(Otherwise, r[j+n]*beta+r[j+n-1] - (beta-1)*b[n-1] < beta
<==> floor((r[j+n]*beta+r[j+n-1]+b[n-1])/beta) = b[n-1] ) */
if (r_ptr[j + b_len] > b_msd
|| (c1 = r_ptr[j + b_len - 1] + b_msd) < b_msd)
/* r[j+n] >= b[n-1]+1 or
r[j+n] = b[n-1] and the addition r[j+n-1]+b[n-1] gives a
carry. */
goto subtract;
}
/* q_star = q*,
c1 = (r[j+n]*beta+r[j+n-1]) - q* * b[n-1] (>=0, <beta). */
{
mp_twolimb_t c2 = /* c1*beta+r[j+n-2] */
((mp_twolimb_t) c1 << GMP_LIMB_BITS) | r_ptr[j + b_len - 2];
mp_twolimb_t c3 = /* b[n-2] * q* */
(mp_twolimb_t) b_2msd * (mp_twolimb_t) q_star;
/* While c2 < c3, increase c2 and decrease c3.
Consider c3-c2. While it is > 0, decrease it by
b[n-1]*beta+b[n-2]. Because of b[n-1]*beta+b[n-2] >= beta^2/2
this can happen only twice. */
if (c3 > c2)
{
q_star = q_star - 1; /* q* := q* - 1 */
if (c3 - c2 > b_msdd)
q_star = q_star - 1; /* q* := q* - 1 */
}
}
if (q_star > 0)
subtract:
{
/* Subtract r := r - b * q* * beta^j. */
mp_limb_t cr;
{
const mp_limb_t *sourceptr = b_ptr;
mp_limb_t *destptr = r_ptr + j;
mp_twolimb_t carry = 0;
size_t count;
for (count = b_len; count > 0; count--)
{
/* Here 0 <= carry <= q*. */
carry =
carry
+ (mp_twolimb_t) q_star * (mp_twolimb_t) *sourceptr++
+ (mp_limb_t) ~(*destptr);
/* Here 0 <= carry <= beta*q* + beta-1. */
*destptr++ = ~(mp_limb_t) carry;
carry = carry >> GMP_LIMB_BITS; /* <= q* */
}
cr = (mp_limb_t) carry;
}
/* Subtract cr from r_ptr[j + b_len], then forget about
r_ptr[j + b_len]. */
if (cr > r_ptr[j + b_len])
{
/* Subtraction gave a carry. */
q_star = q_star - 1; /* q* := q* - 1 */
/* Add b back. */
{
const mp_limb_t *sourceptr = b_ptr;
mp_limb_t *destptr = r_ptr + j;
mp_limb_t carry = 0;
size_t count;
for (count = b_len; count > 0; count--)
{
mp_limb_t source1 = *sourceptr++;
mp_limb_t source2 = *destptr;
*destptr++ = source1 + source2 + carry;
carry =
(carry
? source1 >= (mp_limb_t) ~source2
: source1 > (mp_limb_t) ~source2);
}
}
/* Forget about the carry and about r[j+n]. */
}
}
/* q* is determined. Store it as q[j]. */
q_ptr[j] = q_star;
if (j == 0)
break;
j--;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
r_len = b_len;
/* Normalise q. */
if (q_ptr[q_len - 1] == 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
q_len--;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if 0 /* Not needed here, since we need r only to compare it with b/2, and
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
b is shifted left by s bits. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Shift r right by s bits. */
if (s > 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
mp_limb_t ptr = r_ptr + r_len;
mp_twolimb_t accu = 0;
size_t count;
for (count = r_len; count > 0; count--)
{
accu = (mp_twolimb_t) (mp_limb_t) accu << GMP_LIMB_BITS;
accu += (mp_twolimb_t) *--ptr << (GMP_LIMB_BITS - s);
*ptr = (mp_limb_t) (accu >> GMP_LIMB_BITS);
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
/* Normalise r. */
while (r_len > 0 && r_ptr[r_len - 1] == 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
r_len--;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
/* Compare r << 1 with b. */
if (r_len > b_len)
goto increment_q;
{
size_t i;
for (i = b_len;;)
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mp_limb_t r_i =
(i <= r_len && i > 0 ? r_ptr[i - 1] >> (GMP_LIMB_BITS - 1) : 0)
| (i < r_len ? r_ptr[i] << 1 : 0);
mp_limb_t b_i = (i < b_len ? b_ptr[i] : 0);
if (r_i > b_i)
goto increment_q;
if (r_i < b_i)
goto keep_q;
if (i == 0)
break;
i--;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
if (q_len > 0 && ((q_ptr[0] & 1) != 0))
/* q is odd. */
increment_q:
{
size_t i;
for (i = 0; i < q_len; i++)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (++(q_ptr[i]) != 0)
goto keep_q;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
q_ptr[q_len++] = 1;
}
keep_q:
if (tmp_roomptr != NULL)
free (tmp_roomptr);
q->limbs = q_ptr;
q->nlimbs = q_len;
return roomptr;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Convert a bignum a >= 0, multiplied with 10^extra_zeroes, to decimal
representation.
Destroys the contents of a.
Return the allocated memory - containing the decimal digits in low-to-high
order, terminated with a NUL character - in case of success, NULL in case
of memory allocation failure. */
static char *
convert_to_decimal (mpn_t a, size_t extra_zeroes)
{
mp_limb_t *a_ptr = a.limbs;
size_t a_len = a.nlimbs;
/* 0.03345 is slightly larger than log(2)/(9*log(10)). */
size_t c_len = 9 * ((size_t)(a_len * (GMP_LIMB_BITS * 0.03345f)) + 1);
char *c_ptr = (char *) malloc (xsum (c_len, extra_zeroes));
if (c_ptr != NULL)
{
char *d_ptr = c_ptr;
for (; extra_zeroes > 0; extra_zeroes--)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*d_ptr++ = '0';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
while (a_len > 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
/* Divide a by 10^9, in-place. */
mp_limb_t remainder = 0;
mp_limb_t *ptr = a_ptr + a_len;
size_t count;
for (count = a_len; count > 0; count--)
{
mp_twolimb_t num =
((mp_twolimb_t) remainder << GMP_LIMB_BITS) | *--ptr;
*ptr = num / 1000000000;
remainder = num % 1000000000;
}
/* Store the remainder as 9 decimal digits. */
for (count = 9; count > 0; count--)
{
*d_ptr++ = '0' + (remainder % 10);
remainder = remainder / 10;
}
/* Normalize a. */
if (a_ptr[a_len - 1] == 0)
a_len--;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Remove leading zeroes. */
while (d_ptr > c_ptr && d_ptr[-1] == '0')
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
d_ptr--;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* But keep at least one zero. */
if (d_ptr == c_ptr)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*d_ptr++ = '0';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Terminate the string. */
*d_ptr = '\0';
}
return c_ptr;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Assuming x is finite and >= 0:
write x as x = 2^e * m, where m is a bignum.
Return the allocated memory in case of success, NULL in case of memory
allocation failure. */
static void *
decode_long_double (long double x, int *ep, mpn_t *mp)
{
mpn_t m;
int exp;
long double y;
size_t i;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Allocate memory for result. */
m.nlimbs = (LDBL_MANT_BIT + GMP_LIMB_BITS - 1) / GMP_LIMB_BITS;
m.limbs = (mp_limb_t *) malloc (m.nlimbs * sizeof (mp_limb_t));
if (m.limbs == NULL)
return NULL;
/* Split into exponential part and mantissa. */
y = frexpl (x, &exp);
if (!(y >= 0.0L && y < 1.0L))
abort ();
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* x = 2^exp * y = 2^(exp - LDBL_MANT_BIT) * (y * 2^LDBL_MANT_BIT), and the
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
latter is an integer. */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* Convert the mantissa (y * 2^LDBL_MANT_BIT) to a sequence of limbs.
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
I'm not sure whether it's safe to cast a 'long double' value between
2^31 and 2^32 to 'unsigned int', therefore play safe and cast only
'long double' values between 0 and 2^16 (to 'unsigned int' or 'int',
doesn't matter). */
# if (LDBL_MANT_BIT % GMP_LIMB_BITS) != 0
# if (LDBL_MANT_BIT % GMP_LIMB_BITS) > GMP_LIMB_BITS / 2
{
mp_limb_t hi, lo;
y *= (mp_limb_t) 1 << (LDBL_MANT_BIT % (GMP_LIMB_BITS / 2));
hi = (int) y;
y -= hi;
if (!(y >= 0.0L && y < 1.0L))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
y *= (mp_limb_t) 1 << (GMP_LIMB_BITS / 2);
lo = (int) y;
y -= lo;
if (!(y >= 0.0L && y < 1.0L))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
m.limbs[LDBL_MANT_BIT / GMP_LIMB_BITS] = (hi << (GMP_LIMB_BITS / 2)) | lo;
}
# else
{
mp_limb_t d;
y *= (mp_limb_t) 1 << (LDBL_MANT_BIT % GMP_LIMB_BITS);
d = (int) y;
y -= d;
if (!(y >= 0.0L && y < 1.0L))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
m.limbs[LDBL_MANT_BIT / GMP_LIMB_BITS] = d;
}
# endif
# endif
for (i = LDBL_MANT_BIT / GMP_LIMB_BITS; i > 0; )
{
mp_limb_t hi, lo;
y *= (mp_limb_t) 1 << (GMP_LIMB_BITS / 2);
hi = (int) y;
y -= hi;
if (!(y >= 0.0L && y < 1.0L))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
y *= (mp_limb_t) 1 << (GMP_LIMB_BITS / 2);
lo = (int) y;
y -= lo;
if (!(y >= 0.0L && y < 1.0L))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
m.limbs[--i] = (hi << (GMP_LIMB_BITS / 2)) | lo;
}
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
# if 0 /* On FreeBSD 6.1/x86, 'long double' numbers sometimes have excess
precision. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (!(y == 0.0L))
abort ();
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
# endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Normalise. */
while (m.nlimbs > 0 && m.limbs[m.nlimbs - 1] == 0)
m.nlimbs--;
*mp = m;
*ep = exp - LDBL_MANT_BIT;
return m.limbs;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
# if NEED_PRINTF_DOUBLE
/* Assuming x is finite and >= 0:
write x as x = 2^e * m, where m is a bignum.
Return the allocated memory in case of success, NULL in case of memory
allocation failure. */
static void *
decode_double (double x, int *ep, mpn_t *mp)
{
mpn_t m;
int exp;
double y;
size_t i;
/* Allocate memory for result. */
m.nlimbs = (DBL_MANT_BIT + GMP_LIMB_BITS - 1) / GMP_LIMB_BITS;
m.limbs = (mp_limb_t *) malloc (m.nlimbs * sizeof (mp_limb_t));
if (m.limbs == NULL)
return NULL;
/* Split into exponential part and mantissa. */
y = frexp (x, &exp);
if (!(y >= 0.0 && y < 1.0))
abort ();
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* x = 2^exp * y = 2^(exp - DBL_MANT_BIT) * (y * 2^DBL_MANT_BIT), and the
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
latter is an integer. */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* Convert the mantissa (y * 2^DBL_MANT_BIT) to a sequence of limbs.
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
I'm not sure whether it's safe to cast a 'double' value between
2^31 and 2^32 to 'unsigned int', therefore play safe and cast only
'double' values between 0 and 2^16 (to 'unsigned int' or 'int',
doesn't matter). */
# if (DBL_MANT_BIT % GMP_LIMB_BITS) != 0
# if (DBL_MANT_BIT % GMP_LIMB_BITS) > GMP_LIMB_BITS / 2
{
mp_limb_t hi, lo;
y *= (mp_limb_t) 1 << (DBL_MANT_BIT % (GMP_LIMB_BITS / 2));
hi = (int) y;
y -= hi;
if (!(y >= 0.0 && y < 1.0))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
y *= (mp_limb_t) 1 << (GMP_LIMB_BITS / 2);
lo = (int) y;
y -= lo;
if (!(y >= 0.0 && y < 1.0))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
m.limbs[DBL_MANT_BIT / GMP_LIMB_BITS] = (hi << (GMP_LIMB_BITS / 2)) | lo;
}
# else
{
mp_limb_t d;
y *= (mp_limb_t) 1 << (DBL_MANT_BIT % GMP_LIMB_BITS);
d = (int) y;
y -= d;
if (!(y >= 0.0 && y < 1.0))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
m.limbs[DBL_MANT_BIT / GMP_LIMB_BITS] = d;
}
# endif
# endif
for (i = DBL_MANT_BIT / GMP_LIMB_BITS; i > 0; )
{
mp_limb_t hi, lo;
y *= (mp_limb_t) 1 << (GMP_LIMB_BITS / 2);
hi = (int) y;
y -= hi;
if (!(y >= 0.0 && y < 1.0))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
y *= (mp_limb_t) 1 << (GMP_LIMB_BITS / 2);
lo = (int) y;
y -= lo;
if (!(y >= 0.0 && y < 1.0))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
m.limbs[--i] = (hi << (GMP_LIMB_BITS / 2)) | lo;
}
if (!(y == 0.0))
abort ();
/* Normalise. */
while (m.nlimbs > 0 && m.limbs[m.nlimbs - 1] == 0)
m.nlimbs--;
*mp = m;
*ep = exp - DBL_MANT_BIT;
return m.limbs;
}
# endif
/* Assuming x = 2^e * m is finite and >= 0, and n is an integer:
Returns the decimal representation of round (x * 10^n).
Return the allocated memory - containing the decimal digits in low-to-high
order, terminated with a NUL character - in case of success, NULL in case
of memory allocation failure. */
static char *
scale10_round_decimal_decoded (int e, mpn_t m, void *memory, int n)
{
int s;
size_t extra_zeroes;
unsigned int abs_n;
unsigned int abs_s;
mp_limb_t *pow5_ptr;
size_t pow5_len;
unsigned int s_limbs;
unsigned int s_bits;
mpn_t pow5;
mpn_t z;
void *z_memory;
char *digits;
if (memory == NULL)
return NULL;
/* x = 2^e * m, hence
y = round (2^e * 10^n * m) = round (2^(e+n) * 5^n * m)
= round (2^s * 5^n * m). */
s = e + n;
extra_zeroes = 0;
/* Factor out a common power of 10 if possible. */
if (s > 0 && n > 0)
{
extra_zeroes = (s < n ? s : n);
s -= extra_zeroes;
n -= extra_zeroes;
}
/* Here y = round (2^s * 5^n * m) * 10^extra_zeroes.
