// Boost.Geometry (aka GGL, Generic Geometry Library)
// Copyright (c) 2012-2014 Barend Gehrels, Amsterdam, the Netherlands.
// Use, modification and distribution is subject to the Boost Software License,
// Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_GEOMETRY_STRATEGIES_CARTESIAN_BUFFER_JOIN_ROUND_BY_DIVIDE_HPP
#define BOOST_GEOMETRY_STRATEGIES_CARTESIAN_BUFFER_JOIN_ROUND_BY_DIVIDE_HPP
#include <boost/geometry/core/cs.hpp>
#include <boost/geometry/policies/compare.hpp>
#include <boost/geometry/strategies/buffer.hpp>
#include <boost/geometry/util/math.hpp>
#include <boost/geometry/util/select_most_precise.hpp>
#ifdef BOOST_GEOMETRY_DEBUG_BUFFER_WARN
#include <boost/geometry/io/wkt/wkt.hpp>
#endif
namespace boost { namespace geometry
{
namespace strategy { namespace buffer
{
class join_round_by_divide
{
public :
inline join_round_by_divide(std::size_t max_level = 4)
: m_max_level(max_level)
{}
template
<
typename PromotedType,
typename Point,
typename DistanceType,
typename RangeOut
>
inline void mid_points(Point const& vertex,
Point const& p1, Point const& p2,
DistanceType const& buffer_distance,
RangeOut& range_out,
std::size_t level = 1) const
{
// Generate 'vectors'
PromotedType const vp1_x = get<0>(p1) - get<0>(vertex);
PromotedType const vp1_y = get<1>(p1) - get<1>(vertex);
PromotedType const vp2_x = (get<0>(p2) - get<0>(vertex));
PromotedType const vp2_y = (get<1>(p2) - get<1>(vertex));
// Average them to generate vector in between
PromotedType const two = 2;
PromotedType const v_x = (vp1_x + vp2_x) / two;
PromotedType const v_y = (vp1_y + vp2_y) / two;
PromotedType const length2 = geometry::math::sqrt(v_x * v_x + v_y * v_y);
PromotedType const prop = buffer_distance / length2;
Point mid_point;
set<0>(mid_point, get<0>(vertex) + v_x * prop);
set<1>(mid_point, get<1>(vertex) + v_y * prop);
if (level < m_max_level)
{
mid_points<PromotedType>(vertex, p1, mid_point, buffer_distance, range_out, level + 1);
}
range_out.push_back(mid_point);
if (level < m_max_level)
{
mid_points<PromotedType>(vertex, mid_point, p2, buffer_distance, range_out, level + 1);
}
}
template <typename Point, typename DistanceType, typename RangeOut>
inline bool apply(Point const& ip, Point const& vertex,
Point const& perp1, Point const& perp2,
DistanceType const& buffer_distance,
RangeOut& range_out) const
{
typedef typename coordinate_type<Point>::type coordinate_type;
typedef typename geometry::select_most_precise
<
coordinate_type,
double
>::type promoted_type;
geometry::equal_to<Point> equals;
if (equals(perp1, perp2))
{
#ifdef BOOST_GEOMETRY_DEBUG_BUFFER_WARN
std::cout << "Corner for equal points " << geometry::wkt(ip) << " " << geometry::wkt(perp1) << std::endl;
#endif
return false;
}
// Generate 'vectors'
promoted_type const vix = (get<0>(ip) - get<0>(vertex));
promoted_type const viy = (get<1>(ip) - get<1>(vertex));
promoted_type const length_i = geometry::math::sqrt(vix * vix + viy * viy);
promoted_type const bd = geometry::math::abs(buffer_distance);
promoted_type const prop = bd / length_i;
Point bp;
set<0>(bp, get<0>(vertex) + vix * prop);
set<1>(bp, get<1>(vertex) + viy * prop);
range_out.push_back(perp1);
if (m_max_level > 1)
{
mid_points<promoted_type>(vertex, perp1, bp, bd, range_out);
range_out.push_back(bp);
mid_points<promoted_type>(vertex, bp, perp2, bd, range_out);
}
else if (m_max_level == 1)
{
range_out.push_back(bp);
}
range_out.push_back(perp2);
return true;
}
template <typename NumericType>
static inline NumericType max_distance(NumericType const& distance)
{
return distance;
}
private :
std::size_t m_max_level;
};
}} // namespace strategy::buffer
}} // namespace boost::geometry
#endif // BOOST_GEOMETRY_STRATEGIES_CARTESIAN_BUFFER_JOIN_ROUND_BY_DIVIDE_HPP