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|
/* snprintf - formatted output to strings, with bounds checking and allocation */
/*
build a test version with
gcc -g -DDRIVER -I../.. -I../../include -o test-snprintf snprintf.c fmtu*long.o
*/
/*
Unix snprintf implementation.
derived from inetutils/libinetutils/snprintf.c Version 1.1
Copyright (C) 2001-2020 Free Software Foundation, Inc.
This file is part of GNU Bash, the Bourne Again SHell.
Bash is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Bash is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Bash. If not, see <http://www.gnu.org/licenses/>.
Original (pre-bash) Revision History:
1.1:
* added changes from Miles Bader
* corrected a bug with %f
* added support for %#g
* added more comments :-)
1.0:
* supporting must ANSI syntaxic_sugars
0.0:
* support %s %c %d
THANKS(for the patches and ideas):
Miles Bader
Cyrille Rustom
Jacek Slabocewiz
Mike Parker(mouse)
*/
/*
* Currently doesn't handle (and bash/readline doesn't use):
* * *M$ width, precision specifications
* * %N$ numbered argument conversions
* * support for `F' is imperfect with ldfallback(), since underlying
* printf may not handle it -- should ideally have another autoconf test
*/
#define FLOATING_POINT
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
/* GCC 4.2 on Snow Leopard doesn't like the snprintf prototype */
#if defined(DEBUG) && !defined (MACOSX)
# undef HAVE_SNPRINTF
# undef HAVE_ASPRINTF
# define HAVE_SNPRINTF 0
# define HAVE_ASPRINTF 0
#endif
#if defined(DRIVER) && !defined(HAVE_CONFIG_H)
#define HAVE_LONG_LONG_INT
#define HAVE_LONG_DOUBLE
#ifdef __linux__
#define HAVE_PRINTF_A_FORMAT
#endif
#define HAVE_ISINF_IN_LIBC
#define HAVE_ISNAN_IN_LIBC
#define PREFER_STDARG
#define HAVE_STRINGIZE
#define HAVE_LIMITS_H
#define HAVE_STDDEF_H
#define HAVE_LOCALE_H
#define intmax_t long
#endif
#if !HAVE_SNPRINTF || !HAVE_ASPRINTF
#include <bashtypes.h>
#if defined(PREFER_STDARG)
# include <stdarg.h>
#else
# include <varargs.h>
#endif
#ifdef HAVE_LIMITS_H
# include <limits.h>
#endif
#include <bashansi.h>
#ifdef HAVE_STDDEF_H
# include <stddef.h>
#endif
#include <chartypes.h>
#ifdef HAVE_STDINT_H
# include <stdint.h>
#endif
#ifdef FLOATING_POINT
# include <float.h> /* for manifest constants */
# include <stdio.h> /* for sprintf */
#endif
#include <typemax.h>
#ifdef HAVE_LOCALE_H
# include <locale.h>
#endif
#include "stdc.h"
#include <shmbutil.h>
#ifndef DRIVER
# include "shell.h"
#else
# define FL_PREFIX 0x01 /* add 0x, 0X, or 0 prefix as appropriate */
# define FL_ADDBASE 0x02 /* add base# prefix to converted value */
# define FL_HEXUPPER 0x04 /* use uppercase when converting to hex */
# define FL_UNSIGNED 0x08 /* don't add any sign */
extern char *fmtulong PARAMS((unsigned long int, int, char *, size_t, int));
extern char *fmtullong PARAMS((unsigned long long int, int, char *, size_t, int));
#endif
#ifndef FREE
# define FREE(x) if (x) free (x)
#endif
/* Bound on length of the string representing an integer value of type T.
Subtract one for the sign bit if T is signed;
302 / 1000 is log10 (2) rounded up;
add one for integer division truncation;
add one more for a minus sign if t is signed. */
#ifndef INT_STRLEN_BOUND
#define INT_STRLEN_BOUND(t) \
((sizeof (t) * CHAR_BIT - TYPE_SIGNED (t)) * 302 / 1000 \
+ 1 + TYPE_SIGNED (t))
#endif
/* conversion flags */
#define PF_ALTFORM 0x00001 /* # */
#define PF_HEXPREFIX 0x00002 /* 0[Xx] */
#define PF_LADJUST 0x00004 /* - */
#define PF_ZEROPAD 0x00008 /* 0 */
#define PF_PLUS 0x00010 /* + */
#define PF_SPACE 0x00020 /* ' ' */
#define PF_THOUSANDS 0x00040 /* ' */
#define PF_DOT 0x00080 /* `.precision' */
#define PF_STAR_P 0x00100 /* `*' after precision */
#define PF_STAR_W 0x00200 /* `*' before or without precision */
/* length modifiers */
#define PF_SIGNEDCHAR 0x00400 /* hh */
#define PF_SHORTINT 0x00800 /* h */
#define PF_LONGINT 0x01000 /* l */
#define PF_LONGLONG 0x02000 /* ll */
#define PF_LONGDBL 0x04000 /* L */
#define PF_INTMAX_T 0x08000 /* j */
#define PF_SIZE_T 0x10000 /* z */
#define PF_PTRDIFF_T 0x20000 /* t */
#define PF_ALLOCBUF 0x40000 /* for asprintf, vasprintf */
#define PFM_SN 0x01 /* snprintf, vsnprintf */
#define PFM_AS 0x02 /* asprintf, vasprintf */
#define ASBUFSIZE 128
#define x_digs "0123456789abcdef"
#define X_digs "0123456789ABCDEF"
static char intbuf[INT_STRLEN_BOUND(unsigned long) + 1];
static int decpoint;
static int thoussep;
static char *grouping;
/*
* For the FLOATING POINT FORMAT :
* the challenge was finding a way to
* manipulate the Real numbers without having
* to resort to mathematical function(it
* would require to link with -lm) and not
* going down to the bit pattern(not portable)
*
* so a number, a real is:
real = integral + fraction
integral = ... + a(2)*10^2 + a(1)*10^1 + a(0)*10^0
fraction = b(1)*10^-1 + b(2)*10^-2 + ...
