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I have been doing some research and still can't find a solution to my problem. As far as I know, when we declare variables outside of a function, they are allocated within the heap, and that memory is not freed until the end of execution; unless we specifically do so with the delete function. I've tried the following functions to free the variables declared at the beginning of the code and none of them worked (getting a debug error in dbgdel.cpp): delete, delete [], free(). What am I doing wrong?

I will paste underneath a summarized version of the code. Any help is appreciated. Thank you!

(I know global variables are not usually desirable in proper programming, but is not my piece of code, I am just trying to fix it as it is.)

#include <stdio.h>
#include <conio.h>
#include <cv.h>
#include <highgui.h>
#include <cxcore.h>
#include "Viewer.h"
// Arrays
float z_base [5201][5201];

uchar maskThreshold [5200][5200];

void main(){
     delete [] z_base;
     //free (z_base);
     //delete z_base;
     //free (&z_base);    
share|improve this question
Variables don't live "on the heap". Only objects do. – Kerrek SB Jan 21 '13 at 12:32
@KerrekSB: some variables are objects (specifically, variables that are not references are objects). So "only objects" might not be quite the right way to express that. – Steve Jessop Jan 21 '13 at 12:43
Actually, I'll take that back if we can establish that it's incorrect to refer to the object defined in a declaration like int i = 0; as "the variable". One could perhaps argue that a "variable" is not the object itself but rather is a compile-time entity having a name, and whose name refers to an object. – Steve Jessop Jan 21 '13 at 12:46
@SteveJessop: I think you got the cat and the man wrong. Variables can be objects. But dynamically allocated objects can never be variables, and variables can never by dynamic objects. (I elaborated on this a bit more in this answer.) – Kerrek SB Jan 21 '13 at 14:03
@KerrekSB: that is what I thought, the word "variable" does properly refer to the object. Not a big deal, but saying "X isn't Y, only Z is" doesn't quite make sense when some Zs are in fact Xs. – Steve Jessop Jan 21 '13 at 14:41
up vote 5 down vote accepted

As far as I know, when I declare variables outside of every function they are allocated within the heap

This is not true. In general, you only have to call delete or delete[] if you have allocated memory with new or new [] respectively.

share|improve this answer

You don't. The run-time will do it for you. As a rule of thumb, you only need to delete/delete[] that which you allocated with new/new[].

Also, note that globals are not allocated on the heap, but in static memory.

share|improve this answer
I know what you mean by static. But the word is so overloaded it is worth being a bit more explicit for newcomers and beginners. – Loki Astari Jan 21 '13 at 16:11
  1. There is no heap (in C++).
  2. All memory is released at the end of execution.
  3. delete what you new, delete[] what you new[].
  4. void main is wrong (main must return int).

That is all.

share|improve this answer
@mah That's for operator new to decide. – R. Martinho Fernandes Jan 21 '13 at 12:13
We don't have to talk about general systems specifically, when we're talking about a language that runs on them. I'm saying that C++ allocates to the heap, and while you're technically correct when you decouple the heap from the language, you're playing word games when you suggest it doesn't exist -- especially when you aren't able to suggest a realistic alternative, don't you think? – mah Jan 21 '13 at 12:24
@mah I disagree. Understanding proper memory management in C++ does not require obscure details of a particular implementation. – melpomene Jan 21 '13 at 12:33
@melpomene It does require understanding the principles of stacks, since that is an essential part of the requirements, even if the name isn't used. ("Heap" is a bit more ambiguous, since it can refer to several different things; the word should probably be avoided unless a real heap data structure is meant, as in std::push_heap et al.) – James Kanze Jan 21 '13 at 12:46
Since we're playing: if the existence of a heap is a particular implementation detail irrelevant to the C++ standard, then so is the fact that all memory is released at the end of program execution. What the OS does at process termination (or what the hardware/bootloader/whatever does at program termination for OS-less implementations) is outside the scope of the standard. – Steve Jessop Jan 21 '13 at 12:48

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