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-rw-r--r--stdlib/stdlib.h26
-rw-r--r--stdlib/strtod.c163
2 files changed, 148 insertions, 41 deletions
diff --git a/stdlib/stdlib.h b/stdlib/stdlib.h
index aaabbc8..6fad54e 100644
--- a/stdlib/stdlib.h
+++ b/stdlib/stdlib.h
@@ -17,7 +17,7 @@
Boston, MA 02111-1307, USA. */
/*
- * ISO S Standard: 4.10 GENERAL UTILITIES <stdlib.h>
+ * ISO C Standard: 4.10 GENERAL UTILITIES <stdlib.h>
*/
#ifndef _STDLIB_H
@@ -47,7 +47,7 @@ typedef struct
long int rem; /* Remainder. */
} ldiv_t;
-#ifdef __USE_GNU
+#ifdef __USE_ISOC9X
/* Returned by `lldiv'. */
typedef struct
{
@@ -160,7 +160,7 @@ extern unsigned long long int __strtoull_internal __P ((__const char *
int __group));
#endif /* GCC */
-#if defined (__OPTIMIZE__) && __GNUC__ >= 2
+#if defined __OPTIMIZE__ && __GNUC__ >= 2
/* Define inline functions which call the internal entry points. */
extern __inline double strtod (__const char *__restrict __nptr,
@@ -211,14 +211,14 @@ extern __inline int atoi (__const char *__nptr)
extern __inline long int atol (__const char *__nptr)
{ return strtol (__nptr, (char **) NULL, 10); }
-#ifdef __USE_MISC
+#if defined __USE_ISOC9X && (defined __GNUC__ || defined __USE_MISC)
extern __inline long long int atoll (__const char *__nptr)
{ return strtoll (__nptr, (char **) NULL, 10); }
#endif
#endif /* Optimizing GCC >=2. */
-#if defined(__USE_SVID) || defined(__USE_XOPEN_EXTENDED)
+#if defined __USE_SVID || defined __USE_XOPEN_EXTENDED
/* Convert N to base 64 using the digits "./0-9A-Za-z", least-significant
digit first. Returns a pointer to static storage overwritten by the
next call. */
@@ -302,7 +302,7 @@ extern int rand_r __P ((unsigned int *__seed));
#endif
-#if defined(__USE_SVID) || defined(__USE_XOPEN)
+#if defined __USE_SVID || defined __USE_XOPEN
/* System V style 48-bit random number generator functions. */
/* Return non-negative, double-precision floating-point value in [0.0,1.0). */
@@ -377,11 +377,11 @@ extern void free __P ((__ptr_t __ptr));
extern void cfree __P ((__ptr_t __ptr));
#endif /* Use misc. */
-#if defined(__USE_GNU) || defined(__USE_BSD) || defined(__USE_MISC)
+#if defined __USE_GNU || defined __USE_BSD || defined __USE_MISC
#include <alloca.h>
#endif /* Use GNU, BSD, or misc. */
-#if defined(__USE_BSD) || defined(__USE_XOPEN_EXTENDED)
+#if defined __USE_BSD || defined __USE_XOPEN_EXTENDED
/* Allocate SIZE bytes on a page boundary. The storage cannot be freed. */
extern __ptr_t valloc __P ((size_t __size));
#endif
@@ -416,7 +416,7 @@ extern char *getenv __P ((__const char *__name));
programs is running with SUID or SGID enabled. */
extern char *__secure_getenv __P ((__const char *__name));
-#if defined(__USE_SVID) || defined(__USE_XOPEN)
+#if defined __USE_SVID || defined __USE_XOPEN
/* The SVID says this is in <stdio.h>, but this seems a better place. */
/* Put STRING, which is of the form "NAME=VALUE", in the environment.
If there is no `=', remove NAME from the environment. */
@@ -441,7 +441,7 @@ extern int clearenv __P ((void));
#endif
-#if defined(__USE_MISC) || defined(__USE_XOPEN_EXTENDED)
+#if defined __USE_MISC || defined __USE_XOPEN_EXTENDED
/* Generate a unique temporary file name from TEMPLATE.