Before converting to decimal, we need to compute
z = round (2^s * 5^n * m). */
/* Compute 5^|n|, possibly shifted by |s| bits if n and s have the same
sign. 2.322 is slightly larger than log(5)/log(2). */
abs_n = (n >= 0 ? n : -n);
abs_s = (s >= 0 ? s : -s);
pow5_ptr = (mp_limb_t *) malloc (((int)(abs_n * (2.322f / GMP_LIMB_BITS)) + 1
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
+ abs_s / GMP_LIMB_BITS + 1)
* sizeof (mp_limb_t));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (pow5_ptr == NULL)
{
free (memory);
return NULL;
}
/* Initialize with 1. */
pow5_ptr[0] = 1;
pow5_len = 1;
/* Multiply with 5^|n|. */
if (abs_n > 0)
{
static mp_limb_t const small_pow5[13 + 1] =
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
1, 5, 25, 125, 625, 3125, 15625, 78125, 390625, 1953125, 9765625,
48828125, 244140625, 1220703125
};
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
unsigned int n13;
for (n13 = 0; n13 <= abs_n; n13 += 13)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
mp_limb_t digit1 = small_pow5[n13 + 13 <= abs_n ? 13 : abs_n - n13];
size_t j;
mp_twolimb_t carry = 0;
for (j = 0; j < pow5_len; j++)
{
mp_limb_t digit2 = pow5_ptr[j];
carry += (mp_twolimb_t) digit1 * (mp_twolimb_t) digit2;
pow5_ptr[j] = (mp_limb_t) carry;
carry = carry >> GMP_LIMB_BITS;
}
if (carry > 0)
pow5_ptr[pow5_len++] = (mp_limb_t) carry;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
s_limbs = abs_s / GMP_LIMB_BITS;
s_bits = abs_s % GMP_LIMB_BITS;
if (n >= 0 ? s >= 0 : s <= 0)
{
/* Multiply with 2^|s|. */
if (s_bits > 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
mp_limb_t *ptr = pow5_ptr;
mp_twolimb_t accu = 0;
size_t count;
for (count = pow5_len; count > 0; count--)
{
accu += (mp_twolimb_t) *ptr << s_bits;
*ptr++ = (mp_limb_t) accu;
accu = accu >> GMP_LIMB_BITS;
}
if (accu > 0)
{
*ptr = (mp_limb_t) accu;
pow5_len++;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (s_limbs > 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
size_t count;
for (count = pow5_len; count > 0;)
{
count--;
pow5_ptr[s_limbs + count] = pow5_ptr[count];
}
for (count = s_limbs; count > 0;)
{
count--;
pow5_ptr[count] = 0;
}
pow5_len += s_limbs;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
pow5.limbs = pow5_ptr;
pow5.nlimbs = pow5_len;
if (n >= 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
/* Multiply m with pow5. No division needed. */
z_memory = multiply (m, pow5, &z);
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
/* Divide m by pow5 and round. */
z_memory = divide (m, pow5, &z);
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
else
{
pow5.limbs = pow5_ptr;
pow5.nlimbs = pow5_len;
if (n >= 0)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
/* n >= 0, s < 0.
Multiply m with pow5, then divide by 2^|s|. */
mpn_t numerator;
mpn_t denominator;
void *tmp_memory;
tmp_memory = multiply (m, pow5, &numerator);
if (tmp_memory == NULL)
{
free (pow5_ptr);
free (memory);
return NULL;
}
/* Construct 2^|s|. */
{
mp_limb_t *ptr = pow5_ptr + pow5_len;
size_t i;
for (i = 0; i < s_limbs; i++)
ptr[i] = 0;
ptr[s_limbs] = (mp_limb_t) 1 << s_bits;
denominator.limbs = ptr;
denominator.nlimbs = s_limbs + 1;
}
z_memory = divide (numerator, denominator, &z);
free (tmp_memory);
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
/* n < 0, s > 0.
Multiply m with 2^s, then divide by pow5. */
mpn_t numerator;
mp_limb_t *num_ptr;
num_ptr = (mp_limb_t *) malloc ((m.nlimbs + s_limbs + 1)
* sizeof (mp_limb_t));
if (num_ptr == NULL)
{
free (pow5_ptr);
free (memory);
return NULL;
}
{
mp_limb_t *destptr = num_ptr;
{
size_t i;
for (i = 0; i < s_limbs; i++)
*destptr++ = 0;
}
if (s_bits > 0)
{
const mp_limb_t *sourceptr = m.limbs;
mp_twolimb_t accu = 0;
size_t count;
for (count = m.nlimbs; count > 0; count--)
{
accu += (mp_twolimb_t) *sourceptr++ << s_bits;
*destptr++ = (mp_limb_t) accu;
accu = accu >> GMP_LIMB_BITS;
}
if (accu > 0)
*destptr++ = (mp_limb_t) accu;
}
else
{
const mp_limb_t *sourceptr = m.limbs;
size_t count;
for (count = m.nlimbs; count > 0; count--)
*destptr++ = *sourceptr++;
}
numerator.limbs = num_ptr;
numerator.nlimbs = destptr - num_ptr;
}
z_memory = divide (numerator, pow5, &z);
free (num_ptr);
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
free (pow5_ptr);
free (memory);
/* Here y = round (x * 10^n) = z * 10^extra_zeroes. */
if (z_memory == NULL)
return NULL;
digits = convert_to_decimal (z, extra_zeroes);
free (z_memory);
return digits;
}
# if NEED_PRINTF_LONG_DOUBLE
/* Assuming x is finite and >= 0, and n is an integer:
Returns the decimal representation of round (x * 10^n).
Return the allocated memory - containing the decimal digits in low-to-high
order, terminated with a NUL character - in case of success, NULL in case
of memory allocation failure. */
static char *
scale10_round_decimal_long_double (long double x, int n)
{
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
int e IF_LINT(= 0);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
mpn_t m;
void *memory = decode_long_double (x, &e, &m);
return scale10_round_decimal_decoded (e, m, memory, n);
}
# endif
# if NEED_PRINTF_DOUBLE
/* Assuming x is finite and >= 0, and n is an integer:
Returns the decimal representation of round (x * 10^n).
Return the allocated memory - containing the decimal digits in low-to-high
order, terminated with a NUL character - in case of success, NULL in case
of memory allocation failure. */
static char *
scale10_round_decimal_double (double x, int n)
{
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
int e IF_LINT(= 0);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
mpn_t m;
void *memory = decode_double (x, &e, &m);
return scale10_round_decimal_decoded (e, m, memory, n);
}
# endif
# if NEED_PRINTF_LONG_DOUBLE
/* Assuming x is finite and > 0:
Return an approximation for n with 10^n <= x < 10^(n+1).
The approximation is usually the right n, but may be off by 1 sometimes. */
static int
floorlog10l (long double x)
{
int exp;
long double y;
double z;
double l;
/* Split into exponential part and mantissa. */
y = frexpl (x, &exp);
if (!(y >= 0.0L && y < 1.0L))
abort ();
if (y == 0.0L)
return INT_MIN;
if (y < 0.5L)
{
while (y < (1.0L / (1 << (GMP_LIMB_BITS / 2)) / (1 << (GMP_LIMB_BITS / 2))))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0L * (1 << (GMP_LIMB_BITS / 2)) * (1 << (GMP_LIMB_BITS / 2));
exp -= GMP_LIMB_BITS;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0L / (1 << 16)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0L * (1 << 16);
exp -= 16;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0L / (1 << 8)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0L * (1 << 8);
exp -= 8;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0L / (1 << 4)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0L * (1 << 4);
exp -= 4;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0L / (1 << 2)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0L * (1 << 2);
exp -= 2;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0L / (1 << 1)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0L * (1 << 1);
exp -= 1;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
if (!(y >= 0.5L && y < 1.0L))
abort ();
/* Compute an approximation for l = log2(x) = exp + log2(y). */
l = exp;
z = y;
if (z < 0.70710678118654752444)
{
z *= 1.4142135623730950488;
l -= 0.5;
}
if (z < 0.8408964152537145431)
{
z *= 1.1892071150027210667;
l -= 0.25;
}
if (z < 0.91700404320467123175)
{
z *= 1.0905077326652576592;
l -= 0.125;
}
if (z < 0.9576032806985736469)
{
z *= 1.0442737824274138403;
l -= 0.0625;
}
/* Now 0.95 <= z <= 1.01. */
z = 1 - z;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
/* log2(1-z) = 1/log(2) * (- z - z^2/2 - z^3/3 - z^4/4 - ...)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Four terms are enough to get an approximation with error < 10^-7. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
l -= 1.4426950408889634074 * z * (1.0 + z * (0.5 + z * ((1.0 / 3) + z * 0.25)));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Finally multiply with log(2)/log(10), yields an approximation for
log10(x). */
l *= 0.30102999566398119523;
/* Round down to the next integer. */
return (int) l + (l < 0 ? -1 : 0);
}
# endif
# if NEED_PRINTF_DOUBLE
/* Assuming x is finite and > 0:
Return an approximation for n with 10^n <= x < 10^(n+1).
The approximation is usually the right n, but may be off by 1 sometimes. */
static int
floorlog10 (double x)
{
int exp;
double y;
double z;
double l;
/* Split into exponential part and mantissa. */
y = frexp (x, &exp);
if (!(y >= 0.0 && y < 1.0))
abort ();
if (y == 0.0)
return INT_MIN;
if (y < 0.5)
{
while (y < (1.0 / (1 << (GMP_LIMB_BITS / 2)) / (1 << (GMP_LIMB_BITS / 2))))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0 * (1 << (GMP_LIMB_BITS / 2)) * (1 << (GMP_LIMB_BITS / 2));
exp -= GMP_LIMB_BITS;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0 / (1 << 16)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0 * (1 << 16);
exp -= 16;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0 / (1 << 8)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0 * (1 << 8);
exp -= 8;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0 / (1 << 4)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0 * (1 << 4);
exp -= 4;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0 / (1 << 2)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0 * (1 << 2);
exp -= 2;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
if (y < (1.0 / (1 << 1)))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
y *= 1.0 * (1 << 1);
exp -= 1;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
if (!(y >= 0.5 && y < 1.0))
abort ();
/* Compute an approximation for l = log2(x) = exp + log2(y). */
l = exp;
z = y;
if (z < 0.70710678118654752444)
{
z *= 1.4142135623730950488;
l -= 0.5;
}
if (z < 0.8408964152537145431)
{
z *= 1.1892071150027210667;
l -= 0.25;
}
if (z < 0.91700404320467123175)
{
z *= 1.0905077326652576592;
l -= 0.125;
}
if (z < 0.9576032806985736469)
{
z *= 1.0442737824274138403;
l -= 0.0625;
}
/* Now 0.95 <= z <= 1.01. */
z = 1 - z;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
/* log2(1-z) = 1/log(2) * (- z - z^2/2 - z^3/3 - z^4/4 - ...)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Four terms are enough to get an approximation with error < 10^-7. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
l -= 1.4426950408889634074 * z * (1.0 + z * (0.5 + z * ((1.0 / 3) + z * 0.25)));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
/* Finally multiply with log(2)/log(10), yields an approximation for
log10(x). */
l *= 0.30102999566398119523;
/* Round down to the next integer. */
return (int) l + (l < 0 ? -1 : 0);
}
# endif
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
/* Tests whether a string of digits consists of exactly PRECISION zeroes and
a single '1' digit. */
static int
is_borderline (const char *digits, size_t precision)
{
for (; precision > 0; precision--, digits++)
if (*digits != '0')
return 0;
if (*digits != '1')
return 0;
digits++;
return *digits == '\0';
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#if !USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99
/* Use a different function name, to make it possible that the 'wchar_t'
parametrization and the 'char' parametrization get compiled in the same
translation unit. */
# if WIDE_CHAR_VERSION
# define MAX_ROOM_NEEDED wmax_room_needed
# else
# define MAX_ROOM_NEEDED max_room_needed
# endif
/* Returns the number of TCHAR_T units needed as temporary space for the result
of sprintf or SNPRINTF of a single conversion directive. */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
static size_t
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
MAX_ROOM_NEEDED (const arguments *ap, size_t arg_index, FCHAR_T conversion,
arg_type type, int flags, size_t width, int has_precision,
size_t precision, int pad_ourselves)
{
size_t tmp_length;
switch (conversion)
{
case 'd': case 'i': case 'u':
# if HAVE_LONG_LONG_INT
if (type == TYPE_LONGLONGINT || type == TYPE_ULONGLONGINT)
tmp_length =
(unsigned int) (sizeof (unsigned long long) * CHAR_BIT
* 0.30103 /* binary -> decimal */
)
+ 1; /* turn floor into ceil */
else
# endif
if (type == TYPE_LONGINT || type == TYPE_ULONGINT)
tmp_length =
(unsigned int) (sizeof (unsigned long) * CHAR_BIT
* 0.30103 /* binary -> decimal */
)
+ 1; /* turn floor into ceil */
else
tmp_length =
(unsigned int) (sizeof (unsigned int) * CHAR_BIT
* 0.30103 /* binary -> decimal */
)
+ 1; /* turn floor into ceil */
if (tmp_length < precision)
tmp_length = precision;
/* Multiply by 2, as an estimate for FLAG_GROUP. */
tmp_length = xsum (tmp_length, tmp_length);
/* Add 1, to account for a leading sign. */
tmp_length = xsum (tmp_length, 1);
break;
case 'o':
# if HAVE_LONG_LONG_INT
if (type == TYPE_LONGLONGINT || type == TYPE_ULONGLONGINT)
tmp_length =
(unsigned int) (sizeof (unsigned long long) * CHAR_BIT
* 0.333334 /* binary -> octal */
)
+ 1; /* turn floor into ceil */
else
# endif
if (type == TYPE_LONGINT || type == TYPE_ULONGINT)
tmp_length =
(unsigned int) (sizeof (unsigned long) * CHAR_BIT
* 0.333334 /* binary -> octal */
)
+ 1; /* turn floor into ceil */
else
tmp_length =
(unsigned int) (sizeof (unsigned int) * CHAR_BIT
* 0.333334 /* binary -> octal */
)
+ 1; /* turn floor into ceil */
if (tmp_length < precision)
tmp_length = precision;
/* Add 1, to account for a leading sign. */
tmp_length = xsum (tmp_length, 1);
break;
case 'x': case 'X':
# if HAVE_LONG_LONG_INT
if (type == TYPE_LONGLONGINT || type == TYPE_ULONGLONGINT)
tmp_length =
(unsigned int) (sizeof (unsigned long long) * CHAR_BIT
* 0.25 /* binary -> hexadecimal */
)
+ 1; /* turn floor into ceil */
else
# endif
if (type == TYPE_LONGINT || type == TYPE_ULONGINT)
tmp_length =
(unsigned int) (sizeof (unsigned long) * CHAR_BIT
* 0.25 /* binary -> hexadecimal */
)
+ 1; /* turn floor into ceil */
else
tmp_length =
(unsigned int) (sizeof (unsigned int) * CHAR_BIT
* 0.25 /* binary -> hexadecimal */
)
+ 1; /* turn floor into ceil */
if (tmp_length < precision)
tmp_length = precision;
/* Add 2, to account for a leading sign or alternate form. */
tmp_length = xsum (tmp_length, 2);
break;
case 'f': case 'F':
if (type == TYPE_LONGDOUBLE)
tmp_length =
(unsigned int) (LDBL_MAX_EXP
* 0.30103 /* binary -> decimal */
* 2 /* estimate for FLAG_GROUP */
)
+ 1 /* turn floor into ceil */
+ 10; /* sign, decimal point etc. */
else
tmp_length =
(unsigned int) (DBL_MAX_EXP
* 0.30103 /* binary -> decimal */
* 2 /* estimate for FLAG_GROUP */
)
+ 1 /* turn floor into ceil */
+ 10; /* sign, decimal point etc. */
tmp_length = xsum (tmp_length, precision);
break;
case 'e': case 'E': case 'g': case 'G':
tmp_length =
12; /* sign, decimal point, exponent etc. */
tmp_length = xsum (tmp_length, precision);
break;
case 'a': case 'A':
if (type == TYPE_LONGDOUBLE)
tmp_length =
(unsigned int) (LDBL_DIG
* 0.831 /* decimal -> hexadecimal */
)
+ 1; /* turn floor into ceil */
else
tmp_length =
(unsigned int) (DBL_DIG
* 0.831 /* decimal -> hexadecimal */
)
+ 1; /* turn floor into ceil */
if (tmp_length < precision)
tmp_length = precision;
/* Account for sign, decimal point etc. */
tmp_length = xsum (tmp_length, 12);
break;
case 'c':
# if HAVE_WINT_T && !WIDE_CHAR_VERSION
if (type == TYPE_WIDE_CHAR)
tmp_length = MB_CUR_MAX;
else
# endif
tmp_length = 1;
break;
case 's':
# if HAVE_WCHAR_T
if (type == TYPE_WIDE_STRING)
{
# if WIDE_CHAR_VERSION
/* ISO C says about %ls in fwprintf:
"If the precision is not specified or is greater than the size
of the array, the array shall contain a null wide character."
