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[/] [openrisc/] [trunk/] [gnu-stable/] [newlib-1.18.0/] [newlib/] [libc/] [stdio/] [vfwprintf.c] - Rev 829
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/* * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * This code is derived from software contributed to Berkeley by * Chris Torek. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ /* FUNCTION <<vfwprintf>>, <<vwprintf>>, <<vswprintf>>---wide character format argument list INDEX vfwprintf INDEX _vfwprintf_r INDEX vwprintf INDEX _vwprintf_r INDEX vswprintf INDEX _vswprintf_r ANSI_SYNOPSIS #include <stdio.h> #include <stdarg.h> #include <wchar.h> int vwprintf(const wchar_t *<[fmt]>, va_list <[list]>); int vfwprintf(FILE *<[fp]>, const wchar_t *<[fmt]>, va_list <[list]>); int vswprintf(wchar_t *<[str]>, size_t <[size]>, const wchar_t *<[fmt]>, va_list <[list]>); int _vwprintf_r(struct _reent *<[reent]>, const wchar_t *<[fmt]>, va_list <[list]>); int _vfwprintf_r(struct _reent *<[reent]>, FILE *<[fp]>, const wchar_t *<[fmt]>, va_list <[list]>); int _vswprintf_r(struct _reent *<[reent]>, wchar_t *<[str]>, size_t <[size]>, const wchar_t *<[fmt]>, va_list <[list]>); DESCRIPTION <<vwprintf>>, <<vfwprintf>> and <<vswprintf>> are (respectively) variants of <<wprintf>>, <<fwprintf>> and <<swprintf>>. They differ only in allowing their caller to pass the variable argument list as a <<va_list>> object (initialized by <<va_start>>) rather than directly accepting a variable number of arguments. The caller is responsible for calling <<va_end>>. <<_vwprintf_r>>, <<_vfwprintf_r>> and <<_vswprintf_r>> are reentrant versions of the above. RETURNS The return values are consistent with the corresponding functions. PORTABILITY POSIX-1.2008 with extensions; C99 (compliant except for POSIX extensions). Supporting OS subroutines required: <<close>>, <<fstat>>, <<isatty>>, <<lseek>>, <<read>>, <<sbrk>>, <<write>>. SEEALSO <<wprintf>>, <<fwprintf>> and <<swprintf>>. */ /* * Actual wprintf innards. * * This code is large and complicated... */ #include <newlib.h> #ifdef INTEGER_ONLY # define VFWPRINTF vfiwprintf # ifdef STRING_ONLY # define _VFWPRINTF_R _svfiwprintf_r # else # define _VFWPRINTF_R _vfiwprintf_r # endif #else # define VFWPRINTF vfwprintf # ifdef STRING_ONLY # define _VFWPRINTF_R _svfwprintf_r # else # define _VFWPRINTF_R _vfwprintf_r # endif # ifndef NO_FLOATING_POINT # define FLOATING_POINT # endif #endif #define _NO_POS_ARGS #ifdef _WANT_IO_POS_ARGS # undef _NO_POS_ARGS #endif #include <_ansi.h> #include <reent.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <limits.h> #include <stdint.h> #include <wchar.h> #include <sys/lock.h> #include <stdarg.h> #include "local.h" #include "fvwrite.h" #include "vfieeefp.h" /* Currently a test is made to see if long double processing is warranted. This could be changed in the future should the _ldtoa_r code be preferred over _dtoa_r. */ #define _NO_LONGDBL #if defined _WANT_IO_LONG_DOUBLE && (LDBL_MANT_DIG > DBL_MANT_DIG) #undef _NO_LONGDBL #endif #define _NO_LONGLONG #if defined _WANT_IO_LONG_LONG \ && (defined __GNUC__ || __STDC_VERSION__ >= 199901L) # undef _NO_LONGLONG #endif int _EXFUN(_VFWPRINTF_R, (struct _reent *, FILE *, _CONST wchar_t *, va_list)); /* Defined in vfprintf.c. */ #ifdef STRING_ONLY #define __SPRINT __ssprint_r #else #define __SPRINT __sprint_r #endif int _EXFUN(__SPRINT, (struct _reent *, FILE *, register struct __suio *)); #ifndef STRING_ONLY /* * Helper function for `fprintf to unbuffered unix file': creates a * temporary buffer. We only work on write-only files; this avoids * worries about ungetc buffers and so forth. */ static int _DEFUN(__sbwprintf, (rptr, fp, fmt, ap), struct _reent *rptr _AND register FILE *fp _AND _CONST wchar_t *fmt _AND va_list ap) { int ret; FILE fake; unsigned char buf[BUFSIZ]; /* copy the important variables */ fake._flags = fp->_flags & ~__SNBF; fake._flags2 = fp->_flags2; fake._file = fp->_file; fake._cookie = fp->_cookie; fake._write = fp->_write; /* set up the buffer */ fake._bf._base = fake._p = buf; fake._bf._size = fake._w = sizeof (buf); fake._lbfsize = 0; /* not actually used, but Just In Case */ #ifndef __SINGLE_THREAD__ __lock_init_recursive (fake._lock); #endif /* do the work, then copy any error status */ ret = _VFWPRINTF_R (rptr, &fake, fmt, ap); if (ret >= 0 && _fflush_r (rptr, &fake)) ret = EOF; if (fake._flags & __SERR) fp->_flags |= __SERR; #ifndef __SINGLE_THREAD__ __lock_close_recursive (fake._lock); #endif return (ret); } #endif /* !STRING_ONLY */ #ifdef FLOATING_POINT # include <locale.h> # include <math.h> /* For %La, an exponent of 15 bits occupies the exponent character, a sign, and up to 5 digits. */ # define MAXEXPLEN 7 # define DEFPREC 6 # ifdef _NO_LONGDBL extern char *_dtoa_r _PARAMS((struct _reent *, double, int, int, int *, int *, char **)); # define _PRINTF_FLOAT_TYPE double # define _DTOA_R _dtoa_r # define FREXP frexp # else /* !