4

I am studying/playing with allocators trying to understand how it works. But I run into problems trying to implement trivial container that accepts an allocator. For now I ended up with this:

template<class T, class Allocator =std::allocator<T>> class Container {
public:
    using allocator_type    = Allocator;
    using value_type        = T;
    using pointer           = typename std::allocator_traits<allocator_type>::pointer;
    using reference         = value_type&;
    using size_type         = std::size_t;

    Container( size_type n =0 , const allocator_type& allocator =allocator_type() ){
        std::cout << "ctor" << std::endl;
        allocator.allocate(n);
    };
};

int main(int argc, const char* argv[]){
    Container<int> c {5};
    return 0;
}

It gives me an error member function 'allocate' not viable: 'this' argument has type 'const allocator_type' (aka 'const std::__1::allocator<int>'), but function is not marked const

How to fix that error, please? Am I missing something ? I intend to use traits later but would like to make it work using the old way first.

2
  • It is not the function but it is allocator that is marked const. You might want to look at how libc++, libstdc++ implement this in something like std::vector. Sep 7, 2016 at 16:03
  • standard containers usually use this const reference to initialize their own member (or base class) and than call allocate on this member.
    – SergeyA
    Sep 7, 2016 at 16:30

1 Answer 1

1

Your line

allocator.allocate(n);

attempts to call the allocate method of allocator, which is not defined as a const method. If you look, though, the type of allocator is const allocator_type&, that is, a const reference to allocator_type.

How can you use it then? One thing you can usually do with a const object (or reference to one) is to construct a different non-const object from it. This, for example, builds:

allocator_type(allocator).allocate(n);

As SergeyA correctly notes in the comments, it is fairly common not to construct a temporary ad-hoc allocator_type, but rather make such a member:

    allocator_type m_alloc; // Should probably be private

    Container( size_type n =0 , const allocator_type& allocator =allocator_type() ) : 
            m_alloc{allocator}{
        std::cout << "ctor" << std::endl;
        m_alloc.allocate(n);
    };
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  • Would it be a bad practice to const_cast it away? Although making it a member seems pretty natural and elegant. Sep 7, 2016 at 18:04
  • @JiříLechner const_casts are usually a clear sign of some problem. Here, also, as you note, there's a very natural way to bypass it, so why not?
    – Ami Tavory
    Sep 7, 2016 at 18:15
  • One more question. I would like to use unique_ptr. Is it a good idea making a specialisation of an allocator that would return a unique_ptr or is it out of scope of the allocator's job? Sep 8, 2016 at 13:04
  • @JiříLechner Actually, if you use a unique_ptr, you'd probably just want to set your allocator's deallocate as its deallocator. I would personally avoid this direction. If you're indeed writing a container, it's one of the rare cases where it's probably just simpler to have the destructor explicitly deallocate the memory.
    – Ami Tavory
    Sep 8, 2016 at 13:09
  • you mean set the unique_ptr's deleter to allocator's deallocate()? Sep 8, 2016 at 13:32

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