If the question is trying to get at pointers versus arrays, they are not always compatible. This is hidden in the presented code because the array is immediately converted to a pointer.
int* array1 = new int[5]; // Legal, initialising pointer with heap allocated array
int array2[5] = {0}; // Declaring array directly on the stack and initalising with zeros
int *p = 0; // Declaring pointer and initialising to numm
p = array2; // Legal, assigning array to pointer
p = array1; // Legal, assigning pointer to pointer
array1 = p; // Legal, assigning pointer to pointer
array2 = p; // ILLEGAL, assigning pointer to array
Here array2 has an array type and cannot be used to store a pointer. Actually, the array cannot be reassigned at all, as it is not an l-value.
int array3[5] = {0}; // Declaring array directly on the stack and initalising with zeroes
array3 = array2; // ILLEGAL, array not an l-value
The array has a fixed address and reassiging it would be similar to trying to write:
int i = 0;
&i = p;
[Hopefully, trying to reassign the location of a variable is obvious nonsense.]