Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I was wondering if someone could help me with this issue. I have been reading that the are some problems with the use of the std::make_pair in VS2010 because it is overloaded, and I have found some workarounds that would work, however, I just can not find a way to make it work here for me.

Here is a part of the code so you can take a look:

namespace tree {
    #define container std::vector
    typedef container<IConnType const*> node_data;

///tree node's brief
    struct tree_node
    {
        STD_STRING  name;
        node_data   types;
    };

    struct branch;
    typedef container<branch>           sub_tree;

///branch's brief
    struct branch
    {
        tree_node   node;
        sub_tree    tree;
    };
}



template<typename T>
///address of's brief
struct address_of
{
    T* operator()(T& x) const
    {
        return &x;
    }

    T const* operator()(T const& x) const
    {
        return &x;
    }
};



typedef std::pair<tree::branch*,HTREEITEM> step_info;
std::vector<step_info> steps;

/// after we fill steps ///

HTREEITEM new_item = m_conntree.InsertItem(&tvi); // m_conntree is a CTreeCtrl; tvi is a TVINSERTSTRUCT


std::transform(step.first->tree.begin()
    , step.first->tree.end()
    , std::back_inserter(steps)
    , boost::bind(&std::make_pair<tree::branch*,HTREEITEM>
        , boost::bind<tree::branch*>(address_of<tree::branch>()
            , _1
        )
    , new_item
    )
);

The problem is here (the rest of the code is just to give an idea):

std::transform(step.first->tree.begin()
    , step.first->tree.end()
    , std::back_inserter(steps)
    , boost::bind(&std::make_pair<tree::branch*,HTREEITEM>
        , boost::bind<tree::branch*>(address_of<tree::branch>()
            , _1
        )
    , new_item
    )
);

I tried to do a cast (as I had read in other thread) but it did not work... this is what I had tried:

typedef std::pair<tree::branch*,HTREEITEM> (*MakePairType)(tree::branch*,HTREEITEM);

std::transform(step.first->tree.begin()
    , step.first->tree.end()
    , std::back_inserter(steps)
    , boost::bind((MakePairType)&std::make_pair<tree::branch*,HTREEITEM>
        , boost::bind<tree::branch*>(address_of<tree::branch>()
            , _1
        )
    , new_item
    )
);

I hope anyone can help me with this one... I have been stuck for a long time trying to compile this project...

By the way, it throws me a lot of error in the boost::bind (more than a hundred)... and taking out the boost::bind, it gives me errors about not knowing which overload of std::make_pair to use,

Regards, and thanks in advance!

share|improve this question
1  
Why not use a lambda and avoid all the bind crap altogether? –  ildjarn May 22 '12 at 20:59
1  
If you don't have lambda support, it might just be easier to write a simple functor that does what you want. –  Dave S May 22 '12 at 21:47
    
#define container std::vector Egads! –  James McNellis May 22 '12 at 22:31
add comment

2 Answers

Dave S is right: a lambda or a functor would be far better here. The problem you are running into with make_pair is likely due to a breaking change in C++11. make_pair now has parameters of type T&& and U&&, to enable perfect forwarding of the pair type.

You're using make_pair like so:

std::make_pair<tree::branch*,HTREEITEM>

Because you've explicitly named the template type parameters, the parameter types are selected as tree::branch*&& and HTREEITEM&&. This function cannot accept lvalue arguments.

In short: do not try using make_pair or other perfect-forwarding functions with explicit template argument lists; they are not designed to be used that way.

share|improve this answer
add comment

First, I would be careful about constness, since you're taking the address of the reference, but expecting the pair to be a pointer to a non-constant tree::branch.

If you have lambdas, I would do the following.

std::transform(step.first->tree.begin()
    , step.first->tree.end()
    , std::back_inserter(steps)
    [&](tree::branch& branch) { return std::make_pair(&branch, new_item); }
);

If you don't have lambda support, it might be clearer if you attempt to write the functor yourself, at least in the short term, to get clearer errors. boost::bind is powerful, but when it fails the error messages can sometimes hide something fundamental.

struct make_step_info
{ 
   HTREEITEM new_item;

   make_step_info(HTREEITEM new_item): new_item(new_item)  {};

   std::pair<tree::branch*,HTREEITEM> operator()(tree::branch& branch) const
   {
      return std::make_pair(&branch, new_item);
   }
}

/* And use it here */
std::transform(step.first->tree.begin()
     , step.first->tree.end()
     , std::ba_ck_inserter(steps)
     make_step_info(new_item)
);
share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.