The last six characters of TEMPLATE must be "XXXXXX";
they are replaced with a string that makes the file name unique.
@@ -468,7 +468,7 @@ extern int system __P ((__const char *__command));
extern char *canonicalize_file_name __P ((__const char *__name));
#endif
-#if defined(__USE_BSD) || defined(__USE_XOPEN_EXTENDED)
+#if defined __USE_BSD || defined __USE_XOPEN_EXTENDED
/* Return the canonical absolute name of file NAME. The last file name
component need not exist, and may be a symlink to a nonexistent file.
If RESOLVED is null, the result is malloc'd; otherwise, if the canonical
@@ -522,7 +522,7 @@ extern lldiv_t lldiv __P ((long long int __numer, long long int __denom))
#endif
-#if defined(__USE_SVID) || defined(__USE_XOPEN_EXTENDED)
+#if defined __USE_SVID || defined __USE_XOPEN_EXTENDED
/* Convert floating point numbers to strings. The returned values are
valid only until another call to the same function. */
@@ -578,7 +578,7 @@ extern int mbtowc __P ((wchar_t *__restrict __pwc,
by WCHAR in S, returning its length. */
extern int wctomb __P ((char *__s, wchar_t __wchar));
-#if defined (__OPTIMIZE__) && __GNUC__ >= 2
+#if defined __OPTIMIZE__ && __GNUC__ >= 2
extern __inline int mblen (__const char *__s, size_t __n)
{ return mbtowc ((wchar_t *) NULL, __s, __n); }
#endif /* Optimizing GCC >=2. */
diff --git a/stdlib/strtod.c b/stdlib/strtod.c
index ed24c08..316adec 100644
--- a/stdlib/strtod.c
+++ b/stdlib/strtod.c
@@ -40,6 +40,8 @@
# define CHAR_TYPE wint_t
# define L_(Ch) L##Ch
# define ISSPACE(Ch) iswspace (Ch)
+# define ISDIGIT(Ch) iswdigit (Ch)
+# define ISXDIGIT(Ch) iswxdigit (Ch)
# define TOLOWER(Ch) towlower (Ch)
# define STRNCASECMP(S1, S2, N) __wcsncasecmp ((S1), (S2), (N))
#else
@@ -47,6 +49,8 @@
# define CHAR_TYPE char
# define L_(Ch) Ch
# define ISSPACE(Ch) isspace (Ch)
+# define ISDIGIT(Ch) isdigit (Ch)
+# define ISXDIGIT(Ch) isxdigit (Ch)
# define TOLOWER(Ch) tolower (Ch)
# define STRNCASECMP(S1, S2, N) __strncasecmp ((S1), (S2), (N))
#endif
@@ -125,6 +129,7 @@ static const mp_limb_t _tens_in_limb[MAX_DIG_PER_LIMB + 1] =
#define SWAP(x, y) ({ typeof(x) _tmp = x; x = y; y = _tmp; })
#define NDIG (MAX_10_EXP - MIN_10_EXP + 2 * MANT_DIG)
+#define HEXNDIG ((MAX_EXP - MIN_EXP + 7) / 8 + 2 * MANT_DIG)
#define RETURN_LIMB_SIZE howmany (MANT_DIG, BITS_PER_MP_LIMB)
#define RETURN(val,end) \
@@ -239,7 +244,7 @@ str_to_mpn (const STRING_TYPE *str, int digcnt, mp_limb_t *n, mp_size_t *nsize,
/* Number of digits for actual limb. */
int cnt = 0;
mp_limb_t low = 0;
- mp_limb_t base;
+ mp_limb_t start;
*nsize = 0;
assert (digcnt > 0);
@@ -262,9 +267,10 @@ str_to_mpn (const STRING_TYPE *str, int digcnt, mp_limb_t *n, mp_size_t *nsize,
low = 0;
}
- /* There might be thousands separators or radix characters in the string.
