Explicit Interface Implementation

A class that implements an interface can explicitly implement a member of that interface. When a member is explicitly implemented, it cannot be accessed through a class instance, but only through an instance of the interface.

This example declares an interface IDimensions, and a class Box, which explicitly implements the interface members Length and Width. The members are accessed through the interface instance myDimensions.

// explicit1.cs

interface IDimensions 

{

   float Length();

   float Width();

}

class Box : IDimensions 

{

   float lengthInches;

   float widthInches;

   public Box(float length, float width) 

   {

      lengthInches = length;

      widthInches = width;

   }

   // Explicit interface member implementation: 

   float IDimensions.Length() 

   {

      return lengthInches;

   }

   // Explicit interface member implementation:

   float IDimensions.Width() 

   {

      return widthInches;      

   }

   public static void Main() 

   {

      // Declare a class instance "myBox":

      Box myBox = new Box(30.0f, 20.0f);

      // Declare an interface instance "myDimensions":

      IDimensions myDimensions = (IDimensions) myBox;

      // Print out the dimensions of the box:

      /* The following commented lines would produce compilation 

         errors because they try to access an explicitly implemented

         interface member from a class instance:                   */

      //System.Console.WriteLine("Length: {0}", myBox.Length());

      //System.Console.WriteLine("Width: {0}", myBox.Width());

      /* Print out the dimensions of the box by calling the methods 

         from an instance of the interface:                         */

      System.Console.WriteLine("Length: {0}", myDimensions.Length());

      System.Console.WriteLine("Width: {0}", myDimensions.Width());

   }

}

OUT PUT  

Length: 30

Width: 20

Explicit interface implementation also allows the programmer to inherit two interfaces that share the same member names and give each interface member a separate implementation. This example displays the dimensions of a box in both metric and English units. The Box class inherits two interfaces IEnglishDimensions and IMetricDimensions, which represent the different measurement systems. Both interfaces have identical member names, Length and Width.

// explicit2.cs

// Declare the English units interface:

interface IEnglishDimensions 

{

   float Length();

   float Width();

}

// Declare the metric units interface:

interface IMetricDimensions 

{

   float Length();

   float Width();

}

// Declare the "Box" class that implements the two interfaces:

// IEnglishDimensions and IMetricDimensions:

class Box : IEnglishDimensions, IMetricDimensions 

{

   float lengthInches;

   float widthInches;

   public Box(float length, float width) 

   {

      lengthInches = length;

      widthInches = width;

   }

// Explicitly implement the members of IEnglishDimensions:

   float IEnglishDimensions.Length() 

   {

      return lengthInches;

   }

   float IEnglishDimensions.Width() 

   {

      return widthInches;      

   }

// Explicitly implement the members of IMetricDimensions:

   float IMetricDimensions.Length() 

   {

      return lengthInches * 2.54f;

   }

   float IMetricDimensions.Width() 

   {

      return widthInches * 2.54f;

   }

   public static void Main() 

   {

      // Declare a class instance "myBox":

      Box myBox = new Box(30.0f, 20.0f);

      // Declare an instance of the English units interface:

      IEnglishDimensions eDimensions = (IEnglishDimensions) myBox;

      // Declare an instance of the metric units interface:

      IMetricDimensions mDimensions = (IMetricDimensions) myBox;

      // Print dimensions in English units:

      System.Console.WriteLine("Length(in): {0}", eDimensions.Length());

      System.Console.WriteLine("Width (in): {0}", eDimensions.Width());

      // Print dimensions in metric units:

      System.Console.WriteLine("Length(cm): {0}", mDimensions.Length());

      System.Console.WriteLine("Width (cm): {0}", mDimensions.Width());

   }

}

OUT PUT   

Length(in): 30

Width (in): 20

Length(cm): 76.2

Width (cm): 50.8

Default implementation of methods

If you want to make the default measurements in English units, implement the methods Length and Width normally, and explicitly implement the Length and Width methods from the IMetricDimensions interface:

// Normal implementation:

public float Length()

{

   return lengthInches;

}

public float Width()

{

   return widthInches;

}

// Explicit implementation:

float IMetricDimensions.Length() 

{

   return lengthInches * 2.54f;

}

float IMetricDimensions.Width() 

{

   return widthInches * 2.54f;

}

In this case, you can access the English units from the class instance and access the metric units from the interface instance:

System.Console.WriteLine("Length(in): {0}", myBox.Length());

System.Console.WriteLine("Width (in): {0}", myBox.Width());  

System.Console.WriteLine("Length(cm): {0}", mDimensions.Length());

System.Console.WriteLine("Width (cm): {0}", mDimensions.Width());