/* FUNCTION <>, <>, <>---format argument list INDEX vscanf INDEX vfscanf INDEX vsscanf SYNOPSIS #include #include int vscanf(const char *restrict <[fmt]>, va_list <[list]>); int vfscanf(FILE *restrict <[fp]>, const char *restrict <[fmt]>, va_list <[list]>); int vsscanf(const char *restrict <[str]>, const char *restrict <[fmt]>, va_list <[list]>); int _vscanf_r(void *<[reent]>, const char *restrict <[fmt]>, va_list <[list]>); int _vfscanf_r(void *<[reent]>, FILE *restrict <[fp]>, const char *restrict <[fmt]>, va_list <[list]>); int _vsscanf_r(void *<[reent]>, const char *restrict <[str]>, const char *restrict <[fmt]>, va_list <[list]>); DESCRIPTION <>, <>, and <> are (respectively) variants of <>, <>, and <>. They differ only in allowing their caller to pass the variable argument list as a <> object (initialized by <>) rather than directly accepting a variable number of arguments. RETURNS The return values are consistent with the corresponding functions: <> returns the number of input fields successfully scanned, converted, and stored; the return value does not include scanned fields which were not stored. If <> attempts to read at end-of-file, the return value is <>. If no fields were stored, the return value is <<0>>. The routines <<_vscanf_r>>, <<_vfscanf_f>>, and <<_vsscanf_r>> are reentrant versions which take an additional first parameter which points to the reentrancy structure. PORTABILITY These are GNU extensions. Supporting OS subroutines required: */ /*- * Copyright (c) 1990 The Regents of the University of California. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that the above copyright notice and this paragraph are * duplicated in all such forms and that any documentation, * advertising materials, and other materials related to such * distribution and use acknowledge that the software was developed * by the University of California, Berkeley. The name of the * University may not be used to endorse or promote products derived * from this software without specific prior written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #include <_ansi.h> #include #include #include #include #include #include #include #include #ifdef _HAVE_STDC #include #else #include #endif #include "local.h" #ifndef NO_FLOATING_POINT #define FLOATING_POINT #endif #ifdef FLOATING_POINT #include /* 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__ # undef _NO_LONGLONG #endif #include "floatio.h" #define BUF (MAXEXP+MAXFRACT+3) /* 3 = sign + decimal point + NUL */ /* An upper bound for how long a long prints in decimal. 4 / 13 approximates log (2). Add one char for roundoff compensation and one for the sign. */ #define MAX_LONG_LEN ((CHAR_BIT * sizeof (long) - 1) * 4 / 13 + 2) #else #define BUF 40 #endif /* * Flags used during conversion. */ #define LONG 0x01 /* l: long or double */ #define LONGDBL 0x02 /* L: long double or long long */ #define SHORT 0x04 /* h: short */ #define SUPPRESS 0x10 /* suppress assignment */ #define POINTER 0x20 /* weird %p pointer (`fake hex') */ #define NOSKIP 0x40 /* do not skip blanks */ /* * The following are used in numeric conversions only: * SIGNOK, NDIGITS, DPTOK, and EXPOK are for floating point; * SIGNOK, NDIGITS, PFXOK, and NZDIGITS are for integral. */ #define SIGNOK 0x80 /* +/- is (still) legal */ #define NDIGITS 0x100 /* no digits detected */ #define DPTOK 0x200 /* (float) decimal point is still legal */ #define EXPOK 0x400 /* (float) exponent (e+3, etc) still legal */ #define PFXOK 0x200 /* 0x prefix is (still) legal */ #define NZDIGITS 0x400 /* no zero digits detected */ #define NNZDIGITS 0x800 /* no non-zero digits detected */ #define VECTOR 0x2000 /* v: vector */ #define FIXEDPOINT 0x4000 /* r/R: fixed-point */ #define SIGNED 0x8000 /* r: signed fixed-point */ /* * Conversion types. */ #define CT_CHAR 0 /* %c conversion */ #define CT_CCL 1 /* %[...] conversion */ #define CT_STRING 2 /* %s conversion */ #define CT_INT 3 /* integer, i.e., strtol or strtoul */ #define CT_FLOAT 4 /* floating, i.e., strtod */ #if 0 #define u_char unsigned char #endif #define u_char char #define u_long unsigned long #ifndef _NO_LONGLONG typedef unsigned long long u_long_long; #endif typedef union { char c[16] __attribute__ ((__aligned__ (16))); short h[8]; long l[4]; int i[4]; float f[4]; } vec_union; /* * vfscanf */ #define BufferEmpty (fp->_r <= 0 && __srefill(fp)) #ifndef _REENT_ONLY int _DEFUN (vfscanf, (fp, fmt, ap), register FILE *__restrict fp, const char *__restrict fmt, va_list ap) { CHECK_INIT(_REENT, fp); return __svfscanf_r (_REENT, fp, fmt, ap); } int __svfscanf (fp, fmt0, ap) register FILE *fp; char const *fmt0; va_list ap; { return __svfscanf_r (_REENT, fp, fmt0, ap); } #endif /* !_REENT_ONLY */ int _DEFUN (_vfscanf_r, (data, fp, fmt, ap), struct _reent *data, register FILE *__restrict fp, const char *__restrict fmt, va_list ap) { return __svfscanf_r (data, fp, fmt, ap); } int __svfscanf_r (rptr, fp, fmt0, ap) struct _reent *rptr; register FILE *fp; char const *fmt0; va_list ap; { register u_char *fmt = (u_char *) fmt0; register int c; /* character from format, or conversion */ register int type; /* conversion type */ register size_t width; /* field width, or 0 */ register char *p; /* points into all kinds of strings */ register int n; /* handy integer */ register int flags; /* flags as defined above */ register char *p0; /* saves original value of p when necessary */ int orig_flags; /* saved flags used when processing vector */ int int_width; /* tmp area to store width when processing int */ int nassigned; /* number of fields assigned */ int nread; /* number of characters consumed from fp */ int base = 0; /* base argument to strtol/strtoul */ int nbytes = 1; /* number of bytes read from fmt string */ wchar_t wc; /* wchar to use to read format string */ char vec_sep; /* vector separator char */ char last_space_char; /* last white-space char eaten - needed for vec support */ int vec_read_count; /* number of vector items to read separately */ int looped; /* has vector processing looped */ u_long (*ccfn) () = 0; /* conversion function (strtol/strtoul) */ char ccltab[256]; /* character class table for %[...] */ char buf[BUF]; /* buffer for numeric conversions */ vec_union vec_buf; char *lptr; /* literal pointer */ #ifdef _MB_CAPABLE mbstate_t state; /* value to keep track of multibyte state */ #endif char *ch_dest; short *sp; int *ip; float *flp; _LONG_DOUBLE *ldp; double *dp; long *lp; #ifndef _NO_LONGLONG long long *llp; #else u_long _uquad; #endif /* `basefix' is used to avoid `if' tests in the integer scanner */ static const short basefix[17] = {10, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16}; nassigned = 0; nread = 0; for (;;) { #ifndef _MB_CAPABLE wc = *fmt; #else memset (&state, '\0', sizeof (state)); nbytes = _mbtowc_r (rptr, &wc, fmt, MB_CUR_MAX, &state); #endif fmt += nbytes; if (wc == 0) return nassigned; if (nbytes == 1 && isspace (wc)) { for (;;) { if (BufferEmpty) return nassigned; if (!isspace (*fp->_p)) break; nread++, fp->_r--, fp->_p++; } continue; } if (wc != '%') goto literal; width = 0; flags = 0; vec_sep = ' '; vec_read_count = 0; looped = 0; /* * switch on the format. continue if done; break once format * type is derived. */ again: c = *fmt++; switch (c) { case '%': literal: lptr = fmt - nbytes; for (n = 0; n < nbytes; ++n) { if (BufferEmpty) goto input_failure; if (*fp->_p != *lptr) goto match_failure; fp->_r--, fp->_p++; nread++; ++lptr; } continue; case '*': flags |= SUPPRESS; goto again; case ',': case ';': case ':': case '_': if (flags == SUPPRESS || flags == 0) vec_sep = c; goto again; case 'l': if (flags & SHORT) continue; /* invalid format, don't process any further */ if (flags & LONG) { flags &= ~LONG; flags &= ~VECTOR; flags |= LONGDBL; } else { flags |= LONG; if (flags & VECTOR) vec_read_count = 4; } goto again; case 'L': flags |= LONGDBL; flags &= ~VECTOR; goto again; case 'h': flags |= SHORT; if (flags & LONG) continue; /* invalid format, don't process any further */ if (flags & VECTOR) vec_read_count = 8; goto again; #ifdef __ALTIVEC__ case 'v': flags |= VECTOR; vec_read_count = (flags & SHORT) ? 8 : ((flags & LONG) ? 4 : 16); goto again; #endif case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': width = width * 10 + c - '0'; goto again; /* * Conversions. Those marked `compat' are for * 4.[123]BSD compatibility. * * (According to ANSI, E and X formats are supposed to * the same as e and x. Sorry about that.) */ case 'D': /* compat */ flags |= LONG; /* FALLTHROUGH */ case 'd': type = CT_INT; ccfn = (u_long (*)())_strtol_r; base = 10; break; case 'i': type = CT_INT; ccfn = (u_long (*)())_strtol_r; base = 0; break; case 'O': /* compat */ flags |= LONG; /* FALLTHROUGH */ case 'o': type = CT_INT; ccfn = _strtoul_r; base = 8; break; case 'u': type = CT_INT; ccfn = _strtoul_r; base = 10; break; case 'X': /* compat XXX */ case 'x': flags |= PFXOK; /* enable 0x prefixing */ type = CT_INT; ccfn = _strtoul_r; base = 16; break; #ifdef FLOATING_POINT case 'E': /* compat XXX */ case 'G': /* compat XXX */ /* ANSI says that E,G and X behave the same way as e,g,x */ /* FALLTHROUGH */ case 'e': case 'f': case 'g': type = CT_FLOAT; if (flags & VECTOR) vec_read_count = 4; break; # ifdef __SPE__ /* treat fixed-point like %f floating point */ case 'r': flags |= SIGNED; /* fallthrough */ case 'R': flags |= FIXEDPOINT; type = CT_FLOAT; break; # endif #endif case 's': flags &= ~VECTOR; type = CT_STRING; break; case '[': fmt = __sccl (ccltab, fmt); flags |= NOSKIP; flags &= ~VECTOR; type = CT_CCL; break; case 'c': flags |= NOSKIP; type = CT_CHAR; if (flags & VECTOR) { /* not allowed to have h or l with c specifier */ if (flags & (LONG | SHORT)) continue; /* invalid format don't process any further */ width = 0; vec_read_count = 16; } break; case 'p': /* pointer format is like hex */ flags |= POINTER | PFXOK; type = CT_INT; ccfn = _strtoul_r; base = 16; break; case 'n': if (flags & SUPPRESS) /* ??? */ continue; flags &= ~VECTOR; if (flags & SHORT) { sp = va_arg (ap, short *); *sp = nread; } else if (flags & LONG) { lp = va_arg (ap, long *); *lp = nread; } #ifndef _NO_LONGLONG else if (flags & LONGDBL) { llp = va_arg (ap, long long*); *llp = nread; } #endif else { ip = va_arg (ap, int *); *ip = nread; } continue; /* * Disgusting backwards compatibility hacks. XXX */ case '\0': /* compat */ return EOF; default: /* compat */ if (isupper (c)) flags |= LONG; type = CT_INT; ccfn = (u_long (*)())_strtol_r; base = 10; break; } process: /* * We have a conversion that requires input. */ if (BufferEmpty) goto input_failure; /* * Consume leading white space, except for formats that * suppress this. */ last_space_char = '\0'; if ((flags & NOSKIP) == 0) { while (isspace (*fp->_p)) { last_space_char = *fp->_p; nread++; if (--fp->_r > 0) fp->_p++; else #ifndef CYGNUS_NEC if (__srefill (fp)) #endif goto input_failure; } /* * Note that