So if there is a precision, we must not use wcslen. */
const wchar_t *arg = ap->arg[arg_index].a.a_wide_string;
if (has_precision)
tmp_length = local_wcsnlen (arg, precision);
else
tmp_length = local_wcslen (arg);
# else
/* ISO C says about %ls in fprintf:
"If a precision is specified, no more than that many bytes are
written (including shift sequences, if any), and the array
shall contain a null wide character if, to equal the multibyte
character sequence length given by the precision, the function
would need to access a wide character one past the end of the
array."
So if there is a precision, we must not use wcslen. */
/* This case has already been handled separately in VASNPRINTF. */
abort ();
# endif
}
else
# endif
{
# if WIDE_CHAR_VERSION
/* ISO C says about %s in fwprintf:
"If the precision is not specified or is greater than the size
of the converted array, the converted array shall contain a
null wide character."
So if there is a precision, we must not use strlen. */
/* This case has already been handled separately in VASNPRINTF. */
abort ();
# else
/* ISO C says about %s in fprintf:
"If the precision is not specified or greater than the size of
the array, the array shall contain a null character."
So if there is a precision, we must not use strlen. */
const char *arg = ap->arg[arg_index].a.a_string;
if (has_precision)
tmp_length = local_strnlen (arg, precision);
else
tmp_length = strlen (arg);
# endif
}
break;
case 'p':
tmp_length =
(unsigned int) (sizeof (void *) * CHAR_BIT
* 0.25 /* binary -> hexadecimal */
)
+ 1 /* turn floor into ceil */
+ 2; /* account for leading 0x */
break;
default:
abort ();
}
if (!pad_ourselves)
{
# if ENABLE_UNISTDIO
/* Padding considers the number of characters, therefore the number of
elements after padding may be
> max (tmp_length, width)
but is certainly
<= tmp_length + width. */
tmp_length = xsum (tmp_length, width);
# else
/* Padding considers the number of elements, says POSIX. */
if (tmp_length < width)
tmp_length = width;
# endif
}
tmp_length = xsum (tmp_length, 1); /* account for trailing NUL */
return tmp_length;
}
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
DCHAR_T *
VASNPRINTF (DCHAR_T *resultbuf, size_t *lengthp,
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
const FCHAR_T *format, va_list args)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
{
DIRECTIVES d;
arguments a;
if (PRINTF_PARSE (format, &d, &a) < 0)
/* errno is already set. */
return NULL;
#define CLEANUP() \
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
if (d.dir != d.direct_alloc_dir) \
free (d.dir); \
if (a.arg != a.direct_alloc_arg) \
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
free (a.arg);
if (PRINTF_FETCHARGS (args, &a) < 0)
{
CLEANUP ();
errno = EINVAL;
return NULL;
}
{
size_t buf_neededlength;
TCHAR_T *buf;
TCHAR_T *buf_malloced;
const FCHAR_T *cp;
size_t i;
DIRECTIVE *dp;
/* Output string accumulator. */
DCHAR_T *result;
size_t allocated;
size_t length;
/* Allocate a small buffer that will hold a directive passed to
sprintf or snprintf. */
buf_neededlength =
xsum4 (7, d.max_width_length, d.max_precision_length, 6);
#if HAVE_ALLOCA
if (buf_neededlength < 4000 / sizeof (TCHAR_T))
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
buf = (TCHAR_T *) alloca (buf_neededlength * sizeof (TCHAR_T));
buf_malloced = NULL;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
else
#endif
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
size_t buf_memsize = xtimes (buf_neededlength, sizeof (TCHAR_T));
if (size_overflow_p (buf_memsize))
goto out_of_memory_1;
buf = (TCHAR_T *) malloc (buf_memsize);
if (buf == NULL)
goto out_of_memory_1;
buf_malloced = buf;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
if (resultbuf != NULL)
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
result = resultbuf;
allocated = *lengthp;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
else
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
result = NULL;
allocated = 0;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
length = 0;
/* Invariants:
result is either == resultbuf or == NULL or malloc-allocated.
If length > 0, then result != NULL. */
/* Ensures that allocated >= needed. Aborts through a jump to
out_of_memory if needed is SIZE_MAX or otherwise too big. */
#define ENSURE_ALLOCATION(needed) \
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if ((needed) > allocated) \
{ \
size_t memory_size; \
DCHAR_T *memory; \
\
allocated = (allocated > 0 ? xtimes (allocated, 2) : 12); \
if ((needed) > allocated) \
allocated = (needed); \
memory_size = xtimes (allocated, sizeof (DCHAR_T)); \
if (size_overflow_p (memory_size)) \
goto out_of_memory; \
if (result == resultbuf || result == NULL) \
memory = (DCHAR_T *) malloc (memory_size); \
else \
memory = (DCHAR_T *) realloc (result, memory_size); \
if (memory == NULL) \
goto out_of_memory; \
if (result == resultbuf && length > 0) \
DCHAR_CPY (memory, result, length); \
result = memory; \
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
}
for (cp = format, i = 0, dp = &d.dir[0]; ; cp = dp->dir_end, i++, dp++)
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (cp != dp->dir_start)
{
size_t n = dp->dir_start - cp;
size_t augmented_length = xsum (length, n);
ENSURE_ALLOCATION (augmented_length);
/* This copies a piece of FCHAR_T[] into a DCHAR_T[]. Here we
need that the format string contains only ASCII characters
if FCHAR_T and DCHAR_T are not the same type. */
if (sizeof (FCHAR_T) == sizeof (DCHAR_T))
{
DCHAR_CPY (result + length, (const DCHAR_T *) cp, n);
length = augmented_length;
}
else
{
do
result[length++] = (unsigned char) *cp++;
while (--n > 0);
}
}
if (i == d.count)
break;
/* Execute a single directive. */
if (dp->conversion == '%')
{
size_t augmented_length;
if (!(dp->arg_index == ARG_NONE))
abort ();
augmented_length = xsum (length, 1);
ENSURE_ALLOCATION (augmented_length);
result[length] = '%';
length = augmented_length;
}
else
{
if (!(dp->arg_index != ARG_NONE))
abort ();
if (dp->conversion == 'n')
{
switch (a.arg[dp->arg_index].type)
{
case TYPE_COUNT_SCHAR_POINTER:
*a.arg[dp->arg_index].a.a_count_schar_pointer = length;
break;
case TYPE_COUNT_SHORT_POINTER:
*a.arg[dp->arg_index].a.a_count_short_pointer = length;
break;
case TYPE_COUNT_INT_POINTER:
*a.arg[dp->arg_index].a.a_count_int_pointer = length;
break;
case TYPE_COUNT_LONGINT_POINTER:
*a.arg[dp->arg_index].a.a_count_longint_pointer = length;
break;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_LONG_LONG_INT
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_COUNT_LONGLONGINT_POINTER:
*a.arg[dp->arg_index].a.a_count_longlongint_pointer = length;
break;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
default:
abort ();
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if ENABLE_UNISTDIO
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The unistdio extensions. */
else if (dp->conversion == 'U')
{
arg_type type = a.arg[dp->arg_index].type;
int flags = dp->flags;
int has_width;
size_t width;
int has_precision;
size_t precision;
has_width = 0;
width = 0;
if (dp->width_start != dp->width_end)
{
if (dp->width_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->width_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->width_arg_index].a.a_int;
if (arg < 0)
{
/* "A negative field width is taken as a '-' flag
followed by a positive field width." */
flags |= FLAG_LEFT;
width = (unsigned int) (-arg);
}
else
width = arg;
}
else
{
const FCHAR_T *digitp = dp->width_start;
do
width = xsum (xtimes (width, 10), *digitp++ - '0');
while (digitp != dp->width_end);
}
has_width = 1;
}
has_precision = 0;
precision = 0;
if (dp->precision_start != dp->precision_end)
{
if (dp->precision_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->precision_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->precision_arg_index].a.a_int;
/* "A negative precision is taken as if the precision
were omitted." */
if (arg >= 0)
{
precision = arg;
has_precision = 1;
}
}
else
{
const FCHAR_T *digitp = dp->precision_start + 1;
precision = 0;
while (digitp != dp->precision_end)
precision = xsum (xtimes (precision, 10), *digitp++ - '0');
has_precision = 1;
}
}
switch (type)
{
case TYPE_U8_STRING:
{
const uint8_t *arg = a.arg[dp->arg_index].a.a_u8_string;
const uint8_t *arg_end;
size_t characters;
if (has_precision)
{
/* Use only PRECISION characters, from the left. */
arg_end = arg;
characters = 0;
for (; precision > 0; precision--)
{
int count = u8_strmblen (arg_end);
if (count == 0)
break;
if (count < 0)
{
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else if (has_width)
{
/* Use the entire string, and count the number of
characters. */
arg_end = arg;
characters = 0;
for (;;)
{
int count = u8_strmblen (arg_end);
if (count == 0)
break;
if (count < 0)
{
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else
{
/* Use the entire string. */
arg_end = arg + u8_strlen (arg);
/* The number of characters doesn't matter. */
characters = 0;
}
if (has_width && width > characters
&& !(dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if DCHAR_IS_UINT8_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
size_t n = arg_end - arg;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_CPY (result + length, arg, n);
length += n;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ /* Convert. */
DCHAR_T *converted = result + length;
size_t converted_len = allocated - length;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from UTF-8 to locale encoding. */
converted =
u8_conv_to_encoding (locale_charset (),
iconveh_question_mark,
arg, arg_end - arg, NULL,
converted, &converted_len);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from UTF-8 to UTF-16/UTF-32. */
converted =
U8_TO_DCHAR (arg, arg_end - arg,
converted, &converted_len);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (converted == NULL)
{
int saved_errno = errno;
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = saved_errno;
return NULL;
}
if (converted != result + length)
{
ENSURE_ALLOCATION (xsum (length, converted_len));
DCHAR_CPY (result + length, converted, converted_len);
free (converted);
}
length += converted_len;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (has_width && width > characters
&& (dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
}
break;
case TYPE_U16_STRING:
{
const uint16_t *arg = a.arg[dp->arg_index].a.a_u16_string;
const uint16_t *arg_end;
size_t characters;
if (has_precision)
{
/* Use only PRECISION characters, from the left. */
arg_end = arg;
characters = 0;
for (; precision > 0; precision--)
{
int count = u16_strmblen (arg_end);
if (count == 0)
break;
if (count < 0)
{
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else if (has_width)
{
/* Use the entire string, and count the number of
characters. */
arg_end = arg;
characters = 0;
for (;;)
{
int count = u16_strmblen (arg_end);
if (count == 0)
break;
if (count < 0)
{
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else
{
/* Use the entire string. */
arg_end = arg + u16_strlen (arg);
/* The number of characters doesn't matter. */
characters = 0;
}
if (has_width && width > characters
&& !(dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if DCHAR_IS_UINT16_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
size_t n = arg_end - arg;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_CPY (result + length, arg, n);
length += n;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ /* Convert. */
DCHAR_T *converted = result + length;
size_t converted_len = allocated - length;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from UTF-16 to locale encoding. */
converted =
u16_conv_to_encoding (locale_charset (),
iconveh_question_mark,
arg, arg_end - arg, NULL,
converted, &converted_len);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from UTF-16 to UTF-8/UTF-32. */
converted =
U16_TO_DCHAR (arg, arg_end - arg,
converted, &converted_len);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (converted == NULL)
{
int saved_errno = errno;
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = saved_errno;
return NULL;
}
if (converted != result + length)
{
ENSURE_ALLOCATION (xsum (length, converted_len));
DCHAR_CPY (result + length, converted, converted_len);
free (converted);
}
length += converted_len;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (has_width && width > characters
&& (dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
}
break;
case TYPE_U32_STRING:
{
const uint32_t *arg = a.arg[dp->arg_index].a.a_u32_string;
const uint32_t *arg_end;
size_t characters;
if (has_precision)
{
/* Use only PRECISION characters, from the left. */
arg_end = arg;
characters = 0;
for (; precision > 0; precision--)
{
int count = u32_strmblen (arg_end);
if (count == 0)
break;
if (count < 0)
{
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else if (has_width)
{
/* Use the entire string, and count the number of
characters. */
arg_end = arg;
characters = 0;
for (;;)
{
int count = u32_strmblen (arg_end);
if (count == 0)
break;
if (count < 0)
{
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else
{
/* Use the entire string. */
arg_end = arg + u32_strlen (arg);
/* The number of characters doesn't matter. */
characters = 0;
}
if (has_width && width > characters
&& !(dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if DCHAR_IS_UINT32_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
size_t n = arg_end - arg;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_CPY (result + length, arg, n);
length += n;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ /* Convert. */
DCHAR_T *converted = result + length;
size_t converted_len = allocated - length;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from UTF-32 to locale encoding. */
converted =
u32_conv_to_encoding (locale_charset (),
iconveh_question_mark,
arg, arg_end - arg, NULL,
converted, &converted_len);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from UTF-32 to UTF-8/UTF-16. */
converted =
U32_TO_DCHAR (arg, arg_end - arg,
converted, &converted_len);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (converted == NULL)
{
int saved_errno = errno;
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = saved_errno;
return NULL;
}
if (converted != result + length)
{
ENSURE_ALLOCATION (xsum (length, converted_len));
DCHAR_CPY (result + length, converted, converted_len);
free (converted);
}
length += converted_len;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (has_width && width > characters
&& (dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
}
break;
default:
abort ();
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#if (!USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99 || (NEED_PRINTF_DIRECTIVE_LS && !defined IN_LIBINTL)) && HAVE_WCHAR_T
else if (dp->conversion == 's'
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
&& a.arg[dp->arg_index].type != TYPE_WIDE_STRING
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
