/* * Copyright (C) 2008-2012 Free Software Foundation, Inc. * Written by Eric Blake * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include #include "signature.h" SIGNATURE_CHECK (strtod, double, (char const *, char **)); #include #include #include #include #include "isnand-nolibm.h" #include "minus-zero.h" #include "macros.h" /* Avoid requiring -lm just for fabs. */ #define FABS(d) ((d) < 0.0 ? -(d) : (d)) int main (void) { int status = 0; /* Subject sequence empty or invalid. */ { const char input[] = ""; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " "; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " +"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " ."; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " .e0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); /* IRIX 6.5, OSF/1 5.1 */ ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " +.e-0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); /* IRIX 6.5, OSF/1 5.1 */ ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " in"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); } { const char input[] = " na"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); } /* Simple floating point values. */ { const char input[] = "1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = "1."; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = ".5"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); /* FIXME - gnulib's version is rather inaccurate. It would be nice to guarantee an exact result, but for now, we settle for a 1-ulp error. */ ASSERT (FABS (result - 0.5) < DBL_EPSILON); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = " 1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = "+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = "-1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == -1.0); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = "1e0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 3); ASSERT (errno == 0); } { const char input[] = "1e+0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 4); ASSERT (errno == 0); } { const char input[] = "1e-0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 4); ASSERT (errno == 0); } { const char input[] = "1e1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 10.0); ASSERT (ptr == input + 3); ASSERT (errno == 0); } { const char input[] = "5e-1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); /* FIXME - gnulib's version is rather inaccurate. It would be nice to guarantee an exact result, but for now, we settle for a 1-ulp error. */ ASSERT (FABS (result - 0.5) < DBL_EPSILON); ASSERT (ptr == input + 4); ASSERT (errno == 0); } /* Zero. */ { const char input[] = "0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = ".0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = "0e0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 3); ASSERT (errno == 0); } { const char input[] = "0e+9999999"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 10); ASSERT (errno == 0); } { const char input[] = "0e-9999999"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 10); ASSERT (errno == 0); } { const char input[] = "-0"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!!signbit (result) == !!signbit (minus_zerod)); /* IRIX 6.5, OSF/1 4.0 */ ASSERT (ptr == input + 2); ASSERT (errno == 0); } /* Suffixes. */ { const char input[] = "1f"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = "1.f"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = "1e"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = "1e+"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = "1e-"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = "1E 2"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* HP-UX 11.11, IRIX 6.5, OSF/1 4.0 */ ASSERT (ptr == input + 1); /* HP-UX 11.11, IRIX 6.5 */ ASSERT (errno == 0); } { const char input[] = "0x"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "00x1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 2); ASSERT (errno == 0); } { const char input[] = "-0x"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!!signbit (result) == !!signbit (minus_zerod)); /* Mac OS X 10.3, FreeBSD 6.2, IRIX 6.5, OSF/1 4.0 */ ASSERT (ptr == input + 2); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0xg"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0xp"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0XP"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0x."; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0xp+"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0xp+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "0x.p+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input + 1); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, AIX 7.1 */ ASSERT (errno == 0); } { const char input[] = "1p+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } { const char input[] = "1P+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + 1); ASSERT (errno == 0); } /* Overflow/underflow. */ { const char input[] = "1E1000000"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == HUGE_VAL); ASSERT (ptr == input + 9); /* OSF/1 5.1 */ ASSERT (errno == ERANGE); } { const char input[] = "-1E1000000"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == -HUGE_VAL); ASSERT (ptr == input + 10); ASSERT (errno == ERANGE); } { const char