where:
0 <= a(i) => 9
0 <= b(i) => 9
from then it was simple math
*/
/*
* size of the buffer for the integral part
* and the fraction part
*/
#define MAX_INT 99 + 1 /* 1 for the null */
#define MAX_FRACT 307 + 1
/*
* These functions use static buffers to store the results,
* and so are not reentrant
*/
#define itoa(n) fmtulong(n, 10, intbuf, sizeof(intbuf), 0);
#define dtoa(n, p, f) numtoa(n, 10, p, f)
#define SWAP_INT(a,b) {int t; t = (a); (a) = (b); (b) = t;}
#define GETARG(type) (va_arg(args, type))
/* Macros that do proper sign extension and handle length modifiers. Used
for the integer conversion specifiers. */
#define GETSIGNED(p) \
(((p)->flags & PF_LONGINT) \
? GETARG (long) \
: (((p)->flags & PF_SHORTINT) ? (long)(short)GETARG (int) \
: (long)GETARG (int)))
#define GETUNSIGNED(p) \
(((p)->flags & PF_LONGINT) \
? GETARG (unsigned long) \
: (((p)->flags & PF_SHORTINT) ? (unsigned long)(unsigned short)GETARG (int) \
: (unsigned long)GETARG (unsigned int)))
#ifdef HAVE_LONG_DOUBLE
#define GETLDOUBLE(p) GETARG (long double)
#endif
#define GETDOUBLE(p) GETARG (double)
#define SET_SIZE_FLAGS(p, type) \
if (sizeof (type) > sizeof (int)) \
(p)->flags |= PF_LONGINT; \
if (sizeof (type) > sizeof (long)) \
(p)->flags |= PF_LONGLONG;
/* this struct holds everything we need */
struct DATA
{
int length;
char *base; /* needed for [v]asprintf */
char *holder;
int counter;
const char *pf;
/* FLAGS */
int flags;
int justify;
int width, precision;
char pad;
};
/* the floating point stuff */
#ifdef FLOATING_POINT
static double pow_10 PARAMS((int));
static int log_10 PARAMS((double));
static double integral PARAMS((double, double *));
static char *numtoa PARAMS((double, int, int, char **));
#endif
static void init_data PARAMS((struct DATA *, char *, size_t, const char *, int));
static void init_conv_flag PARAMS((struct DATA *));
/* for the format */
#ifdef FLOATING_POINT
static void floating PARAMS((struct DATA *, double));
static void exponent PARAMS((struct DATA *, double));
#endif
static void number PARAMS((struct DATA *, unsigned long, int));
#ifdef HAVE_LONG_LONG_INT
static void lnumber PARAMS((struct DATA *, unsigned long long, int));
#endif
static void pointer PARAMS((struct DATA *, unsigned long));
static void strings PARAMS((struct DATA *, char *));
#ifdef FLOATING_POINT
# define FALLBACK_FMTSIZE 32
# define FALLBACK_BASE 4096
# define LFALLBACK_BASE 5120
# ifdef HAVE_LONG_DOUBLE
static void ldfallback PARAMS((struct DATA *, const char *, const char *, long double));
# endif
static void dfallback PARAMS((struct DATA *, const char *, const char *, double));
#endif
static char *groupnum PARAMS((char *));
#if defined (HAVE_LONG_DOUBLE)
# define LONGDOUBLE long double
#else
# define LONGDOUBLE double
#endif
#ifndef isnan
static inline int isnan_f (float x) { return x != x; }
static inline int isnan_d (double x) { return x != x; }
static inline int isnan_ld (LONGDOUBLE x) { return x != x; }
# define isnan(x) \
(sizeof (x) == sizeof (LONGDOUBLE) ? isnan_ld (x) \
: sizeof (x) == sizeof (double) ? isnan_d (x) \
: isnan_f (x))
#endif
#ifndef isinf
static inline int isinf_f (float x) { return !isnan (x) && isnan (x - x); }
static inline int isinf_d (double x) { return !isnan (x) && isnan (x - x); }
static inline int isinf_ld (LONGDOUBLE x) { return !isnan (x) && isnan (x - x); }
# define isinf(x) \
(sizeof (x) == sizeof (LONGDOUBLE) ? isinf_ld (x) \
: sizeof (x) == sizeof (double) ? isinf_d (x) \
: isinf_f (x))
#endif
#ifdef DRIVER
static void memory_error_and_abort ();
static void *xmalloc PARAMS((size_t));
static void *xrealloc PARAMS((void *, size_t));
static void xfree PARAMS((void *));
#else
# include <xmalloc.h>
#endif
/* those are defines specific to snprintf to hopefully
* make the code clearer :-)
*/
#define RIGHT 1
#define LEFT 0
#define NOT_FOUND -1
#define FOUND 1
#define MAX_FIELD 15
/* round off to the precision */
#define ROUND(d, p) \
(d < 0.) ? \
d - pow_10(-(p)->precision) * 0.5 : \
d + pow_10(-(p)->precision) * 0.5
/* set default precision */
#define DEF_PREC(p) \
if ((p)->precision == NOT_FOUND) \
(p)->precision = 6
/* put a char. increment the number of chars written even if we've exceeded
the vsnprintf/snprintf buffer size (for the return value) */
#define PUT_CHAR(c, p) \
do \
{ \
if (((p)->flags & PF_ALLOCBUF) && ((p)->counter >= (p)->length - 1)) \
{ \
(p)->length += ASBUFSIZE; \
(p)->base = (char *)xrealloc((p)->base, (p)->length); \
(p)->holder = (p)->base + (p)->counter; /* in case reallocated */ \
} \
if ((p)->counter < (p)->length) \
*(p)->holder++ = (c); \
(p)->counter++; \
} \
while (0)
/* Output a string. P->WIDTH has already been adjusted for padding. */
#define PUT_STRING(string, len, p) \
do \
{ \
PAD_RIGHT (p); \
while ((len)-- > 0) \
{ \
PUT_CHAR (*(string), (p)); \
(string)++; \
} \
PAD_LEFT (p); \
} \
while (0)
#define PUT_PLUS(d, p, zero) \
if (((p)->flags & PF_PLUS) && (d) > zero) \
PUT_CHAR('+', p)
#define PUT_SPACE(d, p, zero) \
if (((p)->flags & PF_SPACE) && (d) > zero) \
PUT_CHAR(' ', p)
/* pad right */
#define PAD_RIGHT(p) \
if ((p)->width > 0 && (p)->justify != LEFT) \
for (; (p)->width > 0; (p)->width--) \
PUT_CHAR((p)->pad, p)
/* pad left */
#define PAD_LEFT(p) \
if ((p)->width > 0 && (p)->justify == LEFT) \
for (; (p)->width > 0; (p)->width--) \
PUT_CHAR((p)->pad, p)
/* pad with zeros from decimal precision */
#define PAD_ZERO(p) \
if ((p)->precision > 0) \
for (; (p)->precision > 0; (p)->precision--) \
PUT_CHAR('0', p)
/* if width and prec. in the args */
#define STAR_ARGS(p) \
do { \
if ((p)->flags & PF_STAR_W) \
{ \
(p)->width = GETARG (int); \
if ((p)->width < 0) \
{ \
(p)->flags |= PF_LADJUST; \
(p)->justify = LEFT; \
(p)->width = -(p)->width; \
} \
} \
if ((p)->flags & PF_STAR_P) \
{ \
(p)->precision = GETARG (int); \
if ((p)->precision < 0) \
{ \
(p)->flags &= ~PF_STAR_P; \
(p)->precision = NOT_FOUND; \
} \
} \
} while (0)
#if defined (HAVE_LOCALE_H) && defined (HAVE_LOCALECONV)
# define GETLOCALEDATA(d, t, g) \
do \
{ \
struct lconv *lv; \
if ((d) == 0) { \
(d) = '.'; (t) = -1; (g) = 0; /* defaults */ \
lv = localeconv(); \
if (lv) \
{ \
if (lv->decimal_point && lv->decimal_point[0]) \
(d) = lv->decimal_point[0]; \
if (lv->thousands_sep && lv->thousands_sep[0]) \
(t) = lv->thousands_sep[0]; \
(g) = lv->grouping ? lv->grouping : ""; \
if (*(g) == '\0' || *(g) == CHAR_MAX || (t) == -1) (g) = 0; \
} \
} \
} \
while (0);
#else
# define GETLOCALEDATA(d, t, g) \
( (d) = '.', (t) = ',', g = "\003" )
#endif
#ifdef FLOATING_POINT
/*
* Find the nth power of 10
*/
static double
pow_10(n)
int n;
{
double P;
/* handle common cases with fast switch statement. */
switch (n)
{
case -3: return .001;
case -2: return .01;
case -1: return .1;
case 0: return 1.;
case 1: return 10.;
case 2: return 100.;
case 3: return 1000.;
}
if (n < 0)
{
P = .0001;
for (n += 4; n < 0; n++)
P /= 10.;
}
else
{
P = 10000.;
for (n -= 4; n > 0; n--)
P *= 10.;
}
return P;
}
/*
* Find the integral part of the log in base 10
* Note: this not a real log10()
I just need and approximation(integerpart) of x in:
10^x ~= r
* log_10(200) = 2;
* log_10(250) = 2;
*
* NOTE: do not call this with r == 0 -- an infinite loop results.
*/
static int
log_10(r)
double r;
{
int i = 0;
double result = 1.;
if (r < 0.)
r = -r;
if (r < 1.)
{
while (result >= r)
{
result /= 10.;
i++;
}
return (-i);
}
else
{
while (result <= r)
{
result *= 10.;
i++;
}
return (i - 1);
}
}
/*
* This function return the fraction part of a double
* and set in ip the integral part.
