In the first section, you declare
y to be a single
char: not an array of them. So when you try to read in a word, only the first letter "fits" within that single
char space. The rest of the characters that are read in will actually "overflow" the space you had allocated for it, giving you those errors.
If you want to have more letters, you need to define
y as an array of
char, so either:
char* y = new char; // Create an array of 50 chars, on the HEAP, not the stack
char y; // Create an array of 50 chars, on the STACK, not the heap.
Think of a STACK as an area within your house. Your house isn't HUGE, but it's large enough for you to do most of the necessary things. You can pile 50 boxes in a corner of the room, and when you leave the room, your maid comes along and gets rid of all those left-over boxes for you. You don't have to manually clean them up.
Think of a HEAP as an extremely large storage locker. You, and every other program running on your computer, share space in this storage locker. Whenever you need some additional space, you "rent" a small room within it, and are given a piece of paper with the room's (memory) address written on it. This piece of paper can be copied, so any of your friends who want to get into your boxes can do so.
So you go to the storage locker, and request a room that will fit 50 boxes. They hand you a piece of paper with the (memory) address of that room. You can use up as much of those boxes in that room as you want: it's yours.
You can even give the address of your room to your friend
x. Your friend
x can access the boxes, change stuff within the boxes, and go to town with the content of your room. But
x cannot change the location of your room.
x can also share the (memory) address of that room with others if he wants.
Now, you are done using your room. If you throw away your paper with the address of your room, the room is still allocated with your name on it. But you don't have access to it anymore, since you don't know its address. But if your friend still has a copy of your paper, THEY can still access the contents of your room. That's like allocating
char *y = new char and then simply exiting the function without deleting
If everyone discards their papers with your room's (memory) address on it, the room is still there, and you now have "leaked memory": it's been allocated, but no one points to it. It will remain unused for the lifetime of your program.
Let's say that, before you are done with your room, you inform the storage manager that it's free to clean up: you're moving out. The manager unregisters your room: you have no "leaked memory." That's like using
delete  y before you close the function.
The one caveat is that something bad can still happen: If you, or your friend
x, still point to the room after it's been unregistered with the storage manager, and you try to access it now, that becomes a problem: the boxes MIGHT still be there, but there's a good chance that someone else is now using up some (or all) of that space, and you're looking at the contents of THEIR room. You want to avoid that.
All of the stuff in your example is just fancy ways of saying "give my friend the address of that memory." Sure, you have access to it, but now a friend can point to it as well.