Esempio n. 1
0
    static inline void iterate(Collection& collection,
                Iterator begin, Iterator end,
                buffer_side_selector side,
                DistanceStrategy const& distance,
                JoinStrategy const& join_strategy, bool close = false)
    {
        output_point_type previous_p1, previous_p2;
        output_point_type first_p1, first_p2;

        bool first = true;

        Iterator it = begin;

        // We want to memorize the last vector too.
        typedef BOOST_TYPEOF(*it) point_type;
        point_type last_ip1, last_ip2;


        for (Iterator prev = it++; it != end; ++it)
        {
            if (! detail::equals::equals_point_point(*prev, *it))
            {
                output_point_type p1, p2;
                last_ip1 = *prev;
                last_ip2 = *it;
                generate_side(*prev, *it, side, distance, p1, p2);

                std::vector<output_point_type> range_out;
                if (! first)
                {
                    output_point_type p;
                    segment_type s1(p1, p2);
                    segment_type s2(previous_p1, previous_p2);

                    if (line_line_intersection<output_point_type, segment_type>::apply(s1, s2, p))
                    {
                        join_strategy.apply(p, *prev, previous_p2, p1,
                                    distance.apply(*prev, *it, side),
                                    range_out);
                    }
                }
                else
                {
                    first = false;
                    first_p1 = p1;
                    first_p2 = p2;
                }
                if (! range_out.empty())
                {
                    collection.add_piece(buffered_join, *prev, range_out);
                    range_out.clear();
                }
                collection.add_piece(buffered_segment, *prev, *it, p1, p2);

                previous_p1 = p1;
                previous_p2 = p2;
                prev = it;
            }
        }

        // Might be replaced by specialization
        if(boost::is_same<Tag, ring_tag>::value)
        {
            // Generate closing corner
            output_point_type p;
            segment_type s1(previous_p1, previous_p2);
            segment_type s2(first_p1, first_p2);
            line_line_intersection<output_point_type, segment_type>::apply(s1, s2, p);

            std::vector<output_point_type> range_out;
            join_strategy.apply(p, *begin, previous_p2, first_p1,
                distance.apply(*(end - 1), *begin, side),
                range_out);
            if (! range_out.empty())
            {
                collection.add_piece(buffered_join, *begin, range_out);
            }

            // Buffer is closed automatically by last closing corner (NOT FOR OPEN POLYGONS - TODO)
        }
        else if (boost::is_same<Tag, linestring_tag>::value)
        {
            // Assume flat-end-strategy for now
            // TODO fix this (approach) for one-side buffer (1.5 - -1.0)
            output_point_type rp1, rp2;
            generate_side(last_ip2, last_ip1, 
                    side == buffer_side_left 
                    ? buffer_side_right 
                    : buffer_side_left, 
                distance, rp2, rp1);

            // For flat end:
            std::vector<output_point_type> range_out;
            range_out.push_back(previous_p2);
            if (close)
            {
                range_out.push_back(rp2);
            }
            collection.add_piece(buffered_flat_end, range_out);
        }
    }
Esempio n. 2
0
    static inline void iterate(Inserter& inserter,
                Iterator begin, Iterator end,
                buffer_side_selector side,
                DistanceStrategy const& distance,
                JoinStrategy const& join
#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
                , Mapper& mapper
#endif
            )
    {
        output_point_type previous_p1, previous_p2;
        output_point_type first_p1, first_p2;

#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
        int index = 0;
#endif

        bool first = true;

        Iterator it = begin;
        for (Iterator prev = it++; it != end; ++it)
        {
            if (! detail::equals::equals_point_point(*prev, *it))
            {
                bool skip = false;

                // Simulate a vector d (dx,dy)
                coordinate_type dx = get<0>(*it) - get<0>(*prev);
                coordinate_type dy = get<1>(*it) - get<1>(*prev);

                // For normalization [0,1] (=dot product d.d, sqrt)
                coordinate_type length = sqrt(dx * dx + dy * dy);

                // Because coordinates are not equal, length should not be zero
                BOOST_ASSERT((! geometry::math::equals(length, 0)));

                // Generate the normalized perpendicular p, to the left (ccw)
                coordinate_type px = -dy / length;
                coordinate_type py = dx / length;

                output_point_type p1, p2;

                coordinate_type d = distance.apply(*prev, *it, side);

                set<0>(p2, get<0>(*it) + px * d);
                set<1>(p2, get<1>(*it) + py * d);

                set<0>(p1, get<0>(*prev) + px * d);
                set<1>(p1, get<1>(*prev) + py * d);