* In many ways it resemble the modf() found on most Un*x
*/
static double
integral(real, ip)
double real;
double *ip;
{
int j;
double i, s, p;
double real_integral = 0.;
/* take care of the obvious */
/* equal to zero ? */
if (real == 0.)
{
*ip = 0.;
return (0.);
}
/* negative number ? */
if (real < 0.)
real = -real;
/* a fraction ? */
if ( real < 1.)
{
*ip = 0.;
return real;
}
/* the real work :-) */
for (j = log_10(real); j >= 0; j--)
{
p = pow_10(j);
s = (real - real_integral)/p;
i = 0.;
while (i + 1. <= s)
i++;
real_integral += i*p;
}
*ip = real_integral;
return (real - real_integral);
}
#define PRECISION 1.e-6
/*
* return an ascii representation of the integral part of the number
* and set fract to be an ascii representation of the fraction part
* the container for the fraction and the integral part or statically
* declare with fix size
*/
static char *
numtoa(number, base, precision, fract)
double number;
int base, precision;
char **fract;
{
register int i, j;
double ip, fp; /* integer and fraction part */
double fraction;
int digits, sign;
static char integral_part[MAX_INT];
static char fraction_part[MAX_FRACT];
int ch;
/* taking care of the obvious case: 0.0 */
if (number == 0.)
{
integral_part[0] = '0';
integral_part[1] = '\0';
/* The fractional part has to take the precision into account */
for (ch = 0; ch < precision-1; ch++)
fraction_part[ch] = '0';
fraction_part[ch] = '0';
fraction_part[ch+1] = '\0';
if (fract)
*fract = fraction_part;
return integral_part;
}
/* -0 is tricky */
sign = (number == -0.) ? '-' : ((number < 0.) ? '-' : '+');
digits = MAX_INT - 1;
/* for negative numbers */
if (sign == '-')
{
number = -number;
digits--; /* sign consume one digit */
}
fraction = integral(number, &ip);
number = ip;
/* do the integral part */
if (ip == 0.)
{
integral_part[0] = '0';
i = 1;
}
else
{
for ( i = 0; i < digits && number != 0.; ++i)
{
number /= base;
fp = integral(number, &ip);
ch = (int)((fp + PRECISION)*base); /* force to round */
integral_part[i] = (ch <= 9) ? ch + '0' : ch + 'a' - 10;
if (! ISXDIGIT((unsigned char)integral_part[i]))
break; /* bail out overflow !! */
number = ip;
}
}
/* Oh No !! out of bound, ho well fill it up ! */
if (number != 0.)
for (i = 0; i < digits; ++i)
integral_part[i] = '9';
/* put the sign ? */
if (sign == '-')
integral_part[i++] = '-';
integral_part[i] = '\0';
/* reverse every thing */
for ( i--, j = 0; j < i; j++, i--)
SWAP_INT(integral_part[i], integral_part[j]);
/* the fractional part */
for (i=0, fp=fraction; precision > 0 && i < MAX_FRACT ; i++, precision--)
{
fraction_part[i] = (int)((fp + PRECISION)*10. + '0');
if (! DIGIT(fraction_part[i])) /* underflow ? */
break;
fp = (fp*10.0) - (double)(long)((fp + PRECISION)*10.);
}
fraction_part[i] = '\0';
if (fract != (char **)0)
*fract = fraction_part;
return integral_part;
}
#endif
/* for %d and friends, it puts in holder
* the representation with the right padding
*/
static void
number(p, d, base)
struct DATA *p;
unsigned long d;
int base;
{
char *tmp, *t;
long sd;
int flags;
/* An explicit precision turns off the zero-padding flag and sets the
pad character back to space. */
if ((p->flags & PF_ZEROPAD) && p->precision >= 0 && (p->flags & PF_DOT))
{
p->flags &= ~PF_ZEROPAD;
p->pad = ' ';
}
sd = d; /* signed for ' ' padding in base 10 */
flags = 0;
flags = (*p->pf == 'x' || *p->pf == 'X' || *p->pf == 'o' || *p->pf == 'u' || *p->pf == 'U') ? FL_UNSIGNED : 0;
if (*p->pf == 'X')
flags |= FL_HEXUPPER;
tmp = fmtulong (d, base, intbuf, sizeof(intbuf), flags);
t = 0;
if ((p->flags & PF_THOUSANDS))
{
GETLOCALEDATA(decpoint, thoussep, grouping);
if (grouping && (t = groupnum (tmp)))
tmp = t;
}
/* need to add one for any `+', but we only add one in base 10 */
p->width -= strlen(tmp) + (base == 10 && d > 0 && (p->flags & PF_PLUS));
PAD_RIGHT(p);
if ((p->flags & PF_DOT) && p->precision > 0)
{
p->precision -= strlen(tmp);
PAD_ZERO(p);
}
switch (base)
{
case 10:
PUT_PLUS(sd, p, 0);
PUT_SPACE(sd, p, 0);
break;
case 8:
if (p->flags & PF_ALTFORM)
PUT_CHAR('0', p);
break;
case 16:
if (p->flags & PF_ALTFORM)
{
PUT_CHAR('0', p);
PUT_CHAR(*p->pf, p);
}
break;
}
while (*tmp)
{
PUT_CHAR(*tmp, p);
tmp++;
}
PAD_LEFT(p);
FREE (t);
}
#ifdef HAVE_LONG_LONG_INT
/*
* identical to number() but works for `long long'
*/
static void
lnumber(p, d, base)
struct DATA *p;
unsigned long long d;
int base;
{
char *tmp, *t;
long long sd;
int flags;
/* An explicit precision turns off the zero-padding flag and sets the
pad character back to space. */
if ((p->flags & PF_ZEROPAD) && p->precision >= 0 && (p->flags & PF_DOT))
{
p->flags &= ~PF_ZEROPAD;
p->pad = ' ';
}
sd = d; /* signed for ' ' padding in base 10 */
flags = (*p->pf == 'x' || *p->pf == 'X' || *p->pf == 'o' || *p->pf == 'u' || *p->pf == 'U') ? FL_UNSIGNED : 0;
