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In C++ in ROOT (the CERN language), I have declared a 2D array of histograms:

TH1F *hist[xlen][ylen];

where xlen and ylen are not variable-length; I assign them values in my code.

I would like to pass this 2D array into a function. I'm having trouble specifying the input parameter, however. Can someone help me out?

For an example, I can pass a 1D histogram (TH1F *hist[length];) with a function like,

void func(TH1F** Hist) {
  cout<<Hist[0]<<endl;
}

Please note that although my 2D histogram has a definite size (i.e. xlen, ylen), as defined in my code, I do not want the function to be limited to arrays of a single size.

  • 1
    Have you tried the solutions from here? – NathanOliver Aug 17 '17 at 15:04
  • 1
    Possible duplicate of C -- passing a 2d array as a function argument? – Noam Ohana Aug 17 '17 at 15:08
  • are xlen and ylen constants in the sense that you could define them like #define xlen 10? – Stephan Lechner Aug 17 '17 at 15:10
  • @stephan-lechner: I just define them differently for arrays with different purposes. i.e. TH1F *hists1[5][10] and TH1F *hists2[3][5], etc. @n-o and @nathanoliver: it's not quite the same because the histograms are declared as pointers, I believe – Dan Aug 17 '17 at 15:12
  • "I do not want the function to be limited to histograms of a single size." You mean that every row (histogram) could have different size? Am i understanding right? – kocica Aug 17 '17 at 15:15
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If you want to use the same function for different dimensions within the same program, the only way I see is to pass a pointer to the first element of the array together with the dimensions and then calculate each index on your own, i.e. by current_row_index * column_size + current_column_index:

void func(int rows, int columns, int **hist) {

    static int arr[10] = {0,1,2,3,4,5,6,7,8,9};

    for(int r=0; r<rows; r++) {
        for(int c=0; c<columns; c++) {
            int* aPtr = &arr[(r*columns+c)%10];
            hist[r*columns + c] = aPtr;
            cout << *hist[r*columns + c] << " ";
        }
        cout << endl;
    }
}

int main() {


    int *a20x10[20][10] = {};
    int *a5x3[5][3] = {};

    func(20,10,&a20x10[0][0]);
    func(5,3,&a5x3[0][0]);

    return 0;
}
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/*But first of all you want to pass by reference, so a 
* more correct function call might be:
*/

void Call(TH1F **Hist, size_t size_x, size_t size_y);

/* allows changing hist or setting to NULL
 * in function
 */
void Call2(TH1F ***Hist, size_t size_x, size_t size_y);

/* with a call like */

int main(void)
{
    TH1F *hist[xlen][ylen] = NULL;

    /* malloc here/memset hist */

    Call(*hist, xlen, ylen);
    Call2(hist, xlen, ylen);
    return (0);
}
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You can do this with a template function. The template will automatically pick up the dimensions of the array.

template<int C, int R>
void func(TH1F* (&hist)[C][R])
{
    cout << hist[0][0] << endl;
}
  • calling it by doing func(hist) gives error: no matching function for call to 'func'. note: candidate template ignored: could not match 'TH1F *' against 'TH1F *' – Dan Aug 17 '17 at 19:37
  • The only thing I can think of is there's a difference between using TH1F as a struct versus the actual class implementation of TH1F in ROOT. Other than that, I'm not completely sure why it fails for me. – Dan Aug 17 '17 at 19:45
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I managed to get it to work trivially by circumventing the issue: Using a vector of vectors instead of a 2D array.

The answer by Stephan seems the closest to solving it as intended, but did not work. It is also a bit too complicated for me to know how to adjust the code to make it work.

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