// Implementation: Testprogram for 2-dimensional Segment Trees // A two dimensional Segment Tree is defined in this class. // Ti is the type of each dimension of the tree. #include #include #include #include #include #include #include #include typedef CGAL::Simple_cartesian K; typedef CGAL::Segment_tree_map_traits_2 Traits; typedef CGAL::Segment_tree_2 Segment_tree_2_type; int main() { typedef Traits::Interval Interval; typedef Traits::Pure_interval Pure_interval; typedef Traits::Key Key; // definition of the two-dimensional segment tree std::list InputList, OutputList, N; // insertion of the tree elements into the sequence container InputList.push_back(Interval(Pure_interval(Key(1,5), Key(2,7)),'a')); InputList.push_back(Interval(Pure_interval(Key(2,7), Key(3,8)),'b')); InputList.push_back(Interval(Pure_interval(Key(6,9), Key(9,13)),'c')); InputList.push_back(Interval(Pure_interval(Key(1,3), Key(3,9)),'d')); // creation of the segment tree std::list::iterator first = InputList.begin(); std::list::iterator last = InputList.end(); Segment_tree_2_type Segment_tree_2(first,last); // perform a window query Interval a=Interval(Pure_interval(Key(3,6), Key(7,12)),'e'); Segment_tree_2.window_query(a,std::back_inserter(OutputList)); // output of the querey elements on stdout std::list::iterator j = OutputList.begin(); std::cerr << "\n window_query (3,6),(7,12)\n"; while(j!=OutputList.end()) { std::cerr << (*j).first.first.x() << "-" << (*j).first.second.x() << " " << (*j).first.first.y() << "-" << (*j).first.second.y() << std::endl; j++; } Interval b=Interval(Pure_interval(Key(6,10),Key(7,11)), 'f'); Segment_tree_2.enclosing_query(b,std::back_inserter(N)); j = N.begin(); std::cerr << "\n enclosing_query (6,10),(7,11)\n"; while(j!=N.end()) { std::cerr << (*j).first.first.x() << "-" << (*j).first.second.x() << " " << (*j).first.first.y() << "-" << (*j).first.second.y() << std::endl; j++; } if(Segment_tree_2.segment_tree_2->is_valid()) std::cerr << "Tree is valid\n"; else std::cerr << "Tree is not valid\n"; return 0; }