5

I am looking to define two 2d matrices: f and f_transpose of the type: std::array <std::array <float, 3>, dim> and std::array <std::array <float, dim>, 3>. The value of dim is 23.

I want elements f[0][0], f[1][1], f[2][2], f_transpose[0][0], f_transpose[1][1] and f_transpose[2][2] to be 1 and the rest of the elements 0.

These arrays are global variables and I tried the following:

static array <array <float, 3>, dim> f = {{{{1}}, {{0, 1}}, {{0, 0, 1}}}};
static array <array <float, dim>, 3> f_transpose = {{{{1, 0, 0}}, {{0, 1, 0}}, {{0, 0, 1}}}};

This does give me 1 in necessary places, but some of the values that should be 0 are 1 or -1. My understanding is that whatever is not defined will be considered 0, but clearly that's not what is happening. How do I get around this problem?

Edit:

I had to remove the github link present here earlier. But for the answer (and comment) to make sense, I have added the relevant function below:

void print_ffamily(){

    cout << "F Matrix" << endl;
    for (int i = 0; i < 3; i++){
            for (int j = 0; j < dim; j++){
                printf("%0.2f ", f[i][j]);

            }
            cout << endl;
    }

    cout << "F transposed Matrix" << endl;
    for (int i = 0; i < dim; i++){
            for (int j = 0; j < 3; j++){
                printf("%0.2f ", f_transpose[i][j]);

            }
            cout << endl;
    }

}
2

I’m pretty sure both are correct.

For both you started list-initialization which is an aggregate initialization in this case.

For f_transpose you started an initializer for each of the 3 sub-arrays, the missing elements of each array are value-initialized which means zero-initialized for float.
For f you specify initializers for 3 arrays, for their elements the above applies too. The remaining arrays are indirectly (via value-initializaion, < C++11) or directly (≥ C++11) aggregate-initialized which value-initializes and therefore zero-initializes all their elements because the initializer is empty.

Are you verifying the contents correctly?

  • Yes. I believe so. However, I am planning to double check everything A - Z to see if any other part of the code is creating problems. But this is the latest snippet I added and everything so far worked fine. I shall update after checking everything. – skr_robo Mar 24 '17 at 2:19
  • 1
    In print_ffamily you iterate f as if it was f_transpose and the other way around for f_transpose. Just to clarify: C++ is row-major, f has 23 rows with 3 elements each and f_transpose vice versa. – Darklighter Mar 24 '17 at 12:09
  • That was a very silly mistake. Thank You for pointing it out. – skr_robo Mar 24 '17 at 15:32
  • 1
    consider using loops like: for (auto && row : mat) { for (auto && elem : row) { std::cout << elem << ' '; } std::cout << '\n' } to prevent such issues. std::array knows its own size, leverage that. – Darklighter Mar 24 '17 at 15:42

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