-7

What C code is more CPU expensive:

while(*pointer){ 
    pointer++; 
} 

or

while(counter > 0){ 
    pointer++; 
    counter--; 
}

?

closed as too broad by Retired Ninja, Bob__, Peter, chux, David Makogon Jan 12 at 5:31

Please edit the question to limit it to a specific problem with enough detail to identify an adequate answer. Avoid asking multiple distinct questions at once. See the How to Ask page for help clarifying this question. If this question can be reworded to fit the rules in the help center, please edit the question.

  • 5
    Only one way to find out. Test it with your compiler on your cpu. – Broman Jan 12 at 0:21
  • 2
    Looks like both code have no side effects, thus can be optimized into a no operation. Anyway, generally speaking, follow rules of optimization. – Kamil Cuk Jan 12 at 0:25
  • 3
    Do you mind adding some context (a Minimal, Complete, and Verifiable example would be nice) to those unrelated snippets? Is there any relation between whatever is pointed by pointer and count? – Bob__ Jan 12 at 0:29
  • 2
    @Broman: Testing is not the only way to find out. One can learn how compilers behave, read documentation about processor performance, ask experts, and so on. These methods are ultimately more useful as they provide information about theory of operation that may be generalized and applied to new circumstances. – Eric Postpischil Jan 12 at 0:49
  • 1
    Testing is also a bad idea because you might learn something that is a quirk of your platform, compiler, optimization settings, or even the specific way you encountered the problem. Learning general principles of how to think about writing code in the first instance is valuable. – David Schwartz Jan 12 at 0:51
1

If you already happen to know the size, I'd expect it to be faster to iterate for some known number of times rather than having to test a pointer each iteration to know whether or not to loop again.

0

*pointer nominally requires a fetch from memory, and that is generally the most expensive of the operations shown in your code.

If we assume your code is compiled directly to the obvious assembly correspnding to the operations as they are described in C’s abstract machine, with no optimization, modern CPUs for desktop computers are typically capable of executing one loop iteration per cycle, except for the memory access. That is, they can increment a pointer or counter, test its value, and branch, with a throughput of one set of those per cycle.

When these operations are used in real programs, they will usually be dwarfed by the other operations being performed. Compilers are generally so good at optimization that the method used to express the loop iteration and termination has little effect on the performance—optimization will likely produce equivalent code regardless of variations in expression for differences like incrementing a counter versus iterating a pointer to some end value. (This excludes using a pointer to fetch a value from memory for testing. That does raise complications.)

  • Implicit-length data like a C string defeats gcc and clang's auto-vectorizer, and also mostly defeats loop unrolling. With optimization enabled, there's a big difference between these (if we assume there's something inside the loop that also accesses *pointer). It also makes the loop-exit branch harder for the CPU to execute ahead of time (out of order execution) to resolve a possible mispredict while still crunching the data. With a counter, especially in an unrolled loop, it can run ahead of the data processing and hide all most of the cost of the branch miss on the last iteration. – Peter Cordes Jan 12 at 7:27
  • There's an interesting question here, if it was asked properly. :/ – Peter Cordes Jan 12 at 7:29

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