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So, I was writing a C++ program which would allow me to take control of the entire world. I was all done writing the final translation unit, but I got an error:

error C3848: expression having type 'const `anonymous-namespace'::ElementAccumulator<T,BinaryFunction>' would lose some const-volatile qualifiers in order to call 'void `anonymous-namespace'::ElementAccumulator<T,BinaryFunction>::operator ()(const point::Point &,const int &)'
        c:\program files (x86)\microsoft visual studio 9.0\vc\include\functional(324) : while compiling class template member function 'void std::binder2nd<_Fn2>::operator ()(point::Point &) const'
        c:\users\****\documents\visual studio 2008\projects\TAKE_OVER_THE_WORLD\grid_divider.cpp(361) : see reference to class template instantiation 'std::binder2nd<_Fn2>' being compiled

I looked in the specifications of binder2nd and there it was: it took a const AdaptibleBinaryFunction.

So, not a big deal, I thought. I just used boost::bind instead, right?

Wrong! Now my take-over-the-world program takes too long to compile (bind is used inside a template which is instantiated quite a lot)! At this rate, my nemesis is going to take over the world first! I can't let that happen -- he uses Java!

So can someone tell me why this design decision was made? It seems like an odd decision. I guess I'll have to make some of the elements of my class mutable for now...

EDIT: The offending code:

template <typename T, typename BinaryFunction>
class ElementAccumulator 
    : public binary_function<typename T::key_type, typename T::mapped_type, void>
    typedef T MapType;
    typedef typename T::key_type KeyType;
    typedef typename T::mapped_type MappedType;
    typedef BinaryFunction Func;

    ElementAccumulator(MapType& Map, Func f) : map_(Map), f_(f) {}

    void operator()(const KeyType& k, const MappedType& v)
        MappedType& val = map_[k];
        val = f_(val, v);
    MapType& map_;
    Func f_;

void myFunc(int n)
    typedef boost::unordered_map<Point, int, Point::PointHash> Counter;
    Counter side_count;
    ElementAccumulator<SideCounter, plus<int> > acc(side_count, plus<int>());

        vector<Point> pts = getPts();
    for_each(pts.begin(), pts.end(), bind2nd(acc, n));
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Does it not work if you just make your operator() const? AFAIK, this won't affect any reference members (doesn't make the refferred object constant), so you can still modify the map. – UncleBens May 9 '10 at 9:51

2 Answers 2

binder2nd ctor takes a constant reference to an AdaptableBinaryFunction -- not a const AdaptableBinaryFunction per se. How's your instantiating-code? One normally doesn't explicitly mention binder2nd but rather work through convenience function bind2nd (which simply works on the second argument x with a typename Operation::second_argument_type(x) or the like).

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Well, attempting some deduction:

The reason anything takes a const anything, is to permit someone to pass a const anything into it.

The most obvious const something that you want to pass into "functional" functions is a reference to a temporary.

In particular, if bind1st and other stuff in <functional> took a non-const reference parameter, then you couldn't chain them together to program in a functional style. A functional style abhors the idea of capturing a temporary in a variable in one statement, and then "later" modifying that variable in "the next" statement. All very imperative and side-effecty.

Unfortunately, this means that as <functional> is defined, operator() of functors needs to be const in this case and presumably a bunch of other cases. Yours isn't.

Does boost::bind allow either const or not as part of the template type where relevant? If so then maybe <functional> doesn't do this simply because boost::bind was designed once people had more idea how to get the best out of templates. Or maybe bind1st was designed with a purer functional mindset, hence no side-effects, hence why shouldn't everything be const? I may have missed part of the point of the question - I see from your code example why you want to use parameter binding, but I don't think it's obvious that a header called <functional> is the right place to look for anything involving accumulators ;-)

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