Very basic code:


int i;
int counterONE = 0;
for (i = 0; i < 5; i++) {
  counterONE += 1;
cout << counterONE;


int i, j;
int CounterONE = 0, counterTWO = 0;
for (i = 0; i < 5; i++) {
  for (j = 0; j < 5; j++) {
cout << counterONE;
cout << endl << counterTWO;

For both of the codes my questions are:

  • How do those loops work? Are the stack frames maintained?

  • How is the internal memory maintained? Is there a queue?

  • Why for looks like a function(){} body and how to resolve the function body?

And Please don't comment any answer in short I need complete elaboration please.

  • (1) Choose your lagnuage, seems to be C++, why the C,java,PHP tags?
    – amit
    Jan 27, 2015 at 12:41
  • 4
    Neither example has anything to do with recursion or the stack.
    – nvoigt
    Jan 27, 2015 at 12:41
  • (2) The only "stack" here is for allocating space for the local variable (and that doesn't even have to be a stack, but is so in most implementations I am aware of)
    – amit
    Jan 27, 2015 at 12:42
  • 3
    for is not a function. Its function body doesn't look like anything because there isn't any.
    – molbdnilo
    Jan 27, 2015 at 12:51
  • 3
    Please look at the preview pane before posting, correcting the problems you find there. Your formatting is all over the place and I find it hard to believe that you didn't notice that. Jan 27, 2015 at 13:40

3 Answers 3


for is a simple loop that is translated to "goto" (or similar) in the machine code in order to make some commands repeat themselves

for (int i = 0; i < 5; i++) {
  some code
some more code

will be translated to something like (very simplified)

         R_x = 0 // R_x is some register
loop:    check if R_x >= 5 
         if so, go to "after"
         some code
         increase R_x
         go to loop
after:   some more code

This code does not involve any recursion, and the importance of the stack here is negligible (only one is used, and only to store the automatic variables).

  • i am understanding what you have simplified thank you,is any data structure maintained internally?
    – Ruchir
    Jan 27, 2015 at 13:30

The real answer is that for is not a function. It is a keyword, introducing a special type of statement.

Don't be fooled by the parentheses. Parentheses in C++ are overloaded: they may be an operator (the function call operator), or they may be punctuation, which is part of the syntax. When they follow the keyword for (or while or if or switch), they are punctuation, and not the function call operator; many people, like myself, like to differentiate the two uses by formatting them differently, putting a space between the keyword and the opening parentheses when they are punctation at the statement level, but using no space between the name of a function and the ( operator. (Everyone I know who does this also treats all of the formats for casting as if they were a function, although technically...)


For what it's worth: you can overload the () operator. The overload will be considered in cases where the parentheses are operators (and in the context of a function style cast), but not when they are punctuation.

  • 1
    not completely agreed , avoid C++ just tell me about C for(init;condition check ;inc++){...} why and how? avoid that to how about do{ } while(only condition); or only while(only condition check){...}
    – Ruchir
    Jan 27, 2015 at 13:19
  • @Ruchir it's your fault, you tagged the question with the c++ tag too. Jan 27, 2015 at 13:21
  • sorry to say : you aren't specific to your answer either don't take it into wrong way check below does @amit has written it right or not?
    – Ruchir
    Jan 27, 2015 at 13:25
  • @Ruchir What don't you agree with? With the exception of the overloading bit, C++ and C are exactly identical here. The parentheses can be either an operator or punctuation (or imply grouping in an expression, which is also punctuation, and not an operator). Jan 27, 2015 at 16:23
  • @Ruchir Amit has explained more or less what the compiler will do. But that's just the definition of for. (Actually, the definition of for is given in terms of a while. But it comes out to what amit has said.) My point is just that there is no recursion, because there is no function call involved. Jan 27, 2015 at 16:27

For both of the codes my question is how do those loops work? are stack frames are maintained?

