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I am confused by the fork() function in C/C++. Given the following code:

void fork2()

Lecture slides give the following diagram

  |      ______Bye

To me, this diagram doesn't make any sense. I expect that each call to fork will result in a call to printf("LO\n"). Or am I wrong?

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Why would something done BEFORE the fork occurs be run in both processes? –  Crazy Eddie Dec 15 '10 at 18:22
Your assertion about each call to fork calling printf("LO\n") is incorrect. In order to say where you went wrong you have to explain first what makes you think that each call to fork will call printf("LO\n"). Where did you get that idea from? –  AndreyT Dec 15 '10 at 18:30
The way I was thinking, it creates brand new process, and starts from the beginning of the process. But apparently, I am totally wrong. –  newprint Dec 15 '10 at 18:37
It creates a brand new process, which starts from the point where the fork() call is made. –  Karl Knechtel Dec 15 '10 at 19:19

5 Answers 5

up vote 7 down vote accepted

fork() creates an exact duplicate of the process that made the fork() function call. This means, that you then have two processes that are exactly the same, and are at the same point in the program. If we step through the fork2() function, the following happens.

Process A (original process):
L0 (process A forks, creating process B)
L1 (process A forks again, creating process C)
Bye! (process A exits)

Process B:
L1 (process B forks, creating process D)
Bye! (process B exits)

Process C:
Bye! (process C exits)

Process D:
Bye! (process D exits)

It is up to the operating system as to which process it proceeds with at each fork, and also as to whether it switches to another process at any point during run-time, so the output can be interleaved at any point after a process forks. For example, if the OS chose to always follow the new process until the end of the function, you would get the following output:

L0   (A)  
L1   (B)  
Bye! (D)  
Bye! (B)  
L1   (A)  
Bye! (C)  
Bye! (A)
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Thanks a lot for such a detailed explanation !!! –  newprint Dec 15 '10 at 18:46

You are wrong. When forking, both the parent and child process continue from the same place - after the call to fork(), not at the start of the function. It's easy to verify this behaviour - change your function's name to main() and then compile and run it:

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

int main(int argc, char **argv)

    return 0;



There's nothing like actually trying something to figure out how it works...

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A +1 because you were faster. ;) –  Bart Dec 15 '10 at 18:25
Thanks @BKevelham - I sent one your way too. =) –  Carl Norum Dec 15 '10 at 18:26
Nice answer. Also note that the OS scheduler might cause the printing order to be other than what you expect because of context switching. –  liorda Dec 15 '10 at 18:30
+1 @liorda. There are no guarantees about how the output will turn out. –  Carl Norum Dec 15 '10 at 18:39
Thanks, not it makes more sense ! –  newprint Dec 15 '10 at 18:40

You're wrong. :) After the fork both processes will execute the next instruction following the fork.

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The behavior of fork() requires some getting used to, because it actually forks the execution path into the parent and child processes (it returns 0 in the child process and the PID of the child process in the parent process).

It means that after the first call to fork(), you'll have two processes running the same code, and after the second call you'll have four processes (because both processes issued the fork() call), still running the same code. Thus, the graph:

    /   \
   /     \
  L1      L1
 /  \    /  \
Bye Bye Bye Bye
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BTW, fork() is not a C/C++ library function. It's a library function to call a Unix system call. There are plenty of C/C++ implementations that do not have fork().

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