&& a.arg[dp->arg_index].type == TYPE_WIDE_STRING
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
)
{
/* The normal handling of the 's' directive below requires
allocating a temporary buffer. The determination of its
length (tmp_length), in the case when a precision is
specified, below requires a conversion between a char[]
string and a wchar_t[] wide string. It could be done, but
we have no guarantee that the implementation of sprintf will
use the exactly same algorithm. Without this guarantee, it
is possible to have buffer overrun bugs. In order to avoid
such bugs, we implement the entire processing of the 's'
directive ourselves. */
int flags = dp->flags;
int has_width;
size_t width;
int has_precision;
size_t precision;
has_width = 0;
width = 0;
if (dp->width_start != dp->width_end)
{
if (dp->width_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->width_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->width_arg_index].a.a_int;
if (arg < 0)
{
/* "A negative field width is taken as a '-' flag
followed by a positive field width." */
flags |= FLAG_LEFT;
width = (unsigned int) (-arg);
}
else
width = arg;
}
else
{
const FCHAR_T *digitp = dp->width_start;
do
width = xsum (xtimes (width, 10), *digitp++ - '0');
while (digitp != dp->width_end);
}
has_width = 1;
}
has_precision = 0;
precision = 6;
if (dp->precision_start != dp->precision_end)
{
if (dp->precision_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->precision_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->precision_arg_index].a.a_int;
/* "A negative precision is taken as if the precision
were omitted." */
if (arg >= 0)
{
precision = arg;
has_precision = 1;
}
}
else
{
const FCHAR_T *digitp = dp->precision_start + 1;
precision = 0;
while (digitp != dp->precision_end)
precision = xsum (xtimes (precision, 10), *digitp++ - '0');
has_precision = 1;
}
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* %s in vasnwprintf. See the specification of fwprintf. */
{
const char *arg = a.arg[dp->arg_index].a.a_string;
const char *arg_end;
size_t characters;
if (has_precision)
{
/* Use only as many bytes as needed to produce PRECISION
wide characters, from the left. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
arg_end = arg;
characters = 0;
for (; precision > 0; precision--)
{
int count;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mbrlen (arg_end, MB_CUR_MAX, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mblen (arg_end, MB_CUR_MAX);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count == 0)
/* Found the terminating NUL. */
break;
if (count < 0)
{
/* Invalid or incomplete multibyte character. */
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else if (has_width)
{
/* Use the entire string, and count the number of wide
characters. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
arg_end = arg;
characters = 0;
for (;;)
{
int count;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mbrlen (arg_end, MB_CUR_MAX, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mblen (arg_end, MB_CUR_MAX);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count == 0)
/* Found the terminating NUL. */
break;
if (count < 0)
{
/* Invalid or incomplete multibyte character. */
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end += count;
characters++;
}
}
else
{
/* Use the entire string. */
arg_end = arg + strlen (arg);
/* The number of characters doesn't matter. */
characters = 0;
}
if (has_width && width > characters
&& !(dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
if (has_precision || has_width)
{
/* We know the number of wide characters in advance. */
size_t remaining;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
ENSURE_ALLOCATION (xsum (length, characters));
for (remaining = characters; remaining > 0; remaining--)
{
wchar_t wc;
int count;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mbrtowc (&wc, arg, arg_end - arg, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mbtowc (&wc, arg, arg_end - arg);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count <= 0)
/* mbrtowc not consistent with mbrlen, or mbtowc
not consistent with mblen. */
abort ();
result[length++] = wc;
arg += count;
}
if (!(arg == arg_end))
abort ();
}
else
{
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
while (arg < arg_end)
{
wchar_t wc;
int count;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if HAVE_MBRTOWC
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mbrtowc (&wc, arg, arg_end - arg, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = mbtowc (&wc, arg, arg_end - arg);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count <= 0)
/* mbrtowc not consistent with mbrlen, or mbtowc
not consistent with mblen. */
abort ();
ENSURE_ALLOCATION (xsum (length, 1));
result[length++] = wc;
arg += count;
}
}
if (has_width && width > characters
&& (dp->flags & FLAG_LEFT))
{
size_t n = width - characters;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* %ls in vasnprintf. See the specification of fprintf. */
{
const wchar_t *arg = a.arg[dp->arg_index].a.a_wide_string;
const wchar_t *arg_end;
size_t characters;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if !DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* This code assumes that TCHAR_T is 'char'. */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
verify (sizeof (TCHAR_T) == 1);
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
TCHAR_T *tmpsrc;
DCHAR_T *tmpdst;
size_t tmpdst_len;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
size_t w;
if (has_precision)
{
/* Use only as many wide characters as needed to produce
at most PRECISION bytes, from the left. */
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
arg_end = arg;
characters = 0;
while (precision > 0)
{
char cbuf[64]; /* Assume MB_CUR_MAX <= 64. */
int count;
if (*arg_end == 0)
/* Found the terminating null wide character. */
break;
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
count = wcrtomb (cbuf, *arg_end, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = wctomb (cbuf, *arg_end);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count < 0)
{
/* Cannot convert. */
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
if (precision < count)
break;
arg_end++;
characters += count;
precision -= count;
}
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else if (has_width)
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
/* Use the entire string, and count the number of
bytes. */
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
arg_end = arg;
characters = 0;
for (;;)
{
char cbuf[64]; /* Assume MB_CUR_MAX <= 64. */
int count;
if (*arg_end == 0)
/* Found the terminating null wide character. */
break;
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
count = wcrtomb (cbuf, *arg_end, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = wctomb (cbuf, *arg_end);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count < 0)
{
/* Cannot convert. */
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
arg_end++;
characters += count;
}
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else
{
/* Use the entire string. */
arg_end = arg + local_wcslen (arg);
/* The number of bytes doesn't matter. */
characters = 0;
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
# if !DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert the string into a piece of temporary memory. */
tmpsrc = (TCHAR_T *) malloc (characters * sizeof (TCHAR_T));
if (tmpsrc == NULL)
goto out_of_memory;
{
TCHAR_T *tmpptr = tmpsrc;
size_t remaining;
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
for (remaining = characters; remaining > 0; )
{
char cbuf[64]; /* Assume MB_CUR_MAX <= 64. */
int count;
if (*arg == 0)
abort ();
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
count = wcrtomb (cbuf, *arg, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = wctomb (cbuf, *arg);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count <= 0)
/* Inconsistency. */
abort ();
memcpy (tmpptr, cbuf, count);
tmpptr += count;
arg++;
remaining -= count;
}
if (!(arg == arg_end))
abort ();
}
/* Convert from TCHAR_T[] to DCHAR_T[]. */
tmpdst =
DCHAR_CONV_FROM_ENCODING (locale_charset (),
iconveh_question_mark,
tmpsrc, characters,
NULL,
NULL, &tmpdst_len);
if (tmpdst == NULL)
{
int saved_errno = errno;
free (tmpsrc);
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = saved_errno;
return NULL;
}
free (tmpsrc);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (has_width)
{
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if ENABLE_UNISTDIO
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* Outside POSIX, it's preferable to compare the width
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
against the number of _characters_ of the converted
value. */
w = DCHAR_MBSNLEN (result + length, characters);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The width is compared against the number of _bytes_
of the converted value, says POSIX. */
w = characters;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
else
/* w doesn't matter. */
w = 0;
if (has_width && width > w
&& !(dp->flags & FLAG_LEFT))
{
size_t n = width - w;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (has_precision || has_width)
{
/* We know the number of bytes in advance. */
size_t remaining;
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
ENSURE_ALLOCATION (xsum (length, characters));
for (remaining = characters; remaining > 0; )
{
char cbuf[64]; /* Assume MB_CUR_MAX <= 64. */
int count;
if (*arg == 0)
abort ();
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
count = wcrtomb (cbuf, *arg, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = wctomb (cbuf, *arg);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count <= 0)
/* Inconsistency. */
abort ();
memcpy (result + length, cbuf, count);
length += count;
arg++;
remaining -= count;
}
if (!(arg == arg_end))
abort ();
}
else
{
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
mbstate_t state;
memset (&state, '\0', sizeof (mbstate_t));
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
while (arg < arg_end)
{
char cbuf[64]; /* Assume MB_CUR_MAX <= 64. */
int count;
if (*arg == 0)
abort ();
# if HAVE_WCRTOMB && !defined GNULIB_defined_mbstate_t
count = wcrtomb (cbuf, *arg, &state);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count = wctomb (cbuf, *arg);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count <= 0)
{
/* Cannot convert. */
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EILSEQ;
return NULL;
}
ENSURE_ALLOCATION (xsum (length, count));
memcpy (result + length, cbuf, count);
length += count;
arg++;
}
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
ENSURE_ALLOCATION (xsum (length, tmpdst_len));
DCHAR_CPY (result + length, tmpdst, tmpdst_len);
free (tmpdst);
length += tmpdst_len;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (has_width && width > w
&& (dp->flags & FLAG_LEFT))
{
size_t n = width - w;
ENSURE_ALLOCATION (xsum (length, n));
DCHAR_SET (result + length, ' ', n);
length += n;
}
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if (NEED_PRINTF_DIRECTIVE_A || NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_DOUBLE) && !defined IN_LIBINTL
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else if ((dp->conversion == 'a' || dp->conversion == 'A')
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if !(NEED_PRINTF_DIRECTIVE_A || (NEED_PRINTF_LONG_DOUBLE && NEED_PRINTF_DOUBLE))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
&& (0
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
|| a.arg[dp->arg_index].type == TYPE_DOUBLE
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
# if NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
|| a.arg[dp->arg_index].type == TYPE_LONGDOUBLE
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
)
{
arg_type type = a.arg[dp->arg_index].type;
int flags = dp->flags;
int has_width;
size_t width;
int has_precision;
size_t precision;
size_t tmp_length;
DCHAR_T tmpbuf[700];
DCHAR_T *tmp;
DCHAR_T *pad_ptr;
DCHAR_T *p;
has_width = 0;
width = 0;
if (dp->width_start != dp->width_end)
{
if (dp->width_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->width_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->width_arg_index].a.a_int;
if (arg < 0)
{
/* "A negative field width is taken as a '-' flag
followed by a positive field width." */
flags |= FLAG_LEFT;
width = (unsigned int) (-arg);
}
else
width = arg;
}
else
{
const FCHAR_T *digitp = dp->width_start;
do
width = xsum (xtimes (width, 10), *digitp++ - '0');
while (digitp != dp->width_end);
}
has_width = 1;
}
has_precision = 0;
precision = 0;
if (dp->precision_start != dp->precision_end)
{
if (dp->precision_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->precision_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->precision_arg_index].a.a_int;
/* "A negative precision is taken as if the precision
were omitted." */
if (arg >= 0)
{
precision = arg;
has_precision = 1;
}
}
else
{
const FCHAR_T *digitp = dp->precision_start + 1;
precision = 0;
while (digitp != dp->precision_end)
precision = xsum (xtimes (precision, 10), *digitp++ - '0');
has_precision = 1;
}
}
/* Allocate a temporary buffer of sufficient size. */
if (type == TYPE_LONGDOUBLE)
tmp_length =
(unsigned int) ((LDBL_DIG + 1)
* 0.831 /* decimal -> hexadecimal */
)
+ 1; /* turn floor into ceil */
else
tmp_length =
(unsigned int) ((DBL_DIG + 1)
* 0.831 /* decimal -> hexadecimal */
)
+ 1; /* turn floor into ceil */
if (tmp_length < precision)
tmp_length = precision;
/* Account for sign, decimal point etc. */
tmp_length = xsum (tmp_length, 12);
if (tmp_length < width)
tmp_length = width;
tmp_length = xsum (tmp_length, 1); /* account for trailing NUL */
if (tmp_length <= sizeof (tmpbuf) / sizeof (DCHAR_T))
tmp = tmpbuf;
else
{
size_t tmp_memsize = xtimes (tmp_length, sizeof (DCHAR_T));
if (size_overflow_p (tmp_memsize))
/* Overflow, would lead to out of memory. */
goto out_of_memory;
tmp = (DCHAR_T *) malloc (tmp_memsize);
if (tmp == NULL)
/* Out of memory. */
goto out_of_memory;
}
pad_ptr = NULL;
p = tmp;
if (type == TYPE_LONGDOUBLE)
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DIRECTIVE_A || NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
long double arg = a.arg[dp->arg_index].a.a_longdouble;
if (isnanl (arg))
{
if (dp->conversion == 'A')
{
*p++ = 'N'; *p++ = 'A'; *p++ = 'N';
}
else
{
*p++ = 'n'; *p++ = 'a'; *p++ = 'n';
}
}
else
{
int sign = 0;
DECL_LONG_DOUBLE_ROUNDING
BEGIN_LONG_DOUBLE_ROUNDING ();
if (signbit (arg)) /* arg < 0.0L or negative zero */
{
sign = -1;
arg = -arg;
}
if (sign < 0)
*p++ = '-';
else if (flags & FLAG_SHOWSIGN)
*p++ = '+';
else if (flags & FLAG_SPACE)
*p++ = ' ';
if (arg > 0.0L && arg + arg == arg)
{
if (dp->conversion == 'A')
{
*p++ = 'I'; *p++ = 'N'; *p++ = 'F';
}
else
{
*p++ = 'i'; *p++ = 'n'; *p++ = 'f';
}
}
else
{
int exponent;
long double mantissa;
if (arg > 0.0L)
mantissa = printf_frexpl (arg, &exponent);
else
{
exponent = 0;
mantissa = 0.0L;
}
if (has_precision