there is at least one character in the * buffer, so conversions that do not set NOSKIP ca * no longer result in an input failure. */ } /* for vector formats process separator characters after first loop */ if (looped && (flags & VECTOR)) { flags = orig_flags; /* all formats other than default char have a separator char */ if (vec_sep != ' ' || type != CT_CHAR) { if (vec_sep == ' ' && last_space_char != ' ' || vec_sep != ' ' && *fp->_p != vec_sep) goto match_failure; if (vec_sep != ' ') { nread++; if (--fp->_r > 0) fp->_p++; else #ifndef CYGNUS_NEC if (__srefill (fp)) #endif goto input_failure; } } /* after eating the separator char, we must eat any white-space after the separator char that precedes the data to convert */ if ((flags & NOSKIP) == 0) { while (isspace (*fp->_p)) { last_space_char = *fp->_p; nread++; if (--fp->_r > 0) fp->_p++; else #ifndef CYGNUS_NEC if (__srefill (fp)) #endif goto input_failure; } } } else /* save to counter-act changes made to flags when processing */ orig_flags = flags; /* * Do the conversion. */ switch (type) { case CT_CHAR: /* scan arbitrary characters (sets NOSKIP) */ if (width == 0) width = 1; if (flags & SUPPRESS) { size_t sum = 0; for (;;) { if ((n = fp->_r) < (int)width) { sum += n; width -= n; fp->_p += n; #ifndef CYGNUS_NEC if (__srefill (fp)) { #endif if (sum == 0) goto input_failure; break; #ifndef CYGNUS_NEC } #endif } else { sum += width; fp->_r -= width; fp->_p += width; break; } } nread += sum; } else { int n = width; if (!looped) { if (flags & VECTOR) ch_dest = vec_buf.c; else ch_dest = va_arg (ap, char *); } #ifdef CYGNUS_NEC /* Kludge city for the moment */ if (fp->_r == 0) goto input_failure; while (n && fp->_r) { *ch_dest++ = *(fp->_p++); n--; fp->_r--; nread++; } #else size_t r = fread (ch_dest, 1, width, fp); if (r == 0) goto input_failure; nread += r; ch_dest += r; #endif if (!(flags & VECTOR)) nassigned++; } break; case CT_CCL: /* scan a (nonempty) character class (sets NOSKIP) */ if (width == 0) width = ~0; /* `infinity' */ /* take only those things in the class */ if (flags & SUPPRESS) { n = 0; while (ccltab[*fp->_p]) { n++, fp->_r--, fp->_p++; if (--width == 0) break; if (BufferEmpty) { if (n == 0) goto input_failure; break; } } if (n == 0) goto match_failure; } else { p0 = p = va_arg (ap, char *); while (ccltab[*fp->_p]) { fp->_r--; *p++ = *fp->_p++; if (--width == 0) break; if (BufferEmpty) { if (p == p0) goto input_failure; break; } } n = p - p0; if (n == 0) goto match_failure; *p = 0; nassigned++; } nread += n; break; case CT_STRING: /* like CCL, but zero-length string OK, & no NOSKIP */ if (width == 0) width = ~0; if (flags & SUPPRESS) { n = 0; while (!isspace (*fp->_p)) { n++, fp->_r--, fp->_p++; if (--width == 0) break; if (BufferEmpty) break; } nread += n; } else { p0 = p = va_arg (ap, char *); while (!isspace (*fp->_p)) { fp->_r--; *p++ = *fp->_p++; if (--width == 0) break; if (BufferEmpty) break; } *p = 0; nread += p - p0; nassigned++; } continue; case CT_INT: { unsigned int_width_left = 0; int skips = 0; int_width = width; #ifdef hardway if (int_width == 0 || int_width > sizeof (buf) - 1) #else /* size_t is unsigned, hence this optimisation */ if (int_width - 1 > sizeof (buf) - 2) #endif { int_width_left = width - (sizeof (buf) - 1); int_width = sizeof (buf) - 1; } flags |= SIGNOK | NDIGITS | NZDIGITS | NNZDIGITS; for (p = buf; int_width; int_width--) { c = *fp->_p; /* * Switch on the character; `goto ok' if we * accept it as a part of number. */ switch (c) { /* * The digit 0 is always legal, but is special. * For %i conversions, if no digits (zero or nonzero) * have been scanned (only