#include #include #include static int valid_exp(const unsigned char *s) { return isdigit(*s) || ((s[0]=='+'||s[0]=='-') && isdigit(s[1])); } long double strtold(const char *s1, char **p) { const unsigned char *s = (void *)s1; long double x = 0; long double frac; int sign = 0; int nonzero = 0; int radix = '.'; long e; int saved_errno = errno; if (!p) p = (char **)&s1; /* Initial whitespace */ for (; isspace(*s); s++); /* Optional sign */ if (*s == '-') sign = *s++; else if (*s == '+') s++; /* Handle infinities and NaNs. */ if ((s[0]|32)=='i' && (s[1]|32)=='n' && (s[2]|32)=='f') { *p = (char *)s + 3; return sign ? -1.0/0.0 : 1.0/0.0; } else if ((s[0]|32)=='n' && (s[1]|32)=='a' && (s[2]|32)=='n') { *p = (char *)s + 3; return 0.0/0.0; } /* Possible hex float */ if (s[0]=='0' && (s[1]|32)=='x') { /* Mantissa must be non-degenerate */ if (!isxdigit(s[2]) && (s[2]!=radix || !isxdigit(s[3]))) { /* Decimal float 0, 'x' extraneous */ *p = (char *)++s; return 0; } /* We have a real hex float */ s += 2; for (; isxdigit(*s); s++) { x = 16*x + (isdigit(*s)?*s-'0':(*s|32)-'a'+10); if (*s!='0') nonzero=1; } if (*s == radix) { frac = 1.0/16.0; for (s++; isxdigit(*s); s++) { x += frac * (isdigit(*s)?*s-'0':(*s|32)-'a'+10); frac *= 1.0/16.0; if (*s!='0') nonzero=1; } } if ((*s|32) == 'p' && valid_exp(s+1)) { e = strtol((void *)(s+1), (void *)&s, 10); for (; e>0; e--) x *= 2.0; for (; e<0; e++) x *= 0.5; } goto finish; } /* Mantissa must be non-degenerate */ if (!isdigit(s[0]) && (s[0]!=radix || !isdigit(s[1]))) { *p = (char *)s1; return 0; } for (; isdigit(*s); s++) { x = 10*x + *s-'0'; if (*s!='0') nonzero=1; } if (*s == radix) { frac = 10.0; for (s++; isdigit(*s); s++) { x += (*s-'0') / frac; frac *= 10.0; if (*s!='0') nonzero=1; } } if ((*s|32)=='e' && valid_exp(s+1)) { e = strtol((void *)++s, (void *)&s, 10); for (; e>0; e--) x *= 10.0; for (; e<0; e++) x /= 10.0; } finish: errno = ((nonzero && !x) || !(1.0/x)) ? ERANGE : saved_errno; *p = (char*)s; return sign ? -x : x; }