# Difference between n = 0 and n = n - n

When I read this question I remembered someone once telling me (many years ago) that from an assembler-point-of-view, these two operations are very different:

``````n = 0;

n = n - n;
``````

Is this true, and if it is, why is it so?

EDIT: As pointed out by some replies, I guess this would be fairly easy for a compiler to optimize into the same thing. But what I find interesting is why they would differ if the compiler had a completely general approach.

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Because they are not the same? –  kotlinski May 15 '09 at 9:33
That's what the question is about. The person telling me this said that "under the hood" they would produce different machine code and that one was faster than the other. Unfortunately I don't recall the complete argument. –  sharkin May 15 '09 at 9:37

In the early days, memory and CPU cycles were scarce. That lead to a lot of so called "peep-hole optimizations". Let's look at the code:

``````move.l #0, d0

moveq.l #0, d0

sub.l a0,a0
``````

The first instruction would need two bytes for the op-code and then four bytes for the value (0). That meant four bytes wasted plus you'd need to access the memory twice (once for the opcode and once for the data). Sloooow.

moveq.l was better since it would merge the data into the op-code but it only allowed to write values between 0 and 7 into a register. And you were limited to data registers only, there was no quick way to clear an address register. You'd have to clear a data register and then load the data register into an address register (two op-codes. Bad.).

Which lead to the last operation which works on any register, need only two bytes, a single memory read. Translated into C, you'd get

``````n = n - n;
``````

which would work for most often used types of `n` (integer or pointer).

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Are you saying that the n = n-n variant actually is/was more efficient than n = 0? –  sharkin May 15 '09 at 9:46
That will usually be the case if the number is already in a register –  stephan May 15 '09 at 10:02
Amazing. This is exactly the kind of answer I hoped to get. –  sharkin May 15 '09 at 10:21
@R.A.: Yes, n-n is more efficient on M68000 CPUs for address registers. Moveq.l is faster for data registers since the m68k had only a 16bit ALU but sub.l is more general. Both need 16bit of memory. Funnily, clr.l (set register to 0) is slower than moveq.l ;) –  Aaron Digulla May 15 '09 at 11:55

Writing assembler code you often used:

``````xor eax, eax
``````

``````mov eax, 0
``````

That is because with the first statement you have only the opcode and no involved argument. Your CPU will do that in 1 cylce (instead of 2). I think your case is something similar (although using sub).

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Yes, you could say sub eax,eax. The only difference is the flags that get set by the operation. –  anon May 15 '09 at 9:52
You can't really be that sure about cycles. The reason is not really cycles, directly. xor eax,eax produces a shorter (3 bytes: 6631C0) instruction than mov eax,0 (6 bytes: 66B800000000) on x86 architecture. sub eax,eax also produces a 3 byte instruction. While for current processors there's not much difference between a sub and xor, xor requires a much simpler circuit and has potential to be faster –  Mehrdad Afshari May 15 '09 at 10:08
absolutely correct, this is all about implicit mnemonic parameters and thus reduced instruction size. –  none May 22 '09 at 18:15
Some architectures even have a special register whos value is always 0.(MIPS at least) –  Will Apr 25 '12 at 21:28

Compiler VC++ 6.0, without optimisations:

``````4:        n = 0;
0040102F   mov         dword ptr [ebp-4],0
5:
6:        n = n - n;
00401036   mov         eax,dword ptr [ebp-4]
00401039   sub         eax,dword ptr [ebp-4]
0040103C   mov         dword ptr [ebp-4],eax
``````
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An optimizing compiler will produce the same assembly code for the two.

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It may depend on whether `n` is declared as `volatile` or not.

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True, but I can't think of a real-life case where one will make n volatile and then do n = n - n –  Eli Bendersky May 15 '09 at 9:42
Sure, but I can't think of a real-life case where one will do n=n-n in the first place. –  mouviciel May 15 '09 at 9:44
Thanks for the reply, but using "volatile" is also very "real-life" to me at least. This is just a theoretical/hypothetical question for educational purposes. –  sharkin May 15 '09 at 9:49

The assembly-language technique of zeroing a register by subtracting it from itself or XORing it with itself is an interesting one, but it doesn't really translate to C.

Any optimising C compiler will use this technique if it makes sense, and trying to write it out explicitly is unlikely to achieve anything.

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not sure about assembly and such, but generally,

``````n=0
n=n-n
``````

isnt always equal if n is floating point, see here http://www.codinghorror.com/blog/archives/001266.html

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If n is an infinity, or a NaN - yes. –  Jonathan Leffler May 15 '09 at 11:02