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What is the most efficient way to change the rounding mode* of IEEE 754 floating point numbers? A portable C function would be nice, but a solution that uses x86 assembly is ok too.

*I am referring to the standard rounding modes of towards nearest, towards zero, and towards positive/negative infinity

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please describe your desired rounding mode change in more detail. Some of them do not involve FPU flags, some do. –  rwong Jul 29 '11 at 1:35
    
AFAICT, they all involve x87 FPU flags, the RM bits. Toward nearest = 00 (binary), toward -infinity is 01, toward +infinity is 10 and toward zero = 11. –  Rudy Velthuis Jul 29 '11 at 1:56

2 Answers 2

up vote 27 down vote accepted

This is the standard C solution:

#include <fenv.h>
#pragma STDC FENV_ACCESS ON

// store the original rounding mode
const int originalRounding = fegetround( );
// establish the desired rounding mode
fesetround(FE_TOWARDZERO);
// do whatever you need to do ...

// ... and restore the original mode afterwards
fesetround(originalRounding);

On backwards platforms lacking C99 support, you may need to resort to assembly. In this case, you may want to set the rounding for both the x87 unit (via the fldcw instruction) and SSE (via the ldmxcsr instruction).

Edit You don't need to resort to assembly for MSVC. You can use the (totally non-standard) _control_fp( ) instead:

unsigned int originalRounding = _control_fp(0, 0);
_control_fp(_RC_CHOP, _MCW_RC);
// do something ...
_control_fp(originalRounding, _MCW_RC);

You can read more about _control_fp( ) on MSDN.

And, just for completeness, a decoder ring for the macro names for rounding modes:

rounding mode    C name         MSVC name
-----------------------------------------
to nearest       FE_TONEAREST   _RC_NEAR
toward zero      FE_TOWARDZERO  _RC_CHOP
to +infinity     FE_UPWARD      _RC_UP
to -infinity     FE_DOWNWARD    _RC_DOWN
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2  
Technically this requires #pragma STDC FENV_ACCESS ON to work, though most compilers make it so it "usually" works without that, and ignore the #pragma... –  R.. Jul 29 '11 at 1:35
    
"Backwards platforms" :-) On these, you could just write a drop-in fesetenv function in asm... –  R.. Jul 29 '11 at 1:38
    
@R..: yeah, I added the pragma as you were writing your comment. –  Stephen Canon Jul 29 '11 at 1:39
1  
for completeness: "nearest" on x86 is "nearest even", in case anyone is wondering. –  Pod May 29 at 14:27
1  
@Pod: If we're is going to be pedantic, let's get it right. "Round to nearest, ties to even" is the default rounding mode on all IEEE-754 conforming systems. –  Stephen Canon May 29 at 15:52

this might help.

Edit: I would say you would need your own function. You can use assembly inside C.

But if you register size is 64bits, round it to 32bit would make your calculations faster. It will actually make it slower. Remember 64bit calculations is easy for a 64 microprocessor rather than 2-32bit. I don't know what exactly you want to achieve. I know performance is on your criteria.

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1  
that looks like it rounds things to integers. I was looking for a way to change the way rounding to the nearest machine representable number is done. –  da code monkey Jul 29 '11 at 1:34
    
I think you're answering a slightly different question than OP's. Although you can use these (along with scaling functions) to perform arbitrary rounding of results, it's a lot painful and slower than setting the rounding mode. –  R.. Jul 29 '11 at 1:37
    
I am thinking you have to write your own function for that. You can use assembly inside c. That will make an efficient function –  hmd Jul 29 '11 at 1:49

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