So why can't you free variables on the stack to make room for new variables like you can on the heap?
All information that "stack allocator" knows is
ESP which is pointer to the bottom of stack.
N-3: used <- **ESP**
That makes "stack allocation" very efficient - just decrease
ESP by the size of allocation, plus it is locality/cache-friendly.
If you would allow arbitrary deallocations, of different sizes - that will turn your "stack" into "heap", with all associated additional overhead -
ESP would not be enough, because you have to remember which space is deallocated and which is not:
ESP is not more enough. And you also have to deal with fragmentation problems.
I get that the compiler frees variables on the stack, but thats at the end of the scope of the variable right. Doesn't it also free a variable on the heap at the end of its scope? If not, why not?
One of the reasons is that you don't always want that - sometimes you want to return allocated data to caller of your function, that data should outlive scope where it was created.
That said, if you really need scope-based lifetime management for "heap" allocated data (and most of time it is scope-based, indeed) - it is common practice in C++ to use wrappers around such data. One of examples is
std::vector<int> x(1024); // internally allocates array of 1024 ints on heap
// use x
} // at the end of the scope destructor of x is called automatically,
// which does deallocation