_NO_LONGDBL */ extern char *_ldtoa_r _PARAMS((struct _reent *, _LONG_DOUBLE, int, int, int *, int *, char **)); extern int _EXFUN(_ldcheck,(_LONG_DOUBLE *)); # define _PRINTF_FLOAT_TYPE _LONG_DOUBLE # define _DTOA_R _ldtoa_r /* FIXME - frexpl is not yet supported; and cvt infloops if (double)f converts a finite value into infinity. */ /* # define FREXP frexpl */ # define FREXP(f,e) ((_LONG_DOUBLE) frexp ((double)f, e)) # endif /* !_NO_LONGDBL */ static wchar_t *wcvt(struct _reent *, _PRINTF_FLOAT_TYPE, int, int, wchar_t *, int *, int, int *, wchar_t *); static int wexponent(wchar_t *, int, int); #endif /* FLOATING_POINT */ /* BUF must be big enough for the maximum %#llo (assuming long long is at most 64 bits, this would be 23 characters), the maximum multibyte character %C, and the maximum default precision of %La (assuming long double is at most 128 bits with 113 bits of mantissa, this would be 29 characters). %e, %f, and %g use reentrant storage shared with mprec. All other formats that use buf get by with fewer characters. Making BUF slightly bigger reduces the need for malloc in %.*a and %ls/%S, when large precision or long strings are processed. */ #define BUF 40 #if defined _MB_CAPABLE && MB_LEN_MAX > BUF # undef BUF # define BUF MB_LEN_MAX #endif #ifndef _NO_LONGLONG # define quad_t long long # define u_quad_t unsigned long long #else # define quad_t long # define u_quad_t unsigned long #endif typedef quad_t * quad_ptr_t; typedef _PTR void_ptr_t; typedef char * char_ptr_t; typedef wchar_t* wchar_ptr_t; typedef long * long_ptr_t; typedef int * int_ptr_t; typedef short * short_ptr_t; #ifndef _NO_POS_ARGS # ifdef NL_ARGMAX # define MAX_POS_ARGS NL_ARGMAX # else # define MAX_POS_ARGS 32 # endif union arg_val { int val_int; u_int val_u_int; long val_long; u_long val_u_long; float val_float; double val_double; _LONG_DOUBLE val__LONG_DOUBLE; int_ptr_t val_int_ptr_t; short_ptr_t val_short_ptr_t; long_ptr_t val_long_ptr_t; char_ptr_t val_char_ptr_t; wchar_ptr_t val_wchar_ptr_t; quad_ptr_t val_quad_ptr_t; void_ptr_t val_void_ptr_t; quad_t val_quad_t; u_quad_t val_u_quad_t; wint_t val_wint_t; }; static union arg_val * _EXFUN(get_arg, (struct _reent *data, int n, wchar_t *fmt, va_list *ap, int *numargs, union arg_val *args, int *arg_type, wchar_t **last_fmt)); #endif /* !_NO_POS_ARGS */ /* * Macros for converting digits to letters and vice versa */ #define to_digit(c) ((c) - L'0') #define is_digit(c) ((unsigned)to_digit (c) <= 9) #define to_char(n) ((n) + L'0') /* * Flags used during conversion. */ #define ALT 0x001 /* alternate form */ #define HEXPREFIX 0x002 /* add 0x or 0X prefix */ #define LADJUST 0x004 /* left adjustment */ #define LONGDBL 0x008 /* long double */ #define LONGINT 0x010 /* long integer */ #ifndef _NO_LONGLONG # define QUADINT 0x020 /* quad integer */ #else /* ifdef _NO_LONGLONG, make QUADINT equivalent to LONGINT, so that %lld behaves the same as %ld, not as %d, as expected if: sizeof (long long) = sizeof long > sizeof int */ # define QUADINT LONGINT #endif #define SHORTINT 0x040 /* short integer */ #define ZEROPAD 0x080 /* zero (as opposed to blank) pad */ #define FPT 0x100 /* Floating point number */ #ifdef _WANT_IO_C99_FORMATS # define CHARINT 0x200 /* char as integer */ #else /* define as 0, to make SARG and UARG occupy fewer instructions */ # define CHARINT 0 #endif #ifndef STRING_ONLY int _DEFUN(VFWPRINTF, (fp, fmt0, ap), FILE * fp _AND _CONST wchar_t *fmt0 _AND va_list ap) { int result; result = _VFWPRINTF_R (_REENT, fp, fmt0, ap); return result; } #endif /* STRING_ONLY */ int _DEFUN(_VFWPRINTF_R, (data, fp, fmt0, ap), struct _reent *data _AND FILE * fp _AND _CONST wchar_t *fmt0 _AND va_list ap) { register wchar_t *fmt; /* format string */ register wint_t ch; /* character from fmt */ register int n, m; /* handy integers (short term usage) */ register wchar_t *cp; /* handy char pointer (short term usage) */ register struct __siov *iovp;/* for PRINT macro */ register int flags; /* flags as above */ wchar_t *fmt_anchor; /* current format spec being processed */ #ifndef _NO_POS_ARGS int N; /* arg number */ int arg_index; /* index into args processed directly */ int numargs; /* number of varargs read */ wchar_t *saved_fmt; /* saved fmt pointer */ union arg_val args[MAX_POS_ARGS]; int arg_type[MAX_POS_ARGS]; int is_pos_arg; /* is current format positional? */ int old_is_pos_arg; /* is current format positional? */ #endif int ret; /* return value accumulator */ int width; /* width from format (%8d), or 0 */ int prec; /* precision from format (%.3d), or -1 */ wchar_t sign; /* sign prefix (' ', '+', '-', or \0) */ #ifdef FLOATING_POINT wchar_t decimal_point; #ifdef _MB_CAPABLE mbstate_t state; /* mbtowc calls from library must not change state */ #endif wchar_t softsign; /* temporary negative sign