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I tried debugging the following code, and I get an "access violation" error. I do not understand why the second loop fails when accessing the second row of elements while the first loop is able to access all the elements.

I'm messing up the *, & and [], but can't figure it out.


#include <iostream>

void a(const int* data, unsigned int nElements, unsigned int nColumns) {

    for (unsigned int i = 0; i < nElements; ++i)
        std::cout << data[i];

    for (unsigned int i = 0; i < nElements / nColumns; ++i)
        for (unsigned int j = 0; j < nColumns; ++j)
            std::cout << (&data)[i][j];

int main() {
    int arr[2][5] = {
        { 0, 1, 2, 3, 4 },
        { 5, 6, 7, 8, 9 }

    a(*arr, 2 * 5, 5);

    return 0;
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Could you explain what you're trying to do a bit more? It's kinda unclear. –  Ben May 17 '14 at 23:27
the real issue is here: (&data)[i]. because data is a single element in the argument, &data is a pointer to a single element. this means that i>0 is a problem. a multi-dimensional array is really a block of memory, and when you do [i][j] on a multi-dimensional array, the compiler treats it differently than [i][j] on an array of pointers. [i][j] on multidimensional array is the same as [i*numcolumns+j]. –  thang May 17 '14 at 23:44

4 Answers 4

up vote 0 down vote accepted

You lost all type information once you are in your a function, so you cannot expect the subscript operators to work as you don't say what size the array has. Specify the size in the parameter listing and subscripting will work:

void a(int const (&data)[2][5]) {
  for (auto const& row : data)
    for (auto i : row)
      ::std::cout << i << " ";
  ::std::cout << ::std::endl;

You can then even go crazy and change the prototype to:

template <size_t R, size_t C>
void a(int const (&data)[R][C]) {

So it works for all 2D arrays.

share|improve this answer
After removing the asterisk when passing the argument -- a(arr, 2 * 5, 5);, and specifying the size in the parameter like in your example, also removing the ampersand when accessing data, I was able to use two subscript operators. I didn't think it was out of bounds, as the first loop was able to access the same memory; and that was the question which I had that you answered in the first part of your first sentence. However, I still do not understand what you mean by "lost all type information." Can you please expand on that, or share a source where I can read more about it. Thank you. –  user2570380 May 18 '14 at 2:05
@user2570380: When you say a[1][2] (for example) you need the type system in order for a[1] to resolve to the correct address (which is the element 0 of array 1). This is due to the fact that the address depends on the size of the second dimension. If you have a 2x5 int array, every increment in the first subscript has to "jump" 5 int values. You can only do this with the static type matching the runtime type. If all you have is an int* how should the compiler or cpu know what it is supposed to do with a[1][2]? –  bitmask May 18 '14 at 8:58

(&data)[i] is clearly bogus. data is a variable which is not an array. It's legal to write (&data)[0] and treat a variable like an array with one element. However, if i > 0 then you attempt to access memory after where data is stored, which is not any memory you own. (Don't mix up the pointer data with the things it is pointing to).

The syntax you are looking for is:

std::cout << data[i * nColumns + j];

This * is of course multiplication, not the dereference operator. When calling this function you are "flattening" the array by treating it as if it were a 10-element 1-D array, so you need to use arithmetic to work out the required index.

Finally, in the function call, *arr should be (int *)&arr or (int *)arr. What you have actually written is arr[0], which is a 5-element array. It's an out-of-bounds access to try and read more than 5 elements from it in your function. In practice, compilers don't try to detect out-of-bounds accesses for efficiency reasons and it will appear to work.

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Change the line in the double for loop to:

std::cout << data[i * nColumns + j];
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*arr is equal to *(arr + 0) which is equal to arr[0]. arr[0] only has 5 nElements, not 10. Call the function like this:

a(*arr, 5, 5);
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