6

I want to create a vector of vectors, where the individual vectors can be of different types, as follows:

std::vector<int> v1;
std::vector<float> v2;
std::vector<double> v3;

std::vector<SomeType> all;
all.push_back(v1);
all.push_back(v2);
all.push_back(v3);

What should SomeType be in this case?

My actual use case:

I have vectors of different data types which need to be written out to disk. Everytime I add a column to the dataset, I don't want to have to specify the column in various different places. I want to be able to iterate through the columns easily.

  • 9
    std::variant? But I'm really curious about the real problem you need to solve? Why do you think you need such a vector? – Some programmer dude Jun 7 at 8:07
  • 1
    How would you know to go back from all[1] to std::vector<float>? – Botje Jun 7 at 8:12
  • 5
    Refrain. That's not the way the language is built from ground. My advice if to find a different design allowing more idiomatic C++ code. It is certainly possible but will be hard to use and maintain. – Serge Ballesta Jun 7 at 8:12
  • Does "add a column to the dataset" happen at compile time, or at runtime? It sounds like you are describing struct Row { int a; float x; double price; }; std::vector<Row> all; – Caleth Jun 7 at 8:46
  • Yes that is what I had. But in writing out the values, I have separate vectors that need to take the individual values of the struct. Ideally I could iterate over the struct members. – user3055163 Jun 7 at 8:48
5

There are a lot of ways to do this, depending on your situation. Here's a variant (pun) with std::variant:

std::vector<int> v1 = { 1, 2, 3 };
std::vector<float> v2 = { 4.5f, 5.5f, 6.5f };
std::vector<double> v3 = { 7.5, 8.5, 9.5 };

std::vector<std::variant<std::vector<int>, std::vector<float>, std::vector<double>>> all;
all.push_back(v1);
all.push_back(v2);
all.push_back(v3);

for(auto& variant : all)
{
    std::visit([](const auto& container) {
        for(auto value : container)
        {
            std::cout << value << '\n';
        }
    }, variant);
}

std::any with type erasure would also work. Or go one level lower, f.i. with std::vector<std::variant<int, float, double>>.

  • Is there a way to do this without specifying the container type of all manually? – user3055163 Jun 7 at 8:44
  • You can typedef the inner variant: using MyVariant = std::variant< ... >;, and use auto where the type can be inferred. But you have to state it at least once :) – One Man Monkey Squad Jun 7 at 8:47
0

You can't do this because all 3 vector types are different.

You can however, create a non-templated abstract class with the required abstract functions that you need for std::vector then implement it for each vector type.

Something like this:

struct Base
{
      int size() = 0;
};

template <typename T>
struct VectorWrapper : public Base
{
      std::vector<T>* mVector;
      int size() { return mVector.size(); }
};

int main()
{
     std::vector<int> v;
     // initialize vector

     VectorWrapper<int> w;
     w.mVector = &v;

     std::vector<Base*> all;
     all.push_back(&w)

     return 0; 
}
  • But then if I want to iterate through the vector all, how do I access the underlying mVector without casting to VectorWrapper? In which case I need to know the type which means I can't loop through it? – user3055163 Jun 7 at 8:25
  • Yes, you have to cast. dynamic_cast returns nullptr when the types don't match though so if there's only a few types you expect, you can deal with each case with a dynamic cast and a check that you didn't get nullptr back. But by that point It's probably worth finding a way to do what you're doing without this vector of vectors – Henry Jun 7 at 8:30
  • @user3055163 That's why the whole concept is pretty much flawed. You can only loop through something if you know the type, and there is no easy way to get that type once you create std::vector<SomeType>. std::variant with std::visit might help you, or other forms of rigorous templating (if you have a compile-time mapping from column index to type). – Max Langhof Jun 7 at 8:37

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