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I would like to know what happens in memory when I use arithmetics operators like:

int i;
i = 5 + 3;

Will the values 5 and 3 be automatically put into the stack temporarily (like if some static variables were automatically created for them)? I suppose they need to exist somewhere for the addition to happen, so where?

What happens when there is a function call involved?

i = 5 + f(3);

Is the argument 3 passed to f stored somewhere? And what about the return value of f (say f returns an int)?

Many thanks,

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I think this depends on the target architecture, and whether or not its opcodes support immediate values as operands. –  Mehrdad Jan 25 '11 at 15:06
Indeed, it depends. But not only on that, but on much more: How the compiler feels like today, the calling convention of f, the phase of the moon, the optimization settings, etc. This is the level at which you shouldn't try to outsmart the compiler if you value your time and sanity. –  delnan Jan 25 '11 at 15:08

5 Answers 5

up vote 3 down vote accepted

Your first example will be evaluated at compile-time (see http://en.wikipedia.org/wiki/Constant_folding), so let's ignore that one.

In the case of something like i = f(3) + g(5), the compiler has many choices on how to implement this, depending on the particular platform you're working on. It may put things in registers, or on the stack, or even elsewhere, as it sees fit.

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+1 for mentioning constant folding. –  rsenna Jan 25 '11 at 15:10
Actually, if the compiler cares about ABI compability (it usually does, unless told otherwise), the calling convention dicates how the return value is managed (in the case of cdelc on x86, the return value should be in the EAX register, say wiki). –  delnan Jan 25 '11 at 15:11
@delnan: For the function calls, yes. Not for the local operations. And even then, if the functions are inlined, the calling conventions become irrelevant. –  Oli Charlesworth Jan 25 '11 at 15:19
Yes, but since the one example you discussed revolved function calls... –  delnan Jan 25 '11 at 15:25

It's not required by the C spec that those values be put into memory. The implementation can keep them in registers and never store them on memory for carrying out the addition or the compiler can even rewrite 5 + 3 into 8 and don't do any addition at all at runtime. Any real implementation does it like that.

In the language theory, in fact, 5 and 3 aren't referring to memory. They are values (instead of merely representing a location where a value can be fetched from). You can easily see that by trying to write &5. It won't work - there is no address you could receive.

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Have a look at the compiler switches. Possible there is the possibility to keep/generate the intermediary assembler code. There you see exaclty what happens with your code.

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The compiler will allocate temporary variables as it needs them. This is done at compile/optimization time. Not at runtime (for C programs, anyway). Most likely, for your example, the result of the

5 + 3


5 + f(3)

will be stored in a register and the value of the register will be copied to the location of i.

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When you have expression such as i = 5 + 3 there's no needing to put the operands on the stack. The compiler will translate that into something similar to:

mov eax, 5                   // load first operand
add eax, 3                   // compute the sum
mov [ebp - 4], eax           // and store it

The operands are hard-coded in the instruction. Some compiler might decide to make this code like int i = 8.

i = 5 + f(3)

In this case 3 will be pushed on the stack because f has to be called, but its return value is (usually) stored in eax. This assembly code might be a good translation:

push 3                      // f's argument
call f                      // call f, return value is in eax
add eax, 5                  // compute the sum
mov [ebp - 4], eax          // and save in i
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