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I have the following situation:

while (node != NULL && has_all_except)

If neither node nor has_all_except are modified in the loop, will gcc optimize the loop to only compute the expression once?

I have studied the Wikipedia article on compiler optimization ( but couldn't get a definite answer. My guts says it will be optimized.

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2 Answers 2

up vote 0 down vote accepted

The && operator is lazily evaluated.

If node != NULL is false then has_all_except won't even be considered. This is a language rule, not an optimisation too.

Looping unconditionally if neither has been changed is theoretically possible, depending upon where they could have been modified from and how easy it is to spot that. I suspect though that it's possibly worse for a modern CPU than just applying the tests. (It would introduce more total branches, more code and greater memory requirements - branch prediction on the other hand ought to do well on loop control such as that).

You could implement this kind of "optimisation" yourself using goto to test this (note: I'm not advocating using goto, but it does portably "simulate" the effect of the proposed optimisation under discussion). I think looking at an example makes the problems I discussed clearer e.g.:

#include <stdlib.h>

int do_stuff(); // returns true/false if things were changed
int other_stuff(); // returns true/false if changed

int main() {
  int has_all_except = 1;
  void *node = &has_all_except;
  while (node != NULL && has_all_except) {
  int changed = 0; // flag to watch for changes
  nochanges: // Place to jump to to unconditionally
    changed |= do_stuff();
    changed |= other_stuff();
    if (!changed)
      goto nochanges; // Unconditional jump

The problem with this is that we've succeed in introducing an unconditional jump, but the unconditional jump itself is conditionally applied and that condition is no simpler than the first part of the && itself.

Doing this means:

  1. One extra int as the "flag" to see if anything got chagned
  2. Cooperation from the do_stuff() and other_stuff() - if anything isn't cooperative then this isn't possible (and it's unlikely your compiler can figure this out for you across trhanslation units)
  3. More code, so less space in whatever cache your processor has
  4. More branches, so more possibility for pipeline stalls, prediction and poorer predictions

If it's worth doing and safe to do then I'm fairly confident that it would be done by a suitably modern compiler. If it's not being done then I suspect it's not worth it (no better performance), or not safe to apply. Either way the compiler more than likely understands the intricacies of optimising loops for your code on your specific platform far better than the vast majority of programmers!

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It will depend on whether node or has_all_except could be modified directly or indirectly by any of the code in your loop. E.g. if node is a global variable and you make a function call in the loop then the compiler can not assume that node will not be modified as a side effect of the function call.

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