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So I was looking at the MSDN example here: Constraints on Type Parameters (C# Programming Guide) and the 1st example shows the following generic class defining a where constraint with a single concrete type: Employee

public class GenericList<T> where T : Employee

Now when using a where constraint I totally understand the use when defining > 1 type, or most certainly when using an Interface. However (and I know it was only an example), why would I ever want to just use a where constraint to restrict to a single concrete type? Couldn't I just replace the code below:

public T FindFirstOccurrence(string s)

with the following since there is only a single constraint anyway?

public Employee FindFirstOccurrence(string s)

The only reason I could see deploying code with a single where constriant is for flexibility in the future to add additional constraints for if Employee became IEmployee and I was set up a bit easier for the changes.

Can someone explain what purpose using a where constraint for a single type provides?

Thanks!

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4 Answers

up vote 10 down vote accepted

why would I ever want to just use a where constraint to restrict to a single concrete type?

Not quite right there - the constraint is on the Employee type and any type that inherits from it, so it can apply to Manager and CEO classes as well.

Defining the constraint means you can use any accessible methods on the Employee type inside your code, whether the passes in type is an Employee or an inheriting type.

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If the method was non-generic and just returned an Employee you could still return a Manager or a CEO and utilize whatever Employee publicly exposes, and have polymorphic behavior. –  Servy Nov 27 '12 at 16:52
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This is a common pattern you see with fluent interfaces. Consider the following example code:

public class Employee {}
public class Manager : Employee{}

public static T Method<T>(T employee) where T : Employee
{
    //do some stuff with the employee
    return employee;
}

Now when calling the method we can do:

Employee employee = new Employee();
employee = Method(employee);

Manager manager = new Manager();
manager = Method(manager);

If we just returned an Employee instead of T then this second method call would return an Employee, but here it returns a Manager. We avoid upcasting the type while still maintaining static typing. There are other situations in which it's useful as well, but that underlying principle is a common use of generics.

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The type T is a generic one and as you said it could probably be an interface or a base class. This means that, besides flexibility and other stuff like that, you can insert other classes that implement/extend the interface/base class. So type T could practically mean multiple classes.

Let's say that T is a base class Shape, so Square, Rectangle and Triangle extend T. When you have the constraint with T you can practically inject or a Square, Rectangle, or Triangle and each of them have their own implementation.

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The purpose is for the compiler to know what method/property signatures can be used in the generic implementation.

Consider this:

public class Employee{
     public string Name{get;set;}
     public double Salary{get;set;}
}

public class Manager : Employee{
    public List<Employee> Manages{get;set;}
}

public class PayrollList<T> : List<T> where T:Employee{
    public void SendOutPeriodPay(){
    // Note that employee.Name and .Salary are accessible 
    // even if the list is of Manager type
        this.ForEach(employee=>PaySystem.SendPay(employee.Name,employee.Salary));
  }
}
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