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This question has been done to death, and I would agree that enums are the way to go. However, I am curious as to how enums compile in the final code- #defines are just string replacements, but do enums add anything to the compiled binary? Or are they both equivalent at that stage. When writing firmware and memory is very limited, is there any advantage, no matter how small, to using #defines?

Thanks!

EDIT: As requested by the comment below, by embedded, I mean a digital camera.

Thanks for the answers! I am all for enums!

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    "Embedded" can mean anything from a Nexus S to an avionics system. You should narrow it down (which chip, which compiler, which version?) if you want a meaningful answer. I agree with the answerers it should be treated similar to a const. Jan 9 '11 at 6:39
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    @Matthew: I think you're thinking of C++. In C, #define and enum can create constant expressions, but a const variable is never a constant expression, and accessing it will almost surely incur real code size and performance penalties (loading it from memory). Jan 9 '11 at 6:46
  • @R, you're right about a const not being a const expression in C99 (and I do need to read up on this). But in simple cases, the compiler can still avoid allocating memory for them. For instance, if I put const int a = 1; in a header, then int b = a; in main, the compiler may be smart enough not to allocate memory for a. Jan 9 '11 at 7:09
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    Usually the compiler will avoid this type of smarts for the sake of compatibility with traditional linker hacks that might override the symbol. Jan 9 '11 at 8:11
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    @Mathew: I don't think the question is particularly specific to 'embedded' in any case, and which chip/compiler or whatever should make little no difference, it is a more general question.
    – Clifford
    Jan 9 '11 at 9:58
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Both are constant expressions in the terminology of the standard, so they "should" be evaluated fully at compile-time by any sane compiler. It would take a maliciously pathological compiler to generate different code.

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    they are not only constant expressions but integer constant expressions in the terminology of the standard. The difference is important here, since for the first e.g an address constant would also qualify. Only by being the later, they may appear in type declarations and for the definition of other enum constants. And used as array length they make the difference between plain arrays and VLA. Jan 9 '11 at 8:59
  • @nqtronix: I don't see how that comment relates to my answer (or to the question). Feb 3 '19 at 21:58
  • @R.. My bad, I meant to comment on the answer below. I fixed it and added clarification.
    – nqtronix
    Feb 5 '19 at 7:49
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An enum is just an integer, ultimately. The compiler propagates the values, just as it would for a const.

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    an enum value is a constant expression, whereas a const variable (in C) is not and thus can't be used for static initialization, case labels, ...; an enum value is a compile-time constant, a const variable is a runtime constant (from the perspective of the language - the compiler is free to do constant propagation for const variables)
    – Christoph
    Jan 9 '11 at 10:09
  • An enum is just an 'int', specifically. At least GCC treats enums by default as a 32bit value, even on 16bit or 8bit MCUs. To use the smallest possible type, one must specify the -fshort-enums option for compiling.
    – nqtronix
    Feb 5 '19 at 7:43
  • (to late for edit) This is especially importent when used as a function argument: func(enum value) compiles worse (by default) than func(unit8_t value) and passing a #defined value.
    – nqtronix
    Feb 5 '19 at 7:48
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It's impossible to say without profiling or measuring in some other manner.

BUT, any decent compiler will not show any significant difference. Furthermore, you should always prefer readable, typesafe code over efficient, unreadable, gotcha-ridden code. Don't start optimizing for efficiency over readability until you have proven two things:

  1. you actually need the efficiency boost
  2. the part of the program you're changing has been shown to be a bottleneck by a profiler.
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    I completely agree with you about unneeded optimization! I just joined a project and #define was being used, so I was wondering if there could an efficiency reason. Jan 9 '11 at 6:49
  • In this case, you probably don't need to do profiling and measuring as such -- just look at the generated assembly, which should be identical. Jan 9 '11 at 8:39

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