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192.168.1.100 / T106_DC / 3025489969f3f23e32c31551642e01cb5db99227 / . / ap / build / uClibc / libc / stdlib / _strtod.c
blob: 1d58258e7a558f087ded4931e4577ebc4d5d3de3 [file] [log] [blame]
/*
* Copyright (C) 2000-2005 Manuel Novoa III
*
* Licensed under the LGPL v2.1, see the file COPYING.LIB in this tarball.
*/
/* Notes:
*
* The primary objective of this implementation was minimal size and
* portablility, while providing robustness and resonable accuracy.
*
* This implementation depends on IEEE floating point behavior and expects
* to be able to generate +/- infinity as a result.
*
* There are a number of compile-time options below.
*/
/* July 27, 2003
*
* General cleanup and some minor size optimizations.
* Change implementation to support __strtofpmax() rather than strtod().
* Now all the strto{floating pt}() funcs are implemented in terms of
* of the internal __strtofpmax() function.
* Support "nan", "inf", and "infinity" strings (case-insensitive).
* Support hexadecimal floating point notation.
* Support wchar variants.
* Support xlocale variants.
*
* TODO:
*
* Consider accumulating blocks of digits in longs to save floating pt mults.
* This would likely be much better on anything that only supported floats
* where DECIMAL_DIG == 9. Actually, if floats have FLT_MAX_10_EXP == 38,
* we could calculate almost all the exponent multipliers (p_base) in
* long arithmetic as well.
*/
/**********************************************************************/
/* OPTIONS */
/**********************************************************************/
/* Defined if we want to recognize "nan", "inf", and "infinity". (C99) */
#define _STRTOD_NAN_INF_STRINGS 1
/* Defined if we want support hexadecimal floating point notation. (C99) */
/* Note! Now controlled by uClibc configuration. See below. */
#define _STRTOD_HEXADECIMAL_FLOATS 1
/* Defined if we want to scale with a O(log2(exp)) multiplications.
* This is generally a good thing to do unless you are really tight
* on space and do not expect to convert values of large magnitude. */
#define _STRTOD_LOG_SCALING 1
/* WARNING!!! WARNING!!! WARNING!!! WARNING!!! WARNING!!!
*
* Clearing any of the options below this point is not advised (or tested).
*
* WARNING!!! WARNING!!! WARNING!!! WARNING!!! WARNING!!! */
/* Defined if we want strtod to set errno appropriately. */
/* NOTE: Implies all options below. */
#define _STRTOD_ERRNO 1
/* Defined if we want support for the endptr arg. */
/* Implied by _STRTOD_ERRNO. */
#define _STRTOD_ENDPTR 1
/* Defined if we want to prevent overflow in accumulating the exponent. */
/* Implied by _STRTOD_ERRNO. */
#define _STRTOD_RESTRICT_EXP 1
/* Defined if we want to process mantissa digits more intelligently. */
/* Implied by _STRTOD_ERRNO. */
#define _STRTOD_RESTRICT_DIGITS 1
/* Defined if we want to skip scaling 0 for the exponent. */
/* Implied by _STRTOD_ERRNO. */
#define _STRTOD_ZERO_CHECK 1
/**********************************************************************/
/* Don't change anything that follows. */
/**********************************************************************/
#ifdef _STRTOD_ERRNO
#undef _STRTOD_ENDPTR
#undef _STRTOD_RESTRICT_EXP
#undef _STRTOD_RESTRICT_DIGITS
#undef _STRTOD_ZERO_CHECK
#define _STRTOD_ENDPTR 1
#define _STRTOD_RESTRICT_EXP 1
#define _STRTOD_RESTRICT_DIGITS 1
#define _STRTOD_ZERO_CHECK 1
#endif
/**********************************************************************/
#define _ISOC99_SOURCE 1
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <limits.h>
#include <float.h>
#include <bits/uClibc_fpmax.h>
#include <locale.h>
#ifdef __UCLIBC_HAS_WCHAR__
# include <wchar.h>
# include <wctype.h>
# include <bits/uClibc_uwchar.h>
#endif
#ifdef __UCLIBC_HAS_XLOCALE__
# include <xlocale.h>
#endif
/* Handle _STRTOD_HEXADECIMAL_FLOATS via uClibc config now. */
#undef _STRTOD_HEXADECIMAL_FLOATS
#ifdef __UCLIBC_HAS_HEXADECIMAL_FLOATS__
# define _STRTOD_HEXADECIMAL_FLOATS 1
#endif
/**********************************************************************/
#undef _STRTOD_FPMAX
#if FPMAX_TYPE == 3
#define NEED_STRTOLD_WRAPPER
#define NEED_STRTOD_WRAPPER
#define NEED_STRTOF_WRAPPER
#elif FPMAX_TYPE == 2
#define NEED_STRTOD_WRAPPER
#define NEED_STRTOF_WRAPPER
#elif FPMAX_TYPE == 1
#define NEED_STRTOF_WRAPPER
#else
#error unknown FPMAX_TYPE!
