This is occurring because, as @DrummerB pointed out, your
int variable only has enough bits to store integral values in the range of
2,147,483,647. The reason this gets "reset" or "rolls over" back to a negative has to do with how computers store data, which is in binary.
For example, if you had an 8-bit integer (otherwise known as a
byte) can store integral values from
255 if it is unsigned (meaning it can only store positive values) and
127 if it is signed (meaning it can store negative numbers). When an integer reaches its max value, it is represented in memory by all ones as you see here with the unsigned value
255 = 11111111
So the maximum number that can be stored in an 8-bit
255. If you add
1 to this value, you end up flipping all the
1 values so that they are zeroes and since storing the value
256 would require a 9th bit you lose the 9th bit entirely and the integer value will appear to "roll over" to the minimum value.
Now.. As I stated above, the result of the addition above yields the value
256, but we only have 8 bits of storage in our integer so the most significant bit (9th bit) is lost. So you can picture it kinda like this with the pipes
| marking your storage area:
only 8 bits of storage total
255 = 0|11111111|
+ 1 = 0|00000001|
256 = 1|00000000|
9th bit is lost
unsigned int, the same is true, however the first bit is used to determine if the value is negative so you gain signing but you lose 1 bit of storage, resulting in your only having enough space to store the values
127 and 1 bit for signing.
Now that we understand what's going on, it should be noted that iOS is, at the time of this writing, a 32-bit operating system and while it can handle larger integers you probably don't want to use them all over the place as it's not optimized to work with these values.
If you just want to increase the range of values you can store in this variable, I would recommend changing it to an
unsigned int, which can be done using the