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This is (AFAIK) a specific question within this general topic.

Here's the situation:

I have an embedded system (a video game console) based on a 32-bit RISC microcontroller (a variant of NEC's V810). I want to write a fixed-point math library. I read this article, but the accompanying source code is written in 386 assembly, so it's neither directly usable nor easily modifiable.

The V810 has built-in integer multiply/divide, but I want to use the 18.14 format mentioned in the above article. This requires dividing a 64-bit int by a 32-bit int, and the V810 only does (signed or unsigned) 32-bit/32-bit division (which produces a 32-bit quotient and a 32-bit remainder).

So, my question is: how do I simulate a 64-bit/32-bit divide with a 32-bit/32-bit one (to allow for the pre-shifting of the dividend)? Or, to look at the problem from another way, what's the best way to divide an 18.14 fixed-point by another using standard 32-bit arithmetic/logic operations? ("best" meaning fastest, smallest, or both).

Algebra, (V810) assembly, and pseudo-code are all fine. I will be calling the code from C.

Thanks in advance!

EDIT: Somehow I missed this question... However, it will still need some modification to be super-efficient (it has to be faster than the floating-point div provided by the v810, though it may already be...), so feel free to do my work for me in exchange for reputation points ;) (and credit in my library documentation, of course).

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up vote 3 down vote accepted

GCC has such a routine for many processors, named _divdi3 (usually implemented using a common divmod call). Here's one. Some Unix kernels have an implementation too, e.g. FreeBSD.

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This seems to be exactly what I needed. Thanks for linking to the relevant code! BTW, I'm using GCC, but I'm using newlib, which doesn't include this stuff. –  RunnerPack Aug 31 '10 at 8:39
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