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Suppose I've a heterogeneous sequence of type that derives from Animal and Food.

That should transformed in instances of derived types: Fed, NotFed and BadFed.

var seq1 = new[] { new Fish(), new FishFood(), new Horse(), new DogFood(), new Dog() };

should be turned into

var seq2 = new [] {  new FishFed(), new HorseBadFed(), new DogNotFed() };

The logic is:

  • if an Animal has proper food in the next element then a XXXFed instance is created;

  • if there's a food in next elem. but is not good for that Animal -> XXXBadFed;

  • otherwise if not food in the next element -> XXXNotFed.

Processing a sequence using conditional on next items it's less than trivial with iterations.

How can I use Linq or IEnumerable<T> extension methods to abstract sequence processing that involves state?

I know that Aggregate use an accumulator function for doing something similar; is this my case? Or better can use it to create a new sequence?

It's correct to use a memoization function to solve such problems without imperative code?

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Some extension methods has overloads with index, so you can write something like this: collection.Method((c, i) => do smth with c and collection[i+1]). –  aush Mar 10 '13 at 10:12
@aush, overloads with index could be helpful, but I need to investigate further if enough. –  jay Mar 10 '13 at 10:28

2 Answers 2

up vote 3 down vote accepted

I would first create pairs using the Zip function and then process the collection of pairs instead.

        var seq1 = new object[] { new Fish(), new FishFood(), new Horse(), new DogFood(), new Dog() };
        var count = seq1.Length;
        var foodSeq = seq1.Skip(1).Concat(new object[]{null});
        var dinnerPairs = seq1.Zip(foodSeq, (eater, food) => Tuple.Create(eater as Animal, food as Food)).Where(t => t.Item1 != null);
        var result = dinnerPairs.Select(t => t.Item1.Feed(t.Item2));

The Feed method on the Animal class would be overriden by each animal. E.g. for dog it would return DogNotFed in case of null, DogFad in case of DogFood and DogBadFed otherwise. If you have a strict naming convention, you could create those types dynamically using reflection.

public abstract class Animal
    public abstract Animal Feed(Food food);

EDIT: How I imagine the Feed method could resolve your logic using reflection, not tested though.

public Animal Feed(Food food)
        var myType = this.GetType().FullName;
        if (food == null) return GetNewObject(myType + "NotFed") as Animal;
        if( food.GetType().FullName == myType+"Food") return GetNewObject(myType+"Fed") as Animal;
        return GetNewObject(myType+"BadFed") as Animal;

    public static object GetNewObject(string typeName)
            var t = Type.GetType(typeName);
            return t.GetConstructor(new Type[] { }).Invoke(new object[] { });
            return null;
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+1 for the use of zip (that force me to investigate); but your sample don't take into account the variability of seq1. It directly solves the particular state of seq1, it's not general. Anyway it helped! –  jay Mar 10 '13 at 10:33
Actually it does, it takes only those pairs, who have an Animal as the first item. The part "eater as Animal" succeeds on all objects, the null objects are then filtered in the Where condition. –  Tomas Grosup Mar 10 '13 at 10:35
yes. But I mean it's tied to the knowledge you've of seq1. If seq1 would be completely different? Sure it solves, if yes.. my mistake. –  jay Mar 10 '13 at 10:38
I will send you also the code using reflection to build the result types, you may need to change it if your types are in different namespaces or assemblies. –  Tomas Grosup Mar 10 '13 at 10:41
Hi, I only know about MoreLINQ - code.google.com/p/morelinq –  Tomas Grosup Mar 20 '13 at 9:46

In the real life, who it responsible for eating a food and getting sick or full or still staying hungry? It would be the animal itself.

So why not have an interface IConsumeFood implemented by an Animal type? Its method Consume would get some food and return the result of the food consumption.

Then you will be able to call this method on each animal, put all the food you have in there (the whole array) and let the animal decide what to eat, what not to eat and return you the appropriate result such as XXXFed, XXXNotFed, etc.

What I want you to avoid here is manipulations with type names or having tons of "ifs" around. It would be too dirty even for prototyping. Think of responsibilities and concerns, that's why we have OOP in the first place anyway :)

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