&& precision < (unsigned int) ((LDBL_DIG + 1) * 0.831) + 1)
{
/* Round the mantissa. */
long double tail = mantissa;
size_t q;
for (q = precision; ; q--)
{
int digit = (int) tail;
tail -= digit;
if (q == 0)
{
if (digit & 1 ? tail >= 0.5L : tail > 0.5L)
tail = 1 - tail;
else
tail = - tail;
break;
}
tail *= 16.0L;
}
if (tail != 0.0L)
for (q = precision; q > 0; q--)
tail *= 0.0625L;
mantissa += tail;
}
*p++ = '0';
*p++ = dp->conversion - 'A' + 'X';
pad_ptr = p;
{
int digit;
digit = (int) mantissa;
mantissa -= digit;
*p++ = '0' + digit;
if ((flags & FLAG_ALT)
|| mantissa > 0.0L || precision > 0)
{
*p++ = decimal_point_char ();
/* This loop terminates because we assume
that FLT_RADIX is a power of 2. */
while (mantissa > 0.0L)
{
mantissa *= 16.0L;
digit = (int) mantissa;
mantissa -= digit;
*p++ = digit
+ (digit < 10
? '0'
: dp->conversion - 10);
if (precision > 0)
precision--;
}
while (precision > 0)
{
*p++ = '0';
precision--;
}
}
}
*p++ = dp->conversion - 'A' + 'P';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const wchar_t decimal_format[] =
{ '%', '+', 'd', '\0' };
SNPRINTF (p, 6 + 1, decimal_format, exponent);
}
while (*p != '\0')
p++;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (sizeof (DCHAR_T) == 1)
{
sprintf ((char *) p, "%+d", exponent);
while (*p != '\0')
p++;
}
else
{
char expbuf[6 + 1];
const char *ep;
sprintf (expbuf, "%+d", exponent);
for (ep = expbuf; (*p = *ep) != '\0'; ep++)
p++;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
END_LONG_DOUBLE_ROUNDING ();
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
else
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DIRECTIVE_A || NEED_PRINTF_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
double arg = a.arg[dp->arg_index].a.a_double;
if (isnand (arg))
{
if (dp->conversion == 'A')
{
*p++ = 'N'; *p++ = 'A'; *p++ = 'N';
}
else
{
*p++ = 'n'; *p++ = 'a'; *p++ = 'n';
}
}
else
{
int sign = 0;
if (signbit (arg)) /* arg < 0.0 or negative zero */
{
sign = -1;
arg = -arg;
}
if (sign < 0)
*p++ = '-';
else if (flags & FLAG_SHOWSIGN)
*p++ = '+';
else if (flags & FLAG_SPACE)
*p++ = ' ';
if (arg > 0.0 && arg + arg == arg)
{
if (dp->conversion == 'A')
{
*p++ = 'I'; *p++ = 'N'; *p++ = 'F';
}
else
{
*p++ = 'i'; *p++ = 'n'; *p++ = 'f';
}
}
else
{
int exponent;
double mantissa;
if (arg > 0.0)
mantissa = printf_frexp (arg, &exponent);
else
{
exponent = 0;
mantissa = 0.0;
}
if (has_precision
&& precision < (unsigned int) ((DBL_DIG + 1) * 0.831) + 1)
{
/* Round the mantissa. */
double tail = mantissa;
size_t q;
for (q = precision; ; q--)
{
int digit = (int) tail;
tail -= digit;
if (q == 0)
{
if (digit & 1 ? tail >= 0.5 : tail > 0.5)
tail = 1 - tail;
else
tail = - tail;
break;
}
tail *= 16.0;
}
if (tail != 0.0)
for (q = precision; q > 0; q--)
tail *= 0.0625;
mantissa += tail;
}
*p++ = '0';
*p++ = dp->conversion - 'A' + 'X';
pad_ptr = p;
{
int digit;
digit = (int) mantissa;
mantissa -= digit;
*p++ = '0' + digit;
if ((flags & FLAG_ALT)
|| mantissa > 0.0 || precision > 0)
{
*p++ = decimal_point_char ();
/* This loop terminates because we assume
that FLT_RADIX is a power of 2. */
while (mantissa > 0.0)
{
mantissa *= 16.0;
digit = (int) mantissa;
mantissa -= digit;
*p++ = digit
+ (digit < 10
? '0'
: dp->conversion - 10);
if (precision > 0)
precision--;
}
while (precision > 0)
{
*p++ = '0';
precision--;
}
}
}
*p++ = dp->conversion - 'A' + 'P';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const wchar_t decimal_format[] =
{ '%', '+', 'd', '\0' };
SNPRINTF (p, 6 + 1, decimal_format, exponent);
}
while (*p != '\0')
p++;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (sizeof (DCHAR_T) == 1)
{
sprintf ((char *) p, "%+d", exponent);
while (*p != '\0')
p++;
}
else
{
char expbuf[6 + 1];
const char *ep;
sprintf (expbuf, "%+d", exponent);
for (ep = expbuf; (*p = *ep) != '\0'; ep++)
p++;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
/* The generated string now extends from tmp to p, with the
zero padding insertion point being at pad_ptr. */
if (has_width && p - tmp < width)
{
size_t pad = width - (p - tmp);
DCHAR_T *end = p + pad;
if (flags & FLAG_LEFT)
{
/* Pad with spaces on the right. */
for (; pad > 0; pad--)
*p++ = ' ';
}
else if ((flags & FLAG_ZERO) && pad_ptr != NULL)
{
/* Pad with zeroes. */
DCHAR_T *q = end;
while (p > pad_ptr)
*--q = *--p;
for (; pad > 0; pad--)
*p++ = '0';
}
else
{
/* Pad with spaces on the left. */
DCHAR_T *q = end;
while (p > tmp)
*--q = *--p;
for (; pad > 0; pad--)
*p++ = ' ';
}
p = end;
}
{
size_t count = p - tmp;
if (count >= tmp_length)
/* tmp_length was incorrectly calculated - fix the
code above! */
abort ();
/* Make room for the result. */
if (count >= allocated - length)
{
size_t n = xsum (length, count);
ENSURE_ALLOCATION (n);
}
/* Append the result. */
memcpy (result + length, tmp, count * sizeof (DCHAR_T));
if (tmp != tmpbuf)
free (tmp);
length += count;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
#if (NEED_PRINTF_INFINITE_DOUBLE || NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_LONG_DOUBLE || NEED_PRINTF_LONG_DOUBLE) && !defined IN_LIBINTL
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else if ((dp->conversion == 'f' || dp->conversion == 'F'
|| dp->conversion == 'e' || dp->conversion == 'E'
|| dp->conversion == 'g' || dp->conversion == 'G'
|| dp->conversion == 'a' || dp->conversion == 'A')
&& (0
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
|| a.arg[dp->arg_index].type == TYPE_DOUBLE
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# elif NEED_PRINTF_INFINITE_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
|| (a.arg[dp->arg_index].type == TYPE_DOUBLE
/* The systems (mingw) which produce wrong output
for Inf, -Inf, and NaN also do so for -0.0.
Therefore we treat this case here as well. */
&& is_infinite_or_zero (a.arg[dp->arg_index].a.a_double))
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
# if NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
|| a.arg[dp->arg_index].type == TYPE_LONGDOUBLE
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# elif NEED_PRINTF_INFINITE_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
|| (a.arg[dp->arg_index].type == TYPE_LONGDOUBLE
/* Some systems produce wrong output for Inf,
-Inf, and NaN. Some systems in this category
(IRIX 5.3) also do so for -0.0. Therefore we
treat this case here as well. */
&& is_infinite_or_zerol (a.arg[dp->arg_index].a.a_longdouble))
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
))
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE) && (NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_INFINITE_LONG_DOUBLE)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
arg_type type = a.arg[dp->arg_index].type;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
int flags = dp->flags;
int has_width;
size_t width;
int has_precision;
size_t precision;
size_t tmp_length;
DCHAR_T tmpbuf[700];
DCHAR_T *tmp;
DCHAR_T *pad_ptr;
DCHAR_T *p;
has_width = 0;
width = 0;
if (dp->width_start != dp->width_end)
{
if (dp->width_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->width_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->width_arg_index].a.a_int;
if (arg < 0)
{
/* "A negative field width is taken as a '-' flag
followed by a positive field width." */
flags |= FLAG_LEFT;
width = (unsigned int) (-arg);
}
else
width = arg;
}
else
{
const FCHAR_T *digitp = dp->width_start;
do
width = xsum (xtimes (width, 10), *digitp++ - '0');
while (digitp != dp->width_end);
}
has_width = 1;
}
has_precision = 0;
precision = 0;
if (dp->precision_start != dp->precision_end)
{
if (dp->precision_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->precision_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->precision_arg_index].a.a_int;
/* "A negative precision is taken as if the precision
were omitted." */
if (arg >= 0)
{
precision = arg;
has_precision = 1;
}
}
else
{
const FCHAR_T *digitp = dp->precision_start + 1;
precision = 0;
while (digitp != dp->precision_end)
precision = xsum (xtimes (precision, 10), *digitp++ - '0');
has_precision = 1;
}
}
/* POSIX specifies the default precision to be 6 for %f, %F,
%e, %E, but not for %g, %G. Implementations appear to use
the same default precision also for %g, %G. But for %a, %A,
the default precision is 0. */
if (!has_precision)
if (!(dp->conversion == 'a' || dp->conversion == 'A'))
precision = 6;
/* Allocate a temporary buffer of sufficient size. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DOUBLE && NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp_length = (type == TYPE_LONGDOUBLE ? LDBL_DIG + 1 : DBL_DIG + 1);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# elif NEED_PRINTF_INFINITE_DOUBLE && NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp_length = (type == TYPE_LONGDOUBLE ? LDBL_DIG + 1 : 0);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# elif NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp_length = LDBL_DIG + 1;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# elif NEED_PRINTF_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp_length = DBL_DIG + 1;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp_length = 0;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (tmp_length < precision)
tmp_length = precision;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_LONG_DOUBLE
# if NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (type == TYPE_LONGDOUBLE)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (dp->conversion == 'f' || dp->conversion == 'F')
{
long double arg = a.arg[dp->arg_index].a.a_longdouble;
if (!(isnanl (arg) || arg + arg == arg))
{
/* arg is finite and nonzero. */
int exponent = floorlog10l (arg < 0 ? -arg : arg);
if (exponent >= 0 && tmp_length < exponent + precision)
tmp_length = exponent + precision;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
# if NEED_PRINTF_DOUBLE
# if NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_INFINITE_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (type == TYPE_DOUBLE)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (dp->conversion == 'f' || dp->conversion == 'F')
{
double arg = a.arg[dp->arg_index].a.a_double;
if (!(isnand (arg) || arg + arg == arg))
{
/* arg is finite and nonzero. */
int exponent = floorlog10 (arg < 0 ? -arg : arg);
if (exponent >= 0 && tmp_length < exponent + precision)
tmp_length = exponent + precision;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Account for sign, decimal point etc. */
tmp_length = xsum (tmp_length, 12);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (tmp_length < width)
tmp_length = width;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp_length = xsum (tmp_length, 1); /* account for trailing NUL */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (tmp_length <= sizeof (tmpbuf) / sizeof (DCHAR_T))
tmp = tmpbuf;
else
{
size_t tmp_memsize = xtimes (tmp_length, sizeof (DCHAR_T));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (size_overflow_p (tmp_memsize))
/* Overflow, would lead to out of memory. */
goto out_of_memory;
tmp = (DCHAR_T *) malloc (tmp_memsize);
if (tmp == NULL)
/* Out of memory. */
goto out_of_memory;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
pad_ptr = NULL;
p = tmp;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_LONG_DOUBLE || NEED_PRINTF_INFINITE_LONG_DOUBLE
# if NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (type == TYPE_LONGDOUBLE)
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
long double arg = a.arg[dp->arg_index].a.a_longdouble;
if (isnanl (arg))
{
if (dp->conversion >= 'A' && dp->conversion <= 'Z')
{
*p++ = 'N'; *p++ = 'A'; *p++ = 'N';
}
else
{
*p++ = 'n'; *p++ = 'a'; *p++ = 'n';
}
}
else
{
int sign = 0;
DECL_LONG_DOUBLE_ROUNDING
BEGIN_LONG_DOUBLE_ROUNDING ();
if (signbit (arg)) /* arg < 0.0L or negative zero */
{
sign = -1;
arg = -arg;
}
if (sign < 0)
*p++ = '-';
else if (flags & FLAG_SHOWSIGN)
*p++ = '+';
else if (flags & FLAG_SPACE)
*p++ = ' ';
if (arg > 0.0L && arg + arg == arg)
{
if (dp->conversion >= 'A' && dp->conversion <= 'Z')
{
*p++ = 'I'; *p++ = 'N'; *p++ = 'F';
}
else
{
*p++ = 'i'; *p++ = 'n'; *p++ = 'f';
}
}
else
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_LONG_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
pad_ptr = p;
if (dp->conversion == 'f' || dp->conversion == 'F')
{
char *digits;
size_t ndigits;
digits =
scale10_round_decimal_long_double (arg, precision);
if (digits == NULL)
{
END_LONG_DOUBLE_ROUNDING ();
goto out_of_memory;
}
ndigits = strlen (digits);
if (ndigits > precision)
do
{
--ndigits;
*p++ = digits[ndigits];
}
while (ndigits > precision);
else
*p++ = '0';
/* Here ndigits <= precision. */
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > ndigits; precision--)
*p++ = '0';
while (ndigits > 0)
{
--ndigits;
*p++ = digits[ndigits];
}
}
free (digits);
}
else if (dp->conversion == 'e' || dp->conversion == 'E')
{
int exponent;
if (arg == 0.0L)
{
exponent = 0;
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
}
else
{
/* arg > 0.0L. */
int adjusted;
char *digits;
size_t ndigits;
exponent = floorlog10l (arg);
adjusted = 0;
for (;;)
{
digits =
scale10_round_decimal_long_double (arg,
(int)precision - exponent);
if (digits == NULL)
{
END_LONG_DOUBLE_ROUNDING ();
goto out_of_memory;
}
ndigits = strlen (digits);
if (ndigits == precision + 1)
break;
if (ndigits < precision
|| ndigits > precision + 2)
/* The exponent was not guessed
precisely enough. */
abort ();
if (adjusted)
/* None of two values of exponent is
the right one. Prevent an endless
loop. */
abort ();
free (digits);
if (ndigits == precision)
exponent -= 1;
else
exponent += 1;
adjusted = 1;
}
/* Here ndigits = precision+1. */
if (is_borderline (digits, precision))
{
/* Maybe the exponent guess was too high
and a smaller exponent can be reached
by turning a 10...0 into 9...9x. */
char *digits2 =
scale10_round_decimal_long_double (arg,
(int)precision - exponent + 1);
if (digits2 == NULL)
{
free (digits);
END_LONG_DOUBLE_ROUNDING ();
goto out_of_memory;
}
if (strlen (digits2) == precision + 1)
{
free (digits);
digits = digits2;
exponent -= 1;
}
else
free (digits2);
}
/* Here ndigits = precision+1. */
*p++ = digits[--ndigits];
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
while (ndigits > 0)
{
--ndigits;
*p++ = digits[ndigits];
}
}
free (digits);
}
*p++ = dp->conversion; /* 'e' or 'E' */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const wchar_t decimal_format[] =
{ '%', '+', '.', '2', 'd', '\0' };
SNPRINTF (p, 6 + 1, decimal_format, exponent);
}
while (*p != '\0')
p++;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (sizeof (DCHAR_T) == 1)
{
sprintf ((char *) p, "%+.2d", exponent);
while (*p != '\0')
p++;
}
else
{
char expbuf[6 + 1];
const char *ep;
sprintf (expbuf, "%+.2d", exponent);
for (ep = expbuf; (*p = *ep) != '\0'; ep++)
p++;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
else if (dp->conversion == 'g' || dp->conversion == 'G')
{
if (precision == 0)
precision = 1;
/* precision >= 1. */
if (arg == 0.0L)
/* The exponent is 0, >= -4, < precision.
