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Ok, this is really difficult to confess, but I do have a strong temptation at the moment to inherit from std::vector.

I need about 10 customized algorithms for vector and I want them to be directly members of the vector. But naturally I want also to have the rest of std::vector's interface. Well, my first idea, as a law-abiding citizen, was to have an std::vector member in MyVector class. But then I would have to manually reprovide all of the std::vector's interface. Too much to type. Next, I thought about private inheritance, so that instead of reproviding methods I would write a bunch of using std::vector::member's in the public section. This is tedious too actually.

And here I am, I really do think that I can simply inherit publicly from std::vector, but provide a warning in the documentation that this class should not be used polymorphically. I think most developers are competent enough to understand that this shouldn't be used polymorphically anyway.

Is my decision absolutely unjustifiable? If so, why? Can you provide an alternative which would have the additional members actually members but would not involve retyping all of vector's interface? I doubt it, but if you can, I'll just be happy.

Also, apart from the fact that some idiot can write something like

std::vector<int>* p  = new MyVector

is there any other realistic peril in using MyVector? By saying realistic I discard things like imagine a function which takes a pointer to vector ...

Well, I've stated my case. I have sinned. Now it's up to you to forgive me or not :)

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6  
@TokenMacGuy: I know that, that's why I want to document so that people don't do it. Did you acrually read my post –  Armen Tsirunyan Dec 4 '10 at 11:16
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So, you basically asking if it's ok to violate a common rule based on the fact that you are just too lazy to re-implement the container's interface? Then no, it is not. See, you can have the best of both worlds if you swallow that bitter pill and do it properly. Don't be that guy. Write robust code. –  Jim Brissom Dec 4 '10 at 11:20
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Why can't you/don't want to add the functionality you need with non-member functions? To me, that would be the safest thing to do in this scenario. –  Simone Dec 4 '10 at 11:25
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@Jim: std::vector's interface is quite huge, and when C++1x comes along, it will greatly expand. That's a lot to type and more to expand in a few years. I think this is a good reason to consider inheritance instead of containment - if one follow the premise that those functions should be members (which I doubt). The rule to not to derive from STL containers is that they aren't polymorphic. If you aren't using them that way, it doesn't apply. –  sbi Dec 4 '10 at 11:59
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The real meat of the question is in the one sentence: "I want them to be directly members of the vector". Nothing else in the question really matters. Why do you "want" this? What is the problem with just providing this functionality as non-members? –  jalf Dec 4 '10 at 16:47

11 Answers 11

up vote 63 down vote accepted

Actually, there is nothing wrong with public inheritance of std::vector. If you need this, just do that.

I would suggest doing that only if it is really necessary. Only if you can't do that with free functions (e.g. should keep some state).

The problem is that MyVector is a new entity. It means a new C++ developer should know what's the hell it is before using it. What's the difference between std::vector and MyVector? Which one is better to use here and there? What if I need to move std::vector to MyVector? May I just use swap() or not?

Do not produce new entities just to make something to look better. These entities (especially, such common) aren't going to live in vacuum. They will live in mixed environment with constantly increased entropy.

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11  
+1 from me, as this one is a very good answer because it's asking all the right questions. –  sbi Dec 4 '10 at 12:01
1  
I love this answer. It gave me a profound new handle on C++ class design choices. –  sehe Jun 1 '11 at 17:49
1  
My only counterargument to this is that one must really know what he's doing to do this. For example, do not introduce additional data members into MyVector and then try to pass it in to functions that accept std::vector& or std::vector*. If there's any kind of copy assignment involved using std::vector* or std::vector&, we have slicing issues where the new data members of MyVector will not be copied. The same would be true of calling swap through a base pointer/reference. I tend to think any kind of inheritance hierarchy that risks object slicing is a bad one. –  stinky472 Sep 30 '12 at 22:14

The whole STL was designed in such way that algorithms and containers are separate.

This led to a concept of different types of iterators: const iterators, random access iterators, etc.

Therefore I recommend you to accept this convention and design your algorithms in such way that they won't care about what is the container they're working on - and they would only require a specific type of iterator which they'd need to perform their operations.

Also, let me redirect you to some good remarks by Jeff Attwood.

