What do you mean by validation? And what makes you think code that is part of an instance of the Factory design pattern is different from any other code?
If by validation you mean checking of input values read from the user or an input file, the answer is no: the code for parsing the input is responsible for validation, not a Factory that subsequently uses the read values.
If by validation you mean having the factory methods of the Factory checking that their callers have supplied values that conform to the preconditions of those methods, the answer is the same as for any other method that imposes preconditions on its arguments: the consensus style for Java is for methods to check their preconditions and to throw a suitable RuntimeException
if the preconditions are not met.
Now, in practice, this means some input values will be checked twice. First by the input validation code, and then by the precondition checks of the Factory. Partly that is the cost of breaking code into modules (here, a separate input module and service layer).
But it it also allows the checks to report in different ways, which are more appropriate for their purposes.
- A failed precondition check (in the Factory in this case) indicates a bug in the program. We want the precondition failure to report fast and hard, before the program state is altered, to get the most useful information for debugging (In many cases the location of the bug will be a method in the call stack).
- For input validation failures we typically want the program to report as many faults in the input as it can for one parse of the input, so the user can fix them all. Think of the compiler you use: you would be frustrated if it stopped after finding the first syntax error in your source code. Throwing exceptions to implement this is inappropriate. The code should note the fault and continue parsing, if possible, rather than ejecting to a higher level part if the program (which is what throwing an exception does).