Use fixed-point notation. */
{
size_t ndigits = precision;
/* Number of trailing zeroes that have to be
dropped. */
size_t nzeroes =
(flags & FLAG_ALT ? 0 : precision - 1);
--ndigits;
*p++ = '0';
if ((flags & FLAG_ALT) || ndigits > nzeroes)
{
*p++ = decimal_point_char ();
while (ndigits > nzeroes)
{
--ndigits;
*p++ = '0';
}
}
}
else
{
/* arg > 0.0L. */
int exponent;
int adjusted;
char *digits;
size_t ndigits;
size_t nzeroes;
exponent = floorlog10l (arg);
adjusted = 0;
for (;;)
{
digits =
scale10_round_decimal_long_double (arg,
(int)(precision - 1) - exponent);
if (digits == NULL)
{
END_LONG_DOUBLE_ROUNDING ();
goto out_of_memory;
}
ndigits = strlen (digits);
if (ndigits == precision)
break;
if (ndigits < precision - 1
|| ndigits > precision + 1)
/* The exponent was not guessed
precisely enough. */
abort ();
if (adjusted)
/* None of two values of exponent is
the right one. Prevent an endless
loop. */
abort ();
free (digits);
if (ndigits < precision)
exponent -= 1;
else
exponent += 1;
adjusted = 1;
}
/* Here ndigits = precision. */
if (is_borderline (digits, precision - 1))
{
/* Maybe the exponent guess was too high
and a smaller exponent can be reached
by turning a 10...0 into 9...9x. */
char *digits2 =
scale10_round_decimal_long_double (arg,
(int)(precision - 1) - exponent + 1);
if (digits2 == NULL)
{
free (digits);
END_LONG_DOUBLE_ROUNDING ();
goto out_of_memory;
}
if (strlen (digits2) == precision)
{
free (digits);
digits = digits2;
exponent -= 1;
}
else
free (digits2);
}
/* Here ndigits = precision. */
/* Determine the number of trailing zeroes
that have to be dropped. */
nzeroes = 0;
if ((flags & FLAG_ALT) == 0)
while (nzeroes < ndigits
&& digits[nzeroes] == '0')
nzeroes++;
/* The exponent is now determined. */
if (exponent >= -4
&& exponent < (long)precision)
{
/* Fixed-point notation:
max(exponent,0)+1 digits, then the
decimal point, then the remaining
digits without trailing zeroes. */
if (exponent >= 0)
{
size_t count = exponent + 1;
/* Note: count <= precision = ndigits. */
for (; count > 0; count--)
*p++ = digits[--ndigits];
if ((flags & FLAG_ALT) || ndigits > nzeroes)
{
*p++ = decimal_point_char ();
while (ndigits > nzeroes)
{
--ndigits;
*p++ = digits[ndigits];
}
}
}
else
{
size_t count = -exponent - 1;
*p++ = '0';
*p++ = decimal_point_char ();
for (; count > 0; count--)
*p++ = '0';
while (ndigits > nzeroes)
{
--ndigits;
*p++ = digits[ndigits];
}
}
}
else
{
/* Exponential notation. */
*p++ = digits[--ndigits];
if ((flags & FLAG_ALT) || ndigits > nzeroes)
{
*p++ = decimal_point_char ();
while (ndigits > nzeroes)
{
--ndigits;
*p++ = digits[ndigits];
}
}
*p++ = dp->conversion - 'G' + 'E'; /* 'e' or 'E' */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const wchar_t decimal_format[] =
{ '%', '+', '.', '2', 'd', '\0' };
SNPRINTF (p, 6 + 1, decimal_format, exponent);
}
while (*p != '\0')
p++;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (sizeof (DCHAR_T) == 1)
{
sprintf ((char *) p, "%+.2d", exponent);
while (*p != '\0')
p++;
}
else
{
char expbuf[6 + 1];
const char *ep;
sprintf (expbuf, "%+.2d", exponent);
for (ep = expbuf; (*p = *ep) != '\0'; ep++)
p++;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
free (digits);
}
}
else
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* arg is finite. */
if (!(arg == 0.0L))
abort ();
pad_ptr = p;
if (dp->conversion == 'f' || dp->conversion == 'F')
{
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
}
else if (dp->conversion == 'e' || dp->conversion == 'E')
{
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
*p++ = dp->conversion; /* 'e' or 'E' */
*p++ = '+';
*p++ = '0';
*p++ = '0';
}
else if (dp->conversion == 'g' || dp->conversion == 'G')
{
*p++ = '0';
if (flags & FLAG_ALT)
{
size_t ndigits =
(precision > 0 ? precision - 1 : 0);
*p++ = decimal_point_char ();
for (; ndigits > 0; --ndigits)
*p++ = '0';
}
}
else if (dp->conversion == 'a' || dp->conversion == 'A')
{
*p++ = '0';
*p++ = dp->conversion - 'A' + 'X';
pad_ptr = p;
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
*p++ = dp->conversion - 'A' + 'P';
*p++ = '+';
*p++ = '0';
}
else
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
END_LONG_DOUBLE_ROUNDING ();
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
# endif
# if NEED_PRINTF_DOUBLE || NEED_PRINTF_INFINITE_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
double arg = a.arg[dp->arg_index].a.a_double;
if (isnand (arg))
{
if (dp->conversion >= 'A' && dp->conversion <= 'Z')
{
*p++ = 'N'; *p++ = 'A'; *p++ = 'N';
}
else
{
*p++ = 'n'; *p++ = 'a'; *p++ = 'n';
}
}
else
{
int sign = 0;
if (signbit (arg)) /* arg < 0.0 or negative zero */
{
sign = -1;
arg = -arg;
}
if (sign < 0)
*p++ = '-';
else if (flags & FLAG_SHOWSIGN)
*p++ = '+';
else if (flags & FLAG_SPACE)
*p++ = ' ';
if (arg > 0.0 && arg + arg == arg)
{
if (dp->conversion >= 'A' && dp->conversion <= 'Z')
{
*p++ = 'I'; *p++ = 'N'; *p++ = 'F';
}
else
{
*p++ = 'i'; *p++ = 'n'; *p++ = 'f';
}
}
else
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if NEED_PRINTF_DOUBLE
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
pad_ptr = p;
if (dp->conversion == 'f' || dp->conversion == 'F')
{
char *digits;
size_t ndigits;
digits =
scale10_round_decimal_double (arg, precision);
if (digits == NULL)
goto out_of_memory;
ndigits = strlen (digits);
if (ndigits > precision)
do
{
--ndigits;
*p++ = digits[ndigits];
}
while (ndigits > precision);
else
*p++ = '0';
/* Here ndigits <= precision. */
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > ndigits; precision--)
*p++ = '0';
while (ndigits > 0)
{
--ndigits;
*p++ = digits[ndigits];
}
}
free (digits);
}
else if (dp->conversion == 'e' || dp->conversion == 'E')
{
int exponent;
if (arg == 0.0)
{
exponent = 0;
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
}
else
{
/* arg > 0.0. */
int adjusted;
char *digits;
size_t ndigits;
exponent = floorlog10 (arg);
adjusted = 0;
for (;;)
{
digits =
scale10_round_decimal_double (arg,
(int)precision - exponent);
if (digits == NULL)
goto out_of_memory;
ndigits = strlen (digits);
if (ndigits == precision + 1)
break;
if (ndigits < precision
|| ndigits > precision + 2)
/* The exponent was not guessed
precisely enough. */
abort ();
if (adjusted)
/* None of two values of exponent is
the right one. Prevent an endless
loop. */
abort ();
free (digits);
if (ndigits == precision)
exponent -= 1;
else
exponent += 1;
adjusted = 1;
}
/* Here ndigits = precision+1. */
if (is_borderline (digits, precision))
{
/* Maybe the exponent guess was too high
and a smaller exponent can be reached
by turning a 10...0 into 9...9x. */
char *digits2 =
scale10_round_decimal_double (arg,
(int)precision - exponent + 1);
if (digits2 == NULL)
{
free (digits);
goto out_of_memory;
}
if (strlen (digits2) == precision + 1)
{
free (digits);
digits = digits2;
exponent -= 1;
}
else
free (digits2);
}
/* Here ndigits = precision+1. */
*p++ = digits[--ndigits];
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
while (ndigits > 0)
{
--ndigits;
*p++ = digits[ndigits];
}
}
free (digits);
}
*p++ = dp->conversion; /* 'e' or 'E' */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const wchar_t decimal_format[] =
/* Produce the same number of exponent digits
as the native printf implementation. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ '%', '+', '.', '3', 'd', '\0' };
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ '%', '+', '.', '2', 'd', '\0' };
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
SNPRINTF (p, 6 + 1, decimal_format, exponent);
}
while (*p != '\0')
p++;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const char decimal_format[] =
/* Produce the same number of exponent digits
as the native printf implementation. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
"%+.3d";
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
"%+.2d";
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (sizeof (DCHAR_T) == 1)
{
sprintf ((char *) p, decimal_format, exponent);
while (*p != '\0')
p++;
}
else
{
char expbuf[6 + 1];
const char *ep;
sprintf (expbuf, decimal_format, exponent);
for (ep = expbuf; (*p = *ep) != '\0'; ep++)
p++;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
else if (dp->conversion == 'g' || dp->conversion == 'G')
{
if (precision == 0)
precision = 1;
/* precision >= 1. */
if (arg == 0.0)
/* The exponent is 0, >= -4, < precision.
Use fixed-point notation. */
{
size_t ndigits = precision;
/* Number of trailing zeroes that have to be
dropped. */
size_t nzeroes =
(flags & FLAG_ALT ? 0 : precision - 1);
--ndigits;
*p++ = '0';
if ((flags & FLAG_ALT) || ndigits > nzeroes)
{
*p++ = decimal_point_char ();
while (ndigits > nzeroes)
{
--ndigits;
*p++ = '0';
}
}
}
else
{
/* arg > 0.0. */
int exponent;
int adjusted;
char *digits;
size_t ndigits;
size_t nzeroes;
exponent = floorlog10 (arg);
adjusted = 0;
for (;;)
{
digits =
scale10_round_decimal_double (arg,
(int)(precision - 1) - exponent);
if (digits == NULL)
goto out_of_memory;
ndigits = strlen (digits);
if (ndigits == precision)
break;
if (ndigits < precision - 1
|| ndigits > precision + 1)
/* The exponent was not guessed
precisely enough. */
abort ();
if (adjusted)
/* None of two values of exponent is
the right one. Prevent an endless
loop. */
abort ();
free (digits);
if (ndigits < precision)
exponent -= 1;
else
exponent += 1;
adjusted = 1;
}
/* Here ndigits = precision. */
if (is_borderline (digits, precision - 1))
{
/* Maybe the exponent guess was too high
and a smaller exponent can be reached
by turning a 10...0 into 9...9x. */
char *digits2 =
scale10_round_decimal_double (arg,
(int)(precision - 1) - exponent + 1);
if (digits2 == NULL)
{
free (digits);
goto out_of_memory;
}
if (strlen (digits2) == precision)
{
free (digits);
digits = digits2;
exponent -= 1;
}
else
free (digits2);
}
/* Here ndigits = precision. */
/* Determine the number of trailing zeroes
that have to be dropped. */
nzeroes = 0;
if ((flags & FLAG_ALT) == 0)
while (nzeroes < ndigits
&& digits[nzeroes] == '0')
nzeroes++;
/* The exponent is now determined. */
if (exponent >= -4
&& exponent < (long)precision)
{
/* Fixed-point notation:
max(exponent,0)+1 digits, then the
decimal point, then the remaining
digits without trailing zeroes. */
if (exponent >= 0)
{
size_t count = exponent + 1;
/* Note: count <= precision = ndigits. */
for (; count > 0; count--)
*p++ = digits[--ndigits];
if ((flags & FLAG_ALT) || ndigits > nzeroes)
{
*p++ = decimal_point_char ();
while (ndigits > nzeroes)
{
--ndigits;
*p++ = digits[ndigits];
}
}
}
else
{
size_t count = -exponent - 1;
*p++ = '0';
*p++ = decimal_point_char ();
for (; count > 0; count--)
*p++ = '0';
while (ndigits > nzeroes)
{
--ndigits;
*p++ = digits[ndigits];
}
}
}
else
{
/* Exponential notation. */
*p++ = digits[--ndigits];
if ((flags & FLAG_ALT) || ndigits > nzeroes)
{
*p++ = decimal_point_char ();
while (ndigits > nzeroes)
{
--ndigits;
*p++ = digits[ndigits];
}
}
*p++ = dp->conversion - 'G' + 'E'; /* 'e' or 'E' */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if WIDE_CHAR_VERSION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const wchar_t decimal_format[] =
/* Produce the same number of exponent digits
as the native printf implementation. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ '%', '+', '.', '3', 'd', '\0' };
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{ '%', '+', '.', '2', 'd', '\0' };
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
SNPRINTF (p, 6 + 1, decimal_format, exponent);
}
while (*p != '\0')
p++;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
static const char decimal_format[] =
/* Produce the same number of exponent digits
as the native printf implementation. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
"%+.3d";
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
"%+.2d";
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (sizeof (DCHAR_T) == 1)
{
sprintf ((char *) p, decimal_format, exponent);
while (*p != '\0')
p++;
}
else
{
char expbuf[6 + 1];
const char *ep;
sprintf (expbuf, decimal_format, exponent);
for (ep = expbuf; (*p = *ep) != '\0'; ep++)
p++;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
free (digits);
}
}
else
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* arg is finite. */
if (!(arg == 0.0))
abort ();
pad_ptr = p;
if (dp->conversion == 'f' || dp->conversion == 'F')
{
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
}
else if (dp->conversion == 'e' || dp->conversion == 'E')
{
*p++ = '0';
if ((flags & FLAG_ALT) || precision > 0)
{
*p++ = decimal_point_char ();
for (; precision > 0; precision--)
*p++ = '0';
}
*p++ = dp->conversion; /* 'e' or 'E' */
*p++ = '+';
/* Produce the same number of exponent digits as
the native printf implementation. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*p++ = '0';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*p++ = '0';
*p++ = '0';
}
else if (dp->conversion == 'g' || dp->conversion == 'G')
{
*p++ = '0';
if (flags & FLAG_ALT)
{
size_t ndigits =
(precision > 0 ? precision - 1 : 0);
*p++ = decimal_point_char ();
for (; ndigits > 0; --ndigits)
*p++ = '0';
}
}
else
abort ();
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The generated string now extends from tmp to p, with the
zero padding insertion point being at pad_ptr. */
if (has_width && p - tmp < width)
{
size_t pad = width - (p - tmp);
DCHAR_T *end = p + pad;
if (flags & FLAG_LEFT)
{
/* Pad with spaces on the right. */
for (; pad > 0; pad--)
*p++ = ' ';
}
else if ((flags & FLAG_ZERO) && pad_ptr != NULL)
{
/* Pad with zeroes. */
DCHAR_T *q = end;
while (p > pad_ptr)
*--q = *--p;
for (; pad > 0; pad--)
*p++ = '0';
}
else
{
/* Pad with spaces on the left. */
DCHAR_T *q = end;
while (p > tmp)
*--q = *--p;
for (; pad > 0; pad--)
*p++ = ' ';
}
p = end;
}
{
size_t count = p - tmp;
if (count >= tmp_length)
/* tmp_length was incorrectly calculated - fix the
code above! */
abort ();
/* Make room for the result. */
if (count >= allocated - length)
{
size_t n = xsum (length, count);
ENSURE_ALLOCATION (n);
}
/* Append the result. */
memcpy (result + length, tmp, count * sizeof (DCHAR_T));
if (tmp != tmpbuf)
free (tmp);
length += count;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
else
{
arg_type type = a.arg[dp->arg_index].type;
int flags = dp->flags;
#if !USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99 || !DCHAR_IS_TCHAR || ENABLE_UNISTDIO || NEED_PRINTF_FLAG_LEFTADJUST || NEED_PRINTF_FLAG_ZERO || NEED_PRINTF_UNBOUNDED_PRECISION
int has_width;
size_t width;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#if !USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99 || NEED_PRINTF_UNBOUNDED_PRECISION
int has_precision;
size_t precision;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
#if NEED_PRINTF_UNBOUNDED_PRECISION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
int prec_ourselves;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
# define prec_ourselves 0
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
#if NEED_PRINTF_FLAG_LEFTADJUST
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