if (*p->pf == 'X')
flags |= FL_HEXUPPER;
tmp = fmtullong (d, base, intbuf, sizeof(intbuf), flags);
t = 0;
if ((p->flags & PF_THOUSANDS))
{
GETLOCALEDATA(decpoint, thoussep, grouping);
if (grouping && (t = groupnum (tmp)))
tmp = t;
}
/* need to add one for any `+', but we only add one in base 10 */
p->width -= strlen(tmp) + (base == 10 && d > 0 && (p->flags & PF_PLUS));
PAD_RIGHT(p);
if ((p->flags & PF_DOT) && p->precision > 0)
{
p->precision -= strlen(tmp);
PAD_ZERO(p);
}
switch (base)
{
case 10:
PUT_PLUS(sd, p, 0);
PUT_SPACE(sd, p, 0);
break;
case 8:
if (p->flags & PF_ALTFORM)
PUT_CHAR('0', p);
break;
case 16:
if (p->flags & PF_ALTFORM)
{
PUT_CHAR('0', p);
PUT_CHAR(*p->pf, p);
}
break;
}
while (*tmp)
{
PUT_CHAR(*tmp, p);
tmp++;
}
PAD_LEFT(p);
FREE (t);
}
#endif
static void
pointer(p, d)
struct DATA *p;
unsigned long d;
{
char *tmp;
tmp = fmtulong(d, 16, intbuf, sizeof(intbuf), 0);
p->width -= strlen(tmp);
PAD_RIGHT(p);
/* prefix '0x' for pointers */
PUT_CHAR('0', p);
PUT_CHAR('x', p);
while (*tmp)
{
PUT_CHAR(*tmp, p);
tmp++;
}
PAD_LEFT(p);
}
/* %s strings */
static void
strings(p, tmp)
struct DATA *p;
char *tmp;
{
size_t len;
len = strlen(tmp);
if (p->precision != NOT_FOUND) /* the smallest number */
len = (len < p->precision ? len : p->precision);
p->width -= len;
PUT_STRING (tmp, len, p);
}
#if HANDLE_MULTIBYTE
/* %ls wide-character strings */
static void
wstrings(p, tmp)
struct DATA *p;
wchar_t *tmp;
{
size_t len;
mbstate_t mbs;
char *os;
const wchar_t *ws;
memset (&mbs, '\0', sizeof (mbstate_t));
ws = (const wchar_t *)tmp;
os = (char *)NULL;
if (p->precision != NOT_FOUND)
{
os = (char *)xmalloc (p->precision + 1);
len = wcsrtombs (os, &ws, p->precision, &mbs);
}
else
{
len = wcsrtombs (NULL, &ws, 0, &mbs);
if (len != (size_t)-1)
{
memset (&mbs, '\0', sizeof (mbstate_t));
os = (char *)xmalloc (len + 1);
(void)wcsrtombs (os, &ws, len + 1, &mbs);
}
}
if (len == (size_t)-1)
{
/* invalid multibyte sequence; bail now. */
FREE (os);
return;
}
p->width -= len;
PUT_STRING (os, len, p);
free (os);
}
static void
wchars (p, wc)
struct DATA *p;
wint_t wc;
{
char *lbuf, *l;
mbstate_t mbs;
size_t len;
lbuf = (char *)malloc (MB_CUR_MAX+1);
if (lbuf == 0)
return;
memset (&mbs, '\0', sizeof (mbstate_t));
len = wcrtomb (lbuf, wc, &mbs);
if (len == (size_t)-1)
/* conversion failed; bail now. */
return;
p->width -= len;
l = lbuf;
PUT_STRING (l, len, p);
free (lbuf);
}
#endif /* HANDLE_MULTIBYTE */
#ifdef FLOATING_POINT
/* Check for [+-]infinity and NaN. If MODE == 1, we check for Infinity, else
(mode == 2) we check for NaN. This does the necessary printing. Returns
1 if Inf or Nan, 0 if not. */
static int
chkinfnan(p, d, mode)
struct DATA *p;
double d;
int mode; /* == 1 for inf, == 2 for nan */
{
int i;
char *tmp;
char *big, *small;
i = (mode == 1) ? isinf(d) : isnan(d);
if (i == 0)
return 0;
big = (mode == 1) ? "INF" : "NAN";
small = (mode == 1) ? "inf" : "nan";
tmp = (*p->pf == 'F' || *p->pf == 'G' || *p->pf == 'E') ? big : small;
if (i < 0)
PUT_CHAR('-', p);
while (*tmp)
{
PUT_CHAR (*tmp, p);
tmp++;
}
return 1;
}
/* %f %F %g %G floating point representation */
static void
floating(p, d)
struct DATA *p;
double d;
{
char *tmp, *tmp2, *t;
int i;
if (d != 0 && (chkinfnan(p, d, 1) || chkinfnan(p, d, 2)))
return; /* already printed nan or inf */
GETLOCALEDATA(decpoint, thoussep, grouping);
DEF_PREC(p);
d = ROUND(d, p);
tmp = dtoa(d, p->precision, &tmp2);
t = 0;
if ((p->flags & PF_THOUSANDS) && grouping && (t = groupnum (tmp)))
tmp = t;
if ((*p->pf == 'g' || *p->pf == 'G') && (p->flags & PF_ALTFORM) == 0)
{
/* smash the trailing zeros unless altform */
for (i = strlen(tmp2) - 1; i >= 0 && tmp2[i] == '0'; i--)
tmp2[i] = '\0';
if (tmp2[0] == '\0')
p->precision = 0;
}
/* calculate the padding. 1 for the dot */
p->width = p->width -
/* XXX - should this be d>0. && (p->flags & PF_PLUS) ? */
#if 0
((d > 0. && p->justify == RIGHT) ? 1:0) -
#else
((d > 0. && (p->flags & PF_PLUS)) ? 1:0) -
#endif
((p->flags & PF_SPACE) ? 1:0) -
strlen(tmp) - p->precision -
((p->precision != 0 || (p->flags & PF_ALTFORM)) ? 1 : 0); /* radix char */
if (p->pad == ' ')
{
PAD_RIGHT(p);
PUT_PLUS(d, p, 0.);
}
else
{
if (*tmp == '-')
PUT_CHAR(*tmp++, p);
PUT_PLUS(d, p, 0.);
PAD_RIGHT(p);
}
PUT_SPACE(d, p, 0.);
while (*tmp)
{
PUT_CHAR(*tmp, p); /* the integral */
tmp++;
}
FREE (t);
if (p->precision != 0 || (p->flags & PF_ALTFORM))
PUT_CHAR(decpoint, p); /* put the '.' */
for (; *tmp2; tmp2++)
PUT_CHAR(*tmp2, p); /* the fraction */
PAD_LEFT(p);
}
/* %e %E %g %G exponent representation */
static void
exponent(p, d)
struct DATA *p;
double d;
{
char *tmp, *tmp2;
int j, i;
if (d != 0 && (chkinfnan(p, d, 1) || chkinfnan(p, d, 2)))
return; /* already printed nan or inf */
GETLOCALEDATA(decpoint, thoussep, grouping);
DEF_PREC(p);
if (d == 0.)
