What you need is a
range_difference function. I though Boost.Range would provide something like this, but I didn't find anything in their doc (well, I didn't search very thoroughly...), so I rolled up my own.
The following function returns a pair of range, containing the result of the difference between the range denoted by (first1,last1) and the one denoted by (first2,last2). A pre-condition is that first1 must be positioned before or at the same position as first2.
template <typename InputIterator>
std::pair<InputIterator, InputIterator> >
range_difference(InputIterator first1, InputIterator last1,
InputIterator first2, InputIterator last2)
typedef std::pair<InputIterator, InputIterator> Range;
// first1 must be <= first2
for (it = first1 ; it != last1 && it != first2 ; ++it);
Range left_range = std::make_pair(first1, it); // Left range
if (it == last1)
return std::make_pair(left_range, std::make_pair(first2, first2));
// it == first2
while (it != last1 && it != last2) ++it;
return std::make_pair(left_range, std::make_pair(it, last1)); // Right range
The result of the difference can be composed of two parts, if range2 is completely included into range1. You end up with a left range and a right range:
first1 first2 last2 last1
In this case, the function returns (first1, first2),(last2, last1).
In this other configuration,
first1 last1 first2 last2
the function returns (first1, last1),(first2, first2). There are many other possible configurations. However, one important thing to know is that in the case where the right range is empty, it will be positioned at max(first2, last1). You'll see how this is necessary in the example.
Finally, if first1 and first2 are at the same position, the returned left range will be empty, i.d. (first1,first1).
Now, how can we use this function to solve your problem? Well that's rather easy for the "deactivate" range, but a little trickier for the "activate" one:
typedef std::vector<Activable>::iterator Iterator;
Iterator old_beg, old_end, new_beg, new_end; // Old and new ranges
typedef std::pair<Iterator, Iterator> Range;
typedef std::pair<Range, Range> SplitRange;
SplitRange deactivate = range_difference(old_beg, old_end, new_beg, new_end);
// Left range
for (Iterator it = deactivate.first.first;
it != deactivate.first.second;
// Right range
for (Iterator it = deactivate.second.first;
it != deactivate.second.second;
SplitRange activate =
range_difference(new_beg, new_end, new_beg, deactivate.second.first);
// Note the use of the previously returned right range -------^
for (Iterator it = activate.second.first;
it != activate.second.second;
And there you go. Maybe this solution is a little overkill to your problem, but I think the
range_difference function could be useful in many place.