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The LSP says "The derived types must not change the behavior of the base types", in other words "Derived types must be completely replaceable for their base types."

This means that if we define virtual methods in our base classes, we have violated this principle.

Also if we hide a method in the drive method by using new keyword then again we have violated this principle.

In other words, if we use polymorphism we have violated LSP!

In many applications I've used Virtual methods in the base classes and now I realize it violates LSP. Also if you use Template Method pattern you have violated this principle that I've used it a lot.

So, how to design your application that complies with this principle when you'd need inheritance and you'd like to benefit also from polymorphism? I'm confused!

See the example from here: http://www.oodesign.com/liskov-s-substitution-principle.html

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"The LSP says "The derived types must not change the behavior of the base types"" - that's not what it says. –  Oliver Charlesworth Jan 18 '13 at 16:54
Have you looked into the [SOLID](en.wikipedia.org/wiki/Solid_(object-oriented_design) design pattern? –  Brian Jan 18 '13 at 16:55
LSP states “objects in a program should be replaceable with instances of their subtypes without altering the correctness of that program”. What is your source? –  Austin Salonen Jan 18 '13 at 16:57
LSP say that any subtype of an object should be able to be substituted for the base type without needing to alter the program. For example if I have abstract my data access, I should be able to swap out a database implemention with a file system implemention without needing to modify the program –  JG in SD Jan 18 '13 at 16:58
@TheLight: I'm afraid you are misinformed; LSP is not about changing behaviour, it's about changing correctness/interface/contract. –  Oliver Charlesworth Jan 18 '13 at 16:59

6 Answers 6

up vote 2 down vote accepted

LSP says that you must be able to use a derived class in the same way you use it's superclass: "objects in a program should be replaceable with instances of their subtypes without altering the correctness of that program". A classic inheritance that breaks that rule is deriving Square class from Rectangle class since the former must have Height = Width, while the latter can have Height != Width.

public class Rectangle
    public virtual Int32 Height { get; set; }
    public virtual Int32 Width { get; set; }

public class Square : Rectangle
    public override Int32 Height
        get { return base.Height; }
        set { SetDimensions(value); }

    public override Int32 Width
        get { return base.Width; }
        set { SetDimensions(value); }

    private void SetDimensions(Int32 value)
        base.Height = value;
        base.Width = value;

In this case, the behavior of Width and Height properties changed and this is a violation of that rule. Let's take the output to see WHY the behavior changed:

private static void Main()
    Rectangle rectangle = new Square();
    rectangle.Height = 2;
    rectangle.Width = 3;

    Console.WriteLine("{0} x {1}", rectangle.Width, rectangle.Height);

// Output: 2 x 2
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It violates LSP not because the code is wrong or has any issue at runtime. It violates LSP because it's not a correct behaviour that it should have. –  The Light Jan 18 '13 at 17:57
Sorry... I don't understand. What do you mean? –  Zarathos Jan 18 '13 at 17:58
I mean who defines what is "correct" and what is not correct? The same codes might be correct and not violating LSP in one application but in another it violates LSP because the definition of correctness would be different in that application. –  The Light Jan 18 '13 at 18:15
@TheLight: The designer of the program. –  Oliver Charlesworth Jan 18 '13 at 18:17
No... there is an absolute definition of correctness which can be commonly defined. It's like saying "I has driving" is correct just because you decide that is correct for you. There are common grammar rules that have been formulated and widely accepted by all the "final users". The same is for programming languages. –  Zarathos Jan 18 '13 at 18:20

Barbara Liskov has a very good article Data Abstraction and Hierarchy where she specifically touches polymorphic behavior and virtual software constructions. After reading this article you can see, that she describes in deep how software component can achieve flexibility and modularity from simple polymorphic calls.

LSP states about implementation details, not abstractions. Specifically, if you consume some interface or abstraction of type T, you should expect to pass all subtypes of T and not to observe unexpected behavior or program crash.

