Can you explain to me;

  • What is a Predicate Delegate?
  • Where should we use predicates?
  • Any best practices when using predicates?

Descriptive source code will be appreciated,

Thanks for all replies!

up vote 309 down vote accepted

A predicate is a function that returns true or false. A predicate delegate is a reference to a predicate.

So basically a predicate delegate is a reference to a function that returns true or false. Predicates are very useful for filtering a list of values - here is an example.

using System;
using System.Collections.Generic;

class Program
{
    static void Main()
    {
        List<int> list = new List<int> { 1, 2, 3 };

        Predicate<int> predicate = new Predicate<int>(greaterThanTwo);

        List<int> newList = list.FindAll(predicate);
    }

    static bool greaterThanTwo(int arg)
    {
        return arg > 2;
    }
}

Now if you are using C# 3 you can use a lambda to represent the predicate in a cleaner fashion:

using System;
using System.Collections.Generic;

class Program
{
    static void Main()
    {
        List<int> list = new List<int> { 1, 2, 3 };

        List<int> newList = list.FindAll(i => i > 2);
    }
}
  • @Andrew Hare: in your first code snippet, should that be yeild return instead? Or how does that work, how does it iterate over the whole list? – VoodooChild Sep 26 '11 at 16:42
  • 4
    @VoodooChild: Remember that the predicate will be called for each element in the sequence in turn. So greaterThanTwo has return not yield return since it is the FindAll method that is handling the sequence for you. – Andrew Hare Sep 26 '11 at 21:36
  • @AndrewHare , is it possible to have i > val , instead of i > 2 , where val is value entered by user. – Mourya Mar 25 '13 at 8:18

Leading on from Andrew's answer with regards to c#2 and c#3 ... you can also do them inline for a one off search function (see below).

using System;
using System.Collections.Generic;

class Program
{
    static void Main()
    {
        List<int> list = new List<int> { 1, 2, 3 };

        List<int> newList = list.FindAll(delegate(int arg)
                           {
                               return arg> 2;
                           });
    }
}

Hope this helps.

Just a delegate that returns a boolean. It is used a lot in filtering lists but can be used wherever you'd like.

List<DateRangeClass>  myList = new List<DateRangeClass<GetSomeDateRangeArrayToPopulate);
myList.FindAll(x => (x.StartTime <= minDateToReturn && x.EndTime >= maxDateToReturn):

There's a good article on predicates here, although it's from the .NET2 era, so there's no mention of lambda expressions in there.

  • The link in your answer no longer links to an actual article – David Cram Mar 21 '17 at 22:44
  • @David Cram: Thanks, I've updated the link to use the Wayback Machine, although the article is looking really dated nowadays. – LukeH Mar 22 '17 at 0:45

The predicate-based searching methods allow a method delegate or lambda expression to decide whether a given element is a “match.” A predicate is simply a delegate accepting an object and returning true or false: public delegate bool Predicate (T object);

   static void Main()
        {
            string[] names = { "Lukasz", "Darek", "Milosz" };
            string match1 = Array.Find(names, delegate(string name) { return name.Contains("L"); });
            //or
            string match2 = Array.Find(names, delegate(string name) { return name.Contains("L"); });
            //or
            string match3 = Array.Find(names, x => x.Contains("L"));


            Console.WriteLine(match1 + " " + match2 + " " + match3);     // Lukasz Lukasz Lukasz
        }
        static bool ContainsL(string name) { return name.Contains("L"); }

What is Predicate Delegate?

1) Predicate is a feature that returns true or false.This concept has come in .net 2.0 framework. 2) It is being used with lambda expression (=>). It takes generic type as an argument. 3) It allows a predicate function to be defined and passed as a parameter to another function. 4) It is a special case of a Func, in that it takes only a single parameter and always returns a bool.

In C# namespace:

namespace System
{   
    public delegate bool Predicate<in T>(T obj);
}

It is defined in the System namespace.

Where should we use Predicate Delegate?

We should use Predicate Delegate in the following cases:

1) For searching items in a generic collection. e.g.

var employeeDetails = employees.Where(o=>o.employeeId == 1237).FirstOrDefault();

2) Basic example that shortens the code and returns true or false:

Predicate<int> isValueOne = x => x == 1;

now, Call above predicate:

Console.WriteLine(isValueOne.Invoke(1)); // -- returns true.

3) An anonymous method can also be assigned to a Predicate delegate type as below:

Predicate<string> isUpper = delegate(string s) { return s.Equals(s.ToUpper());};
    bool result = isUpper("Hello Chap!!");

Any best practices about predicates?

Use Func, Lambda Expressions and Delegates instead of Predicates.

If you're in VB 9 (VS2008), a predicate can be a complex function:

Dim list As New List(Of Integer)(New Integer() {1, 2, 3})
Dim newList = list.FindAll(AddressOf GreaterThanTwo)
...
Function GreaterThanTwo(ByVal item As Integer) As Boolean
    'do some work'
    Return item > 2
End Function

Or you can write your predicate as a lambda, as long as it's only one expression:

Dim list As New List(Of Integer)(New Integer() {1, 2, 3})
Dim newList = list.FindAll(Function(item) item > 2)

Predicate is a functional construct providing a convenient way of basically testing if something is true of a given T object.

For example, suppose I have a class:

    class Person {
          public string Name { get; set; }
          public int Age { get; set; }
         }

Now let's say I have a List people and I want to know if there's anyone named Oscar in the list.

Without using a Predicate (or Linq, or any of that fancy stuff), I could always accomplish this by doing the following:

    Person oscar = null;
    foreach (Person person in people) {
      if (person.Name == "Oscar") {
      oscar = person;
      break;
    }
  }

 if (oscar != null) {
 // Oscar exists!
}

This is fine, but then let's say I want to check if there's a person named "Ruth"? Or a person whose age is 17?

Using a Predicate, I can find these things using a LOT less code:

Predicate<Person> oscarFinder = (Person p) => { return p.Name == "Oscar"; };
Predicate<Person> ruthFinder = (Person p) => { return p.Name == "Ruth"; };
Predicate<Person> seventeenYearOldFinder = (Person p) => { return p.Age == 
17; };

Person oscar = people.Find(oscarFinder);
Person ruth = people.Find(ruthFinder);
Person seventeenYearOld = people.Find(seventeenYearOldFinder);

Notice I said a lot less code, not a lot faster. Common misconception developers have is that if something takes one line, it must perform better than something that takes ten lines. But behind the scenes, the Find method, which takes a Predicate, is just enumerating after all. The same is true for a lot of Linq's functionality.

So let's take a look at the specific code in your question:

Predicate<int> pre = delegate(int a){ return a % 2 == 0; };

Here we have a Predicate pre that takes an int a and returns a % 2 == 0.

This is essentially testing for an even number. What that means is:

pre(1) == false;
pre(2) == true;

And so on. This also means, if you have a List ints and you want to find the first even number, you can just do this:

int firstEven = ints.Find(pre);

Of course, as with any other type that you can use in code, it's a good idea to give your variables descriptive names; so I would advise changing the above pre to something like evenFinder or isEven -- something along those lines. Then the above code is a lot clearer:

int firstEven = ints.Find(evenFinder);

A delegate defines a reference type that can be used to encapsulate a method with a specific signature. C# delegate Life cycle: The life cycle of C# delegate is

  • Declaration
  • Instantiation
  • INVACATION

learn more form http://asp-net-by-parijat.blogspot.in/2015/08/what-is-delegates-in-c-how-to-declare.html

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