Can you explain Liskov Substitution Principle (The 'L' of SOLID) with a good C# example covering all aspects of the principle in a simplified way? If it is really possible.

  • 9
    Here's a simplified way of thinking about it in a nutshell: If I follow LSP, I can replace any object in my code with a Mock object, and the nothing in the calling code would need to be adjusted or changed to account for the substitution. LSP is a fundamental support for the Test by Mock pattern. – kmote Jan 9 '14 at 17:16
  • There are some more examples of conformance and violations in this answer – StuartLC Oct 6 '16 at 6:29
  • See for example the IList interface... oops, never mind :D – Boiethios Feb 9 at 10:42
up vote 117 down vote accepted

(This answer has been rewritten 2013-05-13, read the discussion in the bottom of the comments)

LSP is about following the contract of the base class.

You can for instance not throw new exceptions in the sub classes as the one using the base class would not expect that. Same goes for if the base class throws ArgumentNullException if an argument is missing and the sub class allows the argument to be null, also a LSP violation.

Here is an example of a class structure which violates LSP:

public interface IDuck
{
   void Swim();
   // contract says that IsSwimming should be true if Swim has been called.
   bool IsSwimming { get; }
}
public class OrganicDuck : IDuck
{
   public void Swim()
   {
      //do something to swim
   }

   bool IsSwimming { get { /* return if the duck is swimming */ } }
}
public class ElectricDuck : IDuck
{
   bool _isSwimming;

   public void Swim()
   {
      if (!IsTurnedOn)
        return;

      _isSwimming = true;
      //swim logic  

   }

   bool IsSwimming { get { return _isSwimming; } }
}

And the calling code

void MakeDuckSwim(IDuck duck)
{
    duck.Swim();
}

As you can see, there are two examples of ducks. One organic duck and one electric duck. The electric duck can only swim if it's turned on. This breaks the LSP principle since it must be turned on to be able to swim as the IsSwimming (which also is part of the contract) won't be set as in the base class.

You can of course solve it by doing something like this

void MakeDuckSwim(IDuck duck)
{
    if (duck is ElectricDuck)
        ((ElectricDuck)duck).TurnOn();
    duck.Swim();
}

But that would break Open/Closed principle and has to be implemented everywhere (and thefore still generates unstable code).

The proper solution would be to automatically turn on the duck in the Swim method and by doing so make the electric duck behave exactly as defined by the IDuck interface

Update

Someone added a comment and removed it. It had a valid point that I'd like to address:

The solution with turning on the duck inside the Swim method can have side effects when working with the actual implementation (ElectricDuck). But that can be solved by using a explicit interface implementation. imho it's more likely that you get problems by NOT turning it on in Swim since it's expected that it will swim when using the IDuck interface

Update 2

Rephrased some parts to make it more clear.

  • 1
    @jgauffin: Example is simple and clear. But the solution you propose, first: breaks the Open-Closed Principle and it does not fit to Uncle Bob's definition (see the conclusion part of his article) which writes:"The Liskov Substitution Principle (A.K.A Design by Contract) is an important feature of all programs that conform to the Open-Closed principle." see:objectmentor.com/resources/articles/lsp.pdf – pencilCake Dec 13 '10 at 12:46
  • 1
    I don't see how the solution breaks Open/Closed. Read my answer again if you are referring to the if duck is ElectricDuck part. I had a seminar about SOLID last Thursday :) – jgauffin Dec 13 '10 at 12:48
  • 2
    @jgauffin:Please correct me if I am thinking wrongly; but when you do such a type check and if there is some new feature is added to our electric duck which would need to be completed before TurnOn() call (Like InflateTheDuck() ) then it means you have to modify MakeDuckSwim(IDuck duck) method as well. So you do not only extend your electric duck but you also modify MakeDuckSwim method. To me it sounds like a possible break of Open/Closed Principle. – pencilCake Dec 13 '10 at 12:55
  • 2
    @jgauffin - I am slightly confused by the example. I thought the Liskov Substitution Principle would still be valid in this case because Duck and ElectricDuck both derive from IDuck and you can put an ElectricDuck or Duck anywhere IDuck is used. If ElectricDuck has to turn on the before the duck can swim, isn't that the responsibility of the ElectricDuck or some code instantiating ElectricDuck and then setting the IsTurnedOn property to true. If this violates LSP, it seem's that LSV would be very hard to adhere to as all interfaces would contain different logic for it's methods. – Xaisoft Oct 24 '11 at 19:32
  • 1
    @MystereMan: imho LSP is all about behavioral correctness. With the rectangle/square example you get the side effect of the other property being set. With the duck you get the side effect of it not swimming. LSP: if S is a subtype of T, then objects of type T in a program may be replaced with objects of type S without altering any of the desirable properties of that program (e.g., correctness). – jgauffin May 13 '13 at 6:27

LSP a Practical Approach

Everywhere I look for LSP's C# examples, people have used imaginary classes and interfaces. Here is the practical implementation of LSP that I implemented in one of our systems.