# define pad_ourselves 1
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#elif !DCHAR_IS_TCHAR || ENABLE_UNISTDIO || NEED_PRINTF_FLAG_ZERO || NEED_PRINTF_UNBOUNDED_PRECISION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
int pad_ourselves;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
# define pad_ourselves 0
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
TCHAR_T *fbp;
unsigned int prefix_count;
int prefixes[2] IF_LINT (= { 0 });
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
int orig_errno;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#if !USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
size_t tmp_length;
TCHAR_T tmpbuf[700];
TCHAR_T *tmp;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#if !USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99 || !DCHAR_IS_TCHAR || ENABLE_UNISTDIO || NEED_PRINTF_FLAG_LEFTADJUST || NEED_PRINTF_FLAG_ZERO || NEED_PRINTF_UNBOUNDED_PRECISION
has_width = 0;
width = 0;
if (dp->width_start != dp->width_end)
{
if (dp->width_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->width_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->width_arg_index].a.a_int;
if (arg < 0)
{
/* "A negative field width is taken as a '-' flag
followed by a positive field width." */
flags |= FLAG_LEFT;
width = (unsigned int) (-arg);
}
else
width = arg;
}
else
{
const FCHAR_T *digitp = dp->width_start;
do
width = xsum (xtimes (width, 10), *digitp++ - '0');
while (digitp != dp->width_end);
}
has_width = 1;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#if !USE_SNPRINTF || !HAVE_SNPRINTF_RETVAL_C99 || NEED_PRINTF_UNBOUNDED_PRECISION
has_precision = 0;
precision = 6;
if (dp->precision_start != dp->precision_end)
{
if (dp->precision_arg_index != ARG_NONE)
{
int arg;
if (!(a.arg[dp->precision_arg_index].type == TYPE_INT))
abort ();
arg = a.arg[dp->precision_arg_index].a.a_int;
/* "A negative precision is taken as if the precision
were omitted." */
if (arg >= 0)
{
precision = arg;
has_precision = 1;
}
}
else
{
const FCHAR_T *digitp = dp->precision_start + 1;
precision = 0;
while (digitp != dp->precision_end)
precision = xsum (xtimes (precision, 10), *digitp++ - '0');
has_precision = 1;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Decide whether to handle the precision ourselves. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#if NEED_PRINTF_UNBOUNDED_PRECISION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
switch (dp->conversion)
{
case 'd': case 'i': case 'u':
case 'o':
case 'x': case 'X': case 'p':
prec_ourselves = has_precision && (precision > 0);
break;
default:
prec_ourselves = 0;
break;
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Decide whether to perform the padding ourselves. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#if !NEED_PRINTF_FLAG_LEFTADJUST && (!DCHAR_IS_TCHAR || ENABLE_UNISTDIO || NEED_PRINTF_FLAG_ZERO || NEED_PRINTF_UNBOUNDED_PRECISION)
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
switch (dp->conversion)
{
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if !DCHAR_IS_TCHAR || ENABLE_UNISTDIO
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* If we need conversion from TCHAR_T[] to DCHAR_T[], we need
to perform the padding after this conversion. Functions
with unistdio extensions perform the padding based on
character count rather than element count. */
case 'c': case 's':
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
# if NEED_PRINTF_FLAG_ZERO
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case 'f': case 'F': case 'e': case 'E': case 'g': case 'G':
case 'a': case 'A':
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
pad_ourselves = 1;
break;
default:
pad_ourselves = prec_ourselves;
break;
}
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if !USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Allocate a temporary buffer of sufficient size for calling
sprintf. */
tmp_length =
MAX_ROOM_NEEDED (&a, dp->arg_index, dp->conversion, type,
flags, width, has_precision, precision,
pad_ourselves);
if (tmp_length <= sizeof (tmpbuf) / sizeof (TCHAR_T))
tmp = tmpbuf;
else
{
size_t tmp_memsize = xtimes (tmp_length, sizeof (TCHAR_T));
if (size_overflow_p (tmp_memsize))
/* Overflow, would lead to out of memory. */
goto out_of_memory;
tmp = (TCHAR_T *) malloc (tmp_memsize);
if (tmp == NULL)
/* Out of memory. */
goto out_of_memory;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Construct the format string for calling snprintf or
sprintf. */
fbp = buf;
*fbp++ = '%';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if NEED_PRINTF_FLAG_GROUPING
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The underlying implementation doesn't support the ' flag.
Produce no grouping characters in this case; this is
acceptable because the grouping is locale dependent. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (flags & FLAG_GROUP)
*fbp++ = '\'';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (flags & FLAG_LEFT)
*fbp++ = '-';
if (flags & FLAG_SHOWSIGN)
*fbp++ = '+';
if (flags & FLAG_SPACE)
*fbp++ = ' ';
if (flags & FLAG_ALT)
*fbp++ = '#';
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
#if __GLIBC__ >= 2 && !defined __UCLIBC__
if (flags & FLAG_LOCALIZED)
*fbp++ = 'I';
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (!pad_ourselves)
{
if (flags & FLAG_ZERO)
*fbp++ = '0';
if (dp->width_start != dp->width_end)
{
size_t n = dp->width_end - dp->width_start;
/* The width specification is known to consist only
of standard ASCII characters. */
if (sizeof (FCHAR_T) == sizeof (TCHAR_T))
{
memcpy (fbp, dp->width_start, n * sizeof (TCHAR_T));
fbp += n;
}
else
{
const FCHAR_T *mp = dp->width_start;
do
*fbp++ = (unsigned char) *mp++;
while (--n > 0);
}
}
}
if (!prec_ourselves)
{
if (dp->precision_start != dp->precision_end)
{
size_t n = dp->precision_end - dp->precision_start;
/* The precision specification is known to consist only
of standard ASCII characters. */
if (sizeof (FCHAR_T) == sizeof (TCHAR_T))
{
memcpy (fbp, dp->precision_start, n * sizeof (TCHAR_T));
fbp += n;
}
else
{
const FCHAR_T *mp = dp->precision_start;
do
*fbp++ = (unsigned char) *mp++;
while (--n > 0);
}
}
}
switch (type)
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_LONG_LONG_INT
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_LONGLONGINT:
case TYPE_ULONGLONGINT:
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if (defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*fbp++ = 'I';
*fbp++ = '6';
*fbp++ = '4';
break;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*fbp++ = 'l';
/*FALLTHROUGH*/
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_LONGINT:
case TYPE_ULONGINT:
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_WINT_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_WIDE_CHAR:
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_WCHAR_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_WIDE_STRING:
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*fbp++ = 'l';
break;
case TYPE_LONGDOUBLE:
*fbp++ = 'L';
break;
default:
break;
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if NEED_PRINTF_DIRECTIVE_F
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (dp->conversion == 'F')
*fbp = 'f';
else
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
*fbp = dp->conversion;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#if USE_SNPRINTF
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
# if !(((__GLIBC__ > 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ >= 3)) && !defined __UCLIBC__) || ((defined _WIN32 || defined __WIN32__) && ! defined __CYGWIN__))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
fbp[1] = '%';
fbp[2] = 'n';
fbp[3] = '\0';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* On glibc2 systems from glibc >= 2.3 - probably also older
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
ones - we know that snprintf's return value conforms to
ISO C 99: the tests gl_SNPRINTF_RETVAL_C99 and
gl_SNPRINTF_TRUNCATION_C99 pass.
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
Therefore we can avoid using %n in this situation.
On glibc2 systems from 2004-10-18 or newer, the use of %n
in format strings in writable memory may crash the program
(if compiled with _FORTIFY_SOURCE=2), so we should avoid it
in this situation. */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* On native Windows systems (such as mingw), we can avoid using
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
%n because:
- Although the gl_SNPRINTF_TRUNCATION_C99 test fails,
snprintf does not write more than the specified number
of bytes. (snprintf (buf, 3, "%d %d", 4567, 89) writes
'4', '5', '6' into buf, not '4', '5', '\0'.)
- Although the gl_SNPRINTF_RETVAL_C99 test fails, snprintf
allows us to recognize the case of an insufficient
buffer size: it returns -1 in this case.
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
On native Windows systems (such as mingw) where the OS is
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
Windows Vista, the use of %n in format strings by default
crashes the program. See
<http://gcc.gnu.org/ml/gcc/2007-06/msg00122.html> and
<http://msdn2.microsoft.com/en-us/library/ms175782(VS.80).aspx>
So we should avoid %n in this situation. */
fbp[1] = '\0';
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
fbp[1] = '\0';
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Construct the arguments for calling snprintf or sprintf. */
prefix_count = 0;
if (!pad_ourselves && dp->width_arg_index != ARG_NONE)
{
if (!(a.arg[dp->width_arg_index].type == TYPE_INT))
abort ();
prefixes[prefix_count++] = a.arg[dp->width_arg_index].a.a_int;
}
if (!prec_ourselves && dp->precision_arg_index != ARG_NONE)
{
if (!(a.arg[dp->precision_arg_index].type == TYPE_INT))
abort ();
prefixes[prefix_count++] = a.arg[dp->precision_arg_index].a.a_int;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The SNPRINTF result is appended after result[0..length].
The latter is an array of DCHAR_T; SNPRINTF appends an
array of TCHAR_T to it. This is possible because
sizeof (TCHAR_T) divides sizeof (DCHAR_T) and
alignof (TCHAR_T) <= alignof (DCHAR_T). */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# define TCHARS_PER_DCHAR (sizeof (DCHAR_T) / sizeof (TCHAR_T))
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Ensure that maxlen below will be >= 2. Needed on BeOS,
where an snprintf() with maxlen==1 acts like sprintf(). */
ENSURE_ALLOCATION (xsum (length,
(2 + TCHARS_PER_DCHAR - 1)
/ TCHARS_PER_DCHAR));
/* Prepare checking whether snprintf returns the count
via %n. */
*(TCHAR_T *) (result + length) = '\0';
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
orig_errno = errno;
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
for (;;)
{
int count = -1;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
int retcount = 0;
size_t maxlen = allocated - length;
/* SNPRINTF can fail if its second argument is
> INT_MAX. */
if (maxlen > INT_MAX / TCHARS_PER_DCHAR)
maxlen = INT_MAX / TCHARS_PER_DCHAR;
maxlen = maxlen * TCHARS_PER_DCHAR;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
# define SNPRINTF_BUF(arg) \
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
switch (prefix_count) \
{ \
case 0: \
retcount = SNPRINTF ((TCHAR_T *) (result + length), \
maxlen, buf, \
arg, &count); \
break; \
case 1: \
retcount = SNPRINTF ((TCHAR_T *) (result + length), \
maxlen, buf, \
prefixes[0], arg, &count); \
break; \
case 2: \
retcount = SNPRINTF ((TCHAR_T *) (result + length), \
maxlen, buf, \
prefixes[0], prefixes[1], arg, \
&count); \
break; \
default: \
abort (); \
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#else
# define SNPRINTF_BUF(arg) \
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
switch (prefix_count) \
{ \
case 0: \
count = sprintf (tmp, buf, arg); \
break; \
case 1: \
count = sprintf (tmp, buf, prefixes[0], arg); \
break; \
case 2: \
count = sprintf (tmp, buf, prefixes[0], prefixes[1],\
arg); \
break; \
default: \
abort (); \
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
errno = 0;
switch (type)
{
case TYPE_SCHAR:
{
int arg = a.arg[dp->arg_index].a.a_schar;
SNPRINTF_BUF (arg);
}
break;
case TYPE_UCHAR:
{
unsigned int arg = a.arg[dp->arg_index].a.a_uchar;
SNPRINTF_BUF (arg);
}
break;
case TYPE_SHORT:
{
int arg = a.arg[dp->arg_index].a.a_short;
SNPRINTF_BUF (arg);
}
break;
case TYPE_USHORT:
{
unsigned int arg = a.arg[dp->arg_index].a.a_ushort;
SNPRINTF_BUF (arg);
}
break;
case TYPE_INT:
{
int arg = a.arg[dp->arg_index].a.a_int;
SNPRINTF_BUF (arg);
}
break;
case TYPE_UINT:
{
unsigned int arg = a.arg[dp->arg_index].a.a_uint;
SNPRINTF_BUF (arg);
}
break;
case TYPE_LONGINT:
{
long int arg = a.arg[dp->arg_index].a.a_longint;
SNPRINTF_BUF (arg);
}
break;
case TYPE_ULONGINT:
{
unsigned long int arg = a.arg[dp->arg_index].a.a_ulongint;
SNPRINTF_BUF (arg);
}
break;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_LONG_LONG_INT
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_LONGLONGINT:
{
long long int arg = a.arg[dp->arg_index].a.a_longlongint;
SNPRINTF_BUF (arg);
}
break;
case TYPE_ULONGLONGINT:
{
unsigned long long int arg = a.arg[dp->arg_index].a.a_ulonglongint;
SNPRINTF_BUF (arg);
}
break;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_DOUBLE:
{
double arg = a.arg[dp->arg_index].a.a_double;
SNPRINTF_BUF (arg);
}
break;
case TYPE_LONGDOUBLE:
{
long double arg = a.arg[dp->arg_index].a.a_longdouble;
SNPRINTF_BUF (arg);
}
break;
case TYPE_CHAR:
{
int arg = a.arg[dp->arg_index].a.a_char;
SNPRINTF_BUF (arg);
}
break;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_WINT_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_WIDE_CHAR:
{
wint_t arg = a.arg[dp->arg_index].a.a_wide_char;
SNPRINTF_BUF (arg);
}
break;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_STRING:
{
const char *arg = a.arg[dp->arg_index].a.a_string;
SNPRINTF_BUF (arg);
}
break;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if HAVE_WCHAR_T
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_WIDE_STRING:
{
const wchar_t *arg = a.arg[dp->arg_index].a.a_wide_string;
SNPRINTF_BUF (arg);
}
break;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
case TYPE_POINTER:
{
void *arg = a.arg[dp->arg_index].a.a_pointer;
SNPRINTF_BUF (arg);
}
break;
default:
abort ();
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Portability: Not all implementations of snprintf()
are ISO C 99 compliant. Determine the number of
bytes that snprintf() has produced or would have
produced. */
if (count >= 0)
{
/* Verify that snprintf() has NUL-terminated its
result. */
if (count < maxlen
&& ((TCHAR_T *) (result + length)) [count] != '\0')
abort ();
/* Portability hack. */
if (retcount > count)
count = retcount;
}
else
{
/* snprintf() doesn't understand the '%n'
directive. */
if (fbp[1] != '\0')
{
/* Don't use the '%n' directive; instead, look
at the snprintf() return value. */
fbp[1] = '\0';
continue;
}
else
{
/* Look at the snprintf() return value. */
if (retcount < 0)
{
# if !HAVE_SNPRINTF_RETVAL_C99
/* HP-UX 10.20 snprintf() is doubly deficient:
It doesn't understand the '%n' directive,
*and* it returns -1 (rather than the length
that would have been required) when the
buffer is too small.
