X-Git-Url: http://erislabs.net/gitweb/?a=blobdiff_plain;f=tests%2Ftest-ceilf1.c;h=ea93ffdc469b54548c5a7dcae297c13a6c13b265;hb=1276a2c5f24c0c932426aca9c899fa524d2443f2;hp=ff6db5edc34d45d8309614754317f37bb5c4e57c;hpb=b2e2010c7c902235b5efb5bd3c6529f61b093aa4;p=gnulib.git diff --git a/tests/test-ceilf1.c b/tests/test-ceilf1.c index ff6db5edc..ea93ffdc4 100644 --- a/tests/test-ceilf1.c +++ b/tests/test-ceilf1.c @@ -1,5 +1,5 @@ /* Test of rounding towards positive infinity. - Copyright (C) 2007-2010 Free Software Foundation, Inc. + Copyright (C) 2007-2014 Free Software Foundation, Inc. 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 @@ -24,45 +24,56 @@ SIGNATURE_CHECK (ceilf, float, (float)); #include "isnanf-nolibm.h" +#include "minus-zero.h" +#include "infinity.h" #include "nan.h" #include "macros.h" -/* HP cc on HP-UX 10.20 has a bug with the constant expression -0.0f. - So we use -zero instead. */ -float zero = 0.0f; +/* If IEEE compliance was not requested, the ICC compiler inlines its + own ceilf assembly that turns -0.0f to 0.0f; but that is a correct + result when IEEE is not enforced. To avoid spurious failure, we + have to provide this dummy function in order to outsmart ICC's + inlining, and call our ceilf through a function pointer. */ +static float +dummy (float f) +{ + return 0; +} int -main () +main (int argc, char **argv _GL_UNUSED) { + float (*my_ceilf) (float) = argc ? ceilf : dummy; + /* Zero. */ - ASSERT (ceilf (0.0f) == 0.0f); - ASSERT (ceilf (-zero) == 0.0f); + ASSERT (my_ceilf (0.0f) == 0.0f); + ASSERT (my_ceilf (minus_zerof) == 0.0f); /* Positive numbers. */ - ASSERT (ceilf (0.3f) == 1.0f); - ASSERT (ceilf (0.7f) == 1.0f); - ASSERT (ceilf (1.0f) == 1.0f); - ASSERT (ceilf (1.001f) == 2.0f); - ASSERT (ceilf (1.5f) == 2.0f); - ASSERT (ceilf (1.999f) == 2.0f); - ASSERT (ceilf (2.0f) == 2.0f); - ASSERT (ceilf (65535.99f) == 65536.0f); - ASSERT (ceilf (65536.0f) == 65536.0f); - ASSERT (ceilf (2.341e31f) == 2.341e31f); + ASSERT (my_ceilf (0.3f) == 1.0f); + ASSERT (my_ceilf (0.7f) == 1.0f); + ASSERT (my_ceilf (1.0f) == 1.0f); + ASSERT (my_ceilf (1.001f) == 2.0f); + ASSERT (my_ceilf (1.5f) == 2.0f); + ASSERT (my_ceilf (1.999f) == 2.0f); + ASSERT (my_ceilf (2.0f) == 2.0f); + ASSERT (my_ceilf (65535.99f) == 65536.0f); + ASSERT (my_ceilf (65536.0f) == 65536.0f); + ASSERT (my_ceilf (2.341e31f) == 2.341e31f); /* Negative numbers. */ - ASSERT (ceilf (-0.3f) == 0.0f); - ASSERT (ceilf (-0.7f) == 0.0f); - ASSERT (ceilf (-1.0f) == -1.0f); - ASSERT (ceilf (-1.5f) == -1.0f); - ASSERT (ceilf (-1.999f) == -1.0f); - ASSERT (ceilf (-2.0f) == -2.0f); - ASSERT (ceilf (-65535.99f) == -65535.0f); - ASSERT (ceilf (-65536.0f) == -65536.0f); - ASSERT (ceilf (-2.341e31f) == -2.341e31f); + ASSERT (my_ceilf (-0.3f) == 0.0f); + ASSERT (my_ceilf (-0.7f) == 0.0f); + ASSERT (my_ceilf (-1.0f) == -1.0f); + ASSERT (my_ceilf (-1.5f) == -1.0f); + ASSERT (my_ceilf (-1.999f) == -1.0f); + ASSERT (my_ceilf (-2.0f) == -2.0f); + ASSERT (my_ceilf (-65535.99f) == -65535.0f); + ASSERT (my_ceilf (-65536.0f) == -65536.0f); + ASSERT (my_ceilf (-2.341e31f) == -2.341e31f); /* Infinite numbers. */ - ASSERT (ceilf (1.0f / 0.0f) == 1.0f / 0.0f); - ASSERT (ceilf (-1.0f / 0.0f) == -1.0f / 0.0f); + ASSERT (my_ceilf (Infinityf ()) == Infinityf ()); + ASSERT (my_ceilf (- Infinityf ()) == - Infinityf ()); /* NaNs. */ - ASSERT (isnanf (ceilf (NaNf ()))); + ASSERT (isnanf (my_ceilf (NaNf ()))); return 0; }