What does “Memory allocated at compile time” really mean?

Question

In programming languages like C and C++, people often refer to static and dynamic memory allocation. I understand the concept but the phrase \"All memory was allocated (rese

Answer 1

Memory allocated in compile time means that when you load the program, some part of the memory will be immediately allocated and the size and (relative) position of this allocation is determined at compile time.

char a[32];
char b;
char c;

Those 3 variables are "allocated at compile time", it means that the compiler calculates their size (which is fixed) at compile time. The variable a will be an offset in memory, let's say, pointing to address 0, b will point at address 33 and c at 34 (supposing no alignment optimization). So, allocating 1Kb of static data will not increase the size of your code, since it will just change an offset inside it. The actual space will be allocated at load time.

Real memory allocation always happens in run time, because the kernel needs to keep track of it and to update its internal data structures (how much memory is allocated for each process, pages and so on). The difference is that the compiler already knows the size of each data you are going to use and this is allocated as soon as your program is executed.

Remember also that we are talking about relative addresses. The real address where the variable will be located will be different. At load time the kernel will reserve some memory for the process, lets say at address x, and all the hard coded addresses contained in the executable file will be incremented by x bytes, so that variable a in the example will be at address x, b at address x+33 and so on.