Is there actually a performance difference between -foo and (-1)*foo where foo is a variable of type int? In theory the unary operator should be faster. But I think the compiler will optimise this out.

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    The only definite answer is to inspect the generated instructions. – Quimby Jan 11 at 18:42
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    "But I think the compiler will optimise this out." I think so too, but you should follow @Quimby's advice. – πάντα ῥεῖ Jan 11 at 18:42
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    @Quimby: Even that is only definite as far as your compiler and settings are concerned. Which is to say, there is no answer both definite and general. – cHao Jan 11 at 18:43
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    This is a question that is easily answered by godbolt.org. gcc 8.2 with -O2 compiles them to the same thing using the neg instruction. Edit : Even with no optimization, it produces the same assembly but with extra steps. – François Andrieux Jan 11 at 18:44
  • @FrançoisAndrieux FWIW clang won't optimize away the multiplication without optimizations. – Alessandro Power Jan 11 at 18:50

Is there actually a performance difference between -foo and (-1)*foo

Theoretically there can be. The C++ standard makes no guarantees either way.

However, assuming type of foo is an integer, then there is absolutely no difference between the observable behaviour of those expressions. The compiler is therefore in that case allowed to generate an identical binary program for either expression. A ideal optimiser should generate the program that that performs better.

Whether your real compiler generates the same output for both programs is another matter - no real compiler is ideal. You can find out by using the compiler for both alternative programs and then comparing the output.

  • Of course, the conduct of your compiler today is no guarantee of what a future version of your compiler might do with the code, nor of how it might be compiled for a different target platform. At the end of the day, the most important factor may be which form of code is simpler to read, or is a more clear expression of your intent. – Tim Randall Jan 11 at 19:37

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