- But these all can be ignored because we know the format of the number
- is correct and we have an exact number of characters to read. */
+ /* There might be thousands separators or radix characters in
+ the string. But these all can be ignored because we know the
+ format of the number is correct and we have an exact number
+ of characters to read. */
while (*str < L_('0') || *str > L_('9'))
++str;
low = low * 10 + *str++ - L_('0');
@@ -275,11 +281,11 @@ str_to_mpn (const STRING_TYPE *str, int digcnt, mp_limb_t *n, mp_size_t *nsize,
if (*exponent > 0 && cnt + *exponent <= MAX_DIG_PER_LIMB)
{
low *= _tens_in_limb[*exponent];
- base = _tens_in_limb[cnt + *exponent];
+ start = _tens_in_limb[cnt + *exponent];
*exponent = 0;
}
else
- base = _tens_in_limb[cnt];
+ start = _tens_in_limb[cnt];
if (*nsize == 0)
{
@@ -289,11 +295,12 @@ str_to_mpn (const STRING_TYPE *str, int digcnt, mp_limb_t *n, mp_size_t *nsize,
else
{
mp_limb_t cy;
- cy = __mpn_mul_1 (n, n, *nsize, base);
+ cy = __mpn_mul_1 (n, n, *nsize, start);
cy += __mpn_add_1 (n, n, *nsize, low);
if (cy != 0)
n[(*nsize)++] = cy;
}
+
return str;
}
@@ -346,6 +353,9 @@ INTERNAL (STRTOF) (nptr, endptr, group)
MPN_VAR (num); /* MP representation of the number. */
int exponent; /* Exponent of the number. */
+ /* Numbers starting `0X' or `0x' have to be processed with base 16. */
+ int base = 10;
+
/* When we have to compute fractional digits we form a fraction with a
second multi-precision number (and we sometimes need a second for
temporary results). */
@@ -485,6 +495,18 @@ INTERNAL (STRTOF) (nptr, endptr, group)
RETURN (0.0, nptr);
}
+ /* First look whether we are faced with a hexadecimal number. */
+ if (c == L_('0') && TOLOWER (cp[1]) == L_('x'))
+ {
+ /* Okay, it is a hexa-decimal number. Remember this and skip
+ the characters. BTW: hexadecimal numbers must not be
+ grouped. */
+ base = 16;
+ cp += 2;
+ c = *cp;
+ grouping = NULL;
+ }
+
/* Record the start of the digits, in case we will check their grouping. */
start_of_digits = startp = cp;
@@ -494,25 +516,29 @@ INTERNAL (STRTOF) (nptr, endptr, group)
/* If no other digit but a '0' is found the result is 0.0.
Return current read pointer. */
- if ((c < L_('0') || c > L_('9')) && (wint_t) c != decimal
- && TOLOWER (c) != L_('e'))
+ if ((c < L_('0') || c > L_('9')) &&
+ (base == 16 && (c < TOLOWER (L_('a')) || c > TOLOWER (L_('f')))) &&
+ (wint_t) c != decimal &&
+ (base == 16 && (cp == start_of_digits || TOLOWER (c) != L_('p'))) &&
+ (base != 16 && TOLOWER (c) != L_('e')))
{
tp = correctly_grouped_prefix (start_of_digits, cp, thousands, grouping);
/* If TP is at the start of the digits, there was no correctly
grouped prefix of the string; so no number found. */
- RETURN (0.0, tp == start_of_digits ? nptr : tp);
+ RETURN (0.0, tp == start_of_digits ? (base == 16 ? cp - 1 : nptr) : tp);
}
/* Remember first significant digit and read following characters until the
