Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I do not think this is possible and curious if it is or why it is not:

class A


I would like to treat instances of A as functions such as

A a = new A();


This is to treat classes as functions for special cases when it is useful to do so. For example, I'm essentially wrapping a Func object but would love to treat an instance of such a class to act as the Func object itself. This way I don't have to have a "dummy" function to call in the class.

    public class Condition
        protected Func<bool> Eval { get; set; }
        protected bool Or = false;

        protected Condition() { }
        public Condition(Func<bool> f, bool Or = false) { Eval = f; this.Or = Or; }
        protected Func<bool> GetEval(Condition c) { return c.Eval; }
        protected bool GetOr(Condition c) { return c.Or; }


    public class ConditionBlock : Condition
        List<Condition> Conditions;

        public ConditionBlock() { Eval = _Eval; }

        public ConditionBlock(List<Condition> Conditions) : this() { this.Conditions = Conditions; }
        public ConditionBlock(Condition[] Conditions) : this() { this.Conditions = new List<Condition>(Conditions); }
        public void Add(Condition c) { if (Conditions == null) Conditions = new List<Condition>(); Conditions.Add(c); }

        private bool _Eval()
            if (Conditions == null || Conditions.Count == 0) return true;

            bool ans = !GetOr(Conditions[0]);
            for (int i = 0; i < Conditions.Count; i++)
                ans = GetOr(Conditions[i]) ? ans | GetEval(Conditions[i])() : ans & GetEval(Conditions[i])();

            return ans;

        public bool _()
            return Eval();

To initiate the Computation I call the member (), e.g., cblock.(). It would look much nicer if I could call it as cblock(). Effectively a ConditionBlock is a compound function. Would be nice to be able to treat it as such. Using _() is quite ugly as is renaming it to anything else such as cblock.fire(), cblock.eval(), etc...

share|improve this question

2 Answers 2

up vote 1 down vote accepted

You could always just provide an indexer (or overloaded indexers).

The only difference would be square brackets.

share|improve this answer
I thought about that but not sure. Might be more confusing than not... –  AbstractDissonance Jan 19 '11 at 9:20

You can't overload the () operator in C#, but that's what delegates are for; they do what you describe, e.g.:

class AccumulateToString
    private int sum;
    public string ToString(int val)
    { this.sum += val; return this.sum.ToString(); }
var fn = new Converter<int, string>(new AccumulateToString().ToString);
Console.WriteLine(fn(2)); // <-- called like a function but is an object w/ state
share|improve this answer
um, I don't want a delegate. I'm wrapping a delegate and I want to treat the class as the delegate. A delegate cannot carry data with it. A class can. –  AbstractDissonance Jan 19 '11 at 5:42
A delegate can carry data with it, because of the Delegate.Target property. I extended the example in my post; take a look at it. –  Mehrdad Jan 19 '11 at 5:59
Ok, but I'm not using Converter. Even so, Target is an object and hence not type safe. –  AbstractDissonance Jan 19 '11 at 6:33
This isn't just with Converter; it works with any delegate, and it's rather type-safe. Can you provide some sample code in C++ that you believe cannot be replicated accurately or safely in C#? –  Mehrdad Jan 19 '11 at 6:35
Ok, What I'm creating is a hierarchy of conditions. A condition is essentially a boolean function that takes no arguments. e.g., Func<bool>. There is some data associated with a condition which is simply how it is combined with other conditions(and or or). e.g., The hierarchy represents a compound boolean expression which is instantiated through xml. Hence the composite pattern is used. I've added the code to the original post(since I can't do it here) –  AbstractDissonance Jan 19 '11 at 7:17

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.