j = 0;
else
{
j = log_10(d);
d = d / pow_10(j); /* get the Mantissa */
d = ROUND(d, p);
}
tmp = dtoa(d, p->precision, &tmp2);
/* 1 for unit, 1 for the '.', 1 for 'e|E',
* 1 for '+|-', 2 for 'exp' (but no `.' if precision == 0 */
/* calculate how much padding need */
p->width = p->width -
/* XXX - should this be d>0. && (p->flags & PF_PLUS) ? */
#if 0
((d > 0. && p->justify == RIGHT) ? 1:0) -
#else
((d > 0. && (p->flags & PF_PLUS)) ? 1:0) -
#endif
(p->precision != 0 || (p->flags & PF_ALTFORM)) -
((p->flags & PF_SPACE) ? 1:0) - p->precision - 5;
if (p->pad == ' ')
{
PAD_RIGHT(p);
PUT_PLUS(d, p, 0.);
}
else
{
if (*tmp == '-')
PUT_CHAR(*tmp++, p);
PUT_PLUS(d, p, 0.);
PAD_RIGHT(p);
}
PUT_SPACE(d, p, 0.);
while (*tmp)
{
PUT_CHAR(*tmp, p);
tmp++;
}
if (p->precision != 0 || (p->flags & PF_ALTFORM))
PUT_CHAR(decpoint, p); /* the '.' */
if ((*p->pf == 'g' || *p->pf == 'G') && (p->flags & PF_ALTFORM) == 0)
/* smash the trailing zeros unless altform */
for (i = strlen(tmp2) - 1; i >= 0 && tmp2[i] == '0'; i--)
tmp2[i] = '\0';
for (; *tmp2; tmp2++)
PUT_CHAR(*tmp2, p); /* the fraction */
/* the exponent put the 'e|E' */
if (*p->pf == 'g' || *p->pf == 'e')
PUT_CHAR('e', p);
else
PUT_CHAR('E', p);
/* the sign of the exp */
if (j >= 0)
PUT_CHAR('+', p);
else
{
PUT_CHAR('-', p);
j = -j;
}
tmp = itoa(j);
/* pad out to at least two spaces. pad with `0' if the exponent is a
single digit. */
if (j <= 9)
PUT_CHAR('0', p);
/* the exponent */
while (*tmp)
{
PUT_CHAR(*tmp, p);
tmp++;
}
PAD_LEFT(p);
}
#endif
/* Return a new string with the digits in S grouped according to the locale's
grouping info and thousands separator. If no grouping should be performed,
this returns NULL; the caller needs to check for it. */
static char *
groupnum (s)
char *s;
{
char *se, *ret, *re, *g;
int len, slen;
if (grouping == 0 || *grouping <= 0 || *grouping == CHAR_MAX)
return ((char *)NULL);
/* find min grouping to size returned string */
for (len = *grouping, g = grouping; *g; g++)
if (*g > 0 && *g < len)
len = *g;
slen = strlen (s);
len = slen / len + 1;
ret = (char *)xmalloc (slen + len + 1);
re = ret + slen + len;
*re = '\0';
g = grouping;
se = s + slen;
len = *g;
while (se > s)
{
*--re = *--se;
/* handle `-' inserted by numtoa() and the fmtu* family here. */
if (se > s && se[-1] == '-')
continue;
/* begin new group. */
if (--len == 0 && se > s)
{
*--re = thoussep;
len = *++g; /* was g++, but that uses first char twice (glibc bug, too) */
if (*g == '\0')
len = *--g; /* use previous grouping */
else if (*g == CHAR_MAX)
{
do
*--re = *--se;
while (se > s);
break;
}
}
}
if (re > ret)
#ifdef HAVE_MEMMOVE
memmove (ret, re, strlen (re) + 1);
#else
strcpy (ret, re);
#endif
return ret;
}
/* initialize the conversion specifiers */
static void
init_conv_flag (p)
struct DATA *p;
{
p->flags &= PF_ALLOCBUF; /* preserve PF_ALLOCBUF flag */
p->precision = p->width = NOT_FOUND;
p->justify = NOT_FOUND;
p->pad = ' ';
}
static void
init_data (p, string, length, format, mode)
struct DATA *p;
char *string;
size_t length;
const char *format;
int mode;
{
p->length = length - 1; /* leave room for '\0' */
p->holder = p->base = string;
p->pf = format;
p->counter = 0;
p->flags = (mode == PFM_AS) ? PF_ALLOCBUF : 0;
}
static int
#if defined (__STDC__)
vsnprintf_internal(struct DATA *data, char *string, size_t length, const char *format, va_list args)
#else
vsnprintf_internal(data, string, length, format, args)
struct DATA *data;
char *string;
size_t length;
const char *format;
va_list args;
#endif
{
double d; /* temporary holder */
#ifdef HAVE_LONG_DOUBLE
long double ld; /* for later */
#endif
unsigned long ul;
#ifdef HAVE_UNSIGNED_LONG_LONG_INT
unsigned long long ull;
#endif
int state, i, c, n;
char *s;
#if HANDLE_MULTIBYTE
wchar_t *ws;
wint_t wc;
#endif
const char *convstart;
int negprec;
/* Sanity check, the string length must be >= 0. C99 actually says that
LENGTH can be zero here, in the case of snprintf/vsnprintf (it's never
0 in the case of asprintf/vasprintf), and the return value is the number
of characters that would have been written. */
if (length < 0)
return -1;
if (format == 0)
return 0;
/* Reset these for each call because the locale might have changed. */
decpoint = thoussep = 0;
grouping = 0;
negprec = 0;
for (; c = *(data->pf); data->pf++)
{
if (c != '%')
{
PUT_CHAR (c, data);
continue;
}
convstart = data->pf;
init_conv_flag (data); /* initialise format flags */
state = 1;
for (state = 1; state && *data->pf; )
{
c = *(++data->pf);
/* fmtend = data->pf */
#if defined (FLOATING_POINT) && defined (HAVE_LONG_DOUBLE)
if (data->flags & PF_LONGDBL)
{
switch (c)
{
case 'f': case 'F':
case 'e': case 'E':
case 'g': case 'G':
# ifdef HAVE_PRINTF_A_FORMAT
case 'a': case 'A':
# endif
STAR_ARGS (data);
ld = GETLDOUBLE (data);
ldfallback (data, convstart, data->pf, ld);
goto conv_break;
}
}
#endif /* FLOATING_POINT && HAVE_LONG_DOUBLE */
switch (c)
{
/* Parse format flags */
case '\0': /* a NULL here ? ? bail out */
*data->holder = '\0';
return data->counter;
break;
case '#':
data->flags |= PF_ALTFORM;
continue;
case '*':
if (data->flags & PF_DOT)
data->flags |= PF_STAR_P;
else
data->flags |= PF_STAR_W;
continue;
case '-':
if ((data->flags & PF_DOT) == 0)
{
data->flags |= PF_LADJUST;
data->justify = LEFT;
}
else
negprec = 1;
continue;
case ' ':
if ((data->flags & PF_PLUS) == 0)
data->flags |= PF_SPACE;
continue;
case '+':
if ((data->flags & PF_DOT) == 0)
{
data->flags |= PF_PLUS;
if ((data->flags & PF_LADJUST) == 0)
data->justify = RIGHT;
}
continue;
case '\'':
data->flags |= PF_THOUSANDS;
continue;
case '0':
/* If we're not specifying precision (in which case we've seen
a `.') and we're not performing left-adjustment (in which
case the `0' is ignored), a `0' is taken as the zero-padding
flag. */
if ((data->flags & (PF_DOT|PF_LADJUST)) == 0)
{
data->flags |= PF_ZEROPAD;
data->pad = '0';
continue;
}
case '1': case '2': case '3':
case '4': case '5': case '6':
case '7': case '8': case '9':
n = 0;
do
{
n = n * 10 + TODIGIT(c);
c = *(++data->pf);
}
while (DIGIT(c));
data->pf--; /* went too far */
if (n < 0)
n = 0;
if (data->flags & PF_DOT)
data->precision = negprec ? NOT_FOUND : n;
else
data->width = n;
continue;
/* optional precision */
case '.':
data->flags |= PF_DOT;
data->precision = 0;
continue;
/* length modifiers */
case 'h':
data->flags |= (data->flags & PF_SHORTINT) ? PF_SIGNEDCHAR : PF_SHORTINT;
continue;
case 'l':
data->flags |= (data->flags & PF_LONGINT) ? PF_LONGLONG : PF_LONGINT;
continue;
case 'L':
data->flags |= PF_LONGDBL;
continue;
case 'q':
data->flags |= PF_LONGLONG;
continue;
case 'j':
data->flags |= PF_INTMAX_T;
SET_SIZE_FLAGS(data, intmax_t);
continue;
case 'z':