The keyword here is unexpected, because it can describe any of the properties of your program (correctness, task performed, returned semantics, temporarily and so on). So making you methods virtual does not mean by itself violating LSP

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this makes sense. so it is about behavior exactly not contracts. –  The Light Jan 18 '13 at 17:54
Who defines what is correct? IT requires a different eye! –  The Light Jan 18 '13 at 18:13

"The derived types must not change the behavior of the base types" means that it must be possible to use a derived type as if you were using the base type. For instance, if you are able to call x = baseObj.DoSomeThing(123) you also must be able to call x = derivedObj.DoSomeThing(123). The derived method should not throw an exception if the base method didn't. A code using the base class should be able to work well with the derived class as well. It should not "see" that it is using another type. This does not mean that the derived class has to do exactly the same thing; that would be pointless. In other words using a derived type should not break the code that was running smoothly using the base type.

As an example let's assume that you declared a logger enabling you to log a message to the console


You could use constructor injection in a class needing to produce logs. Now instead of passing it the console logger you pass it a file logger derived from the console logger. If the file logger throws an exception saying "You must include a line number in the message string", this would break LSP. However, it is not a problem that the logging goes to a file instead of the console. I.e. if the logger shows the same behavior to the caller, everything is okay.

If you need to write a code like the following one, then LSP would be violated:

if (logger is FileLogger) {
    logger.Write("10 hello"); // FileLogger requires a line number

    // This throws an exception!
} else {

By the way: The new keyword does not influence polymorphism, instead it declares a completely new method that happens to have the same name as a method in the base type but is not related to it. In particular, it is not possible to call it through a base type. For polymorphism to work, you must use the override keyword and the method must be virtual (unless you are implementing an interface).

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If FileLogger inherits from ConsoleLogger so in what situation/s the program would fail to accept the FileLogger (derived class)?! can you make an example with some properties or methods? –  The Light Jan 18 '13 at 17:45
that's the example for OCP violation. –  The Light Jan 18 '13 at 17:48
If the file logger requires the message to be formatted in a specific way (I mentioned a line number as an example) but not the console logger, this would viloate LSP, since code using the logger would most probably have to be changed in order to be able to use the new logger. –  Olivier Jacot-Descombes Jan 18 '13 at 17:51
No, OCP handles the extensibility of a software entity, where as LSP handles the compatibility of a derived type. –  Olivier Jacot-Descombes Jan 18 '13 at 17:57
No, you're explaining the OCP not LSP. LSP is about whether the behavior is still correct for all the subtypes of a base. If you're checking for a specific derived type then having a different implementation then you're violating OCP because later for DatabaseLogger you may want to have a different formatting in your example. –  The Light Jan 18 '13 at 18:06

Subtypes must be replaceable by base types.

In terms of contacts.

Derived class can replace base class pre-condition for the same or weaker and post-condition for the same or greater.


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I think the Liskov's Substitution Principle (LSP) is mainly about moving the implementation of functions that may differ to the children classes and leave the parent class as general as possible.

So whatever you change in the child class, it does not break the Liskov's Substitution Principle (LSP) as long as this change does not force you to modify the code in the parent class.

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This is not what LSP is. –  jwg May 28 '13 at 11:35

For polymorphism to work, LSP must be being adhered to. A fine way to break it would be to introduce methods in a derived type that aren't in the base type. In that instance, polymorphism can't work because those methods are not available in the base type. You can have a different subtype implementation of a method, whilst adhering to both polymorphism and LSP.

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"Introduc[ing] methods in a derived type" doesn't necessarily break the contract the parent type defines. –  Austin Salonen Jan 18 '13 at 17:04
But would having a method only available in a derived type, thereby forcing a cast before that behaviour is accessible, not be a violation of that principle? The calling type would need to be aware of which derived type it was using when it shouldn't care. Obviously that's contrary to polymorphism, but does it break LSP? –  levelnis Jan 18 '13 at 17:20
The point is that where a ParentType is required any ChildType should suffice without breaking anything. If the ChildType required a function only it defines to be called, then yes, that would violate LSP. Additional functionality doesn't in itself cause violations of LSP. See the Stream & FileStream classes. FileStream has additional functionality but it can still be used for anything that only requires a Stream. –  Austin Salonen Jan 18 '13 at 17:30

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