I am only 6 years late but maybe I can help someone else.
Here are some guidelines I would use:
- If there is a possibility the data will not fit in the future then use the larger int type.
- If the variable is used as a struct/class field then by default it will be padded to take up the whole 32-bits anyway so using byte/int16 will not save memory.
- If the variable is short lived (like inside a function) then the smaller data types will not help much.
- "byte" or "char" can sometimes describe the data better and can do compile time checking to make sure larger values are not assigned to it on accident. e.g. If storing the day of the month(1-31) using a byte and try to assign 1000 to it then it will cause an error.
- If the variable is used in an array of roughly 100 or more I would use the smaller data type as long as it makes sense.
- byte and int16 arrays are not as thread safe as an int (a primitive).
One topic that no one brought up is the limited CPU cache. Smaller programs execute faster then larger ones because the CPU can fit more of the program in the faster L1/L2/L3 caches.
Using the int type can result in fewer CPU instructions however it will also force a higher percentage of the data memory to not fit in the CPU cache. Instructions are cheap to execute. Modern CPU cores can execute 3-7 instructions per clock cycle however a single cache miss on the other hand can cost 1000-2000 clock cycles because it has to go all the way to RAM.
When memory is conserved it also results in the rest of the application performing better because it is not squeezed out of the cache.
I did a quick sum test with accessing random data in random order using both a byte array and an int array.
const int SIZE = 10000000, LOOPS = 80000;
byte[] array = Enumerable.Repeat(0, SIZE).Select(i => (byte)r.Next(10)).ToArray();
int[] visitOrder = Enumerable.Repeat(0, LOOPS).Select(i => r.Next(SIZE)).ToArray();
System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch();
sw.Start();
int sum = 0;
foreach (int v in visitOrder)
sum += array[v];
sw.Stop();
Here are the results in time(ticks): (x86, release mode, without debugger, .NET 4.5, I7-3930k) (smaller is better)
________________ Array Size __________________
10 100 1K 10K 100K 1M 10M
byte: 549 559 552 552 568 632 3041
int : 549 566 552 562 590 1803 4206
- Accessing 1M items randomly using byte on my CPU had a 285% performance increase!
- Anything under 10,000 was hardly noticeable.
- int was never faster then byte for this basic sum test.
- These values will vary with different CPUs with different cache sizes.
One final note, Sometimes I look at the now open-source .NET framework to see what Microsoft's experts do. The .NET framework uses byte/int16 surprisingly little. I could not find any actually.