C arrays are quite confusing and C++ inherited the confusion to be compatible with C. To understand how arrays work, the basics are:
1) array variables behave in expressions as a pointer to its first element except that it is constant (i.e. you cannot do "array = p;") and sizeof(array) will give you the size of the array (size of one element times the number of element) while sizeof(pointer) will give you the size of a pointer.
int array[5];
int* p = array;
Then the following expression are true:
array[0] == *array
sizeof(array) == sizeof(int)*5
sizeof(p) == sizeof(void*)
2) When you define an argument of a function as an array, it is always passed as a pointer to the first element. And behaves in the function as such. In fact, C ignore in that case the size of the passed array. Even more, defining in a function an argument as an array or pointer to an element of the array is considered the same by the compiler. So:
void func(int array[5]);
void func(int array[]);
void func(int *array);
declares the exact same function, and inside this function, sizeof(array)==sizeof(void*)
Because of that, arrays seems to be always passed by reference, looking like a pointer to its first element.
Now, multi dimensional arrays are just in fact single dimensional array whose elements are arrays. The confusing part in C/C++ about that is the confusing way C/C++ defines types in general. So:
test* array[9][9];
Remember that to read C/C++ type, you start from the identifier and that [] and () have precedence, so array is an array of 9 elements (first [9]) which are arrays of 9 elements (second [9]) which are pointers to type "test".
Now for the arr argument in this method:
bool sodoku::theRow(test (*arr)[9][9], int testNumber, int row)
arr is a pointer (parentheses change the precedence) to an array of 9 arrays of 9 "test" elements.
This is very different from the previous "array" variable above, especially because "array" contains pointers to "test" while arr contains "test" element...
BTW, the following declaration is completely identical:
bool sodoku::theRow(test arr[][9][9], int testNumber, int row)
as "arr" can also be interpreted as a pointer to the first element of an array of 9 arrays to 9 "test"...
In practice, what you probably want to do is passing arrays of 9 arrays of "test", so:
boot sudoku::theRow(test arr[][9], int testNumber, int row)
{ ... }
test array[9][9];
sudoku::theRow(array, 0, 0);
And the method could also be defined as:
boot sudoku::theRow(test (*arr)[9], int testNumber, int row)
{ ... }
A lot of information exists on the internet about this very confusing array/pointer mix-up of C/C++, for example: http://pw1.netcom.com/~tjensen/ptr/pointers.htm