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author | Alan Modra <amodra@gmail.com> | 2013-08-17 18:30:23 +0930 |
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committer | Alan Modra <amodra@gmail.com> | 2013-10-04 10:35:10 +0930 |
commit | da13146da10360436941e843834c90a9aef5fd7a (patch) | |
tree | b31adbca1c370169d672974f30050ef91444017c /sunrpc/xcrypt.c | |
parent | 603e84104cdc709c8e7dcbac54b9a585bf8dff78 (diff) | |
download | glibc-da13146da10360436941e843834c90a9aef5fd7a.tar.gz glibc-da13146da10360436941e843834c90a9aef5fd7a.tar.xz glibc-da13146da10360436941e843834c90a9aef5fd7a.zip |
PowerPC floating point little-endian [10 of 15]
http://sourceware.org/ml/libc-alpha/2013-07/msg00201.html These two functions oddly test x+1>0 when a double x is >= 0.0, and similarly when x is negative. I don't see the point of that since the test should always be true. I also don't see any need to convert x+1 to integer rather than simply using xr+1. Note that the standard allows these functions to return any value when the input is outside the range of long long, but it's not too hard to prevent xr+1 overflowing so that's what I've done. (With rounding mode FE_UPWARD, x+1 can be a lot more than what you might naively expect, but perhaps that situation was covered by the x - xrf < 1.0 test.) * sysdeps/powerpc/fpu/s_llround.c (__llround): Rewrite. * sysdeps/powerpc/fpu/s_llroundf.c (__llroundf): Rewrite.
Diffstat (limited to 'sunrpc/xcrypt.c')
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