I looked up EuroMillions and Pick 4. I see that the former ranges from 1-50 and the latter is 0-9. I think we can assume any number is equally probable (some compression schemes exploit the fact that certain numbers are more likely to occur than others).
The most reasonable trade-off you could make if you wanted to work with a large set in memory is to make sure that each character is represented by no more than 1 byte (which can hold values from 0-255). That might be harder to do in higher level languages which often just have a "number" type without any finer granularity. But C/C++ or even Java should allow you to do this.
If you wanted to store a large set of these equally probable numbers on disc, look at the minimum number of bits required to store a number. For EuroMillions, you would need 6 bits to store a number (2^6 = 64). Then store them in a bitstream in order to save 2 bits per number. With Pick 4, you could encode 2 numbers in a single byte.