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I am having some trouble understanding the following simple C code:

int main(int argc, char *argv[]) {
    int n=0;
    printf("hello: %d\n", n);

My current understanding of a fork is that from that line of code on, it will split the rest of the code in 2, that will run in parallel until there is "no more code" to execute.

From that prism, the code after the fork would be:


    n++;                       //sets n = 1
    printf("hello: %d\n", n);  //prints "hello: 1"


    n++;                       //sets n = 2
    printf("hello: %d\n", n);  //prints "hello: 2"

What happens, though, is that both print

hello: 1

Why is that?

EDIT: Only now it ocurred to me that contrary to threads, processes don't share the same memory. Is that right? If yes, then that'd be the reason.

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Yes, that's right. You answered your own question. –  Frédéric Hamidi Nov 11 '10 at 0:27
Don't forget to pretend you are on Jeopardy and post your own answer as an answer. –  alex Nov 11 '10 at 0:30
Even if these were threads, your expectation is wrong. Without any memory synchronization operations, both threads printing 1 (and n containing the value 2 afterwards) would be a perfectly valid behavior. –  R.. Nov 11 '10 at 0:36

7 Answers 7

up vote 3 down vote accepted

fork() starts a new process, sharing no variables/memory locations. It is very similar to what happens if you execute ./yourprogram twice in a shell, assuming the first thing the program does is forking.

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After fork() you have two processes, each with its own "n" variable.

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This answer misses some critical concepts. –  Matt Joiner Nov 11 '10 at 0:35
@Matt: Care to elaborate? –  Lawrence Dol Nov 11 '10 at 3:20

At fork() call's end, both the processes might be referring to the same copy of n. But at n++, each gets its own copy with n=0. At the end of n++; n becomes 1 in both the processes. The printf statement outputs this value.

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You say that at forks()'s call end both processes refer to the same copy of n. How does that work? Aren't they in different processes? –  devoured elysium Nov 11 '10 at 0:37
It was my guess that since most modern systems including Linux do copy on write, a duplicate copy of n would be created only when some write happens on it. I could be wrong there if the Linux under question copies at fork(). –  vpit3833 Nov 11 '10 at 0:42

Actually you spawn a new process of the same progarm. It is not the closure kind of thing. You could use pipes to exchange data between parent and child.

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You did indeed answer your own question in your edit.

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examine this code and everything should be clearer (see the man pages if you don't know what a certain function does):

#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>

int count = 1;

int main(int argc, char *argv[]) {

    // set the "startvalue" to create the random numbers
    int pid;

    // as long as count is <= 50
    for (count; count<=50; count++) {

        // create new proccess if count == 9
        if (count==9) {
            pid = fork();
            // reset start value for generating the random numbers

        if (count<=25) {
            // sleep for 300 ms
        } else {
            // create a random number between 1 and 5
            int r = ( rand() % 5 ) + 1;
            // sleep for r ms

        if (pid==0) {
            printf("Child:  count:%d    pid:%d\n", count, pid);
        } else if (pid>0) {
            printf("Father: count:%d    pid:%d\n", count, pid);

    return 0;

happy coding ;-)

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The system call forks more than the execution thread: also forked is the data space. You have two n variables at that point.

There are a few interesting things that follow from all this:

  • A program that fork()s must consider unwritten output buffers. They can be flushed before the fork, or cleared after the fork, or the program can _exit() instead of exit() to at least avoid automatic buffer flushing on exit.
  • Fork is often implemented with copy-on-write in order to avoid unnecessarily duplicating a large data memory that won't be used in the child.
  • Finally, an alternate call vfork() has been revived in most current Unix versions, after vanishing for a period of time following its introduction i 4.0BSD. Vfork() does not pretend to duplicate the data space, and so the implementation can be even faster than a copy-on-write fork(). (Its implementation in Linux may be due less to speed reasons than because a few programs actually depend on the vfork() semantics.)
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