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Constexpr can be awsome and useful for compilation optimisation. For example...


Can be precompiled using....

constexpr inline size_t strlen_constexpr(char* baseChar) {
    return (
            ( baseChar[0] == 0 )
            ?(// if {
              )// }
            :(// else {
              strlen_constexpr( baseChar+1 ) + 1 
              )// }

Which gives it a runtime cost of "0" when optimised... But is more than 10+x slower on runtime

// Test results ran on a 2010 macbook air
--------- strlen ---------
Time took for 100,000 runs:1054us.
Avg Time took for 1 run: 0.01054us.
--------- strlen_constexpr ---------
Time took for 100,000 runs:19098us.
Avg Time took for 1 run: 0.19098us.

Are there any existing macro / template hack where a single unified function can be used instead. ie.

constexpr size_t strlen_smart(char* baseChar) {
    #if constexpr
    ... constexpr function
    #else its runtime
    ... runtime function

Or some overloading hack that would allow the following

constexpr size_t strlen_smart(char* baseChar) {
    ... constexpr function

inline size_t strlen_smart(char* baseChar) {
    ... runtime function

Note: This question applies to the concept in general. Of having 2 separate functions for runtime and constexpr instead of the example functions given.

Disclaimer: Setting the compiler to -O3 (optimization level) is more than enough to fix 99.9% of static char optimizations making all the examples above "pointless". But that's beside the point of this question, as it applies to other "examples", and not just strlen.

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Keep in mind that even if a function is constexpr and inline, the passed argument is constant, and the function result is valid as a constant, the function may still execute at runtime if used in a context where a constant expression is not required. (Technically, it may also execute at runtime in contexts where a constant expression is required, but that's not something a useful compiler does.) You don't want the slow version to be called at run time, even if the argument is constant. –  hvd Jan 3 at 11:56
@hvd i removed "const" from the example to avoid confusion. Also yes it will still be up "to the compiler" to choose to optimise (when possible). However the point is to make sure the most efficient variant runs on runtime. While still benefiting compiler optimisation. –  pico.creator Jan 3 at 12:09
I understand, but that isn't my point. My point is merely to warn you that if you try anything that amounts to is_constant(expr) ? strlen_const(expr) : strlen_runtime(expr), that won't prevent strlen_const(expr) from being called at runtime. –  hvd Jan 3 at 12:13
baseChar+sizeof(char) -- no, just no. –  Yakk Jan 3 at 13:19
Here's a document of the C++ Standard Evolution Working Group discussing similar issues and proposing several approaches to solving it (by language extensions or changes). However, as far as I understand it, the relaxation of constexpr functions in C++1y should already reduce the problem significantly. –  dyp Jan 3 at 13:42

1 Answer 1

up vote 9 down vote accepted

I don't know any generic way, but I know two specific cases where it is possible.

Specific case of some compilers

Also gcc, and clang which copies all features of gcc, have a built-in function __builtin_constant_p. I am not sure whether gcc will correctly see argument to inline function as constant, but I fear you'd have to use it from a macro:

#define strlen_smart(s) \
    (__builtin_constant_p(s) && __builtin_constant_p(*s) ? \
        strlen_constexpr(s) : \

Might be of use. Note that I am testing both s and *s for constexpr, because pointer to static buffer is a compile time constant while it's length is not.

Bonus: Specific case of literals (not an actual answer)

For the specific cast of strlen you can use the fact that string literals are not of type const char * but of type const char[N] that implicitly converts to const char *. But it also converts to const char (&)[N] as well while const char * does not.

So you can define:

template <size_t N>
constexpr size_t strlen_smart(const char (&array)[N])

(plus obviously strlen_smart on const char * forwards to strlen)

I've sometimes used function with this type of argument even in C++98 with definition corresponding to (I didn't try to overload strlen itself, but the overloads were so I could avoid calling it):

template <size_t N>
size_t strlen_smart(const char (&)[N]) { return N - 1; }

This has the problem that for

char buffer[10] = { 0 };


should say 0, but that optimized variant just says 9. The functions don't make sense to be called on buffers like that so I didn't care.

share|improve this answer
Wow, thats a neat trick. Wasn't looking for a "cstring" specific hack. (as the question was more towards a generic concept). But its something new i learnt =) As for the compiler specific case, we are just short of 1 for windows. And we can wrap the question close. –  pico.creator Jan 4 at 8:46
With GCC, your strlen_smart always calls strlen when not optimising, but then the compiler knows how to optimise strlen, so it can still replace it by a constant. When optimising, however, I see calls to strlen_constexpr at -O. At -O2 or -O3, those calls get inlined, but not replaced by a constant. Testcase: int main() { return strlen_smart("Hello, world!"); }. This is exactly what I warned about in the comments on the question. –  hvd Jan 4 at 9:16
With clang, by the way, I do see a constant when optimising, but I see a call to strlen_constexpr when not optimising. –  hvd Jan 4 at 9:18
@hvd i actually added a disclaimer for -O3 optimization. As i feel its beyond the scope of the question. Alternatively, Is there a better and simple example that is cannot be optimized by O3? –  pico.creator Jan 5 at 5:46
@hvd Yup that is exactly the problem with vanilla constexpr. Hence the question to work around that, to ensure that the correct switch happens. (or at-least not the inefficient constexpr). As DyP commented, this is in discussion for the next standard. And as this answer state (first part), a non-ideal work around for it. –  pico.creator Jan 6 at 12:46

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