Is accessing the stack the same speed as accessing memory?
For example, I could choose to do some work within the stack, or I could do work directly with a labelled location in memory.
So, specifically: is
push ax the same speed as
mov [bx], ax? Likewise is
pop ax the same speed as
mov ax, [bx]? (assume bx holds a location in
Motivation for Question:
It is common in C to discourage trivial functions that take parameters.
I've always thought that is because not only must the parameters get pushed onto the stack and then popped off the stack once the function returns, but also because the function call itself must preserve the CPU's context, which means more stack usage.
But assuming one knows the answer to the headlined question, it should be possible to quantify the overhead that the function uses to set itself up (push / pop / preserve context, etc.) in terms of an equivalent number of direct memory accesses. Hence the headlined question.
nearused above is as opposed to
farin the segmented memory model of 16-bit x86 architecture.)