Scenario: Suppose we have 3 databases (Mortgage Customers, Current Accounts Customers and Savings Account Customers) that provide customer data and we need customer details for given customer's last name. Now we may get more than 1 customer detail from those 3 databases against given last name.

Implementation:

BUSINESS MODEL LAYER:

public class Customer
{
    // customer detail properties...
}

DATA ACCESS LAYER:

public interface IDataAccess
{
    Customer GetDetails(string lastName);
}

Above interface is implemented by the abstract class

public abstract class BaseDataAccess : IDataAccess
{
    /// <summary> Enterprise library data block Database object. </summary>
    public Database Database;


    public Customer GetDetails(string lastName)
    {
        // use the database object to call the stored procedure to retrieve the customer details
    }
}

This abstract class has a common method "GetDetails" for all 3 databases which is extended by each of the database classes as shown below

MORTGAGE CUSTOMER DATA ACCESS:

public class MortgageCustomerDataAccess : BaseDataAccess
{
    public MortgageCustomerDataAccess(IDatabaseFactory factory)
    {
        this.Database = factory.GetMortgageCustomerDatabase();
    }
}

CURRENT ACCOUNT CUSTOMER DATA ACCESS:

public class CurrentAccountCustomerDataAccess : BaseDataAccess
{
    public CurrentAccountCustomerDataAccess(IDatabaseFactory factory)
    {
        this.Database = factory.GetCurrentAccountCustomerDatabase();
    }
}

SAVINGS ACCOUNT CUSTOMER DATA ACCESS:

public class SavingsAccountCustomerDataAccess : BaseDataAccess
{
    public SavingsAccountCustomerDataAccess(IDatabaseFactory factory)
    {
        this.Database = factory.GetSavingsAccountCustomerDatabase();
    }
}

Once these 3 data access classes are set, now we draw our attention to the client. In the Business layer we have CustomerServiceManager class that returns the customer details to its clients.

BUSINESS LAYER:

public class CustomerServiceManager : ICustomerServiceManager, BaseServiceManager
{
   public IEnumerable<Customer> GetCustomerDetails(string lastName)
   {
        IEnumerable<IDataAccess> dataAccess = new List<IDataAccess>()
        {
            new MortgageCustomerDataAccess(new DatabaseFactory()), 
            new CurrentAccountCustomerDataAccess(new DatabaseFactory()),
            new SavingsAccountCustomerDataAccess(new DatabaseFactory())
        };

        IList<Customer> customers = new List<Customer>();

       foreach (IDataAccess nextDataAccess in dataAccess)
       {
            Customer customerDetail = nextDataAccess.GetDetails(lastName);
            customers.Add(customerDetail);
       }

        return customers;
   }
}

I haven't shown the dependency injection to keep it simple as its already getting complicated now.

Now if we have a new customer detail database we can just add a new class that extends BaseDataAccess and provides its database object.

Of course we need identical stored procedures in all participating databases.

Lastly, the client for CustomerServiceManagerclass will only call GetCustomerDetails method, pass the lastName and should not care about how and where the data is coming from.

Hope this will give you a practical approach to understand LSP.

  • 2
    How can this is example of LSP? – Roshan Ghangare Sep 7 '17 at 10:01
  • I don't see the LSP example in that either... Why does it have so many upvotes? – StaNov Nov 9 '17 at 6:54
  • @RoshanGhangare IDataAccess has 3 concrete implementations which can be substituted in the Business Layer. – Yawar Murtaza Nov 9 '17 at 8:29
  • @YawarMurtaza whatever you example you have quoted is typical implementation of strategy pattern that's it. Can you please clear where it is breaking LSP and how you solve that violation of LSP – Yogesh Joshi Dec 14 '17 at 11:45

Here's the code for applying Liskov Substitute Principle.

public abstract class Fruit
{
    public abstract string GetColor();
}

public class Orange : Fruit
{
    public override string GetColor()
    {
        return "Orange Color";
    }
}

public class Apple : Fruit
{
    public override string GetColor()
    {
        return "Red color";
    }
}

class Program
{
    static void Main(string[] args)
    {
        Fruit fruit = new Orange();

        Console.WriteLine(fruit.GetColor());

        fruit = new Apple();

        Console.WriteLine(fruit.GetColor());
    }
}

LSV states: "Derived classes should be substitutable for their base classes (or interfaces)" & "Methods that use references to base classes (or interfaces) have to be able to use methods of the derived classes without knowing about it or knowing the details."

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