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authorJoseph Myers <joseph@codesourcery.com>2014-04-02 13:10:19 +0000
committerJoseph Myers <joseph@codesourcery.com>2014-04-02 13:10:19 +0000
commit6f05bafebac30a389807979f8efbb709f84b486f (patch)
treeecd76f4b39be7484aa2e5bfb1d18e164d66a0674 /math/s_clog10.c
parentCorrect IBM long double nextafterl. (diff)
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Fix clog / clog10 sign of zero result in round-downward mode (bug 16789).
This patch fixes bug 16789, incorrect sign of (real part) zero result from clog and clog10 in round-downward mode, arising from that real part being computed as 0 - 0. To ensure that an underflow exception occurred, the code used an underflowing value (the next term in the series for log1p) in arithmetic computing the real part of the result, yielding the problematic 0 - 0 computation in some cases even when the mathematical result would be small but positive. The patch changes this code to use the math_force_eval approach to ensuring that an underflowing computation actually occurs. Tests of clog and clog10 are enabled in all rounding modes. Tested x86_64 and x86 and ulps updated accordingly. [BZ #16789] * math/s_clog.c (__clog): Use math_force_eval to ensure underflow instead of using underflowing value in computing result. * math/s_clog10.c (__clog10): Likewise. * math/s_clog10f.c (__clog10f): Likewise. * math/s_clog10l.c (__clog10l): Likewise. * math/s_clogf.c (__clogf): Likewise. * math/s_clogl.c (__clogl): Likewise. * math/libm-test.inc (clog_test): Use ALL_RM_TEST. (clog10_test): Likewise. * sysdeps/i386/fpu/libm-test-ulps: Update. * sysdeps/x86_64/fpu/libm-test-ulps: Likewise.
Diffstat (limited to 'math/s_clog10.c')
-rw-r--r--math/s_clog10.c9
1 files changed, 3 insertions, 6 deletions
diff --git a/math/s_clog10.c b/math/s_clog10.c
index e75787949f..aa0537c7c1 100644
--- a/math/s_clog10.c
+++ b/math/s_clog10.c
@@ -74,12 +74,9 @@ __clog10 (__complex__ double x)
double absy2 = absy * absy;
if (absy2 <= DBL_MIN * 2.0 * M_LN10)
{
-#if __FLT_EVAL_METHOD__ == 0
- __real__ result = (absy2 / 2.0 - absy2 * absy2 / 4.0) * M_LOG10E;
-#else
- volatile double force_underflow = absy2 * absy2 / 4.0;
- __real__ result = (absy2 / 2.0 - force_underflow) * M_LOG10E;
-#endif
+ double force_underflow = absy2 * absy2;
+ __real__ result = absy2 * (M_LOG10E / 2.0);
+ math_force_eval (force_underflow);
}
else
__real__ result = __log1p (absy2) * (M_LOG10E / 2.0);