#endif
extern void __fp_range_check(__fpmax_t y, __fpmax_t x) attribute_hidden;
/**********************************************************************/
#ifdef _STRTOD_RESTRICT_DIGITS
#define EXP_DENORM_ADJUST DECIMAL_DIG
#define MAX_ALLOWED_EXP (DECIMAL_DIG + EXP_DENORM_ADJUST - FPMAX_MIN_10_EXP)
#if MAX_ALLOWED_EXP > INT_MAX
#error size assumption violated for MAX_ALLOWED_EXP
#endif
#else
/* We want some excess if we're not restricting mantissa digits. */
#define MAX_ALLOWED_EXP ((20 - FPMAX_MIN_10_EXP) * 2)
#endif
#if defined(_STRTOD_RESTRICT_DIGITS) || defined(_STRTOD_ENDPTR) || defined(_STRTOD_HEXADECIMAL_FLOATS)
#undef _STRTOD_NEED_NUM_DIGITS
#define _STRTOD_NEED_NUM_DIGITS 1
#endif
/**********************************************************************/
#if defined(L___strtofpmax) || defined(L___strtofpmax_l) || defined(L___wcstofpmax) || defined(L___wcstofpmax_l)
#if defined(L___wcstofpmax) || defined(L___wcstofpmax_l)
#define __strtofpmax __wcstofpmax
#define __strtofpmax_l __wcstofpmax_l
#define Wchar wchar_t
#ifdef __UCLIBC_DO_XLOCALE
#define ISSPACE(C) iswspace_l((C), locale_arg)
#else
#define ISSPACE(C) iswspace((C))
#endif
#else /* defined(L___wcstofpmax) || defined(L___wcstofpmax_l) */
#define Wchar char
#ifdef __UCLIBC_DO_XLOCALE
#define ISSPACE(C) isspace_l((C), locale_arg)
#else
#define ISSPACE(C) isspace((C))
#endif
#endif /* defined(L___wcstofpmax) || defined(L___wcstofpmax_l) */
#if defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE)
__fpmax_t attribute_hidden __strtofpmax(const Wchar *str, Wchar **endptr, int exponent_power)
{
return __strtofpmax_l(str, endptr, exponent_power, __UCLIBC_CURLOCALE);
}
#else /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */
__fpmax_t attribute_hidden __XL_NPP(__strtofpmax)(const Wchar *str, Wchar **endptr, int exponent_power
__LOCALE_PARAM )
{
__fpmax_t number;
__fpmax_t p_base = 10; /* Adjusted to 16 in the hex case. */
Wchar *pos0;
#ifdef _STRTOD_ENDPTR
Wchar *pos1;
#endif
Wchar *pos = (Wchar *) str;
int exponent_temp;
int negative; /* A flag for the number, a multiplier for the exponent. */
#ifdef _STRTOD_NEED_NUM_DIGITS
int num_digits;
#endif
#ifdef __UCLIBC_HAS_LOCALE__
#if defined(L___wcstofpmax) || defined(L___wcstofpmax_l)
wchar_t decpt_wc = __LOCALE_PTR->decimal_point_wc;
#else
const char *decpt = __LOCALE_PTR->decimal_point;
int decpt_len = __LOCALE_PTR->decimal_point_len;
#endif
#endif
#ifdef _STRTOD_HEXADECIMAL_FLOATS
Wchar expchar = 'e';
Wchar *poshex = NULL;
__uint16_t is_mask = _ISdigit;
#define EXPCHAR expchar
#define IS_X_DIGIT(C) __isctype((C), is_mask)
#else /* _STRTOD_HEXADECIMAL_FLOATS */
#define EXPCHAR 'e'
#define IS_X_DIGIT(C) isdigit((C))
#endif /* _STRTOD_HEXADECIMAL_FLOATS */
