"If I add 1 to a pointer, the actual value added will be the size of the type that the pointer points to right?"
There's no guarantee in the C++ Standard that a pointer is the number of the byte of some memory where the pointer points to. If you add an integer
n to a pointer, the result is a pointer to the
nth next element in that array:
int* pi = iarr; // pi points to iarr
int* pi2 = pi+2; // pi2 points to iarr
What you get when you look at, e.g.
int repr = (int)pi; is not defined by the C++ Standard.
What will happen on the most popular platforms/implementations, is that
(int)pi2 == ((int)pi) + 2*sizeof(int)
When you have arrays of pointers, the exact same thing happens:
int** ppi = piarr; // ppi points to iarr
int** ppi2 = piarr+2; // ppi2 points to iarr
Note that the type of
piarr is array of 10 pointer to int, therefore the elements of that array have the type pointer to int. A pointer to an element of that array consequently has the type pointer to pointer to int.
char* ch is an array of 5 pointers to
"Hello" etc. are (narrow) string literals. A (narrow) string literal is an array of n const
char, where n is the length of the string plus 1 (for the terminating
\0 character). Arrays can be implicitly converted to pointers to the first element of the array, this is what happens here:
char* ch =
"I,m a string literal"
ch contains three pointer to char. As those have been obtained by converting arrays to pointers, each of them points to the first element of an array of char: The pointer
ch (the first element of the array
ch) points to the first element of the array "Hi",
ch points to the first element of "There" and so on.
Note there's also a conversion involved from
const char to
char, which is deprecated and should be avoided. The better form would be:
char const* ch =
"I,m a string literal"
*(ch + 2) is interpreted as follows:
ch names that array (see above)
ch + 2 implicitly converts
ch from array of 3 pointers to char to pointer to pointer to char, a pointer pointing to the first element of the array
ch. The type of this expression therefore is pointer to pointer to char.
ch + 2 makes the pointer from the last step now point to the second next element; it pointed to the first element of
ch, so it now points to the third element of the array
*(ch + 2) finally, the
* dereferences the pointer and "fetches" the object pointed to. The pointer created by
ch + 2 points to the 3rd element of the array
ch, therefore, this expression resolves into the third element of the array
ch. The type of the expression now is pointer to char.
The result of the expression is passed to
std::cout::operator<<. As the type of the expression is pointer to char,
cout will print that string: the third element of the array