Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Even thought I think I understand Single Responsibility Principle and high/low cohesion principle, the following questions are still causing me some confusion

1) Assume Planet and Bird properties are put arbitrarily / at random in Car class ( ie. no code within Car needs or operates on the two objects returned by these two properties ) - in other words, Planet and Bird properties don't belong in Car class


SRP states that object should have only one reason to change.

public class Car
    public void StartEngine()
    { ... }

    private Planet Planet
        get { ... }

    private Bird Bird
        get { ... }

Is Car class violating SRP? I would say it doesn't break SRP, since any changes to Planet or Bird instances don't propagate to the Car class?


Cohesion refers to how closely related methods and class level variables are in a class. In highly cohesive class all the methods and class level variables are used together to accomplish a specific task. In a class with low cohesion functions are randomly inserted into a class and used to accomplish a variety of different tasks

Assume that even though Car class contains these two random properties, it still accomplishes just a single specific task ( or several closely related task ):

Would we say that Car has low cohesion, even though it still performs a specific task ( or several closely related tasks )?

2) Assume that Planet and Bird properties are used by methods of a Car instance to accomplish a specific task, would then Car have high cohesion, even though conceptually the two properties don't belong to Car ( and thus it would be better if instead Planet and Bird instances were passed as arguments to a methods of a Car which operate on them )

thank you



as you encapsulated Bird and Planet inside Car (worse yet if they are private), so now Car class has THREE reasons to change:

I fail to see how Car has three reasons to change since in my first question Car's methods don't even operate on the two properties and thus any changes to Planet's and Bird's public API won't affect Car class?


The problem here has two components:
1.  Bird and Planet are contained (as opposed to aggregated) in Car class;
2.  Bird and Planet are not conceptually related to Car, much less by some containment relationship.

a) This is confusing: aren't the chances ( at least with my first question ) of Car having to be modified due to modification of Planet or Bird instances exactly the same regardless of whether Planet and Bird instances are contained or aggregated?

b) In second question methods of Car do operate on the two properties in order to perform a single specific task, so aren't they conceptually at least somewhat related? Would you say that even in second question class has low cohesion, even though it performs only a single task ( and is using the two properties to accomplish the task )?

share|improve this question

3 Answers 3

up vote 1 down vote accepted

The car class does have low cohesion, as it refers to classes wholly dissimilar to it's set of responsibilities. It also has a higher coupling surface, because since Planet and Bird are public, you've provided access to consumers to these properties, meaning that you're now adding two more "reasons for change" to any consumer, regardless of whether or not Car uses these internally.

At any rate, SRP has been violated if only because Car now has the responsibility of "a way to get planets or birds", disregarding any coupling/cohesion arguments.

share|improve this answer
Ok, with the modifications, I would say "Car does not strictly violate SRP, but it does exhibit low cohesion". Basically, you have the equivalent of unused private member variables now. Not a good practice, but not directly affecting SRP. –  JerKimball Jan 14 '13 at 19:31
No, if the car requires a bird and a planet in order to accomplish a given responsibility, it absolutely needs access to those types. In that case, although it may appear "weird" given the example class names, it would not necessarily exhibit lowered cohesion. –  JerKimball Jan 14 '13 at 19:43
@user437291 "better to pass them as parameters to Car methods?" you can take a look at the "aggregation over composition" principle, for example, here: ootips.org/uml-hasa.html –  heltonbiker Jan 14 '13 at 19:56
@user437291 eh, either way, it needs access to these types in order to execute it's responsibilities - if it has no need to maintain references to them, it'd be a poor design choice to hang on to them, but the cohesion has more to do with the interactions than pure composition. This is where the terms cohesion and coupling start to blur together a bit - in one way, they're describing two sides of the same "problem" –  JerKimball Jan 14 '13 at 20:09
@user437291 Ref: en.wikipedia.org/wiki/… - by having Car interact with Planet and Bird, the COUPLING goes up, since it is talking to more things. The COHESION may or may not change at all, since from this do-nothing example, it's hard to say if the interaction of Car/Bird/Planet is RELATED. If the method in question was something like "Name car model from combination of planet and bird name", then (arguably) that is a cohesive, if very strange, method –  JerKimball Jan 14 '13 at 20:48

1) I would say that Car cannot hold Planet and Bird. That way Car has two different responsibilities: car functionality and holding some strange objects. There should be some other object/class that would hold objects in world: eg: class WorldContainer

2) I would say that both of your examples have low cohesion. Managing car and some different objects should be done using some other interface. Interface that would glue them together.

share|improve this answer
" ... Car has two different responsibilities" But within the context of SRP a Responsibility is defined as a 'Reason to change'. As such, couldn't we argue that Car still has only one reason to change? –  user437291 Jan 14 '13 at 19:23
but what if you change name of Bird class? then you would have to change the Car class. This is simple example of course, but somehow you can feel that something is wrong with such coupling. Another thing is that Car gives some public access to Bird and Planet members, which is a bit strange. –  fen Jan 14 '13 at 19:29
I agree if you change a public interface of a Bird class ( or even just name of Bird), then changes will ripple through to the Car class. But then any class referencing some other class could be considered highly coupled, even if it is using only a public interface of a referenced class –  user437291 Jan 14 '13 at 19:45
highy coupled class has meaningless connections, we need to minimize them. If a class has minimum connection then it is easy to react on a change. –  fen Jan 14 '13 at 19:59

SRP means that a class should have only one reason to change.

So, a modification in Car class should mean that the Car conceptual model changed.

BUT, as you encapsulated Bird and Planet inside Car (worse yet if they are private), so now Car class has THREE reasons to change:

  1. Modifying the Car conceptual model and/or behaviour;
  2. Modifying the Bird conceptual model and/or behaviour;
  3. Modifying the Planet conceptual model and/or behaviour;

The problem here has two components:

  1. Bird and Planet are contained (as opposed to aggregated) in Car class;
  2. Bird and Planet are not conceptually related to Car, much less by some containment relationship.

Or, plainly speaking (and I hope you did so as a didactic exercise), the architecture shown simply doesn't make sense.

Example with aggregation (in Python). The non-cohesive classes are defined outside the Car class definition, which references them. Car depends from Bird and Planet, but now Bird and Planet exist on their own.

class Bird():
    hasWings = True

class Planet():
    isFlat = False

class Car():
    owner = Bird()
    substrate = Planet()

Example with parameter-passing (just the car class, suppose the other classes are similar as above). Now the Car constructor (the __init__ method in python) takes instances as parameters. This might or might not be prefered. The dependency and coupling remains, but perhaps more concrete now.

class Car():
    def __init__(bird, planet)
        owner = bird
        substrate = planet

In the end this whole issue of cohesion and coupling doesn't have so much to do with the software itself, but with the developers. Compilers won't mind if your namespaces, project folders and file distribution is messy, as long as it "compiles". But it wouldn't make ANY SENSE to do as you did (put a Bird and a Planet class inside a Car class). Just to begin, your versioning of each class would be very messed.

So, the purity you shouldn't violate is not that written in books for the sake of it. This purity is (or should have been) derived of human beings struggling with machine instructions. Object-Orientation, and Software Architecture in general, is not intended for the machine, but for the developer's (piece of) mind.

share|improve this answer
Can you see my edit? –  user437291 Jan 14 '13 at 20:25
I'll try to edit my answer (I also need to clarify it for me, too :o) –  heltonbiker Jan 14 '13 at 22:21
I will really have to sleep on this and then get back :) –  user437291 Jan 14 '13 at 22:52

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.