for floats */ union { int i; _PRINTF_FLOAT_TYPE fp; } _double_ = {0}; # define _fpvalue (_double_.fp) int expt; /* integer value of exponent */ int expsize = 0; /* character count for expstr */ int ndig = 0; /* actual number of digits returned by wcvt */ wchar_t expstr[MAXEXPLEN]; /* buffer for exponent string */ #endif /* FLOATING_POINT */ u_quad_t _uquad; /* integer arguments %[diouxX] */ enum { OCT, DEC, HEX } base;/* base for [diouxX] conversion */ int dprec; /* a copy of prec if [diouxX], 0 otherwise */ int realsz; /* field size expanded by dprec */ int size = 0; /* size of converted field or string */ wchar_t *xdigs = NULL; /* digits for [xX] conversion */ #define NIOV 8 struct __suio uio; /* output information: summary */ struct __siov iov[NIOV];/* ... and individual io vectors */ wchar_t buf[BUF]; /* space for %c, %ls/%S, %[diouxX], %[aA] */ wchar_t ox[2]; /* space for 0x hex-prefix */ wchar_t *malloc_buf = NULL;/* handy pointer for malloced buffers */ /* * Choose PADSIZE to trade efficiency vs. size. If larger printf * fields occur frequently, increase PADSIZE and make the initialisers * below longer. */ #define PADSIZE 16 /* pad chunk size */ static _CONST wchar_t blanks[PADSIZE] = {L' ',L' ',L' ',L' ',L' ',L' ',L' ',L' ', L' ',L' ',L' ',L' ',L' ',L' ',L' ',L' '}; static _CONST wchar_t zeroes[PADSIZE] = {L'0',L'0',L'0',L'0',L'0',L'0',L'0',L'0', L'0',L'0',L'0',L'0',L'0',L'0',L'0',L'0'}; #ifdef FLOATING_POINT #ifdef _MB_CAPABLE memset (&state, '\0', sizeof (state)); _mbrtowc_r (data, &decimal_point, _localeconv_r (data)->decimal_point, MB_CUR_MAX, &state); #else decimal_point = (wchar_t) *_localeconv_r (data)->decimal_point; #endif #endif /* * BEWARE, these `goto error' on error, and PAD uses `n'. */ #define PRINT(ptr, len) { \ iovp->iov_base = (char *) (ptr); \ iovp->iov_len = (len) * sizeof (wchar_t); \ uio.uio_resid += (len) * sizeof (wchar_t); \ iovp++; \ if (++uio.uio_iovcnt >= NIOV) { \ if (__SPRINT(data, fp, &uio)) \ goto error; \ iovp = iov; \ } \ } #define PAD(howmany, with) { \ if ((n = (howmany)) > 0) { \ while (n > PADSIZE) { \ PRINT (with, PADSIZE); \ n -= PADSIZE; \ } \ PRINT (with, n); \ } \ } #define FLUSH() { \ if (uio.uio_resid && __SPRINT(data, fp, &uio)) \ goto error; \ uio.uio_iovcnt = 0; \ iovp = iov; \ } /* Macros to support positional arguments */ #ifndef _NO_POS_ARGS # define GET_ARG(n, ap, type) \ (is_pos_arg \ ? (n < numargs \ ? args[n].val_##type \ : get_arg (data, n, fmt_anchor, &ap, &numargs, args, \ arg_type, &saved_fmt)->val_##type) \ : (arg_index++ < numargs \ ? args[n].val_##type \ : (numargs < MAX_POS_ARGS \ ? args[numargs++].val_##type = va_arg (ap, type) \ : va_arg (ap, type)))) #else # define GET_ARG(n, ap, type) (va_arg (ap, type)) #endif /* * To extend shorts properly, we need both signed and unsigned * argument extraction methods. */ #ifndef _NO_LONGLONG #define SARG() \ (flags&QUADINT ? GET_ARG (N, ap, quad_t) : \ flags&LONGINT ? GET_ARG (N, ap, long) : \ flags&SHORTINT ? (long)(short)GET_ARG (N, ap, int) : \ flags&CHARINT ? (long)(signed char)GET_ARG (N, ap, int) : \ (long)GET_ARG (N, ap, int)) #define UARG() \ (flags&QUADINT ? GET_ARG (N, ap, u_quad_t) : \ flags&LONGINT ? GET_ARG (N, ap, u_long) : \ flags&SHORTINT ? (u_long)(u_short)GET_ARG (N, ap, int) : \ flags&CHARINT ? (u_long)(unsigned char)GET_ARG (N, ap, int) : \ (u_long)GET_ARG (N, ap, u_int)) #else #define SARG() \ (flags&LONGINT ? GET_ARG (N, ap, long) : \ flags&SHORTINT ? (long)(short)GET_ARG (N, ap, int) : \ flags&CHARINT ? (long)(signed char)GET_ARG (N, ap, int) : \ (long)GET_ARG (N, ap, int)) #define UARG() \ (flags&LONGINT ? GET_ARG (N, ap, u_long) : \ flags&SHORTINT ? (u_long)(u_short)GET_ARG (N, ap, int) : \ flags&CHARINT ? (u_long)(unsigned char)GET_ARG (N, ap, int) : \ (u_long)GET_ARG (N, ap, u_int)) #endif #ifndef STRING_ONLY /* Initialize std streams if not dealing with sprintf family. */ CHECK_INIT (data, fp); _flockfile (fp); ORIENT(fp, 1); /* sorry, fwprintf(read_only_file, "") returns EOF, not 0 */ if (cantwrite (data, fp)) { _funlockfile (fp); return (EOF); } /* optimise fwprintf(stderr) (and other unbuffered Unix files) */ if ((fp->_flags & (__SNBF|__SWR|__SRW)) == (__SNBF|__SWR) && fp->_file >= 0) { _funlockfile (fp); return (__sbwprintf (data, fp, fmt0, ap)); } #else /* STRING_ONLY */ /* Create initial buffer if we are called by asprintf family. */ if (fp->_flags & __SMBF && !fp->_bf._base) { fp->_bf._base = fp->_p = _malloc_r (data, 64); if (!fp->_p) { data->_errno = ENOMEM; return EOF; } fp->_bf._size = 64; } #endif /* STRING_ONLY */ fmt = (wchar_t *)fmt0; uio.uio_iov = iovp = iov; uio.uio_resid = 0; uio.uio_iovcnt = 0; ret = 0; #ifndef _NO_POS_ARGS arg_index = 0; saved_fmt = NULL; arg_type[0] = -1; numargs = 0; is_pos_arg = 0; #endif /* * Scan the format for conversions (`%' character). */ for (;;) { cp = fmt; while (*fmt != L'\0' && *fmt != L'%') ++fmt; if ((m = fmt - cp) != 0) { PRINT (cp, m); ret += m; } if (*fmt == L'\0') goto done; fmt_anchor = fmt; fmt++; /* skip over '%' */ flags = 0; dprec = 0; width = 0; prec = -1; sign = L'\0'; #ifndef _NO_POS_ARGS N = arg_index; is_pos_arg = 0; #endif rflag: ch = *fmt++; reswitch: switch (ch) { #ifdef _WANT_IO_C99_FORMATS case L'\'': /* The ' flag is required by POSIX, but not C99. FIXME: this flag is currently a no-op. */ goto rflag; #endif case L' ': /* * ``If the space and + flags both appear, the space * flag will be ignored.'' * -- ANSI X3J11 */ if (!sign) sign = L' '; goto rflag; case L'#': flags |= ALT; goto rflag; case L'*': #ifndef _NO_POS_ARGS /* we must check for positional arg used for dynamic width */ n = N; old_is_pos_arg = is_pos_arg; is_pos_arg = 0; if (is_digit (*fmt)) { wchar_t *old_fmt = fmt; n = 0; ch = *fmt++; do { n = 10 * n + to_digit (ch); ch = *fmt++; } while (is_digit (ch)); if (ch == L'$') { if (n <= MAX_POS_ARGS) { n -= 1; is_pos_arg = 1; } else goto error; } else { fmt = old_fmt; goto rflag; } } #endif /* !_NO_POS_ARGS */ /* * ``A negative field width argument is taken as a * - flag followed by a positive field width.'' * -- ANSI X3J11 * They don't exclude field widths read from args. */ width = GET_ARG (n, ap, int); #ifndef _NO_POS_ARGS is_pos_arg = old_is_pos_arg; #endif if (width >= 0) goto rflag; width = -width; /* FALLTHROUGH */ case L'-': flags |= LADJUST; goto rflag; case L'+': sign = L'+'; goto rflag; case L'.': if ((ch = *fmt++) == L'*') { #ifndef _NO_POS_ARGS /* we must check for positional arg used for dynamic width */ n = N; old_is_pos_arg = is_pos_arg; is_pos_arg = 0; if (is_digit (*fmt)) { wchar_t *old_fmt = fmt; n = 0; ch = *fmt++; do { n = 10 * n + to_digit (ch); ch = *fmt++; } while (is_digit (ch)); if (ch == L'$') { if (n <= MAX_POS_ARGS) { n -= 1; is_pos_arg = 1; } else goto error; } else { fmt = old_fmt; goto rflag; } } #endif /* !_NO_POS_ARGS */ prec = GET_ARG (n, ap, int); #ifndef _NO_POS_ARGS is_pos_arg = old_is_pos_arg; #endif if (prec < 0) prec = -1; goto rflag; } n = 0; while (is_digit (ch)) { n = 10 * n + to_digit (ch); ch = *fmt++; } prec = n < 0 ? -1 : n; goto reswitch; case L'0': /* * ``Note that 0 is taken as a flag, not as the * beginning of a field width.'' * -- ANSI X3J11 */ flags |= ZEROPAD; goto rflag; case L'1': case L'2': case L'3': case L'4': case L'5': case L'6': case L'7': case L'8': case L'9': n = 0; do { n = 10 * n + to_digit (ch); ch = *fmt++; } while (is_digit (ch)); #ifndef _NO_POS_ARGS if (ch == L'$') { if (n <= MAX_POS_ARGS) { N = n - 1; is_pos_arg = 1; goto rflag; } else goto error; } #endif /* !_NO_POS_ARGS */ width = n; goto reswitch; #ifdef FLOATING_POINT case L'L': flags |= LONGDBL; goto rflag; #endif case L'h': #ifdef _WANT_IO_C99_FORMATS if (*fmt == L'h') { fmt++; flags |= CHARINT; } else #endif flags |= SHORTINT; goto rflag; case L'l': #if defined _WANT_IO_C99_FORMATS || !defined _NO_LONGLONG if (*fmt == L'l') { fmt++; flags |= QUADINT; } else #endif flags |= LONGINT; goto rflag; case L'q': /* GNU extension */ flags |= QUADINT; goto rflag; #ifdef _WANT_IO_C99_FORMATS case L'j': if (sizeof (intmax_t) == sizeof (long)) flags |= LONGINT; else flags |= QUADINT; goto rflag; case L'z': if (sizeof (size_t) < sizeof (int)) /* POSIX states size_t is 16 or more bits, as is short. */ flags |= SHORTINT; else if (sizeof (size_t) == sizeof (int)) /* no flag needed */; else if (sizeof (size_t) <= sizeof (long)) flags |= LONGINT; else /* POSIX states that at least one programming environment must support size_t no wider than long, but that means other environments can have size_t as wide as long long. */ flags |= QUADINT; goto rflag; case L't': if (sizeof (ptrdiff_t) < sizeof (int)) /* POSIX states ptrdiff_t is 16 or more bits, as is short. */ flags |= SHORTINT; else if (sizeof (ptrdiff_t) == sizeof (int)) /* no flag needed */; else if (sizeof (ptrdiff_t) <= sizeof (long)) flags |= LONGINT; else /* POSIX states that at least one programming environment must support ptrdiff_t no wider than long, but that means other environments can have ptrdiff_t as wide as long long. */ flags |= QUADINT; goto rflag; case L'C': /* POSIX extension */ #endif /* _WANT_IO_C99_FORMATS */ case L'c': cp = buf; if (ch == L'c' && !(flags & LONGINT)) { wint_t wc = btowc ((int) GET_ARG (N, ap, int)); if (wc == WEOF) { fp->_flags |= __SERR; goto error; } cp[0] = (wchar_t) wc; } else { cp[0] = GET_ARG (N, ap, int); } cp[1] = L'\0'; size = 1; sign = L'\0'; break; case L'd': case L'i': _uquad = SARG (); #ifndef _NO_LONGLONG if ((quad_t)_uquad < 0) #else if ((long) _uquad < 0) #endif { _uquad = -_uquad; sign = L'-'; } base = DEC; goto number; #ifdef FLOATING_POINT # ifdef _WANT_IO_C99_FORMATS case L'a': case L'A': case L'F': # endif case L'e': case L'E': case L'f': case L'g': case L'G': # ifdef _NO_LONGDBL if (flags & LONGDBL) { _fpvalue = (double) GET_ARG (N, ap, _LONG_DOUBLE); } else { _fpvalue = GET_ARG (N, ap, double); } /* do this before tricky precision changes If the output is infinite or NaN, leading zeros are not permitted. Otherwise, scanf could not read what printf wrote. */ if (isinf (_fpvalue)) { if (_fpvalue < 0) sign = '-'; if (ch <= L'G') /* 'A', 'E', 'F', or 'G' */ cp = L"INF"; else cp = L"inf"; size = 3; flags &= ~ZEROPAD; break; } if (isnan (_fpvalue)) { if (ch <= L'G') /* 'A', 'E', 'F', or 'G' */ cp = L"NAN"; else cp = L"nan"; size = 3; flags &= ~ZEROPAD; break; } # else /* !