Let's look at what the compiler generates for your loop. I took your first snippet and built the following program with it1:

#include <stdio.h>

int main( void )
  int i;
  int counterONE=0;
  return 0;

Here's the equivalent assembly code generated by gcc (using gcc -S)2, annotated by me:

        .file   "loops.c"
.globl main
        .type   main, @function
main:                         ;; function entry point
        pushq   %rbp          ;; save current frame pointer
        movq    %rsp, %rbp    ;; make stack pointer new frame pointer
        movl    $0, -4(%rbp)  ;; initialize counterONE to 0
        movl    $0, -8(%rbp)  ;; initialize i to 0
        jmp     .L2           ;; jump to label L2 below
        addl    $1, -4(%rbp)  ;; add 1 to counterONE
        addl    $1, -8(%rbp)  ;; add 1 to i
        cmpl    $4, -8(%rbp)  ;; compare i to the value 4
        jle     .L3           ;; if i is <= 4, jump to L3
        movl    $0, %eax      ;; return 0

The only stack frame involved is the one created for the main function; no additional stack frames are created within the for loop itself. Even if you declared a variable local to the for loop, such as

for ( int i = 0; i < 5; i++ )


for ( i = 0; i < 5; i++ )
  int j;

a new stack frame will (most likely) not be created for the loop; any variables local to the loop will be created in the enclosing function's frame, although the variable will not be visible to code outside of the loop body.

How internally memory is maintained is there a queue?

No additional data structures are necessary. The only memory involved is the memory for i (which controls the execution of the loop) and counterONE, both of which are maintained on the stack3. They are referred to by their offset from the address stored in the frame pointer (for example, if %rbp contained the address 0x8000, then the memory for i would be stored at address 0x8000 - 8 == 0x7ff8 and the memory for counterONE would be stored at address 0x8000 - 4 == 0x7ffc).

why for looks like a function(){} body how to resolve the function body?

The language grammar tells the compiler how to interpret the code.

Here's the grammar for an iteration statement (taken from the online C 2011 draft):

(6.8.5) iteration-statement:
    while ( expression ) statement
    do statement while ( expression ) ;
    for ( expressionopt ; expressionopt ; expressionopt ) statement
    for ( declaration expressionopt ; expressionopt ) statement

Likewise, here's the grammar for a function call:

(6.5.2) postfix-expression:
    postfix-expression ( argument-expression-listopt )

and a function definition:

(6.9.1) function-definition:
     declaration-specifiers declarator declaration-listopt compound-statement

During parsing, the compiler breaks the source code up into tokens - keywords, identifiers, constants, string literals, and punctuators. The compiler then tries to match sequences of tokens against the grammar.

So, assuming the source file contains

for ( i = 0; i < 5; i++ )

the compiler will see the for keyword; based on the grammar, it knows to interpret the following ( i = 0; i < 5; i++ ) as a loop control body, rather than a function call or a function definition.

That's the 50,000 foot view, anyway; parsing is a pretty involved subject, and it's only part of what a compiler does. You might want to start here and follow the links.

Just know that this isn't something you're going to pick up in a weekend.

1. Note - formatting really matters. If you want us to help you, you need to make your code as readable as possible. Sloppy formatting, inconsistent indenting, etc., makes it harder to find errors, and makes it less likely that someone will take time out to help.

2. This isn't the complete listing, but the rest isn't relevant to your question.

3. This explanation applies to commonly used architectures like x86, but be aware there are some old and/or oddball architectures that may do things differently.

  • @Ruchir: besides the standard linked to above, there aren't many "official" online documents related to C programming. My go-to reference has been Harbison & Steele's C: A Reference Manual, currently 5th edition, which covers up to the C99 standard. I've heard good things about K. N. King's C Programming: A Modern Approach, although I have no personal experience with it. Be aware that most books and websites on C are crap.
    – John Bode
    Jan 28, 2015 at 15:43

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