But a failure at this point can also come
from other reasons than a too small buffer,
such as an invalid wide string argument to
the %ls directive, or possibly an invalid
floating-point argument. */
size_t tmp_length =
MAX_ROOM_NEEDED (&a, dp->arg_index,
dp->conversion, type, flags,
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
has_width ? width : 0,
has_precision,
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
precision, pad_ourselves);
if (maxlen < tmp_length)
{
/* Make more room. But try to do through
this reallocation only once. */
size_t bigger_need =
xsum (length,
xsum (tmp_length,
TCHARS_PER_DCHAR - 1)
/ TCHARS_PER_DCHAR);
/* And always grow proportionally.
(There may be several arguments, each
needing a little more room than the
previous one.) */
size_t bigger_need2 =
xsum (xtimes (allocated, 2), 12);
if (bigger_need < bigger_need2)
bigger_need = bigger_need2;
ENSURE_ALLOCATION (bigger_need);
continue;
}
# endif
}
else
count = retcount;
}
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Attempt to handle failure. */
if (count < 0)
{
/* SNPRINTF or sprintf failed. Save and use the errno
that it has set, if any. */
int saved_errno = errno;
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno =
(saved_errno != 0
? saved_errno
: (dp->conversion == 'c' || dp->conversion == 's'
? EILSEQ
: EINVAL));
return NULL;
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Handle overflow of the allocated buffer.
If such an overflow occurs, a C99 compliant snprintf()
returns a count >= maxlen. However, a non-compliant
snprintf() function returns only count = maxlen - 1. To
cover both cases, test whether count >= maxlen - 1. */
if ((unsigned int) count + 1 >= maxlen)
{
/* If maxlen already has attained its allowed maximum,
allocating more memory will not increase maxlen.
Instead of looping, bail out. */
if (maxlen == INT_MAX / TCHARS_PER_DCHAR)
goto overflow;
else
{
/* Need at least (count + 1) * sizeof (TCHAR_T)
bytes. (The +1 is for the trailing NUL.)
But ask for (count + 2) * sizeof (TCHAR_T)
bytes, so that in the next round, we likely get
maxlen > (unsigned int) count + 1
and so we don't get here again.
And allocate proportionally, to avoid looping
eternally if snprintf() reports a too small
count. */
size_t n =
xmax (xsum (length,
((unsigned int) count + 2
+ TCHARS_PER_DCHAR - 1)
/ TCHARS_PER_DCHAR),
xtimes (allocated, 2));
ENSURE_ALLOCATION (n);
continue;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
#if NEED_PRINTF_UNBOUNDED_PRECISION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (prec_ourselves)
{
/* Handle the precision. */
TCHAR_T *prec_ptr =
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
(TCHAR_T *) (result + length);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmp;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
size_t prefix_count;
size_t move;
prefix_count = 0;
/* Put the additional zeroes after the sign. */
if (count >= 1
&& (*prec_ptr == '-' || *prec_ptr == '+'
|| *prec_ptr == ' '))
prefix_count = 1;
/* Put the additional zeroes after the 0x prefix if
(flags & FLAG_ALT) || (dp->conversion == 'p'). */
else if (count >= 2
&& prec_ptr[0] == '0'
&& (prec_ptr[1] == 'x' || prec_ptr[1] == 'X'))
prefix_count = 2;
move = count - prefix_count;
if (precision > move)
{
/* Insert zeroes. */
size_t insert = precision - move;
TCHAR_T *prec_end;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
size_t n =
xsum (length,
(count + insert + TCHARS_PER_DCHAR - 1)
/ TCHARS_PER_DCHAR);
length += (count + TCHARS_PER_DCHAR - 1) / TCHARS_PER_DCHAR;
ENSURE_ALLOCATION (n);
length -= (count + TCHARS_PER_DCHAR - 1) / TCHARS_PER_DCHAR;
prec_ptr = (TCHAR_T *) (result + length);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
prec_end = prec_ptr + count;
prec_ptr += prefix_count;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
while (prec_end > prec_ptr)
{
prec_end--;
prec_end[insert] = prec_end[0];
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
prec_end += insert;
do
*--prec_end = '0';
while (prec_end > prec_ptr);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
count += insert;
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#if !USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (count >= tmp_length)
/* tmp_length was incorrectly calculated - fix the
code above! */
abort ();
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
#if !DCHAR_IS_TCHAR
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Convert from TCHAR_T[] to DCHAR_T[]. */
if (dp->conversion == 'c' || dp->conversion == 's')
{
/* type = TYPE_CHAR or TYPE_WIDE_CHAR or TYPE_STRING
TYPE_WIDE_STRING.
The result string is not certainly ASCII. */
const TCHAR_T *tmpsrc;
DCHAR_T *tmpdst;
size_t tmpdst_len;
/* This code assumes that TCHAR_T is 'char'. */
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
verify (sizeof (TCHAR_T) == 1);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmpsrc = (TCHAR_T *) (result + length);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmpsrc = tmp;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmpdst =
DCHAR_CONV_FROM_ENCODING (locale_charset (),
iconveh_question_mark,
tmpsrc, count,
NULL,
NULL, &tmpdst_len);
if (tmpdst == NULL)
{
int saved_errno = errno;
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = saved_errno;
return NULL;
}
ENSURE_ALLOCATION (xsum (length, tmpdst_len));
DCHAR_CPY (result + length, tmpdst, tmpdst_len);
free (tmpdst);
count = tmpdst_len;
}
else
{
/* The result string is ASCII.
Simple 1:1 conversion. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* If sizeof (DCHAR_T) == sizeof (TCHAR_T), it's a
no-op conversion, in-place on the array starting
at (result + length). */
if (sizeof (DCHAR_T) != sizeof (TCHAR_T))
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
const TCHAR_T *tmpsrc;
DCHAR_T *tmpdst;
size_t n;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (result == resultbuf)
{
tmpsrc = (TCHAR_T *) (result + length);
/* ENSURE_ALLOCATION will not move tmpsrc
(because it's part of resultbuf). */
ENSURE_ALLOCATION (xsum (length, count));
}
else
{
/* ENSURE_ALLOCATION will move the array
(because it uses realloc(). */
ENSURE_ALLOCATION (xsum (length, count));
tmpsrc = (TCHAR_T *) (result + length);
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmpsrc = tmp;
ENSURE_ALLOCATION (xsum (length, count));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
tmpdst = result + length;
/* Copy backwards, because of overlapping. */
tmpsrc += count;
tmpdst += count;
for (n = count; n > 0; n--)
*--tmpdst = (unsigned char) *--tmpsrc;
}
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if DCHAR_IS_TCHAR && !USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Make room for the result. */
if (count > allocated - length)
{
/* Need at least count elements. But allocate
proportionally. */
size_t n =
xmax (xsum (length, count), xtimes (allocated, 2));
ENSURE_ALLOCATION (n);
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Here count <= allocated - length. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Perform padding. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if !DCHAR_IS_TCHAR || ENABLE_UNISTDIO || NEED_PRINTF_FLAG_LEFTADJUST || NEED_PRINTF_FLAG_ZERO || NEED_PRINTF_UNBOUNDED_PRECISION
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (pad_ourselves && has_width)
{
size_t w;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if ENABLE_UNISTDIO
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
/* Outside POSIX, it's preferable to compare the width
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
against the number of _characters_ of the converted
value. */
w = DCHAR_MBSNLEN (result + length, count);
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The width is compared against the number of _bytes_
of the converted value, says POSIX. */
w = count;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (w < width)
{
size_t pad = width - w;
/* Make room for the result. */
if (xsum (count, pad) > allocated - length)
{
/* Need at least count + pad elements. But
allocate proportionally. */
size_t n =
xmax (xsum3 (length, count, pad),
xtimes (allocated, 2));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
length += count;
ENSURE_ALLOCATION (n);
length -= count;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
ENSURE_ALLOCATION (n);
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
}
/* Here count + pad <= allocated - length. */
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# if !DCHAR_IS_TCHAR || USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
DCHAR_T * const rp = result + length;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
DCHAR_T * const rp = tmp;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
DCHAR_T *p = rp + count;
DCHAR_T *end = p + pad;
DCHAR_T *pad_ptr;
Imported Upstream version 1.4.13+git200906171200
2013-11-26 22:56:50 +00:00
# if !DCHAR_IS_TCHAR || ENABLE_UNISTDIO
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (dp->conversion == 'c'
|| dp->conversion == 's')
/* No zero-padding for string directives. */
pad_ptr = NULL;
else
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
# endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
{
pad_ptr = (*rp == '-' ? rp + 1 : rp);
/* No zero-padding of "inf" and "nan". */
if ((*pad_ptr >= 'A' && *pad_ptr <= 'Z')
|| (*pad_ptr >= 'a' && *pad_ptr <= 'z'))
pad_ptr = NULL;
}
/* The generated string now extends from rp to p,
with the zero padding insertion point being at
pad_ptr. */
count = count + pad; /* = end - rp */
if (flags & FLAG_LEFT)
{
/* Pad with spaces on the right. */
for (; pad > 0; pad--)
*p++ = ' ';
}
else if ((flags & FLAG_ZERO) && pad_ptr != NULL)
{
/* Pad with zeroes. */
DCHAR_T *q = end;
while (p > pad_ptr)
*--q = *--p;
for (; pad > 0; pad--)
*p++ = '0';
}
else
{
/* Pad with spaces on the left. */
DCHAR_T *q = end;
while (p > rp)
*--q = *--p;
for (; pad > 0; pad--)
*p++ = ' ';
}
}
}
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Here still count <= allocated - length. */
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if !DCHAR_IS_TCHAR || USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* The snprintf() result did fit. */
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#else
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Append the sprintf() result. */
memcpy (result + length, tmp, count * sizeof (DCHAR_T));
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
#if !USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (tmp != tmpbuf)
free (tmp);
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#endif
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if NEED_PRINTF_DIRECTIVE_F
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
if (dp->conversion == 'F')
{
/* Convert the %f result to upper case for %F. */
DCHAR_T *rp = result + length;
size_t rc;
for (rc = count; rc > 0; rc--, rp++)
if (*rp >= 'a' && *rp <= 'z')
*rp = *rp - 'a' + 'A';
}
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#endif
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
length += count;
break;
}
Imported Upstream version 1.4.16+git20130902
2013-11-26 22:59:47 +00:00
errno = orig_errno;
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#undef pad_ourselves
#undef prec_ourselves
}
}
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
/* Add the final NUL. */
ENSURE_ALLOCATION (xsum (length, 1));
result[length] = '\0';
if (result != resultbuf && length + 1 < allocated)
{
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
/* Shrink the allocated memory if possible. */
DCHAR_T *memory;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
memory = (DCHAR_T *) realloc (result, (length + 1) * sizeof (DCHAR_T));
if (memory != NULL)
result = memory;
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
}
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
*lengthp = length;
/* Note that we can produce a big string of a length > INT_MAX. POSIX
says that snprintf() fails with errno = EOVERFLOW in this case, but
that's only because snprintf() returns an 'int'. This function does
not have this limitation. */
return result;
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#if USE_SNPRINTF
overflow:
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
CLEANUP ();
errno = EOVERFLOW;
return NULL;
#endif
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
out_of_memory:
if (!(result == resultbuf || result == NULL))
free (result);
if (buf_malloced != NULL)
free (buf_malloced);
out_of_memory_1:
CLEANUP ();
errno = ENOMEM;
return NULL;
}
}
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#undef MAX_ROOM_NEEDED
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#undef TCHARS_PER_DCHAR
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#undef SNPRINTF
#undef USE_SNPRINTF
Imported Upstream version 1.4.15
2013-11-26 22:57:29 +00:00
#undef DCHAR_SET
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#undef DCHAR_CPY
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#undef PRINTF_PARSE
#undef DIRECTIVES
#undef DIRECTIVE
Imported Upstream version 1.4.12
2013-11-26 22:55:28 +00:00
#undef DCHAR_IS_TCHAR
#undef TCHAR_T
#undef DCHAR_T
#undef FCHAR_T
Imported Upstream version 1.4.8
2013-11-26 22:53:44 +00:00
#undef VASNPRINTF
Reference in a new issue Copy permalink