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In my code, sometimes I need to construct a container from another container. But these container objects are of different types, so I can't use a copy constructor. What I do looks like this (C++11, I use uniform initialization and constructor delegation) :

std::vector<int> source {1, 3, 5, 7, 9};
std::list<int> destination (source.begin (), source.end ());

I realized that std::list could have a constructor like this, to make things prettier:

template </* ... */>
class list
{
public:
    template <class Container> list (const Container& container)
    : list (container.begin (), container.end ())
    {
    }

    /* ... */
};

Unfortunately I can do this only for my own classes, not for STL classes. So first question, of there a reason such costructors don't exist in STL and Boost? And second question, is there a safe way to implement such a ctor for STL containers, maybe by defining conversion operators somehow?

This issue os of course just a matter of convenience, nothing critical to code or to program behavior. But it could make the code look a bit more readable:

std::vector<int> source {1, 3, 5, 7, 9};
std::list<int> destination = source;
share|improve this question
2  
My personal impression is (I have no sources for this) that the design committee consciously chose iterator ranges as the main abstraction for standard library containers - and honestly, they work quite well and are flexible. The addition of the constructor you describe would make the standard library larger and more complex, for minimal benefit. The very common case where iterator ranges made code less readable has been fixed in C++11 by introducing the for (int i : myintvector) construction. – us2012 Sep 15 '13 at 15:50
1  
I also feel very strongly that modifying the standard library to save a few characters in code is not a good tradeoff in terms of maintainability! – us2012 Sep 15 '13 at 15:51
2  
It exists boost ranges. Algorithms takes a range ( constructed from containers, may be transform with adapters and things like that ). It exists proposals to add ranges to the standard library, but there is no consensus yet, and it is considered low priority – galop1n Sep 15 '13 at 15:55
1  
@us2012: Well, the standard C++ committee is working on integrating ranges into the standard C++ library. I think a proposal to allow range based initialization along the lines of range-based for made it into C++14. When I say "the standard C++ committee" it is actually misleading: the work is really done by individuals and I haven't done as much as I should have to get ranges into C++17. – Dietmar Kühl Sep 15 '13 at 15:56
1  
@galop1n: I don't think adding ranges to the standard C++ library is considered low priority but doing it properly is unfortunately a lot more work than just stating the goal. – Dietmar Kühl Sep 15 '13 at 15:57
up vote 7 down vote accepted

You should be suspicious of code where the complete range of one container type is copied to another. This is an uncommon activity.

In C++, explicit conversions are usually preferred. Implicit conversions and assignment operators that convert from one type to another are usually discouraged because they sometimes lead to unexpected conversions.

If you truly need to frequently convert between container types, try defining an explicit helper function for the conversion:

template<typename ToType, typename FromType>
ToType container_cast(const FromType& source)
{
    return ToType(source.begin(), source.end(), source.get_allocator());
}

Then your example becomes:

std::vector<int> source {1, 3, 5, 7, 9};
auto destination = container_cast<std::list<int> >(source);
share|improve this answer
1  
In this case I prefer to use the existing begin/end constructor, because container_cast is unfamiliar and not standard and may scare people. But it's probably a good alternative in cases it makes the code more readable. – cfa45ca55111016ee9269f0a52e771 Sep 15 '13 at 16:03
1  
There would probably be some merit to a helper function if you also needed to copy the allocator. – joshuanapoli Sep 15 '13 at 16:10
1  
I think that covertly copying the allocator is more dubious than converting the container type -- if someone has supplied a specific allocator to a specific container then one should think hard before using it for another container, not just let it happen by default. Anyway, if the only argument against a proposed constructor is that it would allow suprising implicit conversions then the appropriate response is an explicit constructor. – Steve Jessop Sep 15 '13 at 17:16

There is a proposal in c++14 that, if I'm not wrong, would enable to pass another container as a "traversable" directly to a container's constructor.

The latest revision of the proposal can be found here.

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