_NO_LONGDBL */ if (flags & LONGDBL) { _fpvalue = GET_ARG (N, ap, _LONG_DOUBLE); } else { _fpvalue = (_LONG_DOUBLE)GET_ARG (N, ap, double); } /* do this before tricky precision changes */ expt = _ldcheck (&_fpvalue); if (expt == 2) { if (_fpvalue < 0) sign = L'-'; if (ch <= L'G') /* 'A', 'E', 'F', or 'G' */ cp = L"INF"; else cp = L"inf"; size = 3; flags &= ~ZEROPAD; break; } if (expt == 1) { if (ch <= L'G') /* 'A', 'E', 'F', or 'G' */ cp = L"NAN"; else cp = L"nan"; size = 3; flags &= ~ZEROPAD; break; } # endif /* !_NO_LONGDBL */ cp = buf; # ifdef _WANT_IO_C99_FORMATS if (ch == L'a' || ch == L'A') { ox[0] = L'0'; ox[1] = ch == L'a' ? L'x' : L'X'; flags |= HEXPREFIX; if (prec >= BUF) { if ((malloc_buf = (wchar_t *)_malloc_r (data, (prec + 1) * sizeof (wchar_t))) == NULL) { fp->_flags |= __SERR; goto error; } cp = malloc_buf; } } else # endif /* _WANT_IO_C99_FORMATS */ if (prec == -1) { prec = DEFPREC; } else if ((ch == L'g' || ch == L'G') && prec == 0) { prec = 1; } flags |= FPT; cp = wcvt (data, _fpvalue, prec, flags, &softsign, &expt, ch, &ndig, cp); if (ch == L'g' || ch == L'G') { if (expt <= -4 || expt > prec) ch -= 2; /* 'e' or 'E' */ else ch = L'g'; } # ifdef _WANT_IO_C99_FORMATS else if (ch == L'F') ch = L'f'; # endif if (ch <= L'e') { /* 'a', 'A', 'e', or 'E' fmt */ --expt; expsize = wexponent (expstr, expt, ch); size = expsize + ndig; if (ndig > 1 || flags & ALT) ++size; } else if (ch == L'f') { /* f fmt */ if (expt > 0) { size = expt; if (prec || flags & ALT) size += prec + 1; } else /* "0.X" */ size = (prec || flags & ALT) ? prec + 2 : 1; } else if (expt >= ndig) { /* fixed g fmt */ size = expt; if (flags & ALT) ++size; } else size = ndig + (expt > 0 ? 1 : 2 - expt); if (softsign) sign = L'-'; break; #endif /* FLOATING_POINT */ case L'n': #ifndef _NO_LONGLONG if (flags & QUADINT) *GET_ARG (N, ap, quad_ptr_t) = ret; else #endif if (flags & LONGINT) *GET_ARG (N, ap, long_ptr_t) = ret; else if (flags & SHORTINT) *GET_ARG (N, ap, short_ptr_t) = ret; #ifdef _WANT_IO_C99_FORMATS else if (flags & CHARINT) *GET_ARG (N, ap, char_ptr_t) = ret; #endif else *GET_ARG (N, ap, int_ptr_t) = ret; continue; /* no output */ case L'o': _uquad = UARG (); base = OCT; goto nosign; case L'p': /* * ``The argument shall be a pointer to void. The * value of the pointer is converted to a sequence * of printable characters, in an implementation- * defined manner.'' * -- ANSI X3J11 */ /* NOSTRICT */ _uquad = (uintptr_t) GET_ARG (N, ap, void_ptr_t); base = HEX; xdigs = L"0123456789abcdef"; flags |= HEXPREFIX; ox[0] = L'0'; ox[1] = ch = L'x'; goto nosign; case L's': #ifdef _WANT_IO_C99_FORMATS case L'S': /* POSIX extension */ #endif sign = '\0'; cp = GET_ARG (N, ap, wchar_ptr_t); #ifndef __OPTIMIZE_SIZE__ /* Behavior is undefined if the user passed a NULL string when precision is not 0. However, if we are not optimizing for size, we might as well mirror glibc behavior. */ if (cp == NULL) { cp = L"(null)"; size = ((unsigned) prec > 6U) ? 6 : prec; } else #endif /* __OPTIMIZE_SIZE__ */ #ifdef _MB_CAPABLE if (ch == L's' && !(flags & LONGINT)) { char *arg = (char *) cp; size_t insize = 0, nchars = 0, nconv = 0; mbstate_t ps; wchar_t *p; if (prec >= 0) { char *p = arg; memset ((_PTR)&ps, '\0', sizeof (mbstate_t)); while (nchars < (size_t)prec) { nconv = mbrlen (p, MB_CUR_MAX, &ps); if (nconv == 0 || nconv == (size_t)-1 || nconv == (size_t)-2) break; p += nconv; ++nchars; insize += nconv; } if (nconv == (size_t) -1 || nconv == (size_t) -2) { fp->_flags |= __SERR; goto error; } } else insize = strlen(arg); if (insize >= BUF) { if ((malloc_buf = (wchar_t *) _malloc_r (data, (insize + 1) * sizeof (wchar_t))) == NULL) { fp->_flags |= __SERR; goto error; } cp = malloc_buf; } else cp = buf; memset ((_PTR)&ps, '\0', sizeof (mbstate_t)); p = cp; while (insize != 0) { nconv = _mbrtowc_r (data, p, arg, insize, &ps); if (nconv == 0 || nconv == (size_t)-1 || nconv == (size_t)-2) break; ++p; arg += nconv; insize -= nconv; } if (nconv == (size_t) -1 || nconv == (size_t) -2) { fp->_flags |= __SERR; goto error; } *p = L'\0'; size = p - cp; } else #endif /* _MB_CAPABLE */ if (prec >= 0) { /* * can't use wcslen; can only look for the * NUL in the first `prec' characters, and * strlen () will go further. */ wchar_t *p = wmemchr (cp, L'\0', prec); if (p != NULL) { size = p - cp; if (size > prec) size = prec; } else size = prec; } else size = wcslen (cp); break; case L'u': _uquad = UARG (); base = DEC; goto nosign; case L'X': xdigs = L"0123456789ABCDEF"; goto hex; case 'x': xdigs = L"0123456789abcdef"; hex: _uquad = UARG (); base = HEX; /* leading 0x/X only if non-zero */ if (flags & ALT && _uquad != 0) { ox[0] = L'0'; ox[1] = ch; flags |= HEXPREFIX; } /* unsigned conversions */ nosign: sign = L'\0'; /* * ``... diouXx conversions ... if a precision is * specified, the 0 flag will be ignored.'' * -- ANSI X3J11 */ number: if ((dprec = prec) >= 0) flags &= ~ZEROPAD; /* * ``The result of converting a zero value with an * explicit precision of zero is no characters.'' * -- ANSI X3J11 */ cp = buf + BUF; if (_uquad != 0 || prec != 0) { /* * Unsigned mod is hard, and unsigned mod * by a constant is easier than that by * a variable; hence this switch. */ switch (base) { case OCT: do { *--cp = to_char (_uquad & 7); _uquad >>= 3; } while (_uquad); /* handle octal leading 0 */ if (flags & ALT && *cp != L'0') *--cp = L'0'; break; case DEC: /* many numbers are 1 digit */ while (_uquad >= 10) { *--cp = to_char (_uquad % 10); _uquad /= 10; } *--cp = to_char (_uquad); break; case HEX: do { *--cp = xdigs[_uquad & 15]; _uquad >>= 4; } while (_uquad); break; default: cp = L"bug in vfprintf: bad base"; size = wcslen (cp); goto skipsize; } } /* * ...result is to be converted to an 'alternate form'. * For o conversion, it increases the precision to force * the first digit of the result to be a zero." * -- ANSI X3J11 * * To demonstrate this case, compile and run: * printf ("%#.0o",0); */ else if (base == OCT && (flags & ALT)) *--cp = L'0'; size = buf + BUF - cp; skipsize: break; default: /* "%?" prints ?, unless ? is NUL */ if (ch == L'\0') goto done; /* pretend it was %c with argument ch */ cp = buf; *cp = ch; size = 1; sign = L'\0'; break; } /* * All reasonable formats wind up here. At this point, `cp' * points to a string which (if not flags&LADJUST) should be * padded out to `width' places. If flags&ZEROPAD, it should * first be prefixed by any sign or other prefix; otherwise, * it should be blank padded before the prefix is emitted. * After any left-hand padding and prefixing, emit zeroes * required by a decimal [diouxX] precision, then print the * string proper, then emit zeroes required by any leftover * floating precision; finally, if LADJUST, pad with blanks. * If flags&FPT, ch must be in [aAeEfg]. * * Compute actual size, so we know how much to pad. * size excludes decimal prec; realsz includes it. */ realsz = dprec > size ? dprec : size; if (sign) realsz++; if (flags & HEXPREFIX) realsz+= 2; /* right-adjusting blank padding */ if ((flags & (LADJUST|ZEROPAD)) == 0) PAD (width - realsz, blanks); /* prefix */ if (sign) PRINT (&sign, 1); if (flags & HEXPREFIX) PRINT (ox, 2); /* right-adjusting zero padding */ if ((flags & (LADJUST|ZEROPAD)) == ZEROPAD) PAD (width - realsz, zeroes); /* leading zeroes from decimal precision */ PAD (dprec - size, zeroes); /* the string or number proper */ #ifdef FLOATING_POINT if ((flags & FPT) == 0) { PRINT (cp, size); } else { /* glue together f_p fragments */ if (ch >= L'f') { /* 'f' or 'g' */ if (_fpvalue == 0) { /* kludge for __dtoa irregularity */ PRINT (L"0", 1); if (expt < ndig || flags & ALT) { PRINT (&decimal_point, 1); PAD (ndig - 1, zeroes); } } else if (expt <= 0) { PRINT (L"0", 1); if (expt || ndig || flags & ALT) { PRINT (&decimal_point, 1); PAD (-expt, zeroes); PRINT (cp, ndig); } } else if (expt >= ndig) { PRINT (cp, ndig); PAD (expt - ndig, zeroes); if (flags & ALT) PRINT (&decimal_point, 1); } else { PRINT (cp, expt); cp += expt; PRINT (&decimal_point, 1); PRINT (cp, ndig - expt); } } else { /* 'a', 'A', 'e', or 'E' */ if (ndig > 1 || flags & ALT) { PRINT (cp, 1); cp++; PRINT (&decimal_point, 1); if (_fpvalue) { PRINT (cp, ndig - 1); } else /* 0.[0..] */ /* __dtoa irregularity */ PAD (ndig - 1, zeroes); } else /* XeYYY */ PRINT (cp, 1); PRINT (expstr, expsize); } } #else /* !FLOATING_POINT */ PRINT (cp, size); #endif /* left-adjusting padding (always blank) */ if (flags & LADJUST) PAD (width - realsz, blanks); /* finally, adjust ret */ ret += width > realsz ? width : realsz; FLUSH (); /* copy out the I/O vectors */ if (malloc_buf != NULL) { _free_r (data, malloc_buf); malloc_buf = NULL; } } done: FLUSH (); error: if (malloc_buf != NULL) _free_r (data, malloc_buf); #ifndef STRING_ONLY _funlockfile (fp); #endif return (__sferror (fp) ? EOF : ret); /* NOTREACHED */ } #ifdef FLOATING_POINT /* Using reentrant DATA, convert finite VALUE into a string of digits with no decimal point, using NDIGITS precision and FLAGS as guides to whether trailing zeros must be included. Set *SIGN to nonzero if VALUE was negative. Set *DECPT to the exponent plus one. Set *LENGTH to the length of the returned string. CH must be one of [aAeEfFgG]; if it is [aA], then the return string lives in BUF, otherwise the return value shares the mprec reentrant storage. */ static wchar_t * wcvt(struct _reent *data, _PRINTF_FLOAT_TYPE value, int ndigits, int flags, wchar_t *sign, int *decpt, int ch, int *length, wchar_t *buf) { int mode, dsgn; # ifdef _NO_LONGDBL union double_union tmp; tmp.d = value; if (word0 (tmp) & Sign_bit) { /* this will check for < 0 and -0.0 */ value = -value; *sign = L'-'; } else *sign = L'\0'; # else /* !