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Is it possible to extend a class from a C++ library without the source code? Would having the header be enough to allow you to use inheritance? I am just learning C++ and am getting into the theory. I would test this but I don't know how.

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4 Answers 4

Yes, the declaration of the class is enough to derive from it.

The rest of the code will be picked up when you link against the library.

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Does this mean you should avoid overriding methods from the parent class? –  David Lee Jun 26 '12 at 5:51
No, that will not be a problem either. The compiler and linker will figure out which functions belong to the base class and which belong to the derived class. Generally, you don't need the source for the member functions to use a class. They can be in a .cpp file (that is even written later), or in a library. –  Bo Persson Jun 26 '12 at 5:55

Yes you can extend classes in standard C++ library. Header file is enough for that.

Some examples:

  • extending std::exception class to create custom exception
  • extending streams library to create custom streams in your application

But one thing you should be aware is don't extend classes which does not have a virtual destructor. Examples are std::vector, std::string

Edit : I just found another SO question on this topic Extending the C++ Standard Library by inheritance?

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So why std::true_type and std::false_type both derive from std::integral_constant without any of them have a virtual destructor? Are STL designer themselves unaware of OOP basic rules or is inheritance not just an OOP only tool ? –  Emilio Garavaglia Jul 23 '14 at 17:26

Just having an header file is enough for inheriting from that class.
C++ programs are built in two stages:

  • Compilation
    Compiler looks for definition of types and checks your program for language correctness.This generates object files.
  • Linking
    The compiled object files are linked together to form a executable.

So as long as you have the header file(needed for compilation) and the library(needed for linking) You can derive from a class.
But note that one has to be careful whether that class is indeed meant for inheritance.
For example: If you have a class with non virtual destructor then that class is not meant for inheritance. Just like all standard library container classes.

So in short, Just having a interface of class is enough for derivation but the implementation and design semantics of the class do play an important role.

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Thanks! How can you determine whether the class is meant for inheritance if you don't have the source code? Also, if you don't have the source code, does that mean you should avoid overriding methods? –  David Lee Jun 26 '12 at 5:55
@DavidLee, see this SO question - stackoverflow.com/questions/1073958/… –  Sanish Jun 26 '12 at 5:57
@DavidLee You can see if the class has a virtual destructor in the header file. But in general, you might have to rely on the documentation. If in doubt, don't inherit. –  juanchopanza Jun 26 '12 at 5:57
@DavidLee: A library which expects its user to inherit and override some methods will specifically mention it in their documentation. That is what you rely on most over and above the general guidelines that are provided here in answers. –  Alok Save Jun 26 '12 at 6:15

Short answer YES, definitively you can.

Long answer: WARNING: THe following text may hurt children an sensitive OOP integralists. If you feel or retain to be one of such, stay away from this answer: mine your and everyone alse life will be more easier

Let me reveal a secret: STL code is just nothing more than regular C++ code that comes with headers and libraries, exactly like your code can -and most likely- do. STL authors are just programmer LIKE YOU. They are no special at all respect to the compiler. Thay don't have any superpower towards it. They sits on their toilet exacly like you do on yours, to do exactly what you do. Don't over-mistify them.

STL code follows the exact same rules of your own written code: what is overridden will be called instead of the base: always if it is virtual, and only according to the static type of its referring pointer if it is not virtual, like every other piece of C++ code. No more no less.

The important thing is not to subvert deign issues respecting the STL name convention and semantics, so that every further usage of your code will not confuse people expectation, including yourself, reading your code after 10 years, not remembering anymore certain decisions.

For example, overriding std::exception::what() must return an explanatory persistent C string, (like STL documentation say) and not add unexpected other fuzzy actions.

Also, overriding streams or streaming operators shold be done cosidering the entire design (do you really need to override the stream or just the streambuffer or just add a specific facet to the locale it imbued?): In other words, study not just "the class" but the design of all its "world" to properly understand how it works with what is around.

Last, but not least, one of the most controversial aspect are containers and everything not having virtual destructors.

My opinion is that the noise about the "classic OOP rule: Dont' derive what has no virtual destructor" is over-inflated: simply don't expect a cow to became an horse just because you place a saddle on it.

If you need (really really need) a class that manage a sequence of character with the exact same interface of std::string that is able to convert implicitly into an std::string and that has something more, you have two ways:

  • do what the good good girls do, embed std:string ad rewrite all its 112 (yes: they are more than 100) methods with function that do nothing more than calling them and be sure you come still virgin to the marriage with another good good boy programmer's code, or ...
  • After discover that this takes about 30 years and you are risking to become 40 y.o. virgin no good good boy programmer is anymore interested in, be more practical, sacrifice your virginity and derive std::string. The only thing you will loose is your possibility to marry an integralist. And you can even discover it not necessarily a problem: you're are even staying away from the risk to be killed by him!

The only thing you have to take care is that, being std::string not polymorphic your derivation will mot make it as such, so don't expect and std::string* or std::string& referring yourstring to call your methods, including the destructor, that is no special respect every other method; it just follow the exact same rules. But ... hey, if you embed and write a implicit conversion operator you will get exactly that result, no more no less!

The rule is easy: don't make yourself your destructor virtual and don't pretend "OOP substitution priciple" to work with something that is not designed for OOP and everything will go right.

With all the OOP integralist requemscant in pacem their eternal sleep, your code will work, while they are still rewriting the 100+ std::string method just to embed it.

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thumb up for the toilet metaphor –  Cong Hui Sep 13 '12 at 3:23

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