I am considering the problem of validating real numbers of various formats, because this is very similar to a problem I am facing in design.
Real numbers may come in different combinations of formats, for example: 1. with/without sign at the front 2. with/without a decimal point (if no decimal point, then perhaps number of decimals can be agreed beforehand) 3. base 10 or base 16
We need to allow for each combination, so there are 2x2x2=8 combinations. You can see that the complexity increases exponentially with each new condition imposed.
In OO design, you would normally allocate a class for each number format (e.g. in this case, we have 8 classes), and each class would have a separate validation function. However, with each new condition, you have to double the number of classes required and it soon becomes a nightmare.
In procedural programming, you use 3 flags (i.e. has_sign, has_decimal_point and number_base) to identify the property of the real number you are validating. You have a single function for validation. In there, you would use the flags to control its behaviour.
// This is part of the validation function if (has_sign) check_sign(); for (int i = 0; i
if (number_base = BASE10) // number[i] must be between 0-9 else if (number_base = BASE16) // number[i] must be between 0-9, A-F
Again, the complexity soon gets out of hand as the function becomes cluttered with if statements and flags.
I am sure that you have come across design problems of this nature before - a number of independent differences which result in difference in behaviour. I would be very interested to hear how have you been able to implement a solution without making the code completely unmaintainable.
Would something like the bridge pattern have helped?