3

Say I have this code:

template <int n>
class Factorial
{
    public:
        static const int f = Factorial<n-1>::f*n;
};
template<>
class Factorial<0>
{
    public:
        static const int f =1;
};

It's a template that's meant to compute a factorial. It should be computed at compile time. Is it generally reasonable (specifically: quicker) to perform computations via templates at compile time? P.S. Sorry if this has been asked and answered before, I searched for this particualr question and only found similar ones.

  • What sorts of things do you want to compute at compile-time? Many worthwhile ones are too complicated to do with templates in the first place. – Ry- Aug 10 '14 at 15:57
  • 2
    Your Factorial class is not correct. – NicholasM Aug 10 '14 at 15:59
  • 3
    Assuming a current compiler, computations like this can be done much more easily with a constexpr function. As a rule, these also avoid the horrendously slow compile times you frequently get from deeply recursive TMP. – Jerry Coffin Aug 10 '14 at 16:06
  • 1
    Yes, constexpr is much more readable: constexpr int factorial(int i) { return i<=1 ? 1 : i * factorial(i-1); } – grep Aug 10 '14 at 16:08
  • 1
    With a 64-bit unsigned integral type you can compute 20! and not one bit more. Not worth the effort. Just precompute a small table once (or pirate it off teh interwebs). – n.m. Aug 10 '14 at 16:13
4

If you can compute something at compile time, you should do that, unless this complicates your code a lot. Generally, the compiler will compute constant sub-expressions at compile time for you. The computation that you show, however, is different, because it uses templates as a Turing-complete programming system.

This particular template is meant to provide a trivial demo of how to compute something at compile time. The program looks very much like a Prolog program: it consists of a trivial base case and a recursive reduction step. The problem with programs of this kind is that they are remarkably hard to understand. Although there are situations when compile-time computations help you build reliable software, the applicability of these methods is limited because of significant maintenance liabilities that they create.

  • 1
    At the moment I'm writing code that in all probability will be both heavily commented and also read by me and me alone, which empowers me to use all kinds of esoteric techniques. Having said that, thanks for the general coding style/maintainability advice. – Chiffa Aug 10 '14 at 16:12

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