data->flags |= PF_SIZE_T;
SET_SIZE_FLAGS(data, size_t);
continue;
case 't':
data->flags |= PF_PTRDIFF_T;
SET_SIZE_FLAGS(data, ptrdiff_t);
continue;
/* Conversion specifiers */
#ifdef FLOATING_POINT
case 'f': /* float, double */
case 'F':
STAR_ARGS(data);
d = GETDOUBLE(data);
floating(data, d);
conv_break:
state = 0;
break;
case 'g':
case 'G':
STAR_ARGS(data);
DEF_PREC(data);
d = GETDOUBLE(data);
i = (d != 0.) ? log_10(d) : -1;
/*
* for '%g|%G' ANSI: use f if exponent
* is in the range or [-4,p] exclusively
* else use %e|%E
*/
if (-4 < i && i < data->precision)
{
/* reset precision */
data->precision -= i + 1;
floating(data, d);
}
else
{
/* reduce precision by 1 because of leading digit before
decimal point in e format, unless specified as 0. */
if (data->precision > 0)
data->precision--;
exponent(data, d);
}
state = 0;
break;
case 'e':
case 'E': /* Exponent double */
STAR_ARGS(data);
d = GETDOUBLE(data);
exponent(data, d);
state = 0;
break;
# ifdef HAVE_PRINTF_A_FORMAT
case 'a':
case 'A':
STAR_ARGS(data);
d = GETDOUBLE(data);
dfallback(data, convstart, data->pf, d);
state = 0;
break;
# endif /* HAVE_PRINTF_A_FORMAT */
#endif /* FLOATING_POINT */
case 'U':
data->flags |= PF_LONGINT;
/* FALLTHROUGH */
case 'u':
STAR_ARGS(data);
#ifdef HAVE_LONG_LONG_INT
if (data->flags & PF_LONGLONG)
{
ull = GETARG (unsigned long long);
lnumber(data, ull, 10);
}
else
#endif
{
ul = GETUNSIGNED(data);
number(data, ul, 10);
}
state = 0;
break;
case 'D':
data->flags |= PF_LONGINT;
/* FALLTHROUGH */
case 'd': /* decimal */
case 'i':
STAR_ARGS(data);
#ifdef HAVE_LONG_LONG_INT
if (data->flags & PF_LONGLONG)
{
ull = GETARG (long long);
lnumber(data, ull, 10);
}
else
#endif
{
ul = GETSIGNED(data);
number(data, ul, 10);
}
state = 0;
break;
case 'o': /* octal */
STAR_ARGS(data);
#ifdef HAVE_LONG_LONG_INT
if (data->flags & PF_LONGLONG)
{
ull = GETARG (unsigned long long);
lnumber(data, ull, 8);
}
else
#endif
{
ul = GETUNSIGNED(data);
number(data, ul, 8);
}
state = 0;
break;
case 'x':
case 'X': /* hexadecimal */
STAR_ARGS(data);
#ifdef HAVE_LONG_LONG_INT
if (data->flags & PF_LONGLONG)
{
ull = GETARG (unsigned long long);
lnumber(data, ull, 16);
}
else
#endif
{
ul = GETUNSIGNED(data);
number(data, ul, 16);
}
state = 0;
break;
case 'p':
STAR_ARGS(data);
ul = (unsigned long)GETARG (void *);
pointer(data, ul);
state = 0;
break;
#if HANDLE_MULTIBYTE
case 'C':
data->flags |= PF_LONGINT;
/* FALLTHROUGH */
#endif
case 'c': /* character */
STAR_ARGS(data);
#if HANDLE_MULTIBYTE
if (data->flags & PF_LONGINT)
{
wc = GETARG (wint_t);
wchars (data, wc);
}
else
#endif
{
ul = GETARG (int);
PUT_CHAR(ul, data);
}
state = 0;
break;
#if HANDLE_MULTIBYTE
case 'S':
data->flags |= PF_LONGINT;
/* FALLTHROUGH */
#endif
case 's': /* string */
STAR_ARGS(data);
#if HANDLE_MULTIBYTE
if (data->flags & PF_LONGINT)
{
ws = GETARG (wchar_t *);
wstrings (data, ws);
}
else
#endif
{
s = GETARG (char *);
strings(data, s);
}
state = 0;
break;
case 'n':
#ifdef HAVE_LONG_LONG_INT
if (data->flags & PF_LONGLONG)
*(GETARG (long long *)) = data->counter;
else
#endif
if (data->flags & PF_LONGINT)
*(GETARG (long *)) = data->counter;
else if (data->flags & PF_SHORTINT)
*(GETARG (short *)) = data->counter;
else
*(GETARG (int *)) = data->counter;
state = 0;
break;
case '%': /* nothing just % */
PUT_CHAR('%', data);
state = 0;
break;
default:
/* is this an error ? maybe bail out */
state = 0;
break;
} /* end switch */
} /* end of `%' for loop */
} /* end of format string for loop */
if (data->length >= 0)
*data->holder = '\0'; /* the end ye ! */
return data->counter;
}
#if defined (FLOATING_POINT) && defined (HAVE_LONG_DOUBLE)
/*
* Printing floating point numbers accurately is an art. I'm not good
* at it. Fall back to sprintf for long double formats.
*/
static void
ldfallback (data, fs, fe, ld)
struct DATA *data;
const char *fs, *fe;
long double ld;
{
register char *x;
char fmtbuf[FALLBACK_FMTSIZE], *obuf;
int fl;
fl = LFALLBACK_BASE + (data->precision < 6 ? 6 : data->precision) + 2;
obuf = (char *)xmalloc (fl);
fl = fe - fs + 1;
strncpy (fmtbuf, fs, fl);
fmtbuf[fl] = '\0';
if ((data->flags & PF_STAR_W) && (data->flags & PF_STAR_P))
sprintf (obuf, fmtbuf, data->width, data->precision, ld);
else if (data->flags & PF_STAR_W)
sprintf (obuf, fmtbuf, data->width, ld);
else if (data->flags & PF_STAR_P)
sprintf (obuf, fmtbuf, data->precision, ld);
else
sprintf (obuf, fmtbuf, ld);
for (x = obuf; *x; x++)
PUT_CHAR (*x, data);
xfree (obuf);
}
#endif /* FLOATING_POINT && HAVE_LONG_DOUBLE */
#ifdef FLOATING_POINT
/* Used for %a, %A if the libc printf supports them. */
static void
dfallback (data, fs, fe, d)
struct DATA *data;
const char *fs, *fe;
double d;
{
register char *x;
char fmtbuf[FALLBACK_FMTSIZE], obuf[FALLBACK_BASE];
int fl;
fl = fe - fs + 1;
strncpy (fmtbuf, fs, fl);
fmtbuf[fl] = '\0';
if ((data->flags & PF_STAR_W) && (data->flags & PF_STAR_P))
sprintf (obuf, fmtbuf, data->width, data->precision, d);
else if (data->flags & PF_STAR_W)
sprintf (obuf, fmtbuf, data->width, d);
else if (data->flags & PF_STAR_P)
sprintf (obuf, fmtbuf, data->precision, d);
else
sprintf (obuf, fmtbuf, d);
for (x = obuf; *x; x++)
PUT_CHAR (*x, data);
}
#endif /* FLOATING_POINT */
#if !HAVE_SNPRINTF
int
#if defined (__STDC__)
vsnprintf(char *string, size_t length, const char *format, va_list args)
#else
vsnprintf(string, length, format, args)
char *string;
size_t length;
const char *format;
va_list args;
#endif
{
struct DATA data;
if (string == 0 && length != 0)
return 0;
init_data (&data, string, length, format, PFM_SN);
return (vsnprintf_internal(&data, string, length, format, args));
}
int
#if defined(PREFER_STDARG)
snprintf(char *string, size_t length, const char * format, ...)
#else
snprintf(string, length, format, va_alist)
char *string;
size_t length;
const char *format;
va_dcl
#endif
{
struct DATA data;
int rval;
va_list args;
SH_VA_START(args, format);
if (string == 0 && length != 0)
return 0;
init_data (&data, string, length, format, PFM_SN);
rval = vsnprintf_internal (&data, string, length, format, args);
va_end(args);
return rval;
}
#endif /* HAVE_SNPRINTF */
#if !HAVE_ASPRINTF
int
#if defined (__STDC__)
vasprintf(char **stringp, const char *format, va_list args)
#else
vasprintf(stringp, format, args)
char **stringp;
const char *format;
va_list args;
#endif
{
struct DATA data;
char *string;
int r;
string = (char *)xmalloc(ASBUFSIZE);
init_data (&data, string, ASBUFSIZE, format, PFM_AS);
r = vsnprintf_internal(&data, string, ASBUFSIZE, format, args);
*stringp = data.base; /* not string in case reallocated */
return r;
}
int
#if defined(PREFER_STDARG)
asprintf(char **stringp, const char * format, ...)