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If you're considering this, you've clearly already slain the language pedants in your office. With them out of the way, why not just do

struct MyVector
{
   std::vector<Thingy> v;  // public!
   void func1( ... ) ; // and so on
}

That will sidestep all the possible blunders that might come out of accidentally upcasting your MyVector class, and you can still access all the vector ops just by adding a little .v .

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And exposing containers and algorithms? See Kos' answer above. –  bruno nery Jun 14 '12 at 17:35

What are you hoping to accomplish? Just providing some functionality?

The C++ idiomatic way to do this is to just write some free functions that implement the functionality. Chances are you don't really require a std::vector, specifically for the functionality you're implementing, which means you're actually losing out on reusability by trying to inherit from std::vector.

I would strongly advise you to look at the standard library and headers, and meditate on how they work.

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I'm not convinced. Could you update with some of the proposed code to explain why? –  Karl Knechtel Dec 4 '10 at 11:12
4  
@Armen: apart from the aesthetics, are there any good reasons? –  snemarch Dec 4 '10 at 11:22
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@snemarch: aesthetics are a good reason :) –  Armen Tsirunyan Dec 4 '10 at 11:23
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@Armen: Better aesthetics, and greater genericity, would be to provide free front and back functions too. :) (Also consider the example of free begin and end in C++0x and boost.) –  UncleBens Dec 4 '10 at 11:37
11  
It is hard to cache a result of heavy operation in an external algorithm. Suppose you have to calculate a sum of all elements in the vector or to solve a polynomial equation with vector elements as coefficients. Those operations are heavy and laziness would be useful for them. But you can't introduce it without wrapping or inheriting from the container. –  Basilevs Dec 5 '10 at 4:48

The main reason for not inheriting from std::vector publicitly is an absence of virtual destructor that effectively prevents you from polymorphic use of descendants. Private inheritance is allowed under these conditions. I therefore recommend to use private inheritance and forward required methods from the parent as shown below.

class AdVector: private std::vector<double>
{
    typedef double T;
    typedef std::vector<double> vector;
public:
    using vector::push_back;
    using vector::operator[];
    using vector::begin;
    using vector::end;
    AdVector operator*(const AdVector & ) const;
    AdVector operator+(const AdVector & ) const;
    AdVector();
    virtual ~AdVector();
};

You should first consider refactor your algorithms to abstract from type of container they are operating on and leave them as free templated functions as pointed out by majority of answerers. This usually done by making an algorithm accept a pair of iterators instead of container as arguments.

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I think very few rules should be followed blindly 100% of the time. It sounds like you've given it quite a lot of thought, and are convinced that this is the way to go. So -- unless someone comes up with good specific reasons not to do this -- I think you should go ahead with your plan.

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3  
Your first sentence is true 100% of the time. :) –  Steve Fallows Dec 4 '10 at 15:20
5  
Unfortunately, the second sentence isn't. He hasn't given it a lot of thought. Most of the question is irrelevant. The only part of it that shows his motivation is "I want them to be directly members of the vector". I want. No reason for why this is desirable. Which sounds like he has given it no thought at all. –  jalf Dec 4 '10 at 16:52

Yes it's safe as long as you are careful not to do the things that are not safe... I don't think I've ever seen anyone use a vector with new so in practice you'll likely be fine. However, it's not the common idiom in c++....

Are you able to give more information on what the algorithms are?

Sometimes you end up going down one road with a design and then can't see the other paths you might have taken - the fact that you claim to need to vector with 10 new algorithms rings alarm bells for me - are there really 10 general purpose algorithms that a vector can implement, or are you trying to make an object that is both a general purpose vector AND which contains application specific functions?

I'm certainly not saying that you shouldn't do this, it's just that with the information you've given alarm bells are ringing which makes me think that maybe something is wrong with your abstractions and there is a better way to achieve what you want.

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I also inherited from std::vector recently, and found it to be very useful and so far I haven't experienced any problems with it.

My class is a sparse matrix class, meaning that I need to store my matrix elements somewhere, namely in an std::vector. My reason for inheriting was that I was a bit too lazy to write interfaces to all the methods and also I am interfacing the class to Python via SWIG, where there is already good interface code for std::vector. I found it much easier to extend this interface code to my class rather than writing a new one from scratch.