decimal point, exponent character or any non-FP number character. */
startp = cp;
dig_no = 0;
- while (dig_no < NDIG ||
+ while (dig_no < (base == 16 ? HEXNDIG : NDIG) ||
/* If parsing grouping info, keep going past useful digits
so we can check all the grouping separators. */
grouping)
{
- if (c >= L_('0') && c <= L_('9'))
+ if ((c >= L_('0') && c <= L_('9'))
+ || (base == 16 && TOLOWER (c) >= L_('a') && TOLOWER (c) <= L_('f')))
++dig_no;
else if (thousands == L'\0' || (wint_t) c != thousands)
/* Not a digit or separator: end of the integer part. */
@@ -552,7 +578,7 @@ INTERNAL (STRTOF) (nptr, endptr, group)
}
}
- if (dig_no >= NDIG)
+ if (dig_no >= (base == 16 ? HEXNDIG : NDIG))
/* Too many digits to be representable. Assigning this to EXPONENT
allows us to read the full number but return HUGE_VAL after parsing. */
exponent = MAX_10_EXP;
@@ -567,7 +593,8 @@ INTERNAL (STRTOF) (nptr, endptr, group)
if ((wint_t) c == decimal)
{
c = *++cp;
- while (c >= L_('0') && c <= L_('9'))
+ while (c >= L_('0') && c <= L_('9') ||
+ (base == 16 && TOLOWER (c) >= L_('a') && TOLOWER (c) <= L_('f')))
{
if (c != L_('0') && lead_zero == -1)
lead_zero = dig_no - int_no;
@@ -580,7 +607,7 @@ INTERNAL (STRTOF) (nptr, endptr, group)
expp = cp;
/* Read exponent. */
- if (TOLOWER (c) == L_('e'))
+ if (TOLOWER (c) == (base == 16 ? L_('p') : L_('e')))
{
int exp_negative = 0;
@@ -598,9 +625,14 @@ INTERNAL (STRTOF) (nptr, endptr, group)
int exp_limit;
/* Get the exponent limit. */
- exp_limit = exp_negative ?
- -MIN_10_EXP + MANT_DIG - int_no :
- MAX_10_EXP - int_no + lead_zero;
+ if (base == 16)
+ exp_limit = (exp_negative ?
+ -MIN_EXP + MANT_DIG - 4 * int_no :
+ MAX_EXP - 4 * int_no + lead_zero);
+ else
+ exp_limit = (exp_negative ?
+ -MIN_10_EXP + MANT_DIG - int_no :
+ MAX_10_EXP - int_no + lead_zero);
do
{
@@ -610,11 +642,11 @@ INTERNAL (STRTOF) (nptr, endptr, group)
/* The exponent is too large/small to represent a valid
number. */
{
- FLOAT retval;
+ FLOAT result;
/* Overflow or underflow. */
__set_errno (ERANGE);
- retval = (exp_negative ? 0.0 :
+ result = (exp_negative ? 0.0 :
negative ? -FLOAT_HUGE_VAL : FLOAT_HUGE_VAL);
/* Accept all following digits as part of the exponent. */
@@ -622,7 +654,7 @@ INTERNAL (STRTOF) (nptr, endptr, group)
++cp;
while (*cp >= L_('0') && *cp <= L_('9'));
- RETURN (retval, cp);
+ RETURN (result, cp);
/* NOTREACHED */
}
@@ -664,17 +696,89 @@ INTERNAL (STRTOF) (nptr, endptr, group)
while ((wint_t) *startp != decimal)
++startp;
startp += lead_zero + 1;
- exponent -= lead_zero;
+ exponent -= base == 16 ? 4 * lead_zero : lead_zero;
dig_no -= lead_zero;
}
+ /* If the BASE is 16 we can use a simpler algorithm. */
+ if (base == 16)
+ {
+ static const int nbits[16] = { 0, 1, 2, 2, 3, 3, 3, 3,
+ 4, 4, 4, 4, 4, 4, 4, 4 };
+ int idx = (MANT_DIG - 1) / BITS_PER_MP_LIMB;
+ int pos = (MANT_DIG - 1) % BITS_PER_MP_LIMB;
+ mp_limb_t val;
+
+ while (!ISXDIGIT (*startp))
+ ++startp;
+ if (ISDIGIT (*startp))
