2

I was reading this article and saw this: "This article assumes that you already know and understand at least basically how the memory map in GNU/Linux system works, and specially the difference between memory statically allocated in the stack and memory dynamically allocated in the heap."

This confused me because I thought that stack and heap are dynamically allocated, meaning only allocated if necessary, and global variables and variables declared as "static" inside of a function are statically allocated, meaning always allocated.

For example, if I have

void f() {
    int x = 1;
    ...
}

the value 1 only gets put on the stack and the stack pointer only gets incremented if the function f() gets called. Likewise, if I have

void f() {
    int x = malloc(1 * sizeof(int));
    ...
}

that heap memory only gets allocated if f() is called. However, if I have "int x = 1;" in the global section of the program or "static int x = 1;" within a function body, any time I run this program, that memory will be allocated in the data section with the value 1.

Am I wrong about any of this?

  • 2
    Static variables are never allocated on the stack. – teppic Oct 10 '15 at 17:43
  • Technically local variables doesn't have to be on the stack, there might not even be a stack. In fact, the C specification doesn't mention a stack in the context of local variables or arguments, it just specifies the scope and lifetime of local variables. – Some programmer dude Oct 10 '15 at 17:48
  • That's true, a local variable might end up being just a register (no stack use necessary). But assuming that it does go on the stack, is it right to call that "static allocation"? – random_stuff Oct 10 '15 at 17:49
  • Static variables exist for the life of the program. The stack (as above, nothing to do with C) is designed for temporary variables only. – teppic Oct 10 '15 at 17:53
2

The stack itself is statically allocated. Variables allocated in the stack come and go, as control flow enters and leaves their scope.

  • Not sure if I can technically accept this as the correct answer (because I have no idea of how to verify), but it makes the most sense! – random_stuff Oct 10 '15 at 17:52
  • @loren: there is one stack. It is given a fixed memory allocation before main is entered. It is never relocated, and it exists until after main has terminated. How more static can you be? – rici Oct 10 '15 at 17:56
  • By the way, accepting the answer means it satisfied you, nothing more. Other people can indicate agreement and disagreement with their votes. You don't need a court order or a Ph.D. to indicate that an answer helped you, if it did. – rici Oct 10 '15 at 17:59
  • Yes, but the text I'm reading makes it sound like variables on the stack (not the stack itself) are "statically allocated" which makes no sense to me. – random_stuff Oct 10 '15 at 18:00
  • @loren: it doesnt say anything about variables. It refers to the memory allocated to the stack. That memory cannot leak. – rici Oct 10 '15 at 18:03
3

Static variables are initialized only once, even if the initialization statement is inside of a function body.

Check the wikipedia example:

#include <stdio.h>

void func() {
    static int x = 0; 
    /* x is initialized only once across five calls of func() and
      the variable will get incremented five 
      times after these calls. The final value of x will be 5. */
    x++;
    printf("%d\n", x); // outputs the value of x
}

int main() { //int argc, char *argv[] inside the main is optional in the particular program
    func(); // prints 1
    func(); // prints 2
    func(); // prints 3
    func(); // prints 4
    func(); // prints 5
        return 0;
}

The stack is basically a large statically allocated array with a movable pointer that starts at the beginning of it. When you call a function (starting w/ main), the pointer moves (creates a stack frame) and the space in the stack frame is sliced up and given to local variables (how many local variables you have determines how big your function's stack frame will be). So local variables are kind of dynamic (they only emerge once you enter the function), but the stack is of a static size. If you allocate a super large structure on it or use too much recursion, you'll go past the end and the OS will take you down—a phenomenon known as stackoverflow. ( The stackoverflow icon icon actually illustrates this. The gray container at the bottom represents the static array that the stack is. The orange rectangles are frames created by function calls. As in a proper stack overflow, the frames overflow the container and boom -- you're program is dead. The fact that the frames go up illustrates another, rather special thing about the stack—new frames have lower addresses than the old ones so stackoverflows really happen at the beginning of the stack array rather than the end of it (unless you think of arrays as starting at their largest index and ending at 0). )

2

Stack is allocated in unit of stack frame.

  • When a function is called, a stack frame is allocated for it,
  • When a function returns, its stack frame disappear,

And, stack helps to store function arguments & local variables.

After a function get its stack frame, yes, within the stack frame the function use bytes of it as need dynamic.


Dynamic allocate stack like heap

If u want to allocate memory on stack like the way as heap, then you can use alloca() from <alloca.h>, it's quicker than heap, but in most case u don't need that, it has disadvantages, thus not suggested in general case.


Describe stack allocation in different context might make it more clear:

  • From the view of a linux thread, (by the way, each process has 1 thread on creation by default, as main thread), the stack is of fix size & allocated on thread creation, (2Mb for IA-32, 32Mb for IA-64, by default), and you can change the default size as need. So you can say this is fix, and static.
  • From the view of a function within thread or process, the stack frame is allocated for it from the thread's stack memory when the function starts, and the stack frame disappear when the function finish.
  • From the view of a non-static local variable inside a function, the variable is allocated from the stack frame of the function as need, dynamically.

So, should it be called static or dynamical, you decide.

  • Right, but is that still called "static"? – random_stuff Oct 10 '15 at 17:42
  • @LorenLugosch If a local variable is declared as static within a function, then it is not stored in the stack frame, instead it is stored in the initialized data segment or ininitialized data segment, so that the value won't lose between function calls. In this case, yes the variable is static, but it is not on the stack frame. This is about the c static keyword. – Eric Wang Oct 10 '15 at 17:56
  • That is true, but the question is not about the nature of local variables declared as "static" (which I know to be statically allocated), but rather the nature of local variables which go on the stack. The question is: is it right to call stack memory "statically allocated"? – random_stuff Oct 10 '15 at 17:59

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