newlib-cygwin/newlib/libc/machine/powerpc/vfscanf.c

1220 lines
26 KiB
C

/*
FUNCTION
<<vscanf>>, <<vfscanf>>, <<vsscanf>>---format argument list
INDEX
vscanf
INDEX
vfscanf
INDEX
vsscanf
SYNOPSIS
#include <stdio.h>
#include <stdarg.h>
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
<<vscanf>>, <<vfscanf>>, and <<vsscanf>> are (respectively) variants
of <<scanf>>, <<fscanf>>, and <<sscanf>>. 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.
RETURNS
The return values are consistent with the corresponding functions:
<<vscanf>> returns the number of input fields successfully scanned,
converted, and stored; the return value does not include scanned
fields which were not stored.
If <<vscanf>> attempts to read at end-of-file, the return value
is <<EOF>>.
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 <reent.h>
#include <newlib.h>
#include <ctype.h>
#include <stdio.h>
#include <stdlib.h>
#include <limits.h>
#include <wchar.h>
#include <string.h>
#include <stdarg.h>
#include "local.h"
#ifndef NO_FLOATING_POINT
#define FLOATING_POINT
#endif
#ifdef FLOATING_POINT
#include <float.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__
# 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
vfscanf (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
_vfscanf_r (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)
(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, void **)) = (void *) (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')
{
(void) ungetc (c, fp); /* sign */
c = *(u_char *)-- p;
--nread;
}
(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;
}