README file for C99-snprintf
============================
OVERVIEW
--------
C99-snprintf provides a portable implementation of snprintf(3),
vsnprintf(3), asprintf(3), and vasprintf(3). It should be fully C99
compliant, with the exceptions that it doesn't provide wide character
support and that "%a" and "%A" conversions aren't supported.
C99-snprintf should be buildable with any ANSI C compiler, it doesn't
require libc functionality other than malloc(3) (for vasprintf(3)) and
the stdarg(3) or varargs(3) macros, and it has no other prerequisites.
The snprintf(3) and vsnprintf(3) functions are part of the C99 standard
library. However, snprintf(3) and vsnprintf(3) weren't included in the
C89/C90 standards and some systems don't provide C99 compliant
implementations of these functions. For example, if the ouput buffer
isn't big enough to hold the full conversion result, IRIX up to the
current release 6.5.30 and glibc up to 2.0.x don't return the same value
as with a sufficiently sized buffer (which makes it impossible to
precompute the required buffer size), and some older systems (such as
64-bit Solaris 7) ignore the specified buffer size and overrun the
buffer if it's too small. The asprintf(3) and vasprintf(3) functions
aren't standardized at all. They're included with recent releases of
glibc and BSD's libc, but they aren't available on other systems, such
as System V (e.g., Solaris).
So, if any of these functions are used, portable software should include
replacement code which is used in case the functions aren't available or
don't work correctly on the target system. C99-snprintf can be included
with software packages in order to provide such replacement functions.
USAGE
-----
1) Add snprintf.c to your project files. If you're using GNU Automake,
you could use a line such as "foo_LDADD = $(LIBOBJS)" (where "foo" is
the name of your program) in your Makefile.am.
2) Add snprintf.m4 to your m4 include directory or to your acinclude.m4
file. If you're using neither, you can simply include the contents
of snprintf.m4 in your configure.ac file.
3) For each replacement function which might be needed in your project,
call the according Autoconf macro in your configure.ac file. That
is, in order to have all four replacement functions available if
needed:
HW_FUNC_VSNPRINTF
HW_FUNC_SNPRINTF
HW_FUNC_VASPRINTF
HW_FUNC_ASPRINTF
4) The required replacement functions should be declared in some header
file included throughout your project files:
#if HAVE_CONFIG_H
#include <config.h>
#endif
#if HAVE_STDARG_H
#include <stdarg.h>
#if !HAVE_VSNPRINTF
int rpl_vsnprintf(char *, size_t, const char *, va_list);
#endif
#if !HAVE_SNPRINTF
int rpl_snprintf(char *, size_t, const char *, ...);
#endif
#if !HAVE_VASPRINTF
int rpl_vasprintf(char **, const char *, va_list);
#endif
#if !HAVE_ASPRINTF
int rpl_asprintf(char **, const char *, ...);
#endif
#endif /* HAVE_STDARG_H */
USAGE WITHOUT GNU AUTOCONF
--------------------------
If you're not using GNU Autoconf, omit the steps 2 and 3 from the above
instructions. Instead:
1) The following preprocessor macros should be defined to 1 if the
feature or file in question is available on the target system (though
basic functionality should be available as long as HAVE_STDARG_H is
defined correctly):
HAVE_VSNPRINTF
HAVE_SNPRINTF
HAVE_VASPRINTF
HAVE_ASPRINTF
HAVE_STDARG_H
HAVE_STDDEF_H
HAVE_STDINT_H
HAVE_STDLIB_H
HAVE_FLOAT_H
HAVE_INTTYPES_H
HAVE_LOCALE_H
HAVE_LOCALECONV
HAVE_LCONV_DECIMAL_POINT
HAVE_LCONV_THOUSANDS_SEP
HAVE_LONG_DOUBLE
HAVE_LONG_LONG_INT
HAVE_UNSIGNED_LONG_LONG_INT
HAVE_INTMAX_T
HAVE_UINTMAX_T
HAVE_UINTPTR_T
HAVE_PTRDIFF_T
HAVE_VA_COPY
HAVE___VA_COPY
2) The calls to the functions which should be replaced must be redefined
throughout the project files:
#define vsnprintf rpl_vsnprintf
#define snprintf rpl_snprintf
#define vasprintf rpl_vasprintf
#define asprintf rpl_asprintf
BUGS AND CAVEATS
----------------
Depending on the size of the largest integer type available on the
target platform, floating point precisions larger than 9, 19, or 38 are
not supported. If a larger precision is specified, it will silently be
reduced to the largest possible precision on the target system.
If the integral part of a floating point value doesn't fit into the
largest integer type available on the target platform, the conversion
will fail. In this case, C99-snprintf will return -1 and set the global
variable errno to indicate the error. The same is done if the specified
field width or precision are (or if the return value would be) larger
than INT_MAX.
C99-snprintf makes a few assumptions regarding integer (and pointer
value) conversions which aren't backed by the C standard, but which
should be safe in practice.
FEEDBACK
--------
Please let me know if you have any comments or bug reports regarding
C99-snprintf:
Holger Weiss <[email protected]>
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