1

What does the following for loop do? When will the program break out of the loop?

for (c = 0; n; c++) {
  /* . . . */
}

Here is an example of such a for loop in this answer on SO.

0

5 Answers 5

10

The loop will break when n becomes 0 (in other words, the loop will not stop until n becomes 0). This can happen within the loop (the loop body sets n to 0 eventually), or it could possibly happen because of some external event. Examples of external events would be a shared memory update, or modification by a signal handler. The c variable is incremented as many times as the loop body is entered by the for loop. The c variable is initialized to 0.

Technically, your code fragment is not a for loop, but just the controlling construct of a for loop statement. The fragment is missing a loop body. But that's okay, since your question title is about "this for-loop structure". The question title and post has since been modified.

You link to a function in a different answer, but you already seem to understand that the purpose of that function is to count the number of set bits in a number.

1
  • @Veltas: There is only one part of the for controlling construct that has an n in it, only one part setting c to 0, and only one part that increments c. So, I think I have that basically covered. However, if the asker or future answer seekers are interested, I have this answer that explains the components of a for-loop.
    – jxh
    Aug 26, 2013 at 19:46
4

EDIT: This answer is an explanation of the bitwise operation in the linked question given in error. It still explains the termination at the end.

The linked code is as follows:

long count_bits(long n) {     
  unsigned int c; // c accumulates the total bits set in v
  for (c = 0; n; c++) 
    n &= n - 1; // clear the least significant bit set
  return c;
}

The interesting line here is n &= n - 1;. This sets n to n & (n - 1), where & is the bitwise AND operator. The example says it clears the least significant bit, i.e. sets the lowest unit bit to 0, and that's exactly what it does, and here's why.

Imagine this example, we have the number, for example:

01010100

If we decrement (take 1), we get:

01010011
     ***

Every time we decrement the lowest bit is removed, and bits below become 1. That's just how subtraction works, it's the equivalent of 1000 - 1 = 999 in decimal, but with two digits instead of ten.

Now when we & them together:

 01010100
&01010011
=01010000
      ***

A bitwise & only sets a bit to 1 if both entered bits are 1.

So as you can see the operation always removes the lowest set bit as the lowest bit becomes 0 after subtraction, and the bits below were 0 before subtraction: all these bits fail to have both digits 1 for the & operation, and so evaluate to 0. All other set bits are unchanged, so give two 1s for the operation and keep their value.

The loop terminates when condition n is false, i.e. when n is 0 (all the bits are removed, value 00000000). So this is after each bit is removed, and c leaves with value of the number of bits that were in n.

Remember that in C a boolean value is considered 'true' when the number form is non-zero, and 'false' when the number is zero.

5
  • Nice explenation! I can't understand that upvoters of an answer which doesn't even refer to the question...
    – dhein
    Aug 26, 2013 at 10:20
  • 1
    Unfortunately the question wasn't phrased well, it's unclear whether or not they don't understand how a for loop works or they don't understand how the bitwise operations work in the linked post.
    – Veltas
    Aug 26, 2013 at 10:23
  • 1
    @Zaibis I only linked to that answer because I wasn't sure how the for loop will terminate. It wasn't about bit arithmetic at all.
    – Geek
    Aug 26, 2013 at 10:31
  • 1
    @Geek well but then you should have specified your question more accurate, because it wasn't sure, what you wanted to know exactly.
    – dhein
    Aug 26, 2013 at 10:36
  • @Zaibis sorry if you got confused by my question But I thought it is pretty straight forward.
    – Geek
    Aug 26, 2013 at 10:38
2

The C standard specifies that the "middle thing" in a for clause is an expression. As long as that expression evaluates to non-zero the loop is continued. So n is an expression that will lead to the loop being terminated once n is zero. A more explicit form would be

for (c = 0; n != 0; c++)

which any decent compiler compiles to the same code.

In fact, the C standard allows as a special case, the "middle thing" to be empty, in which case it is considered to be true. This is the reason why we can write infinite loops as

for (;;) { ... }

instead of the ugly as hell abomination while(1).

5
  • 1
    I would argue that while(1) is more readable as it doesn't depend on C standard special case.
    – user694733
    Aug 26, 2013 at 10:29
  • 1
    I'm with Jens on this one. while(1) is unbelievably ugly. And it's also more characters than for(;;) - having said which this is one of those cases where special macros like FOREVER could conceivably be justified.
    – Tom Tanner
    Aug 26, 2013 at 10:42
  • while(1) is an abomination because 1) every C programmer must know for(;;) and 2) while(1) contains a constant value boolean that many lints warn about. There's no excuse for knowing your language well. I've seen even more people ask about ++i vs i++, so what?
    – Jens
    Aug 26, 2013 at 10:45
  • 1
    Arguably for(;;) is obvious: surely it must loop indefinitely, after all what is the point of writing it?
    – Veltas
    Aug 26, 2013 at 10:48
  • A good programmer of course handles both for(;;) and while(1). I just think that latter is more natural to read. However, I don't think that there is anything gained from wrapping this into macro.
    – user694733
    Aug 26, 2013 at 10:52
0

In simple words it is equivalent to for( c = 0; n != 0; c++)

0

Heh..

[Case 1] - no loop's iterations

int c, n = &c;
for (c = 0; n; c++) {
  /* . . . */
}

[Case 2] - no loop's iterations

int c, n = 0;
for (c = 0; n; c++) {
  /* . . . */
}

[Case 3] - infinity loop's iterations

int c, n = ...; // any value, except 0
for (c = 0; n; c++) {
  /* . . . */
}

Is there another cases?

ps. of course, it's joke..

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.