while (ISSPACE(*pos)) { /* Skip leading whitespace. */
++pos;
}
negative = 0;
switch(*pos) { /* Handle optional sign. */
case '-': negative = 1; /* Fall through to increment position. */
case '+': ++pos;
}
#ifdef _STRTOD_HEXADECIMAL_FLOATS
if ((*pos == '0') && (((pos[1])|0x20) == 'x')) {
poshex = ++pos; /* Save position of 'x' in case no digits */
++pos; /* and advance past it. */
is_mask = _ISxdigit; /* Used by IS_X_DIGIT. */
expchar = 'p'; /* Adjust exponent char. */
p_base = 16; /* Adjust base multiplier. */
}
#endif
number = 0.;
#ifdef _STRTOD_NEED_NUM_DIGITS
num_digits = -1;
#endif
/* exponent_power = 0; */
pos0 = NULL;
LOOP:
while (IS_X_DIGIT(*pos)) { /* Process string of (hex) digits. */
#ifdef _STRTOD_RESTRICT_DIGITS
if (num_digits < 0) { /* First time through? */
++num_digits; /* We've now seen a digit. */
}
if (num_digits || (*pos != '0')) { /* Had/have nonzero. */
++num_digits;
if (num_digits <= DECIMAL_DIG) { /* Is digit significant? */
#ifdef _STRTOD_HEXADECIMAL_FLOATS
number = number * p_base
+ (isdigit(*pos)
? (*pos - '0')
: (((*pos)|0x20) - ('a' - 10)));
#else /* _STRTOD_HEXADECIMAL_FLOATS */
number = number * p_base + (*pos - '0');
#endif /* _STRTOD_HEXADECIMAL_FLOATS */
}
}
#else /* _STRTOD_RESTRICT_DIGITS */
#ifdef _STRTOD_NEED_NUM_DIGITS
++num_digits;
#endif
#ifdef _STRTOD_HEXADECIMAL_FLOATS
number = number * p_base
+ (isdigit(*pos)
? (*pos - '0')
: (((*pos)|0x20) - ('a' - 10)));
#else /* _STRTOD_HEXADECIMAL_FLOATS */
number = number * p_base + (*pos - '0');
#endif /* _STRTOD_HEXADECIMAL_FLOATS */
#endif /* _STRTOD_RESTRICT_DIGITS */
++pos;
}
#ifdef __UCLIBC_HAS_LOCALE__
#if defined(L___wcstofpmax) || defined(L___wcstofpmax_l)
if (!pos0 && (*pos == decpt_wc)) { /* First decimal point? */
pos0 = ++pos;
goto LOOP;
}
#else
if (!pos0 && !memcmp(pos, decpt, decpt_len)) { /* First decimal point? */
pos0 = (pos += decpt_len);
goto LOOP;
}
#endif
#else /* __UCLIBC_HAS_LOCALE__ */
if ((*pos == '.') && !pos0) { /* First decimal point? */
pos0 = ++pos; /* Save position of decimal point */
goto LOOP; /* and process rest of digits. */
}
#endif /* __UCLIBC_HAS_LOCALE__ */
#ifdef _STRTOD_NEED_NUM_DIGITS
if (num_digits<0) { /* Must have at least one digit. */
#ifdef _STRTOD_HEXADECIMAL_FLOATS
if (poshex) { /* Back up to '0' in '0x' prefix. */
pos = poshex;
goto DONE;
}
#endif /* _STRTOD_HEXADECIMAL_FLOATS */
#ifdef _STRTOD_NAN_INF_STRINGS
if (!pos0) { /* No decimal point, so check for inf/nan. */
/* Note: nan is the first string so 'number = i/0.;' works. */
static const char nan_inf_str[] = "\05nan\0\012infinity\0\05inf\0";
int i = 0;
do {
/* Unfortunately, we have no memcasecmp(). */
int j = 0;
/* | 0x20 is a cheap lowercasing (valid for ASCII letters and numbers only) */