The only problem I can see with the approach is not so much with the non-virtual destructor, but rather some other methods, which I would like to overload, such as push_back(), resize(), insert() etc. Private inheritance could indeed be a good option.

Thanks!

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2  
In my experience, the worst long-term damage is often caused by people who try something ill-advised, and "so far haven't experienced (read noticed) any problems with it". –  Craig Young Feb 16 at 7:42

There is no reason to inherit from std::vector unless one wants to make a class that works differently than std::vector, because it handles in its own way the hidden details of std::vector's definition, or unless one has ideological reasons to use the objects of such class in place of std::vector's ones. However, the creators of the standard on C++ did not provide std::vector with any interface (in the form of protected members) that such inherited class could take advantage of in order to improve the vector in a specific way. Indeed, they had no way to think of any specific aspect that might need extension or fine-tune additional implementation, so they did not need to think of providing any such interface for any purpose.

The reasons for the second option can be only ideological, because std::vectors are not polymorphic, and otherwise there is no difference whether you expose std::vector's public interface via public inheritance or via public membership. (Suppose you need to keep some state in your object so you cannot get away with free functions). On a less sound note and from the ideological point of view, it appears that std::vectors are a kind of "simple idea", so any complexity in the form of objects of different possible classes in their place ideologically makes no use.

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Great answer. Welcome to SO! –  Armen Tsirunyan Aug 30 at 21:50

Altough it wouldn't stop anyone from creating a std::vector<>* pointer to your data and try to delete it from there, you could prevent someone from calling new on MyVector by overloading the new operator and assert in it.

Please note that it will also prevent you from creating a MyVector directly on the heap. You could always have it wrapped in another class or use it as an attribute as usual...

If this suites your needs, simply add this to your class:

void* operator new( unsigned int size)
{
    assert( false, "Too dangerous" );

    return (void *)NULL;
}
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uhm, i'm not the one who downvoted the answer, but since original downvoter didn't provide any reason, here are two imperfections. first, when compiled with NDEBUG defined, this operator new violates the contract of operator new by returning a nullpointer; the contract is instead throw a std::bad_alloc. secondly, it does run time checking via assert, when it's much easier and safe to just make it inaccessible, e.g. private. cheers, –  Cheers and hth. - Alf Dec 4 '10 at 12:00
    
Totally agree with you Alf. Making it private would have been a much better idea ;-) Just wanted to provide an extra layer of security if public inheritance was chosen... –  Ozirus Dec 4 '10 at 12:46
2  
Assert expression is always true and doesn't test anything. Comma expressions take value of the last element. @Alf std::bad_alloc should report memory problem while the error being reported here is internal logic problem. A different type of exception should be thrown here. –  Basilevs Dec 5 '10 at 4:53
    
@Basilevs is right! Otherwise a workable solution, though Alf's compile-time solution is better (though I think violating the contract is not a big deal in this case). –  j_random_hacker Dec 7 '10 at 14:25

If you do not have any data members in your derived class, you do not have any problems, not even in polymorphic usage. You only need a virtual destructor if the sizes of the base class and the derived class are different nad/or you have virtual functions (which means a v-table).

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"You only need a virtual destructor if the sizes of the base class and the derived class are different nad/or you have virtual functions (which means a v-table)." This claim is practically correct, but not theoretically –  Armen Tsirunyan Dec 4 '10 at 15:09
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yep, in principle it is still undefined behavior. –  jalf Dec 4 '10 at 16:54
    
If you claim that this is undefined behaviour I would like to see a proof (quotation from the standard). –  hmuelner Dec 4 '10 at 17:44
    
To be more specific: The defined behaviour is that the destructor of the derived class may not be called. As it has to be empty nothing undefined or bad happens. –  hmuelner Dec 4 '10 at 18:23
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@hmuelner: Unfortunately, Armen and jalf are correct on this one. From [expr.delete] in the C++0x FCD: <quote> In the first alternative (delete object), if the static type of the object to be deleted is different from its dynamic type, the static type shall be a base class of the dynamic type of the object to be deleted and the static type shall have a virtual destructor or the behavior is undefined.</quote> –  Ben Voigt Dec 5 '10 at 4:49

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