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Could someone give me an example of inheritance without subtyping and also an example of subtyping without inheritance using C++?

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  • Can you think of a useful, practical difference between "inheritance" and "subtyping"? I can't. Feb 17, 2015 at 19:39
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    No, that's why I am asking @ChristianHackl, thanks anyway
    – Wal
    Feb 17, 2015 at 19:45
  • Did you mean to explore the differences of dynamic and static polymorpism? Feb 17, 2015 at 19:47
  • @Wal: But I don't think your question makes sense if you consider these words synonyms. Or did you just mean to ask "Is inheritance and subtyping the same thing"? Feb 17, 2015 at 20:12
  • @ChristianHackl I first though the same, but digging a little further made clear that althoug subtyping and inheritance are closely linked, it's not exactly the same thing.
    – Christophe
    Feb 17, 2015 at 20:40

1 Answer 1

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According to wikipedia, subtyping, is the relation when programme parts written for one type work also for its subtype:

Subtyping should not be confused with the notion of (class or object) inheritance from object-oriented languages;1 subtyping is a relation between types (interfaces in object-oriented parlance) whereas inheritance is a relation between implementations stemming from a language feature that allows new objects to be created from existing ones.

So here would be examples of subtying without inheriance:

  • typedef int myint; creates a perfect subtype myint of int.
  • enum mybool { myfalse=0, mytrue=1, mymorethantrue=10 }; creates a subtype mybool of int. I can provide mybool to any functions expecting an int. However, I can't perform some basic operators. So its not a perfect subtype and not the best example.
  • In struct test { unsigned mytmp : 4; }; the member mytmp is a perfect subtype of int. I can do anything I do with an integer with mytmp, but it's limited in values.

With this definition it's also very easy to find example of inheritance without subtyping:

class Parent {};
class Child :  private Parent {}; 

Here Child obviously inherits from Parent. However code written to manage a Parent will not work with Child (no subsitution possible), because it's privately inherited.

Remark: in practice, many people tend to understand types as classes and subtypes as derived classes. However, it's true that the C++ standard makes a difference between the fundamental types and classes which are viewed as compound types. And enforcement of the Liskov subsitition principle requires to think more deeply about these two similar but not identical principles.

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    My understanding is that enum is a separate type than int. The reason you can pass mybool to a function requiring an int is that the compiler performs type conversion between enum and an int. Feb 17, 2015 at 20:41
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    found it link
    – Wal
    Feb 17, 2015 at 22:12
  • @Wal thanks for this reference which is much more concise and precise than wikipedia. So I can confirm that all my examples except enum (see Thomas' comment) correspond to these definitions.
    – Christophe
    Feb 17, 2015 at 22:48
  • Also note, that you can - even though - open your inherited functions to the outside world by using "using". So for this example, you could write class Child : private Parent { using Parent::foo; }
    – TheTrowser
    Dec 19, 2015 at 12:46

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