while ((pos[j] | 0x20) == nan_inf_str[i+1+j]) {
++j;
if (!nan_inf_str[i+1+j]) {
number = i / 0.;
if (negative) { /* Correct for sign. */
number = -number;
}
pos += nan_inf_str[i] - 2;
goto DONE;
}
}
i += nan_inf_str[i];
} while (nan_inf_str[i]);
}
#endif /* STRTOD_NAN_INF_STRINGS */
#ifdef _STRTOD_ENDPTR
pos = (Wchar *) str;
#endif
goto DONE;
}
#endif /* _STRTOD_NEED_NUM_DIGITS */
#ifdef _STRTOD_RESTRICT_DIGITS
if (num_digits > DECIMAL_DIG) { /* Adjust exponent for skipped digits. */
exponent_power += num_digits - DECIMAL_DIG;
}
#endif
if (pos0) {
exponent_power += pos0 - pos; /* Adjust exponent for decimal point. */
}
#ifdef _STRTOD_HEXADECIMAL_FLOATS
if (poshex) {
exponent_power *= 4; /* Above is 2**4, but below is 2. */
p_base = 2;
}
#endif /* _STRTOD_HEXADECIMAL_FLOATS */
if (negative) { /* Correct for sign. */
number = -number;
}
/* process an exponent string */
if (((*pos)|0x20) == EXPCHAR) {
#ifdef _STRTOD_ENDPTR
pos1 = pos;
#endif
negative = 1;
switch(*++pos) { /* Handle optional sign. */
case '-': negative = -1; /* Fall through to increment pos. */
case '+': ++pos;
}
pos0 = pos;
exponent_temp = 0;
while (isdigit(*pos)) { /* Process string of digits. */
#ifdef _STRTOD_RESTRICT_EXP
if (exponent_temp < MAX_ALLOWED_EXP) { /* Avoid overflow. */
exponent_temp = exponent_temp * 10 + (*pos - '0');
}
#else
exponent_temp = exponent_temp * 10 + (*pos - '0');
#endif
++pos;
}
#ifdef _STRTOD_ENDPTR
if (pos == pos0) { /* No digits? */
pos = pos1; /* Back up to {e|E}/{p|P}. */
} /* else */
#endif
exponent_power += negative * exponent_temp;
}
#ifdef _STRTOD_ZERO_CHECK
if (number == 0.) {
goto DONE;
}
#endif
/* scale the result */
#ifdef _STRTOD_LOG_SCALING
exponent_temp = exponent_power;
if (exponent_temp < 0) {
exponent_temp = -exponent_temp;
}
while (exponent_temp) {
if (exponent_temp & 1) {
if (exponent_power < 0) {
/* Warning... caluclating a factor for the exponent and
* then dividing could easily be faster. But doing so
* might cause problems when dealing with denormals. */
number /= p_base;
} else {
number *= p_base;
}
}
exponent_temp >>= 1;
p_base *= p_base;
}
#else /* _STRTOD_LOG_SCALING */
while (exponent_power) {
if (exponent_power < 0) {
number /= p_base;
exponent_power++;
} else {
number *= p_base;
exponent_power--;
}
}
#endif /* _STRTOD_LOG_SCALING */
#ifdef _STRTOD_ERRNO
if (__FPMAX_ZERO_OR_INF_CHECK(number)) {
__set_errno(ERANGE);
}
#endif
DONE:
#ifdef _STRTOD_ENDPTR
if (endptr) {
*endptr = pos;
}
#endif
return number;
}
#endif /* defined(__UCLIBC_HAS_XLOCALE__) && !defined(__UCLIBC_DO_XLOCALE) */
#endif
/**********************************************************************/
#ifdef L___fp_range_check
#if defined(NEED_STRTOF_WRAPPER) || defined(NEED_STRTOD_WRAPPER)
void attribute_hidden __fp_range_check(__fpmax_t y, __fpmax_t x)
