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Here's the loop. Basically generates a certain number of points along the circumference of the circle. The points array is obviously constant & can be computed at compile-time, but I can't seem to figure out a way to hoist it into a constexpr.

#include <array>
#include <cmath>

template <std::size_t Len>
class Circle {
    Circle() {
        for (int i = 0; i < Len; i++) {
            float x = (float)std::cos(2 * M_PI * i / (Len - 1));
            float y = (float)std::sin(2 * M_PI * i / (Len - 1));
            points[i * 3] = x;
            points[i * 3 + 1] = y;
            points[i * 3 + 2] = 0;
     std::array<float, Len * 3> points;
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Do you really need it at compile time? –  Pubby Dec 1 '12 at 7:25
I can see absolutely no point hoisting this into a constexpr. How shall your Circle be required in a constant expression? For optimzation it makes no sense at all! Also: accept an answer! –  Walter Dec 2 '12 at 15:09

2 Answers 2

First of all, a constexpr function is not necessarily evaluated at compile time. There are cases where the compiler must do this (e.g. if the thing is used as a compile time constant); but the standard doesn't require such a thing. (In theory, a compiler might want to do this if storing the generation code and running it once at startup was trivial and used less space than storing the calculated value of the constexpr)

Second, your example is not possible to make constexpr. The standard requires any constexpr function to only call other constexpr functions, and be of the form return expression;. Your example meets neither qualification, because you depend on sin and cos (which are not constexpr functions), and you require a loop, which is not of the form return expression;.

constexpr is not designed for optimization; it is designed to allow you to calculate compile time constants (e.g. so that you could use the result as the size of a stack allocated array).

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"...and you require a loop, which is not of the form return expression"... there's this thing called recursion... –  Mehrdad Dec 1 '12 at 8:09
"constexpr is not designed for optimization"... templates weren't designed to be Turing-complete, either. –  Mehrdad Dec 1 '12 at 8:10
@Mehrdad: I don't see a way to write this recursively that wouldn't cause massive stack explosion. Languages that rely on tail recursion to accomplish loops generally speaking use tail optimization to turn a call into a loop. But C++ certainly doesn't require that. (And a stack frame in C++ compiler land probably includes a whole bunch of stuff for symbol tables and things) Templates might be turing complete -- but I don't see anybody using them for such a purpose. –  Billy ONeal Dec 1 '12 at 8:29
o.O "massive stack explosion"? How many iterations do you expect you'd need? See my answer... –  Mehrdad Dec 1 '12 at 8:43
@Vitali: I don't see why you would ever define math functions as constexpr -- generally speaking, there's little reason to use such things as compile time constants. Calculating this kind of thing once at program start will probably be faster than loading the calculated results from disk anyway. In your i * 2 case, it will almost always be better to calculate the value on the fly rather than store an array with the answers. Memory is slow these days. –  Billy ONeal Dec 1 '12 at 19:37

They're not guaranteed to be strictly accurate, but they might be good enough for your purposes.

I just used the Taylor-series approximations. Add constexpr and see if they work.

long double sin2r(long double const r, long double const t, long double const tn, unsigned long long k)
    return tn == 0 ? r : sin2r(r + ((k / 2) % 2 ? -1 : +1) * tn, t, tn * t * t / ((k + 1) * (k + 2)), k + 2);

long double cos2r(long double const r, long double const t, long double const tn, unsigned long long k)
    return tn == 0 ? r : cos2r(r + ((k / 2) % 2 ? -1 : +1) * tn, t, tn * t * t / ((k + 1) * (k + 2)), k + 2);

long double sin2(long double const t)
    return sin2r(0, t, t, 1);

long double cos2(long double const t)
    return cos2r(0, t, 1, 0);
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+1 for the discussion going on in my answer and for interestingness :) –  Billy ONeal Dec 1 '12 at 9:03
@BillyONeal: Haha thanks :) –  Mehrdad Dec 1 '12 at 9:05
Combining this with the indices trick should make for a complete answer. –  Luc Danton Dec 1 '12 at 9:19
Hmmm... can you clarify? Still trying to figure out how to initialize an array whose size is defined by a template. –  Vitali Dec 1 '12 at 9:56
Oh, found a SO post. stackoverflow.com/questions/13313980/… –  Vitali Dec 1 '12 at 10:11

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