Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Let's say we have some object of complex class Foo and some branchy type hierarchy, such as:

class Bar {}
class BarA:Bar{}
class BarB:Bar{}
class BarC:BarA{}

The task is to convert Foo object to one of Bar descendants. We have two sets of rules:

  • Rules about which Bar descendant we should choose according to Foo field values. For example, if foo.Type == "A" and foo.Complex == true than foo should be converted to BarC object.
  • Rules about how to convert foo fields to BarXXX fields. For example, if we choose BarA as target class, than foo.Date should be converted to barA.DateA. But if we choose BarC, foo.Date should be converted to barC.DateC and barC.DateA should be DateTime.MinValue.

I just want to avoid reinventing the wheel and writing spagetti code with tones of conditional logic. I think AutoMapper and ValueInjecter won't help here. I'm looking for some elegant solution. Any advice please?

share|improve this question
Without providing all of the conditions how would we be able to find some trick or pattern in those conditions that let you do something other than just check them all? – Servy Sep 18 '12 at 15:17
The question is not to avoid checking conditions, but to find some general approach. – Alina Sep 18 '12 at 15:24
There is no general case solution that will work regardless of what the conditions are. If we know what the conditions are it's possible that, for those conditions, there's some other way to do it. – Servy Sep 18 '12 at 15:25

There is no need to go for an advanced pattern: a simple list of tuples {predicate, builder} is sufficient to satisfy your requirements.

Create a list of type IList<Tuple<Predicate<Foo>,Func<Foo,Bar>>>, and add pairs of "checkers" and "makers" to it, as follows:

private static readonly IList<Tuple<Predicate<Foo>,Func<Foo,Bar>>> CheckersAndMakers =
    new List<Tuple<Predicate<Foo>,Func<Foo,Bar>>>()
    new Tuple<Predicate<Foo>,Func<Foo,Bar>>(
        f => f.Type == "A" && f.Complex  // Checker
    ,   f => new BarC {DateC = foo.Date} // Maker
,   new Tuple<Predicate<Foo>,Func<Foo,Bar>>(
        f => f.Type == "C" && !f.Complex  // Checker
    ,   f => new BarA {DateA = DateTime.MinValue} // Maker

Now you can go through the checkers in a loop, and use its corresponding maker when you have a match:

Bar MakeFromFoo(Foo f) {
    foreach (var tuple in CheckersAndMakers) {
        if (tuple.Item1(f)) {
            return tuple.Item2(f);
    throw new ApplicationError("Unrecognized foo");
share|improve this answer
Yeah, thank you. This is some kind of Policy Pattern, I keep it as emergency exit :) – Alina Sep 18 '12 at 15:33
@Alina I wouldn't glorify this simple trick with a "pattern" name: essentially, two parallel lists of function pointers make it as flexible as it gets, and put all the mapping logic in one place. – dasblinkenlight Sep 18 '12 at 15:38

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.