#else
asprintf(stringp, format, va_alist)
char **stringp;
const char *format;
va_dcl
#endif
{
int rval;
va_list args;
SH_VA_START(args, format);
rval = vasprintf (stringp, format, args);
va_end(args);
return rval;
}
#endif /* !HAVE_ASPRINTF */
#endif /* !HAVE_SNPRINTF || !HAVE_ASPRINTF */
#ifdef DRIVER
static void
memory_error_and_abort ()
{
write (2, "out of virtual memory\n", 22);
abort ();
}
static void *
xmalloc(bytes)
size_t bytes;
{
void *ret;
ret = malloc(bytes);
if (ret == 0)
memory_error_and_abort ();
return ret;
}
static void *
xrealloc (pointer, bytes)
void *pointer;
size_t bytes;
{
void *ret;
ret = pointer ? realloc(pointer, bytes) : malloc(bytes);
if (ret == 0)
memory_error_and_abort ();
return ret;
}
static void
xfree(x)
void *x;
{
if (x)
free (x);
}
/* set of small tests for snprintf() */
main()
{
char holder[100];
char *h;
int i, si, ai;
#ifdef HAVE_LOCALE_H
setlocale(LC_ALL, "");
#endif
#if 1
si = snprintf((char *)NULL, 0, "abcde\n");
printf("snprintf returns %d with NULL first argument and size of 0\n", si);
si = snprintf(holder, 0, "abcde\n");
printf("snprintf returns %d with non-NULL first argument and size of 0\n", si);
si = snprintf((char *)NULL, 16, "abcde\n");
printf("snprintf returns %d with NULL first argument and non-zero size\n", si);
/*
printf("Suite of test for snprintf:\n");
printf("a_format\n");
printf("printf() format\n");
printf("snprintf() format\n\n");
*/
/* Checking the field widths */
printf("/%%ld %%ld/, 336, 336\n");
snprintf(holder, sizeof holder, "/%ld %ld/\n", 336, 336);
asprintf(&h, "/%ld %ld/\n", 336, 336);
printf("/%ld %ld/\n", 336, 336);
printf("%s", holder);
printf("%s\n", h);
printf("/%%d/, 336\n");
snprintf(holder, sizeof holder, "/%d/\n", 336);
asprintf(&h, "/%d/\n", 336);
printf("/%d/\n", 336);
printf("%s", holder);
printf("%s\n", h);
printf("/%%2d/, 336\n");
snprintf(holder, sizeof holder, "/%2d/\n", 336);
asprintf(&h, "/%2d/\n", 336);
printf("/%2d/\n", 336);
printf("%s", holder);
printf("%s\n", h);
printf("/%%10d/, 336\n");
snprintf(holder, sizeof holder, "/%10d/\n", 336);
asprintf(&h, "/%10d/\n", 336);
printf("/%10d/\n", 336);
printf("%s", holder);
printf("%s\n", h);
printf("/%%-10d/, 336\n");
snprintf(holder, sizeof holder, "/%-10d/\n", 336);
asprintf(&h, "/%-10d/\n", 336);
printf("/%-10d/\n", 336);
printf("%s", holder);
printf("%s\n", h);
/* floating points */
printf("/%%f/, 1234.56\n");
snprintf(holder, sizeof holder, "/%f/\n", 1234.56);
asprintf(&h, "/%f/\n", 1234.56);
printf("/%f/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%e/, 1234.56\n");
snprintf(holder, sizeof holder, "/%e/\n", 1234.56);
asprintf(&h, "/%e/\n", 1234.56);
printf("/%e/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%4.2f/, 1234.56\n");
snprintf(holder, sizeof holder, "/%4.2f/\n", 1234.56);
asprintf(&h, "/%4.2f/\n", 1234.56);
printf("/%4.2f/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%3.1f/, 1234.56\n");
snprintf(holder, sizeof holder, "/%3.1f/\n", 1234.56);
asprintf(&h, "/%3.1f/\n", 1234.56);
printf("/%3.1f/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%10.3f/, 1234.56\n");
snprintf(holder, sizeof holder, "/%10.3f/\n", 1234.56);
asprintf(&h, "/%10.3f/\n", 1234.56);
printf("/%10.3f/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%10.3e/, 1234.56\n");
snprintf(holder, sizeof holder, "/%10.3e/\n", 1234.56);
asprintf(&h, "/%10.3e/\n", 1234.56);
printf("/%10.3e/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%+4.2f/, 1234.56\n");
snprintf(holder, sizeof holder, "/%+4.2f/\n", 1234.56);
asprintf(&h, "/%+4.2f/\n", 1234.56);
printf("/%+4.2f/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
printf("/%%010.2f/, 1234.56\n");
snprintf(holder, sizeof holder, "/%010.2f/\n", 1234.56);
asprintf(&h, "/%010.2f/\n", 1234.56);
printf("/%010.2f/\n", 1234.56);
printf("%s", holder);
printf("%s\n", h);
#define BLURB "Outstanding acting !"
/* strings precisions */
printf("/%%2s/, \"%s\"\n", BLURB);
snprintf(holder, sizeof holder, "/%2s/\n", BLURB);
asprintf(&h, "/%2s/\n", BLURB);
printf("/%2s/\n", BLURB);
printf("%s", holder);
printf("%s\n", h);
printf("/%%22s/ %s\n", BLURB);
snprintf(holder, sizeof holder, "/%22s/\n", BLURB);
asprintf(&h, "/%22s/\n", BLURB);
printf("/%22s/\n", BLURB);
printf("%s", holder);
printf("%s\n", h);
printf("/%%22.5s/ %s\n", BLURB);
snprintf(holder, sizeof holder, "/%22.5s/\n", BLURB);
asprintf(&h, "/%22.5s/\n", BLURB);
printf("/%22.5s/\n", BLURB);
printf("%s", holder);
printf("%s\n", h);
printf("/%%-22.5s/ %s\n", BLURB);
snprintf(holder, sizeof holder, "/%-22.5s/\n", BLURB);
asprintf(&h, "/%-22.5s/\n", BLURB);
printf("/%-22.5s/\n", BLURB);
printf("%s", holder);
printf("%s\n", h);
/* see some flags */
printf("%%x %%X %%#x, 31, 31, 31\n");
snprintf(holder, sizeof holder, "%x %X %#x\n", 31, 31, 31);
asprintf(&h, "%x %X %#x\n", 31, 31, 31);
printf("%x %X %#x\n", 31, 31, 31);
printf("%s", holder);
printf("%s\n", h);
printf("**%%d**%% d**%% d**, 42, 42, -42\n");
snprintf(holder, sizeof holder, "**%d**% d**% d**\n", 42, 42, -42);
asprintf(&h, "**%d**% d**% d**\n", 42, 42, -42);
printf("**%d**% d**% d**\n", 42, 42, -42);
printf("%s", holder);
printf("%s\n", h);
/* other flags */
printf("/%%g/, 31.4\n");
snprintf(holder, sizeof holder, "/%g/\n", 31.4);
asprintf(&h, "/%g/\n", 31.4);
printf("/%g/\n", 31.4);
printf("%s", holder);
printf("%s\n", h);
printf("/%%.6g/, 31.4\n");
snprintf(holder, sizeof holder, "/%.6g/\n", 31.4);
asprintf(&h, "/%.6g/\n", 31.4);
printf("/%.6g/\n", 31.4);
printf("%s", holder);
printf("%s\n", h);
printf("/%%.1G/, 31.4\n");
snprintf(holder, sizeof holder, "/%.1G/\n", 31.4);
asprintf(&h, "/%.1G/\n", 31.4);
printf("/%.1G/\n", 31.4);
printf("%s", holder);
printf("%s\n", h);
printf("/%%.1G/, 3100000000.4\n");
snprintf(holder, sizeof holder, "/%.1G/\n", 3100000000.4);
