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stl - Concatenating C++ iterator ranges into a const vector member variable at construction time

I have a class X, which I provide a snippet of here:

class X {
  public:
    template <typename Iter>
    X(Iter begin, Iter end) : mVec(begin, end) {}

  private:
    vector<Y> const mVec;
};

I now want to add a new concatenating constructor to this class, something like:

template <typename Iter1, typename Iter2>
X(Iter1 begin1, Iter1 end1, Iter2 begin2, Iter2 end2) : mVec(???) { ??? }

Such a constructor would catenate the two ranges [begin1, end1) and [begin2, end2) into mVec. The challenges are

1) I would like to preserve the const on mVec, so that it is considered constant throughout the other methods of X.

2) I would like to avoid unnecessary copies if at all possible. That is, one solution is to have a static method that constructs a non-const temporary to range 1, inserts range 2 and returns it, and then define the concatenating constructor to

template <typename Iter1, typename Iter2>
X(Iter1 begin1, Iter1 end1, Iter2 begin2, Iter2 end2) 
  : mVec(concatenate(begin1, end1, begin2, end2)) { }

but that copies all the values at least one extra time, I believe.

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Nice problem. I would try to implement a particular iterator wrapper type that turns the two ranges into a single range. Something in the lines of:

// compacted syntax for brevity...
template <typename T1, typename T2>
struct concat_iterator
{
public:
   typedef std::forward_iterator_tag iterator_category;
   typedef typename iterator_traits<T1>::value_type value_type;
   typedef *value_type pointer; 
   typedef &value_type reference;

   concat_iterator( T1 b1, T1 e1, T2 b2, T2 e2 ) 
      : seq1( b1 ), seq1end( e1 ), seq2( b2 ), seq2end( e2 );
   iterator& operator++() {
      if ( seq1 != seq1end ) ++seq1;
      else ++seq2;
      return this;
   }
   reference operator*() {
      if ( seq1 != seq1end ) return *seq1;
      else return *seq2;
   }
   pointer operator->() {
      if ( seq1 != seq1end ) return &(*seq1);
      else return &(*seq2);
   }
   bool operator==( concat_iterator const & rhs ) {
      return seq1==rhs.seq1 && seq1end==rhs.seq2 
          && seq2==rhs.seq2 && seq2end==rhs.seq2end;
   }
   bool operator!=( contact_iterator const & rhs ) {
      return !(*this == rhs);
   }
private:
   T1 seq1;
   T1 seq1end;
   T2 seq2;
   T2 seq2end;
};

template <typename T1, typename T2>
concat_iterator<T1,T2> concat_begin( T1 b1, T1 e1, T2 b2, T2 e2 )
{
   return concat_iterator<T1,T2>(b1,e1,b2,e2);
}
template <typename T1, typename T2>
concat_iterator<T1,T2> concat_end( T1 b1, T1 e1, T2 b2, T2 e2 )
{
   return concat_iterator<T1,T2>(e1,e1,e2,e2);
}

Now you could use:

 class X {
 public:
    template <typename Iter, typename Iter2>
    X(Iter b1, Iter e1, Iter2 b2, Iter2 e2 ) 
      : mVec( concat_begin(b1,e1,b2,e2), concat_end(b1,e1,b2,e2) ) 
    {}

  private:
    vector<Y> const mVec;
};

or (I have just thought of it) you don't need to redeclare your constructor. Make your caller use the helper functions:

X x( concat_begin(b1,e1,b2,e2), concat_end(b1,e1,b2,e2) );

I have not checked the code, just typed it here off the top of my head. It could compile or it could not, it could work or not... but you can take this as a start point.


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