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I just notice that Clang compiles this statement (without any optimization, of course):

--x; /* int x; */


addl    $4294967295, %ecx       ## imm = 0xFFFFFFFF

Why? Is there any advantage of using addl instead of the "obvious" subl? Or is it just an implementation fact?

What tricks me is that this one:

x -= 1;


subl    $1, %eax

Clang info:

Apple clang version 3.0 (tags/Apple/clang-211.12) (based on LLVM 3.0svn)
Target: x86_64-apple-darwin11.2.0
Thread model: posix
share|improve this question
It's probably just the implementation, and could change with optimization level. What's more interesting is that it doesn't use dec, which may be an optimization because dec doesn't change as many status flags so it is dependent on previous instructions. – ughoavgfhw Apr 12 '12 at 15:44
gcc produces the same code for both x-- and x=-1 using subl. Interestingly, it uses xorl if I enable -O3. – l3x Apr 12 '12 at 15:49
There is no advantage, and there is no disadvantage. Both are 3 bytes and have the same performance characteristics. – harold Apr 12 '12 at 16:05
@ughoavgfhw: For modern processors dec has either the same speed or is slower then add/sub, so using it as an optimization doesn't really make sense (for speed at least, it might offer a benefit when it comes to executable size) – Grizzly Apr 12 '12 at 20:47
@ughoavgfhw On many proccessors dec and inc are actually slower, because they do change only a part of the status flag register and so introduce partial register dependencies when used together with other arithmetic operations. – hirschhornsalz Apr 13 '12 at 7:12
up vote 4 down vote accepted

This behavior has to do with the way clang handles pre-decrement as opposed to binary operators like sub-and-assign. Note that I will just try to explain, at the clang level, why you see this behavior. I don't know why it was chosen to implement it this way but I guess it was just for ease of implementation.

All functions I reference here can be found in class ScalarExprEmitter inside lib/CodeGen/CGExprScalar.cpp.

Pre/post decrement/increment are all handled the same way by the function EmitScalarPrePostIncDec: an LLVM add instruction is emitted with either 1 or -1 as second argument, depending on the expression being an increment or a decrement respectively.



will end up, in the LLVM IR, as something like

add i32 %x, -1

which, quite naturally, translates to x86 as something like

add $0xffffffff, %ecx

Binary operators, on the other hand, are all handled differently. In your case,

x -= 1

will be handled by EmitCompoundAssign which in turn calls EmitSub. Something like the following LLVM IR will be emitted:

sub i32 %x, 1
share|improve this answer
Thanks for the explanation and source references. That's what I was looking for, it makes sense and proves that it's in implementation consequence. – sidyll Apr 25 '12 at 10:36

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