+ val = *startp++ - L_('0');
+ else
+ val = 10 + TOLOWER (*startp++) - L_('a');
+ bits = nbits[val];
+
+ if (pos + 1 >= 4)
+ {
+ /* We don't have to care for wrapping. This is the normal
+ case so we add this optimization. */
+ retval[idx] = val << (pos - bits + 1);
+ pos -= bits;
+ }
+ else
+ {
+ if (pos + 1 >= bits)
+ {
+ retval[idx] = val << (pos - bits + 1);
+ pos -= bits;
+ }
+ else
+ {
+ retval[idx--] = val >> (bits - pos - 1);
+ retval[idx] = val << (BITS_PER_MP_LIMB - (bits - pos - 1));
+ pos = BITS_PER_MP_LIMB - 1 - (bits - pos - 1);
+ }
+ }
+
+ while (--dig_no > 0 && idx >= 0)
+ {
+ while (!ISXDIGIT (*startp))
+ ++startp;
+ if (ISDIGIT (*startp))
+ val = *startp++ - L_('0');
+ else
+ val = 10 + TOLOWER (*startp++) - L_('a');
+
+ if (pos + 1 >= 4)
+ {
+ retval[idx] |= val << (pos - 4 + 1);
+ pos -= 4;
+ }
+ else
+ {
+ retval[idx--] |= val >> (4 - pos - 1);
+ val <<= BITS_PER_MP_LIMB - (4 - pos - 1);
+ if (idx < 0)
+ return round_and_return (retval, exponent, negative, val,
+ BITS_PER_MP_LIMB - 1, dig_no > 0);
+
+ retval[idx] = val;
+ pos = BITS_PER_MP_LIMB - 1 - (4 - pos - 1);
+ }
+ }
+
+ /* We ran out of digits. */
+ MPN_ZERO (retval, idx);
+
+ return round_and_return (retval, exponent, negative, 0, 0, 0);
+ }
+
/* Now we have the number of digits in total and the integer digits as well
as the exponent and its sign. We can decide whether the read digits are
really integer digits or belong to the fractional part; i.e. we normalize
123e-2 to 1.23. */
{
- register int incr = exponent < 0 ? MAX (-int_no, exponent)
- : MIN (dig_no - int_no, exponent);
+ register int incr = (exponent < 0 ? MAX (-int_no, exponent)
+ : MIN (dig_no - int_no, exponent));
int_no += incr;
exponent -= incr;
}
@@ -711,9 +815,10 @@ INTERNAL (STRTOF) (nptr, endptr, group)
mp_limb_t cy;
exponent ^= expbit;
- /* FIXME: not the whole multiplication has to be done.
- If we have the needed number of bits we only need the
- information whether more non-zero bits follow. */
+ /* FIXME: not the whole multiplication has to be
+ done. If we have the needed number of bits we
+ only need the information whether more non-zero
+ bits follow. */
if (numsize >= ttab->arraysize - _FPIO_CONST_OFFSET)
cy = __mpn_mul (pdest, psrc, numsize,
&ttab->array[_FPIO_CONST_OFFSET],
@@ -848,7 +953,7 @@ INTERNAL (STRTOF) (nptr, endptr, group)
assert (dig_no > int_no && exponent <= 0);
- /* For the fractional part we need not process too much digits. One
+ /* For the fractional part we need not process too many digits. One
decimal digits gives us log_2(10) ~ 3.32 bits. If we now compute
ceil(BITS / 3) =: N
digits we should have enough bits for the result. The remaining
@@ -1126,7 +1231,9 @@ INTERNAL (STRTOF) (nptr, endptr, group)
for (i = RETURN_LIMB_SIZE; i > empty; --i)
retval[i] = retval[i - empty];
#endif
+#if RETURN_LIMB_SIZE > 1
retval[1] = 0;
+#endif
for (i = numsize; i > 0; --i)
num[i + empty] = num[i - 1];
MPN_ZERO (num, empty + 1);