{
if (__FPMAX_ZERO_OR_INF_CHECK(y) /* y is 0 or +/- infinity */
&& (y != 0) /* y is not 0 (could have x>0, y==0 if underflow) */
&& !__FPMAX_ZERO_OR_INF_CHECK(x) /* x is not 0 or +/- infinity */
) {
__set_errno(ERANGE); /* Then x is not in y's range. */
}
}
#endif
#endif
/**********************************************************************/
#if defined(L_strtof) || defined(L_strtof_l) || defined(L_wcstof) || defined(L_wcstof_l)
#if defined(NEED_STRTOF_WRAPPER)
#if defined(L_wcstof) || defined(L_wcstof_l)
#define strtof wcstof
#define strtof_l wcstof_l
#define __strtofpmax __wcstofpmax
#define __strtofpmax_l __wcstofpmax_l
#define Wchar wchar_t
#else
#define Wchar char
#endif
libc_hidden_proto(__XL_NPP(strtof))
float __XL_NPP(strtof)(const Wchar *str, Wchar **endptr __LOCALE_PARAM )
{
#if FPMAX_TYPE == 1
return __XL_NPP(__strtofpmax)(str, endptr, 0 __LOCALE_ARG );
#else
__fpmax_t x;
float y;
x = __XL_NPP(__strtofpmax)(str, endptr, 0 __LOCALE_ARG );
y = (float) x;
__fp_range_check(y, x);
return y;
#endif
}
libc_hidden_def(__XL_NPP(strtof))
#endif
#endif
/**********************************************************************/
#if defined(L_strtod) || defined(L_strtod_l) || defined(L_wcstod) || defined(L_wcstod_l)
#if defined(NEED_STRTOD_WRAPPER)
#if defined(L_wcstod) || defined(L_wcstod_l)
#define strtod wcstod
#define strtod_l wcstod_l
#define __strtofpmax __wcstofpmax
#define __strtofpmax_l __wcstofpmax_l
#define Wchar wchar_t
#else
#define Wchar char
#endif
double __XL_NPP(strtod)(const Wchar *__restrict str,
Wchar **__restrict endptr __LOCALE_PARAM )
{
#if FPMAX_TYPE == 2
return __XL_NPP(__strtofpmax)(str, endptr, 0 __LOCALE_ARG );
#else
__fpmax_t x;
double y;
x = __XL_NPP(__strtofpmax)(str, endptr, 0 __LOCALE_ARG );
y = (double) x;
__fp_range_check(y, x);
return y;
#endif
}
#ifdef L_strtod
libc_hidden_def(strtod)
#endif
#endif
#endif
/**********************************************************************/
#if defined(L_strtold) || defined(L_strtold_l) || defined(L_wcstold) || defined(L_wcstold_l)
#if defined(NEED_STRTOLD_WRAPPER)
#if defined(L_wcstold) || defined(L_wcstold_l)
#define strtold wcstold
#define strtold_l wcstold_l
#define __strtofpmax __wcstofpmax
#define __strtofpmax_l __wcstofpmax_l
#define Wchar wchar_t
#else
#define Wchar char
#endif
long double __XL_NPP(strtold) (const Wchar *str, Wchar **endptr __LOCALE_PARAM )
{
#if FPMAX_TYPE == 3
return __XL_NPP(__strtofpmax)(str, endptr, 0 __LOCALE_ARG );
#else
__fpmax_t x;
long double y;
x = __XL_NPP(__strtofpmax)(str, endptr, 0 __LOCALE_ARG );
y = (long double) x;
__fp_range_check(y, x);
return y;
#endif
}
#endif
#endif
/**********************************************************************/