There are other excellent answers to what you should do, so I thought I'd explain what you are doing and why it's compiling and not working.
In C, array reference is done by having an array or pointer and an integer of some sort. (in x, x is the array and 1 is the integer). As long as you're using some integral type, it'll work as you expect.
Suppose you have something that's not an integer. In that case, the C implementation will see if it can convert it to the appropriate type, so you wind up with array and integer. It's cases like this where you get into trouble (and slightly more sophisticated versions of this in C++ have confused more experienced people than you).
In C, a literal string like "one" is of type const char *, meaning pointer to characters you can't change. The actual value is the memory address of where the string actually resides in memory. Normally, you'd pay no attention to this pointer value, and look at the string value, but there's a gotcha here.
In C, any data pointer can be converted to some sort of integer, and will be automatically. Therefore, you've got a string like "one", and its value is whatever number that represents the memory address. Use it where C expects some sort of integer, and it'll get converted to some integral value or other.
Therefore, this is what's happening with x["ONE"]. The C system has to put the string "ONE" somewhere in memory, and it doesn't matter where. It's likely to be somewhere with a fairly large memory address, quite possibly in the billions. When it sees x["ONE"], it tries to convert that value to an integer, and uses it as a subscript. Therefore, you're trying to access the array x far, far beyond its bounds, and that's causing the problem. Either you're trying to use memory you're not allowed to, and the system just stops you, or you're mucking with a chunk of memory you should be leaving alone, and it's likely to fail in some mysterious way later.