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Let's say I have a loop that will do some math on an array x. Is it better to assign a temporary double inside the loop at each iteration or should I use the array[i] every time?

By better I mean performance-wise using C++. I wonder if C++ has some vectorization or cash optimization that I'm ruining?

Also what if I call a function using this array and I might need values of a function multiple times, so I usually do the same with functions. I assume this would be better than calling the function many times.

How about if the loop uses omp parallel, I assume this should be safe, correct?

for(int i=0; i<N; i++){
    double xi = X[i];
    double fi = f(xi);
    t[i] = xi*xi + fi + xi/fi;
}
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  • Using temporary might avoid extra load due to aliasing issue (if f(xi) can modify X[i]).
    – Jarod42
    Jul 30, 2019 at 7:16
  • In addition, f(xi) might be not "pure" and return different values each time (as rand() for example).
    – Jarod42
    Jul 30, 2019 at 7:18
  • 3
    You only start worrying about micro-optimisations when you have measured your performance and found it not up to stated requirements. Jul 30, 2019 at 7:19
  • 1
    @n.m. Agree - important keyword is 'micro', though, some general optimisation patterns still should be considered right from the start, e. g. using (and implementing) move-semantics, where reasonable, reserveing std::vector's capacity, if size is known in advance, using the result of std::map::find instead of doing a second lookup, ...
    – Aconcagua
    Jul 30, 2019 at 7:43

2 Answers 2

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elcuco is correct. Any compiler worth it's salt will be able to optimise out something this trivial. What matters here is code readability, personally i find X[i] to be a little easier to look at in this situation.

I will note that if you are repeatedly making very long statements i.e X.something.something.darkside[i][j] it might make sense to use a clearly named reference i.e auto & the_emperor = X.something.something.darkside[i][j].

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Modern compilers (last 10 years) will optimise it out. Don't worry about it.

EDIT:

This has been discussed in StackOverflow a few times: Will compiler optimize and reuse variable In C++, should I bother to cache variables, or let the compiler do the optimization? (Aliasing)

This official documentation explains it, IMHO it is -fmerge-all-constants -fivopts and maybe -ftree-coalesce-vars clang and MSCV have similar options, feel free to research them yourself or link them here.

In practice, when a compiler sees a memory read (a variable, or array value) it will read it into a register, and unless that not marked as volatile, the compiler can assume it did not change, and will not issue instructions to re-read it.

Having said the magical volatile word: It should not be used for threading. It should be used for hardware mapped memory (for example, video card memory or external ports).

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  • Arrays – sure. Matter might change, though, if using std::map instead; index lookup (operator[]) is complex and even might change the data (if element is not found) – would the compiler be able to prove that dropping second lookup wouldn't discard any visible side effects? Only then it would be allowed to optimise it away...
    – Aconcagua
    Jul 30, 2019 at 7:35
  • @elcuco do you have a source for this? im really curious how it works. Jul 30, 2019 at 7:38
  • @Aconcagua if the [] operator is marked const then there is no reason to re-read the value (call that operator).
    – elcuco
    Jul 30, 2019 at 7:55
  • @elcuco Have you looked at std::map? It doesn't even provide a const version of...
    – Aconcagua
    Jul 30, 2019 at 8:02
  • if the [] operator is not const, than the compiler will need to re-read the value, just as you suggest (internal implementation can return a different value after each read, that is correct).
    – elcuco
    Jul 30, 2019 at 8:06

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