asprintf(&h, "/%.1G/\n", 3100000000.4);
printf("/%.1G/\n", 3100000000.4);
printf("%s", holder);
printf("%s\n", h);
printf("abc%%n\n");
printf("abc%n", &i); printf("%d\n", i);
snprintf(holder, sizeof holder, "abc%n", &i);
printf("%s", holder); printf("%d\n\n", i);
asprintf(&h, "abc%n", &i);
printf("%s", h); printf("%d\n\n", i);
printf("%%*.*s --> 10.10\n");
snprintf(holder, sizeof holder, "%*.*s\n", 10, 10, BLURB);
asprintf(&h, "%*.*s\n", 10, 10, BLURB);
printf("%*.*s\n", 10, 10, BLURB);
printf("%s", holder);
printf("%s\n", h);
printf("%%%%%%%%\n");
snprintf(holder, sizeof holder, "%%%%\n");
asprintf(&h, "%%%%\n");
printf("%%%%\n");
printf("%s", holder);
printf("%s\n", h);
#define BIG "Hello this is a too big string for the buffer"
/* printf("A buffer to small of 10, trying to put this:\n");*/
printf("<%%>, %s\n", BIG);
i = snprintf(holder, 10, "%s\n", BIG);
i = asprintf(&h, "%s", BIG);
printf("<%s>\n", BIG);
printf("<%s>\n", holder);
printf("<%s>\n\n", h);
printf ("<%%p> vsnprintf\n");
i = snprintf(holder, 100, "%p", vsnprintf);
i = asprintf(&h, "%p", vsnprintf);
printf("<%p>\n", vsnprintf);
printf("<%s>\n", holder);
printf("<%s>\n\n", h);
printf ("<%%lu> LONG_MAX+1\n");
i = snprintf(holder, 100, "%lu", (unsigned long)(LONG_MAX)+1);
i = asprintf(&h, "%lu", (unsigned long)(LONG_MAX)+1);
printf("<%lu>\n", (unsigned long)(LONG_MAX)+1);
printf("<%s>\n", holder);
printf("<%s>\n\n", h);
#ifdef HAVE_LONG_LONG_INT
printf ("<%%llu> LLONG_MAX+1\n");
i = snprintf(holder, 100, "%llu", (unsigned long long)(LLONG_MAX)+1);
i = asprintf(&h, "%llu", (unsigned long long)(LLONG_MAX)+1);
printf("<%llu>\n", (unsigned long long)(LLONG_MAX)+1);
printf("<%s>\n", holder);
printf("<%s>\n\n", h);
#endif
#ifdef HAVE_LONG_DOUBLE
printf ("<%%6.2LE> 42.42\n");
i = snprintf(holder, 100, "%6.2LE", (long double)42.42);
i = asprintf(&h, "%6.2LE", (long double)42.42);
printf ("<%6.2LE>\n", (long double)42.42);
printf ("<%s>\n", holder);
printf ("<%s>\n\n", h);
#endif
#ifdef HAVE_PRINTF_A_FORMAT
printf ("<%%6.2A> 42.42\n");
i = snprintf(holder, 100, "%6.2A", 42.42);
i = asprintf(&h, "%6.2A", 42.42);
printf ("<%6.2A>\n", 42.42);
printf ("<%s>\n", holder);
printf ("<%s>\n\n", h);
printf ("<%%6.2LA> 42.42\n");
i = snprintf(holder, 100, "%6.2LA", (long double)42.42);
i = asprintf(&h, "%6.2LA", (long double)42.42);
printf ("<%6.2LA>\n", (long double)42.42);
printf ("<%s>\n", holder);
printf ("<%s>\n\n", h);
#endif
printf ("<%%.10240f> DBL_MAX\n");
si = snprintf(holder, 100, "%.10240f", DBL_MAX);
ai = asprintf(&h, "%.10240f", DBL_MAX);
printf ("<%.10240f>\n", DBL_MAX);
printf ("<%d> <%s>\n", si, holder);
printf ("<%d> <%s>\n\n", ai, h);
printf ("<%%.10240Lf> LDBL_MAX\n");
si = snprintf(holder, 100, "%.10240Lf", (long double)LDBL_MAX);
ai = asprintf(&h, "%.10240Lf", (long double)LDBL_MAX);
printf ("<%.10240Lf>\n", (long double)LDBL_MAX);
printf ("<%d> <%s>\n", si, holder);
printf ("<%d> <%s>\n\n", ai, h);
/* huh? */
printf("/%%g/, 421.2345\n");
snprintf(holder, sizeof holder, "/%g/\n", 421.2345);
asprintf(&h, "/%g/\n", 421.2345);
printf("/%g/\n", 421.2345);
printf("%s", holder);
printf("%s\n", h);
printf("/%%g/, 4214.2345\n");
snprintf(holder, sizeof holder, "/%g/\n", 4214.2345);
asprintf(&h, "/%g/\n", 4214.2345);
printf("/%g/\n", 4214.2345);
printf("%s", holder);
printf("%s\n", h);
printf("/%%.5g/, 4214.2345\n");
snprintf(holder, sizeof holder, "/%.5g/\n", 4214.2345);
asprintf(&h, "/%.5g/\n", 4214.2345);
printf("/%.5g/\n", 4214.2345);
printf("%s", holder);
printf("%s\n", h);
printf("/%%.4g/, 4214.2345\n");
snprintf(holder, sizeof holder, "/%.4g/\n", 4214.2345);
asprintf(&h, "/%.4g/\n", 4214.2345);
printf("/%.4g/\n", 4214.2345);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'ld %%'ld/, 12345, 1234567\n");
snprintf(holder, sizeof holder, "/%'ld %'ld/\n", 12345, 1234567);
asprintf(&h, "/%'ld %'ld/\n", 12345, 1234567);
printf("/%'ld %'ld/\n", 12345, 1234567);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'ld %%'ld/, 336, 3336\n");
snprintf(holder, sizeof holder, "/%'ld %'ld/\n", 336, 3336);
asprintf(&h, "/%'ld %'ld/\n", 336, 3336);
printf("/%'ld %'ld/\n", 336, 3336);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'ld %%'ld/, -42786, -142786\n");
snprintf(holder, sizeof holder, "/%'ld %'ld/\n", -42786, -142786);
asprintf(&h, "/%'ld %'ld/\n", -42786, -142786);
printf("/%'ld %'ld/\n", -42786, -142786);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'f %%'f/, 421.2345, 421234.56789\n");
snprintf(holder, sizeof holder, "/%'f %'f/\n", 421.2345, 421234.56789);
asprintf(&h, "/%'f %'f/\n", 421.2345, 421234.56789);
printf("/%'f %'f/\n", 421.2345, 421234.56789);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'f %%'f/, -421.2345, -421234.56789\n");
snprintf(holder, sizeof holder, "/%'f %'f/\n", -421.2345, -421234.56789);
asprintf(&h, "/%'f %'f/\n", -421.2345, -421234.56789);
printf("/%'f %'f/\n", -421.2345, -421234.56789);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'g %%'g/, 421.2345, 421234.56789\n");
snprintf(holder, sizeof holder, "/%'g %'g/\n", 421.2345, 421234.56789);
asprintf(&h, "/%'g %'g/\n", 421.2345, 421234.56789);
printf("/%'g %'g/\n", 421.2345, 421234.56789);
printf("%s", holder);
printf("%s\n", h);
printf("/%%'g %%'g/, -421.2345, -421234.56789\n");
snprintf(holder, sizeof holder, "/%'g %'g/\n", -421.2345, -421234.56789);
asprintf(&h, "/%'g %'g/\n", -421.2345, -421234.56789);
printf("/%'g %'g/\n", -421.2345, -421234.56789);
printf("%s", holder);
printf("%s\n", h);
#endif
printf("/%%'g/, 4213455.8392\n");
snprintf(holder, sizeof holder, "/%'g/\n", 4213455.8392);
asprintf(&h, "/%'g/\n", 4213455.8392);
printf("/%'g/\n", 4213455.8392);
printf("%s", holder);
printf("%s\n", h);
exit (0);
}
#endif
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