Is it a good practice to use byte/short as counter variable when we know the exact number of loops? for example
for (byte i = 1; i <= 26; i++)
for (short i = 1; i <= 26; i++)
for (int i = 1; i <=26; i++)
It is more likely to be confusing than helpful. Most developers expect to see an
int value and you only have 32-bit or 64-bit registers in your CPU so it won't change how your program works or performs.
There are many options which work and are not harmful to your program but you need to think about the poor developer who has to read it and understand it later, this could be you 6 months from now. ;)
It is also not worth making such a change even if the performance were faster unless it was dramatically faster. Consider this change.
for (byte i = 1; i <= 120; i++)
for (byte i = 1; i <= x; i++)
You might thing this is fine as 200 < 2^8 and it compiles just fine, but it's actually an infinite loop.
You have to ask the question; How much faster does it have to be, if you increase the risk of introducing a bug later?
Usually the answer is it has to make my whole program significantly faster in a way I have measured (not just the bit you change) AND I have to need it to be significantly faster.
When you perform some operations on short or byte variable you have to explicitly typecast it back to the required type in java. So it is preferred to use int in place of byte and short. Example :
short s = 0; s= (short) (s+10);
If you do not typecast it to int it will throw compile time error :
Type mismatch: cannot convert from int to short So it is preferred to use int.
As a starting point, use
int which is probably native to the architecture and you'll avoid possible implicit conversions when comparing
i with other bits and pieces. So my bet is that both
short will wind up being slower.
A far cuter optimisation would be to use
++i rather than
i++, as the former will never be slower than the latter. (Conceptually
i++ has to return a copy even though it will be optimised out by a good java compiler).