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Good morning, afternoon or night,

Having been looking at assembly code of a debug build with "Suppress JIT optimization (...)" option turned off, I have noticed the following strange behaviour (bitCount is ulong):

          int BitQuotient = (int)(bitCount / 32);

00000110  push        dword ptr [ebp+0Ch] 
00000113  push        dword ptr [ebp+8] 
00000116  push        0 
00000118  push        20h 
0000011a  call        738EF4D5 
0000011f  mov         dword ptr [ebp-44h],eax 

as opposed to

          int BitQuotient = (int)(bitCount >> 5);

00000110  mov         eax,dword ptr [ebp+8] 
00000113  mov         edx,dword ptr [ebp+0Ch] 
00000116  shrd        eax,edx,5 
0000011a  shr         edx,5 
0000011d  mov         dword ptr [ebp-44h],eax 

Why is there such a difference in assembly? Shouldn't the compiler detect that dividing by 32 is the same as shifting right by 5 and replace the code? Also, what is that call instruction doing on the first piece of code? I suspect it has to do with the operator / being applied to non-native ulong, but that also means the compiler doesn't inline this kind of operators?

Edit: Have a look at int BitRemainder = (int)(bitCount % 32) as opposed to int BitRemainder = (int)(bitCount & 31):

00000120  mov         eax,dword ptr [ebp+8] 
00000123  mov         edx,dword ptr [ebp+0Ch] 
00000126  mov         ecx,20h 
0000012b  cmp         edx,ecx 
0000012d  jb          00000139 
0000012f  mov         ebx,eax 
00000131  mov         eax,edx 
00000133  xor         edx,edx 
00000135  div         eax,ecx 
00000137  mov         eax,ebx 
00000139  div         eax,ecx 
0000013b  mov         eax,edx 
0000013d  xor         edx,edx 
0000013f  mov         dword ptr [ebp-48h],eax 


00000120  mov         eax,dword ptr [ebp+8] 
00000123  and         eax,1Fh 
00000126  mov         dword ptr [ebp-48h],eax 

Thank you very much.

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What is the data type of bitCount? –  jswolf19 Mar 22 '11 at 9:35
Sorry... bitCount is ulong. –  Miguel Mar 22 '11 at 9:36
Ah, I was about to start talking about -ve numbers; good job you added that! –  Marc Gravell Mar 22 '11 at 9:39
Have you actually profiled to see if there is any appreciable speed difference? it could well be that with modern CPUs they are effectively the same... –  Marc Gravell Mar 22 '11 at 9:41
Well, using a Stopwatch and 32 * 200000000 iterations the average difference was not noticeable... But anyway, it is strange. –  Miguel Mar 22 '11 at 9:42
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1 Answer 1

The code in your first snippet performs a 64-bit divide. The x86 jitter doesn't generate machine code for that inline, there would be too much of it. It relies on a helper function named JIT_ULDiv. This is a common strategy for the jitter, or for a C compiler for that matter. You can see the kind of helper functions the jitter can use in the SSCLI20 source code, clr/src/vm/jithelpers.cpp source code file. The helper functions for long and ulong arithmetic are at the top of the file.

The second snippet does a 32-bit divide, requiring few enough machine code instructions to be generated in-line. Converting the divide to a shift is a simple optimization.

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