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What is wrong in below

int data[2][2] = { {1,1}, {2,2}};
int sum = sum(data, 2);

Sum is defined as

int sum(int **data, int rows);

data contains the address of the data[0], so it can be treated as a pointer. The *data leads me to the value, which is another array of type int. This another array should be treated as pointer to first element. Hence why do compiler complains at the argument for int **data?

I get a compiler error as show below. I understand the error, but my question is why **data is not acceptable.

error: cannot convert int (*)[2] to int** for argument 1 to int sum(int**, int)
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What's the actual problem? Is it not compiling? If not, post the compiler output. – Brady May 22 '12 at 13:27
This question may help:… – Vaughn Cato May 22 '12 at 13:40

No matter if an array is one-dimensional or multi-dimensional, it can only be converted to pointer to the first element, and not to pointer to array of pointers.

To understand why, analyze how arrays are laid out in memory.

int data[3]
0.......4.......8...... (assume sizeof(int)==4)
data[0] data[1] data[2]
^ &data[0]

int data[3][2]
data[0][0] data[0][1] data[1][0] data[1][1] data[2][0] data[2][1]
^ &data[0][0]

All elements are always laid out linearly, so every array (one or multi-dimensional) is representable as pointer to the first element (arr[0][0]...[0]), and only so. Multidimensional arrays can not be represented as pointer to array of pointers, because those arrays of pointers do not exist anywhere.

Dimensions are merely compile-time hints for translating into address (arr[i][j] becomes *(array_memory + i*H + j)). Pointer to pointer is entirely different structure than arrays; indexing it looks the same syntactically, but it causes entirely different thing to happen (ppi[i][j] becomes *(*(ppi + i) + j).

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Which spec states that a multi-dimensional array would be linear in ram? – Jimm May 22 '12 at 14:00
@Jimm I can not find that in the standards, but the requirement for an n-dimensional array to be implicitly convertible to pointer to (n-1)-dimensional array makes it the only possible option. – hamstergene May 22 '12 at 14:27

You are supposed to include the size of the array in the definition of the parameters.

    int sum(int data[2][2], int rows);

Note: If it was a dynamic array, then what you did before is right.

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Not entirely true, the way his function is declared is perfectly valid as well. – Dan F May 22 '12 at 13:29
It seems Jimm wants to keep one dimension dynamic, so I guess int sum(int data[][2], int rows); is needed. – wrock May 22 '12 at 13:33
no, give the Dims in the call is a bad practice. and no what he did before was not right. not for what he meant it to be. – Roee Gavirel May 22 '12 at 13:35

May be this helps:

int sum(int *i, int rows) {
    cout << *i << *(i+1) << *(i+2) << *(i+3);
    return 0;

int main() {
    int data[2][2] = { {1,1}, {2,2}};
    int sum1 = sum(data[0], 2);

    return 0;
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int data[2][2] // It's basically array of 4 values. it's not array of arrays.
the dimentionals just explain the compiler how to access a value.

lets say you have:

data[X][Y] == *(&data)[X*C + Y]  

following this explanation, you should define you function:

int sum(int *data, int rows);

And if you want to show what it does, I may help you use it correctly.

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The array-name-to-pointer decay only happens once, so you get a pointer, not a pointer-to-a-pointer.

A C/C++ array is a contiguous allocation of data elements. An array of arrays is still a contiguous allocation of elements -- it's just that the elements are larger. This is what your error message "cannot convert int (*)[2] to int**" is saying.

Another way to look at it: a double-dereference only works if it points to an array of pointers somewhere. However, C/C++ does not do this for you; you would need to allocate and fill one yourself.

The int (*)[2] type is what allows you to access the array-of-arrays as data[i][j]. If you want to access the array that way, you need to propagate that type everywhere it is used.

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int ** data is a pointer to a pointer to an int.

Passing data to sums first argument is actually just passing a int* to it, which is not identical to int **.

Further, once you're in sum(), it has no idea that int **data points to a 2 dimensional array, it just knows it's a pointer to a pointer to an int...

Dereferencing data the first time gives you a pointer to an int. Dereferencing data the second time gives you the int.

You'll need to change the interface to the sum() function.

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