input[] = "1E-100000"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (0.0 <= result && result <= DBL_MIN); ASSERT (!signbit (result)); ASSERT (ptr == input + 9); ASSERT (errno == ERANGE); } { const char input[] = "-1E-100000"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (-DBL_MIN <= result && result <= 0.0); #if 0 /* FIXME - this is glibc bug 5995; POSIX allows returning positive 0 on negative underflow, even though quality of implementation demands preserving the sign. Disable this test until fixed glibc is more prevalent. */ ASSERT (!!signbit (result) == !!signbit (minus_zerod)); /* glibc-2.3.6, mingw */ #endif ASSERT (ptr == input + 10); ASSERT (errno == ERANGE); } { const char input[] = "1E 1000000"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* HP-UX 11.11, IRIX 6.5, OSF/1 4.0 */ ASSERT (ptr == input + 1); /* HP-UX 11.11, IRIX 6.5 */ ASSERT (errno == 0); } { const char input[] = "0x1P 1000000"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } /* Infinity. */ { const char input[] = "iNf"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == HUGE_VAL); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + 3); /* OpenBSD 4.0, HP-UX 11.00, IRIX 6.5, OSF/1 5.1, Solaris 9, mingw */ ASSERT (errno == 0); /* HP-UX 11.11, OSF/1 4.0 */ } { const char input[] = "-InF"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == -HUGE_VAL); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + 4); /* OpenBSD 4.0, HP-UX 11.00, IRIX 6.5, OSF/1 4.0, Solaris 9, mingw */ ASSERT (errno == 0); /* HP-UX 11.11, OSF/1 4.0 */ } { const char input[] = "infinite"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == HUGE_VAL); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + 3); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (errno == 0); /* OSF/1 4.0 */ } { const char input[] = "infinitY"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == HUGE_VAL); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + 8); /* OpenBSD 4.0, HP-UX 11.00, IRIX 6.5, OSF/1 5.1, Solaris 9, mingw */ ASSERT (errno == 0); /* HP-UX 11.11, OSF/1 4.0 */ } { const char input[] = "infinitY."; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == HUGE_VAL); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + 8); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (errno == 0); /* OSF/1 4.0 */ } /* NaN. Some processors set the sign bit of the default NaN, so all we check is that using a sign changes the result. */ { const char input[] = "-nan"; char *ptr1; char *ptr2; double result1; double result2; errno = 0; result1 = strtod (input, &ptr1); result2 = strtod (input + 1, &ptr2); #if 1 /* All known CPUs support NaNs. */ ASSERT (isnand (result1)); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (isnand (result2)); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ # if 0 /* Sign bits of NaN is a portability sticking point, not worth worrying about. */ ASSERT (!!signbit (result1) != !!signbit (result2)); /* glibc-2.3.6, IRIX 6.5, OSF/1 5.1, mingw */ # endif ASSERT (ptr1 == input + 4); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, Solaris 2.5.1, mingw */ ASSERT (ptr2 == input + 4); /* OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, Solaris 2.5.1, mingw */ ASSERT (errno == 0); /* HP-UX 11.11 */ #else ASSERT (result1 == 0.0); ASSERT (result2 == 0.0); ASSERT (!signbit (result1)); ASSERT (!signbit (result2)); ASSERT (ptr1 == input); ASSERT (ptr2 == input + 1); ASSERT (errno == 0 || errno == EINVAL); #endif } { const char input[] = "+nan("; char *ptr1; char *ptr2; double result1; double result2; errno = 0; result1 = strtod (input, &ptr1); result2 = strtod (input + 1, &ptr2); #if 1 /* All known CPUs support NaNs. */ ASSERT (isnand (result1)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (isnand (result2)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (!!signbit (result1) == !!signbit (result2)); ASSERT (ptr1 == input + 4); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 2.5.1, mingw */ ASSERT (ptr2 == input + 4); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 2.5.1, mingw */ ASSERT (errno == 0); #else ASSERT (result1 == 0.0); ASSERT (result2 == 0.0); ASSERT (!signbit (result1)); ASSERT (!signbit (result2)); ASSERT (ptr1 == input); ASSERT (ptr2 == input + 1); ASSERT (errno == 0 || errno == EINVAL); #endif } { const char input[] = "-nan()"; char *ptr1; char *ptr2; double result1; double result2; errno = 0; result1 = strtod (input, &ptr1); result2 = strtod (input + 1, &ptr2); #if 1 /* All known CPUs support NaNs. */ ASSERT (isnand (result1)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (isnand (result2)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ # if 0 /* Sign bits of NaN is a portability sticking point, not worth worrying about. */ ASSERT (!!signbit (result1) != !!signbit (result2)); /* glibc-2.3.6, IRIX 6.5, OSF/1 5.1, mingw */ # endif ASSERT (ptr1 == input + 6); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr2 == input + 6); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (errno == 0); #else ASSERT (result1 == 0.0); ASSERT (result2 == 0.0); ASSERT (!signbit (result1)); ASSERT (!signbit (result2)); ASSERT (ptr1 == input); ASSERT (ptr2 == input + 1); ASSERT (errno == 0 || errno == EINVAL); #endif } { const char input[] = " nan()."; char *ptr; double result; errno = 0; result = strtod (input, &ptr); #if 1 /* All known CPUs support NaNs. */ ASSERT (isnand (result)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + 6); /* glibc-2.3.6, Mac OS X 10.3, FreeBSD 6.2, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (errno == 0); #else ASSERT (result == 0.0); ASSERT (!signbit (result)); ASSERT (ptr == input); ASSERT (errno == 0 || errno == EINVAL); #endif } { /* The behavior of nan(0) is implementation-defined, but all implementations we know of which handle optional n-char-sequences handle nan(0) the same as nan(). */ const char input[] = "-nan(0)."; char *ptr1; char *ptr2; double result1; double result2; errno = 0; result1 = strtod (input, &ptr1); result2 = strtod (input + 1, &ptr2); #if 1 /* All known CPUs support NaNs. */ ASSERT (isnand (result1)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (isnand (result2)); /* OpenBSD 4.0, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ # if 0 /* Sign bits of NaN is a portability sticking point, not worth worrying about. */ ASSERT (!!signbit (result1) != !!signbit (result2)); /* glibc-2.3.6, IRIX 6.5, OSF/1 5.1, mingw */ # endif ASSERT (ptr1 == input + 7); /* glibc-2.3.6, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr2 == input + 7); /* glibc-2.3.6, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (errno == 0); #else ASSERT (result1 == 0.0); ASSERT (result2 == 0.0); ASSERT (!signbit (result1)); ASSERT (!signbit (result2)); ASSERT (ptr1 == input); ASSERT (ptr2 == input + 1); ASSERT (errno == 0 || errno == EINVAL); #endif } /* Hex. */ { const char input[] = "0xa"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 10.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0XA"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 10.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0x1p"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0x1p+"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0x1P+"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0x1p+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 2.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 6); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0X1P+1"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 2.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 6); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0x1p+1a"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 2.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 6); /* NetBSD 3.0, OpenBSD 4.0, AIX 5.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } { const char input[] = "0x1p 2"; char *ptr; double result; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* NetBSD 3.0, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (ptr == input + 3); /* NetBSD 3.0, OpenBSD 4.0, AIX 7.1, HP-UX 11.11, IRIX 6.5, OSF/1 5.1, Solaris 10, mingw */ ASSERT (errno == 0); } /* Large buffers. */ { size_t m = 1000000; char *input = malloc (m + 1); if (input) { char *ptr; double result; memset (input, '\t', m - 1); input[m - 1] = '1'; input[m] = '\0'; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + m); ASSERT (errno == 0); } free (input); } { size_t m = 1000000; char *input = malloc (m + 1); if (input) { char *ptr; double result; memset (input, '0', m - 1); input[m - 1] = '1'; input[m] = '\0'; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); ASSERT (ptr == input + m); ASSERT (errno == 0); } free (input); } #if 0 /* Newlib has an artificial limit of 20000 for the exponent. TODO - gnulib should fix this. */ { size_t m = 1000000; char *input = malloc (m + 1); if (input) { char *ptr; double result; input[0] = '.'; memset (input + 1, '0', m - 10); input[m - 9] = '1'; input[m - 8] = 'e'; input[m - 7] = '+'; input[m - 6] = '9'; input[m - 5] = '9'; input[m - 4] = '9'; input[m - 3] = '9'; input[m - 2] = '9'; input[m - 1] = '1'; input[m] = '\0'; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* Mac OS X 10.3, FreeBSD 6.2, NetBSD 3.0, OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + m); /* OSF/1 5.1 */ ASSERT (errno == 0); /* Mac OS X 10.3, FreeBSD 6.2, NetBSD 3.0, OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ } free (input); } { size_t m = 1000000; char *input = malloc (m + 1); if (input) { char *ptr; double result; input[0] = '1'; memset (input + 1, '0', m - 9); input[m - 8] = 'e'; input[m - 7] = '-'; input[m - 6] = '9'; input[m - 5] = '9'; input[m - 4] = '9'; input[m - 3] = '9'; input[m - 2] = '9'; input[m - 1] = '1'; input[m] = '\0'; errno = 0; result = strtod (input, &ptr); ASSERT (result == 1.0); /* Mac OS X 10.3, FreeBSD 6.2, NetBSD 3.0, OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ ASSERT (ptr == input + m); ASSERT (errno == 0); /* Mac OS X 10.3, FreeBSD 6.2, NetBSD 3.0, OpenBSD 4.0, IRIX 6.5, OSF/1 5.1, mingw */ } free (input); } #endif { size_t m = 1000000; char *input = malloc (m + 1); if (input) { char *ptr; double result; input[0] = '-'; input[1] = '0'; input[2] = 'e'; input[3] = '1'; memset (input + 4, '0', m - 3); input[m] = '\0'; errno = 0; result = strtod (input, &ptr); ASSERT (result == 0.0); ASSERT (!!signbit (result) == !!signbit (minus_zerod)); /* IRIX 6.5, OSF/1 4.0 */ ASSERT (ptr == input + m); ASSERT (errno == 0); } free (input); } /* Rounding. */ /* TODO - is it worth some tests of rounding for typical IEEE corner cases, such as .5 ULP rounding up to the smallest denormal and not causing underflow, or DBL_MIN - .5 ULP not causing an infinite loop? */ return status; }