signs), we will have base==0. * In that case, we should set it to 8 and enable 0x * prefixing. Also, if we have not scanned zero digits * before this, do not turn off prefixing (someone else * will turn it off if we have scanned any nonzero digits). */ case '0': if (! (flags & NNZDIGITS)) goto ok; if (base == 0) { base = 8; flags |= PFXOK; } if (flags & NZDIGITS) { flags &= ~(SIGNOK | NZDIGITS | NDIGITS); goto ok; } flags &= ~(SIGNOK | PFXOK | NDIGITS); if (int_width_left) { int_width_left--; int_width++; } ++skips; goto skip; /* 1 through 7 always legal */ case '1': case '2': case '3': case '4': case '5': case '6': case '7': base = basefix[base]; flags &= ~(SIGNOK | PFXOK | NDIGITS | NNZDIGITS); goto ok; /* digits 8 and 9 ok iff decimal or hex */ case '8': case '9': base = basefix[base]; if (base <= 8) break; /* not legal here */ flags &= ~(SIGNOK | PFXOK | NDIGITS | NNZDIGITS); goto ok; /* letters ok iff hex */ case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': /* no need to fix base here */ if (base <= 10) break; /* not legal here */ flags &= ~(SIGNOK | PFXOK | NDIGITS | NNZDIGITS); goto ok; /* sign ok only as first character */ case '+': case '-': if (flags & SIGNOK) { flags &= ~SIGNOK; goto ok; } break; /* x ok iff flag still set & 2nd char */ case 'x': case 'X': if (flags & PFXOK && p == buf + 1) { base = 16;/* if %i */ flags &= ~PFXOK; /* We must reset the NZDIGITS and NDIGITS flags that would have been unset by seeing the zero that preceded the X or x. */ flags |= NZDIGITS | NDIGITS; goto ok; } break; } /* * If we got here, c is not a legal character * for a number. Stop accumulating digits. */ break; ok: /* * c is legal: store it and look at the next. */ *p++ = c; skip: if (--fp->_r > 0) fp->_p++; else #ifndef CYGNUS_NEC if (__srefill (fp)) #endif break; /* EOF */ } /* * If we had only a sign, it is no good; push back the sign. * If the number ends in `x', it was [sign] '0' 'x', so push back * the x and treat it as [sign] '0'. */ if (flags & NDIGITS) { if (p > buf) _CAST_VOID ungetc (*(u_char *)-- p, fp); goto match_failure; } c = ((u_char *) p)[-1]; if (c == 'x' || c == 'X') { --p; /*(void)*/ ungetc (c, fp); } if ((flags & SUPPRESS) == 0) { u_long res; *p = 0; res = (*ccfn) (rptr, buf, (char **) NULL, base); if ((flags & POINTER) && !(flags & VECTOR)) *(va_arg (ap, _PTR *)) = (_PTR) (unsigned _POINTER_INT) res; else if (flags & SHORT) { if (!(flags & VECTOR)) sp = va_arg (ap, short *); else if (!looped) sp = vec_buf.h; *sp++ = res; } else if (flags & LONG) { if (!(flags & VECTOR)) lp = va_arg (ap, long *); else if (!looped) lp = vec_buf.l; *lp++ = res; } #ifndef _NO_LONGLONG else if (flags & LONGDBL) { u_long_long resll; if (ccfn == _strtoul_r) resll = _strtoull_r (rptr, buf, (char **) NULL, base); else resll = _strtoll_r (rptr, buf, (char **) NULL, base); llp = va_arg (ap, long long*); *llp = resll; } #endif else { if (!(flags & VECTOR)) { ip = va_arg (ap, int *); *ip++ = res; } else { if (!looped) ch_dest = vec_buf.c; *ch_dest++ = (char)res; } } if (!(flags & VECTOR)) nassigned++; } nread += p - buf + skips; break; } #ifdef FLOATING_POINT case CT_FLOAT: { /* scan a floating point number as if by strtod */ /* This code used to assume that the number of digits is reasonable. However, ANSI / ISO C makes no such stipulation; we have to get exact results even when there is an unreasonable amount of leading zeroes. */ long leading_zeroes = 0; long zeroes, exp_adjust; char *exp_start = NULL; unsigned fl_width = width; unsigned width_left = 0; #ifdef hardway if (fl_width == 0 || fl_width > sizeof (buf) - 1) #else /* size_t is unsigned, hence this optimisation */ if (fl_width - 1 > sizeof (buf) - 2) #endif { width_left = fl_width - (sizeof (buf) - 1); fl_width = sizeof (buf) - 1; } flags |= SIGNOK | NDIGITS | DPTOK | EXPOK; zeroes = 0; exp_adjust = 0; for (p = buf; fl_width; ) { c = *fp->_p; /* * This code mimicks the integer conversion * code, but is much simpler. */ switch (c) { case '0': if (flags & NDIGITS) { flags &= ~SIGNOK; zeroes++; if (width_left) { width_left--; fl_width++; } goto fskip; } /* Fall through. */ case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': flags &= ~(SIGNOK | NDIGITS); goto fok; case '+': case '-': if (flags & SIGNOK) { flags &= ~SIGNOK; goto fok; } break; case '.': if (flags & DPTOK) { flags &= ~(SIGNOK | DPTOK); leading_zeroes = zeroes; goto fok; } break; case 'e': case 'E': /* no exponent without some digits */ if ((flags & (NDIGITS | EXPOK)) == EXPOK || ((flags & EXPOK) && zeroes)) { if (! (flags & DPTOK)) { exp_adjust = zeroes - leading_zeroes; exp_start = p; } flags = (flags & ~(EXPOK | DPTOK)) | SIGNOK | NDIGITS; zeroes = 0; goto fok; } break; } break; fok: *p++ = c; fskip: fl_width--; ++nread; if (--fp->_r > 0) fp->_p++; else #ifndef CYGNUS_NEC if (__srefill (fp)) #endif break; /* EOF */ } if (zeroes) flags &= ~NDIGITS; /* * If no digits, might be missing exponent digits * (just give back the exponent) or might be missing * regular digits, but had sign and/or decimal point. */ if (flags & NDIGITS) { if (flags & EXPOK) { /* no digits at all */ while (p > buf) { ungetc (*(u_char *)-- p, fp); --nread; } goto match_failure; } /* just a bad exponent (e and maybe sign) */ c = *(u_char *)-- p; --nread; if (c != 'e' && c != 'E') { _CAST_VOID ungetc (c, fp); /* sign */ c = *(u_char *)-- p; --nread; } _CAST_VOID ungetc (c, fp); } if ((flags & SUPPRESS) == 0) { #ifdef _NO_LONGDBL double res; #else /* !_NO_LONG_DBL */ long double res; #endif /* !_NO_LONG_DBL */ long new_exp = 0; *p = 0; if ((flags & (DPTOK | EXPOK)) == EXPOK) { exp_adjust = zeroes - leading_zeroes; new_exp = -exp_adjust; exp_start = p; } else if (exp_adjust) new_exp = _strtol_r (rptr, (exp_start + 1), NULL, 10) - exp_adjust; if (exp_adjust) { /* If there might not be enough space for the new exponent, truncate some trailing digits to make room. */ if (exp_start >= buf + sizeof (buf) - MAX_LONG_LEN) exp_start = buf + sizeof (buf) - MAX_LONG_LEN - 1; sprintf (exp_start, "e%ld", new_exp); } #ifdef __SPE__ if (flags & FIXEDPOINT) { __uint64_t ufix64; if (flags & SIGNED) ufix64 = (__uint64_t)_strtosfix64_r (rptr, buf, NULL); else ufix64 = _strtoufix64_r (rptr, buf, NULL); if (flags & SHORT) { __uint16_t *sp = va_arg (ap, __uint16_t *); *sp = (__uint16_t)(ufix64 >> 48); } else if (flags & LONG) { __uint64_t *llp = va_arg (ap, __uint64_t *); *llp = ufix64; } else { __uint32_t *lp = va_arg (ap, __uint32_t *); *lp = (__uint32_t)(ufix64 >> 32); } nassigned++; break; } #endif /* __SPE__ */ #ifdef _NO_LONGDBL res = _strtod_r (rptr, buf, NULL); #else /* !_NO_LONGDBL */ res = _strtold_r (rptr, buf, NULL); #endif /* !_NO_LONGDBL */ if (flags & LONG) { dp = va_arg (ap, double *); *dp = res; } else if (flags & LONGDBL) { ldp = va_arg (ap, _LONG_DOUBLE *); *ldp = res; } else { if (!(flags & VECTOR)) flp = va_arg (ap, float *); else if (!looped) flp = vec_buf.f; *flp++ = res; } if (!(flags & VECTOR)) nassigned++; } break; } #endif /* FLOATING_POINT */ } if (vec_read_count-- > 1) { looped = 1; goto process; } if (flags & VECTOR) { int i; unsigned long *vp = va_arg (ap, unsigned long *); for (i = 0; i < 4; ++i) *vp++ = vec_buf.l[i]; nassigned++; } } input_failure: return nassigned ? nassigned : -1; match_failure: return nassigned; }