_NO_LONGDBL */ union { struct ldieee ieee; _LONG_DOUBLE val; } ld; ld.val = value; if (ld.ieee.sign) { /* this will check for < 0 and -0.0 */ value = -value; *sign = L'-'; } else *sign = L'\0'; # endif /* !_NO_LONGDBL */ # ifdef _WANT_IO_C99_FORMATS if (ch == L'a' || ch == L'A') { wchar_t *digits, *bp, *rve; /* This code assumes FLT_RADIX is a power of 2. The initial division ensures the digit before the decimal will be less than FLT_RADIX (unless it is rounded later). There is no loss of precision in these calculations. */ value = FREXP (value, decpt) / 8; if (!value) *decpt = 1; digits = ch == L'a' ? L"0123456789abcdef" : L"0123456789ABCDEF"; bp = buf; do { value *= 16; mode = (int) value; value -= mode; *bp++ = digits[mode]; } while (ndigits-- && value); if (value > 0.5 || (value == 0.5 && mode & 1)) { /* round to even */ rve = bp; while (*--rve == digits[0xf]) { *rve = L'0'; } *rve = *rve == L'9' ? digits[0xa] : *rve + 1; } else { while (ndigits-- >= 0) { *bp++ = L'0'; } } *length = bp - buf; return buf; } # endif /* _WANT_IO_C99_FORMATS */ if (ch == L'f' || ch == L'F') { mode = 3; /* ndigits after the decimal point */ } else { /* To obtain ndigits after the decimal point for the 'e' * and 'E' formats, round to ndigits + 1 significant * figures. */ if (ch == L'e' || ch == L'E') { ndigits++; } mode = 2; /* ndigits significant digits */ } { char *digits, *bp, *rve; #ifndef _MB_CAPABLE int i; #endif digits = _DTOA_R (data, value, mode, ndigits, decpt, &dsgn, &rve); if ((ch != L'g' && ch != L'G') || flags & ALT) { /* Print trailing zeros */ bp = digits + ndigits; if (ch == L'f' || ch == L'F') { if (*digits == L'0' && value) *decpt = -ndigits + 1; bp += *decpt; } if (value == 0) /* kludge for __dtoa irregularity */ rve = bp; while (rve < bp) *rve++ = '0'; } #ifdef _MB_CAPABLE *length = _mbsnrtowcs_r (data, buf, (const char **) &digits, rve - digits, BUF, NULL); #else *length = rve - digits; for (i = 0; i < *length && i < BUF; ++i) buf[i] = (wchar_t) digits[i]; #endif return buf; } } static int wexponent(wchar_t *p0, int exp, int fmtch) { register wchar_t *p, *t; wchar_t expbuf[MAXEXPLEN]; # ifdef _WANT_IO_C99_FORMATS int isa = fmtch == L'a' || fmtch == L'A'; # else # define isa 0 # endif p = p0; *p++ = isa ? L'p' - L'a' + fmtch : fmtch; if (exp < 0) { exp = -exp; *p++ = L'-'; } else *p++ = L'+'; t = expbuf + MAXEXPLEN; if (exp > 9) { do { *--t = to_char (exp % 10); } while ((exp /= 10) > 9); *--t = to_char (exp); for (; t < expbuf + MAXEXPLEN; *p++ = *t++); } else { if (!isa) *p++ = L'0'; *p++ = to_char (exp); } return (p - p0); } #endif /* FLOATING_POINT */ #ifndef _NO_POS_ARGS /* Positional argument support. Written by Jeff Johnston Copyright (c) 2002 Red Hat Incorporated. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. The name of Red Hat Incorporated may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL RED HAT INCORPORATED BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* function to get positional parameter N where n = N - 1 */ static union arg_val * _DEFUN(get_arg, (data, n, fmt, ap, numargs_p, args, arg_type, last_fmt), struct _reent *data _AND int n _AND wchar_t *fmt _AND va_list *ap _AND int *numargs_p _AND union arg_val *args _AND int *arg_type _AND wchar_t **last_fmt) { wchar_t ch; int number, flags; int spec_type; int numargs = *numargs_p; __CH_CLASS chtype; __STATE state, next_state; __ACTION action; int pos, last_arg; int max_pos_arg = n; /* Only need types that can be reached via vararg promotions. */ enum types { INT, LONG_INT, QUAD_INT, CHAR_PTR, DOUBLE, LONG_DOUBLE, WIDE_CHAR }; /* if this isn't the first call, pick up where we left off last time */ if (*last_fmt != NULL) fmt = *last_fmt; /* we need to process either to end of fmt string or until we have actually read the desired parameter from the vararg list. */ while (*fmt && n >= numargs) { while (*fmt != L'\0' && *fmt != L'%') fmt += 1; if (*fmt == L'\0') break; state = START; flags = 0; pos = -1; number = 0; spec_type = INT; /* Use state/action table to process format specifiers. We ignore invalid formats and we are only interested in information that tells us how to read the vararg list. */ while (state != DONE) { ch = *fmt++; chtype = ch < (wchar_t) 256 ? __chclass[ch] : OTHER; next_state = __state_table[state][chtype]; action = __action_table[state][chtype]; state = next_state; switch (action) { case GETMOD: /* we have format modifier */ switch (ch) { case L'h': /* No flag needed, since short and char promote to int. */ break; case L'L': flags |= LONGDBL; break; case L'q': flags |= QUADINT; break; # ifdef _WANT_IO_C99_FORMATS case L'j': if (sizeof (intmax_t) == sizeof (long)) flags |= LONGINT; else flags |= QUADINT; break; case L'z': if (sizeof (size_t) <= sizeof (int)) /* no flag needed */; else if (sizeof (size_t) <= sizeof (long)) flags |= LONGINT; else /* POSIX states that at least one programming environment must support size_t no wider than long, but that means other environments can have size_t as wide as long long. */ flags |= QUADINT; break; case L't': if (sizeof (ptrdiff_t) <= sizeof (int)) /* no flag needed */; else if (sizeof (ptrdiff_t) <= sizeof (long)) flags |= LONGINT; else /* POSIX states that at least one programming environment must support ptrdiff_t no wider than long, but that means other environments can have ptrdiff_t as wide as long long. */ flags |= QUADINT; break; # endif /* _WANT_IO_C99_FORMATS */ case L'l': default: # if defined _WANT_IO_C99_FORMATS || !defined _NO_LONGLONG if (*fmt == L'l') { flags |= QUADINT; ++fmt; } else # endif flags |= LONGINT; break; } break; case GETARG: /* we have format specifier */ { numargs &= (MAX_POS_ARGS - 1); /* process the specifier and translate it to a type to fetch from varargs */ switch (ch) { case L'd': case L'i': case L'o': case L'x': case L'X': case L'u': if (flags & LONGINT) spec_type = LONG_INT; # ifndef _NO_LONGLONG else if (flags & QUADINT) spec_type = QUAD_INT; # endif else spec_type = INT; break; # ifdef _WANT_IO_C99_FORMATS case L'a': case L'A': case L'F': # endif case L'f': case L'g': case L'G': case L'E': case L'e': # ifndef _NO_LONGDBL if (flags & LONGDBL) spec_type = LONG_DOUBLE; else # endif spec_type = DOUBLE; break; case L's': # ifdef _WANT_IO_C99_FORMATS case L'S': /* POSIX extension */ # endif case L'p': case L'n': spec_type = CHAR_PTR; break; case L'c': # ifdef _WANT_IO_C99_FORMATS if (flags & LONGINT) spec_type = WIDE_CHAR; else # endif spec_type = INT; break; # ifdef _WANT_IO_C99_FORMATS case L'C': /* POSIX extension */ spec_type = WIDE_CHAR; break; # endif } /* if we have a positional parameter, just store the type, otherwise fetch the parameter from the vararg list */ if (pos != -1) arg_type[pos] = spec_type; else { switch (spec_type) { case LONG_INT: args[numargs++].val_long = va_arg (*ap, long); break; case QUAD_INT: args[numargs++].val_quad_t = va_arg (*ap, quad_t); break; case WIDE_CHAR: args[numargs++].val_wint_t = va_arg (*ap, wint_t); break; case INT: args[numargs++].val_int = va_arg (*ap, int); break; case CHAR_PTR: args[numargs++].val_wchar_ptr_t = va_arg (*ap, wchar_t *); break; case DOUBLE: args[numargs++].val_double = va_arg (*ap, double); break; case LONG_DOUBLE: args[numargs++].val__LONG_DOUBLE = va_arg (*ap, _LONG_DOUBLE); break; } } } break; case GETPOS: /* we have positional specifier */ if (arg_type[0] == -1) memset (arg_type, 0, sizeof (int) * MAX_POS_ARGS); pos = number - 1; max_pos_arg = (max_pos_arg > pos ? max_pos_arg : pos); break; case PWPOS: /* we have positional specifier for width or precision */ if (arg_type[0] == -1) memset (arg_type, 0, sizeof (int) * MAX_POS_ARGS); number -= 1; arg_type[number] = INT; max_pos_arg = (max_pos_arg > number ? max_pos_arg : number); break; case GETPWB: /* we require format pushback */ --fmt; /* fallthrough */ case GETPW: /* we have a variable precision or width to acquire */ args[numargs++].val_int = va_arg (*ap, int); break; case NUMBER: /* we have a number to process */ number = (ch - '0'); while ((ch = *fmt) != '\0' && is_digit (ch)) { number = number * 10 + (ch - '0'); ++fmt; } break; case SKIPNUM: /* we have a number to skip */ while ((ch = *fmt) != '\0' && is_digit (ch)) ++fmt; break; case NOOP: default: break; /* do nothing */ } } } /* process all arguments up to at least the one we are looking for and if we have seen the end of the string, then process up to the max argument needed */ if (*fmt == '\0') last_arg = max_pos_arg; else last_arg = n; while (numargs <= last_arg) { switch (arg_type[numargs]) { case LONG_INT: args[numargs++].val_long = va_arg (*ap, long); break; case QUAD_INT: args[numargs++].val_quad_t = va_arg (*ap, quad_t); break; case CHAR_PTR: args[numargs++].val_wchar_ptr_t = va_arg (*ap, wchar_t *); break; case DOUBLE: args[numargs++].val_double = va_arg (*ap, double); break; case LONG_DOUBLE: args[numargs++].val__LONG_DOUBLE = va_arg (*ap, _LONG_DOUBLE); break; case WIDE_CHAR: args[numargs++].val_wint_t = va_arg (*ap, wint_t); break; case INT: default: args[numargs++].val_int = va_arg (*ap, int); break; } } /* alter the global numargs value and keep a reference to the last bit of the fmt string we processed here because the caller will continue processing where we started */ *numargs_p = numargs; *last_fmt = fmt; return &args[n]; } #endif /* !_NO_POS_ARGS */