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Is there away to achieve the behavior shown in the example (non compiling) code below? I (think I) understand why it doesn't compile given that the required calls to std::initializer_list functions are not constexpr.

The goal is to be able to create an array from a constant initialiser list when an additional element is appended to the end that is the sum of the preceeding elements.

All the posts I found on initialising arrays at compile time required lots of complex recursive template function calls and all were related to generating sequences of numbers.

#include <initializer_list>
#include <array>

template <typename T> constexpr auto CheckSummedArray(const std::initializer_list<T> & i)
{
    std::array<T, i.size() + 1> res;
    std::copy(i.begin(), i.end(), res.begin());
    auto cs = T();
    for (auto r : i)
    {
        cs += r;
    }
    res[res.size() - 1] = cs;
    return res;
}

constexpr auto testArray = CheckSummedArray<int>({1,2,3,4});

static_assert(testArray.size() == 5);
static_assert(testArray[0] == 1);
static_assert(testArray[4] == 9);
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  • What's your compiler version? What's the compile option -std=c++14 or -std=c++17 you are using? – prehistoricpenguin Apr 8 at 3:29
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The issue is not the calls to the members of std::initializer_list, those functions are actually constexpr. The issue is that you are using the result of i.size() in a template parameter, but i is not a constant expression, since it's a function parameter.

You can solve this by making the argument an array type, and so you can deduce its size with a template parameter:

template <typename T, std::size_t N> 
constexpr auto CheckSummedArray(T const(&i)[N])
{
    std::array<T, N + 1> res{};
    std::copy(i, i + N, res.begin());
    res.back() = std::accumulate(i, i + N, 0);
    return res;
}

Here's a demo.

I cleaned up the function a little by using an algorithm instead of a loop. If you're not using C++20, you don't have access to constexpr algorithms, so your copy and accumulate will need to be raw loops anyway.

for(std::size_t j = 0; j < N; ++j)
{    
    res[j] = i[j];
    res.back() += i[j];
}

Here's a C++17 demo.

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  • Thankyou for your answer, it was exactly what I was looking for. Unfortunately I cant use C++20 in this project, only C++17. Actually, the assert is correct, the code itself is incorrect. There should be a -1 after the sum. This was a simplified example to not overcomplicate the question and it looks like I forgot some details! – Ashley Duncan Apr 8 at 22:47
  • @AshleyDuncan As I mentioned, the solution to your problem works in C++17, and all you need to do is write the raw loops instead of the algorithms. I added that solution explicitly in the answer anyway. – cigien Apr 8 at 22:54
  • @AshleyDuncan Oh, I see what you mean by the assert being right. Your function was supposed to do res[res.size()] = cs - 1; instead of res[res.size() - 1] = cs;. Well, that's not relevant to your issue, so it's fine :) – cigien Apr 8 at 22:55
  • It think I already know the answer to this, but would it be possible to use a technique like this to initialise a plain array? – Ashley Duncan Apr 8 at 23:28
  • @AshleyDuncan Sure, I think that'll work. Arrays are usable in constexpr contexts IIRC. – cigien Apr 8 at 23:29

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