Given the nature of the question, I'm going to provide a somewhat crude answer.
A pointer points to something:
int x = 123; // x is a memory location (lvalue)
int* y = &x; // y points to x
int** z = &y; // z points to y
In the above code, z points to y which points to x which stores an integral, 123.
x->y->z (this is not code, it's a
We can make y point to another integer if we want or NULL to make it point to nothing, and we can make z point to another pointer to an integer if we want or NULL to make it point to nothing.
So why do we need pointers which point to other things? Here's an example: let's say you have a simple game engine and you want to store a list of players in the game. Perhaps at some point in the game, a player can die by having a kill function called on that player:
void kill(Player* p);
We want to pass a pointer to the player, because we want to kill the original player. Had we done this instead:
void kill(Player p);
We would not kill the original player, but a copy of him. That wouldn't do anything to the original player.
Pointers can be assigned/initialized with a NULL value (either NULL or 0) which means that the pointer will not point to anything (or cease to point to anything if it was pointing to something before).
Later you will learn about references which are similar to pointers except a pointer can change what it points to during its lifetime. A reference cannot, and avoids the need to explicitly dereference the pointer to access the pointee (what it's pointing to).
Note: I kind of skirted around your original question, but the sample code you provided has no inherent meaningful behavior. To try to understand that example without first understanding pointers in a general sense is working backwards IMHO, and you'd be better to learn this general theory first.