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    #include <stdio.h>
    #include <unistd.h>
    int main()
       fork() && fork() || fork();

     return 0;

It cause difficulty to understand how to calculate number of processes spawned after executing the program? Help me to find out.

Platform --UBUNTU 10.04

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Why not start by compiling and running it, and see how many "forked" messages you get ? – Paul R Jan 4 '12 at 12:37
Is that homework? No sane person would write fork() && fork() || fork(). You could split this line and add more debug output btw. – ThiefMaster Jan 4 '12 at 12:39
I have compiled it many times,every time it is getting different answer... see here – Student Arya Jan 4 '12 at 12:50
I'm guessing it's a sort of "interview question". The real question is what happens in the compound line. My vague recollection is that fork() returns TRUE if successful, and it's almost always successful, unless you hit your process's fork limit, so the first two fork calls of the second line would execute, but not the third, due to short-circuiting. [Ah, now I remember!! -- fork returns true for one process false for the other, and you'll continue where you left off in both. Likely the results will be a sort of fractal expansion, and perhaps unpredictable.] – Hot Licks Jan 4 '12 at 12:50 also see here – Student Arya Jan 4 '12 at 12:52
up vote 8 down vote accepted

Let's follow the fork-tree, assuming none of the forks fails


Now we have two processes, so far it doesn't matter who's child and who parent, call them p1 and p2


Both of those processes spawn another child, so we have 4 processes, for two of them (p3, p4) the result is zero, for the other two (p1 and p2) it's nonzero

   && fork()

p1 and p2 fork again, giving p5 and p6, six processes total. In p1 and p2, the && evaluates to true, so they don't fork again in this line. For p3, p4, p5, p6, the && evaluates to false, so they fork

              || fork();

here, spawning four new processes, giving a total of 6 + 4 = 10.


each of the 10 processes forks again, makes 20.

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fork system call returns an integer: the PID of the process in the parent process and 0 in the child process. If an error occurs, no process is created and -1 is returned.

|| and && are logical operators.

If the result of the operator is know after the evaluation of their left operand, they are required to short-circuit (i.e., not evaluate the right operand):

  • for || operator its right operand is not evaluated if its left operand is != 0
  • for && operator its right operand is not evaluated if its leftt operand is == 0
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You should not use fork() like this. Never. And, nevertheless, you won't need to do so in real life. How to use it:

int main() {
    /* code */
    pid_t pid = fork();
    if (pid < 0) {
        /* error, no child process spawned */
    if (pid > 0) {
        /* we are the parent process, pid is the process ID of the ONE child process spawned */
    /* else, we are the child process, running exactly one command later the fork() was called in the parent. */
    /* some more code */
    return 0;
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You're probably right, but this does not really answer the question. – Paul R Jan 4 '12 at 12:44
Hey, slower with those downvotes! You abviously haven't read my answer. In the comments, there ARE the numbers of the executed or not executed child processes. I DID want to answer his question. – user529758 Jan 4 '12 at 12:48

Save the file, say as fork-count.c. Then compile it with gcc fork-count.c -o fork-count. Then you can run it and count the number of lines of output with ./fork-count | wc -l.

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I have compiled many times ,but it is giving different results. – Student Arya Jan 4 '12 at 12:54
You mean that you can run the program multiple times in a row and get different results? – Michael Mior Jan 4 '12 at 12:58
read above comments plz. – Student Arya Jan 4 '12 at 13:00
If you're using ideone, you'll get unreliable results as it doesn't correctly capture output from forked processes. – Michael Mior Jan 4 '12 at 13:01

I have found the correct explanation of this question on Geeks for Geeks:

A fork() system call spawn processes as leaves of growing binary tree. If we call fork() twice, it will spawn 22 = 4 processes. All these 4 processes forms the leaf children of binary tree. In general if we are level l, and fork() called unconditionally, we will have 2l processes at level (l+1). It is equivalent to number of maximum child nodes in a binary tree at level (l+1).

As another example, assume that we have invoked fork() call 3 times unconditionally. We can represent the spawned process using a full binary tree with 3 levels. At level 3, we will have 23 = 8 child nodes, which corresponds to number of processes running.

A note on C/C++ logical operators:

The logical operator && has more precedence than ||, and have left to right associativity. After executing left operand, the final result will be estimated and execution of right operand depends on outcome of left operand as well as type of operation.

In case of AND (&&), after evaluation of left operand, right operand will be evaluated only if left operand evaluates to non-zero. In case of OR (||), after evaluation of left operand, right operand will be evaluated only if left operand evaluates to zero.

Return value of fork():

The man pages of fork() cites the following excerpt on return value,

“On success, the PID of the child process is returned in the parent, and 0 is returned in the child. On failure, -1 is returned in the parent, no child process is created, and errno is set appropriately.”

A PID is like handle of process and represented as unsigned int. We can conclude, the fork() will return a non-zero in parent and zero in child. Let us analyse the program. For easy notation, label each fork() as shown below,

     #include <stdio.h>
     int main()
       fork(); /* A */
      (       fork()  /* B */ &&
      fork()  /* C */ ) || /* B and C are grouped according to precedence */
      fork(); /* D */
      fork(); /* E */

      return 0;

enter image description here The first two fork() calls are called unconditionally.

At level 0, we have only main process. The main (m in diagram) will create child C1 and both will continue execution. The children are numbered in increasing order of their creation.

At level 1, we have m and C1 running, and ready to execute fork() – B. (Note that B, C and D named as operands of && and || operators). The initial expression B will be executed in every children and parent process running at this level.

At level 2, due to fork() – B executed by m and C1, we have m and C1 as parents and, C2 and C3 as children.

The return value of fork() – B is non-zero in parent, and zero in child. Since the first operator is &&, because of zero return value, the children C2 and C3 will not execute next expression (fork()- C). Parents processes m and C1 will continue with fork() – C. The children C2 and C3 will directly execute fork() – D, to evaluate value of logical OR operation.

At level 3, we have m, C1, C2, C3 as running processes and C4, C5 as children. The expression is now simplified to ((B && C) || D), and at this point the value of (B && C) is obvious. In parents it is non-zero and in children it is zero. Hence, the parents aware of outcome of overall B && C || D, will skip execution of fork() – D. Since, in the children (B && C) evaluated to zero, they will execute fork() – D. We should note that children C2 and C3 created at level 2, will also run fork() – D as mentioned above.

At level 4, we will have m, C1, C2, C3, C4, C5 as running processes and C6, C7, C8 and C9 as child processes. All these processes unconditionally execute fork() – E, and spawns one child.

At level 5, we will have 20 processes running. The program (on Ubuntu Maverick, GCC 4.4.5) printed “forked” 20 times. Once by root parent (main) and rest by children. Overall there will be 19 processes spawned.

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