No, it cannot know the value of
esp in advance.
Take for example a recursive function, ie. a function that calls itself. Assume such a function has several parameters that are passed in via the stack. This means that each argument takes some space on the stack, thereby changing the value of the
Now, when the function is entered, the exact value of
esp will depend on how many times the function has called itself previously, and there is no way the compiler could know this at compile time. If you doubt this, take a function such as this:
void foobar(int n)
if (rand() % n != 17)
foobar(n + 1);
There's no way the compiler would be smart enough in advance to figure out if the function will call itself once more.
If the compiler wanted to determine
esp in advance, it would effectively have to create a version of the function for each possible value for
The above explanation only takes into account one function. In a real-world scenario, a program has many functions which interdepend on one another, which results in fairly complex "call graphs". This together with (among other things) unpredicable program logic means the compiler would have to create a huge array of versions of each function, just to optimise on
esp -- which clearly doesn't make sense.
P.S.: Now something else. You don't actually need to optimise
[esp+N] at all, because it should not take any more CPU time than the simpler
[esp]... at least not on Intel Pentium CPUs. You could say that they already contain optimizations for exactly this and even more complicated scenarios. If you're interested in the Intel CPUs, I suggest you look up the documentation for something called the MOD R/M and the SIB byte of a machine instruction, e.g. here for the SIB byte or here or, of course, in Intel's official CPU developer documentation.