                {
#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
                    ring_type block;
                    block.push_back(*prev);
                    block.push_back(*it);
                    block.push_back(p2);
                    block.push_back(p1);
                    block.push_back(*prev);

                    mapper.map(block, "opacity:0.4;fill:rgb(0,255,0);stroke:rgb(0,0,0);stroke-width:1");
#endif
                }

                if (! first)
                {
                    output_point_type p;
                    segment_type s1(p1, p2);
                    segment_type s2(previous_p1, previous_p2);
                    if (line_line_intersection<output_point_type, segment_type>::apply(s1, s2, p))
                    {
                        join.apply(p, *prev, previous_p2, p1,
                                    distance.apply(*prev, *it, side),
                                    inserter.get_ring());
                        {
#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
                            mapper.map(p, "fill:rgb(0,0,0);", 3);

                            std::ostringstream out;
                            out << index++;
                            mapper.text(p, out.str(), "fill:rgb(0,0,0);font-family='Arial';", 5, 5);
#endif
                        }
                    }
                    else
                    {
                        skip = false;
                    }
                }
                else
                {
                    first = false;
                    first_p1 = p1;
                    first_p2 = p2;

                    inserter.insert(p1);
                }

                if (! skip)
                {
                    previous_p1 = p1;
                    previous_p2 = p2;
                    prev = it;
                }
            }
        }

        // Last one
        inserter.insert(previous_p2);
    }
Esempio n. 3
0
    static inline void apply(RingInput const& ring, RingOutput& buffered,
            coordinate_type distance,
            JoinStrategy const& join_strategy
#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
            , Mapper& mapper
#endif
            )
    {
        typedef model::referring_segment<output_point_type const> segment_type;
        typedef typename boost::range_iterator
            <
                RingInput const
            >::type iterator_type;

        output_point_type previous_p1, previous_p2;
        output_point_type first_p1, first_p2;
        bool first = true;

#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
        int index = 0;
#endif

        iterator_type it = boost::begin(ring);
        for (iterator_type prev = it++;
            it != boost::end(ring); ++it)
        {
            if (! detail::equals::equals_point_point(*prev, *it))
            {
                bool skip = false;

                // Generate a block along (int most cases to the left of) the segment

                // Simulate a vector d (dx,dy)
                coordinate_type dx = get<0>(*it) - get<0>(*prev);
                coordinate_type dy = get<1>(*it) - get<1>(*prev);


                // For normalization [0,1] (=dot product d.d, sqrt)
                coordinate_type length = sqrt(dx * dx + dy * dy);

                // Because coordinates are not equal, length should not be zero
                BOOST_ASSERT((! geometry::math::equals(length, 0)));

                // Generate the normalized perpendicular p, to the left (ccw)
                coordinate_type px = -dy / length;
                coordinate_type py = dx / length;

                output_point_type p1, p2;

                coordinate_type d = distance;

                set<0>(p2, get<0>(*it) + px * d);
                set<1>(p2, get<1>(*it) + py * d);

                set<0>(p1, get<0>(*prev) + px * d);
                set<1>(p1, get<1>(*prev) + py * d);

                {
                    RingOutput block;
                    block.push_back(*prev);
                    block.push_back(*it);
                    block.push_back(p2);
                    block.push_back(p1);
                    block.push_back(*prev);

    #ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
                    mapper.map(block, "opacity:0.4;fill:rgb(255,128,0);stroke:rgb(0,0,0);stroke-width:1");
    #endif
                }

                if (! first)
                {
                    output_point_type p;
                    segment_type s1(p1, p2);
                    segment_type s2(previous_p1, previous_p2);
                    if (line_line_intersection<output_point_type, segment_type>::apply(s1, s2, p))
                    {
                        join_strategy.apply(p, *prev, previous_p2, p1, distance, buffered);
                        {
#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
                            mapper.map(p, "fill:rgb(0,0,0);", 3);

                            std::ostringstream out;
                            out << index++;
                            mapper.text(p, out.str(), "fill:rgb(0,0,0);font-family='Arial';", 5, 5);
#endif
                        }
                    }
                    else
                    {
                        skip = false;
                    }
                }
                else
                {
                    first = false;
                    first_p1 = p1;
                    first_p2 = p2;
                }

                if (! skip)
                {
                    previous_p1 = p1;
                    previous_p2 = p2;
                    prev = it;
                }
            }
        }

        // Last one
        {
            output_point_type p;
            segment_type s1(previous_p1, previous_p2);
            segment_type s2(first_p1, first_p2);
            line_line_intersection<output_point_type, segment_type>::apply(s1, s2, p);

            join_strategy.apply(p, *boost::begin(ring), previous_p2, first_p1, distance, buffered);

#ifdef BOOST_GEOMETRY_DEBUG_WITH_MAPPER
            mapper.map(p, "fill:rgb(0,0,0);", 3);
            std::ostringstream out;
            out << index++;
            mapper.text(p, out.str(), "fill:rgb(0,0,0);font-family='Arial';", 5, 5);
#endif
        }

        // Close the generated buffer
        {
            output_point_type p = *boost::begin(buffered);
            buffered.push_back(p);
        }
    }