#include <boost/assign.hpp>
#include <boost/geometry/core/point_type.hpp>
#include <boost/geometry/geometry.hpp>
#include <boost/geometry/geometries/point_xy.hpp>
#include <boost/geometry/geometries/linestring.hpp>
#include <boost/geometry/geometries/box.hpp>
#include <boost/geometry/geometries/ring.hpp>
#include <boost/geometry/geometries/polygon.hpp>
#include <boost/geometry/algorithms/transform.hpp>
#include <boost/geometry/strategies/transform/inverse_transformer.hpp>
#include <boost/geometry/strategies/transform/matrix_transformers.hpp>
namespace bg = boost::geometry;
typedef bg::model::d2::point_xy<double> DPoint;
typedef bg::model::segment<DPoint> DSegment;
typedef bg::model::linestring<DPoint> DLineString;
typedef bg::model::box<DPoint> DBox;
typedef bg::model::ring<DPoint, false> DRing;
typedef bg::model::polygon<DPoint, false> DPolygon;
//对Geometry库一些函数进行了封装,更加方便使用,包括(平移,旋转,缩放,求点到直线的垂足,通过比例求段上的点等等)
namespace GeometryExtend
{
DPoint operator +(const DPoint& pt1, const DPoint& pt2)
{
DPoint pt(pt1);
bg::add_point(pt, pt2);
return pt;
}
const DPoint& operator +=(DPoint& pt1, const DPoint& pt2)
{
bg::add_point(pt1, pt2);
return pt1;
}
DPoint operator -(const DPoint& pt1, const DPoint& pt2)
{
DPoint pt(pt1);
bg::subtract_point(pt, pt2);
return pt;
}
const DPoint& operator -=(DPoint& pt1, const DPoint& pt2)
{
bg::subtract_point(pt1, pt2);
return pt1;
}
//////////////////////////////////////////////////////////////////////////
// 平移变换
//////////////////////////////////////////////////////////////////////////
template<typename Geometry, typename CalculationType>
struct translate_impl
{
static void apply(Geometry& geometry, const CalculationType& x, const CalculationType& y)
{
bg::strategy::transform::translate_transformer<CalculationType, 2, 2> t(x, y);
bg::transform(geometry, geometry, t);
}
};
template<typename Geometry, typename CalculationType>
struct translate_trais
{
static void apply(Geometry& geometry, const CalculationType& x, const CalculationType& y);
};
#define TRANSLATE_TRAIS(Geometry)
template<typename CalculationType>
struct translate_trais<Geometry, CalculationType>
{
static void apply(Geometry& geometry, const CalculationType& x, const CalculationType& y)
{
translate_impl<Geometry, CalculationType>::apply(geometry, x, y);
}
};
TRANSLATE_TRAIS(DPoint)
TRANSLATE_TRAIS(DSegment)
TRANSLATE_TRAIS(DBox)
TRANSLATE_TRAIS(DRing)
TRANSLATE_TRAIS(DPolygon)
template<typename Geometry, typename CalculationType>
void translate(Geometry& geometry, const CalculationType& x, const CalculationType& y)
{
translate_trais<Geometry, CalculationType>::apply(geometry, x, y);
}
//////////////////////////////////////////////////////////////////////////
// 旋转变换
//////////////////////////////////////////////////////////////////////////
template<typename Geometry, typename DegreeOrRadian, typename CalculationType>
struct rotate_impl
{
static void apply(Geometry& geometry, const CalculationType& angle)
{
bg::strategy::transform::rotate_transformer<DegreeOrRadian, CalculationType, 2, 2> t(angle);
bg::transform(geometry, geometry, t);
}
};
template<typename Geometry, typename DegreeOrRadian, typename CalculationType>
struct rotate_trais
{
static void apply(Geometry& geometry, const CalculationType& angle);
};
#define ROTATE_TRAIS(Geometry, DegreeOrRadian)
template<typename CalculationType>
struct rotate_trais<Geometry, DegreeOrRadian, CalculationType>
{
static void apply(Geometry& geometry, const CalculationType& angle)
{
rotate_impl<Geometry, DegreeOrRadian, CalculationType>::apply(geometry, angle);
}
};
ROTATE_TRAIS(DPoint, bg::degree)
ROTATE_TRAIS(DPoint, bg::radian)
ROTATE_TRAIS(DSegment, bg::degree)
ROTATE_TRAIS(DSegment, bg::radian)
ROTATE_TRAIS(DBox, bg::degree)
ROTATE_TRAIS(DBox, bg::radian)
ROTATE_TRAIS(DRing, bg::degree)
ROTATE_TRAIS(DRing, bg::radian)
ROTATE_TRAIS(DPolygon, bg::degree)
ROTATE_TRAIS(DPolygon, bg::radian)
template<typename Geometry, typename DegreeOrRadian, typename CalculationType>
void rotate(Geometry& geometry, const DegreeOrRadian&, const CalculationType& angle)
{
rotate_trais<Geometry, DegreeOrRadian, CalculationType>::apply(geometry, angle);
}
template<typename Geometry, typename Point, typename DegreeOrRadian, typename CalculationType>
void point_rotate(Geometry& geometry, const Point& point, const DegreeOrRadian& type, const CalculationType& angle)
{
Point pt(0, 0);
bg::subtract_point(pt, point);
translate(geometry, bg::get<0>(pt), bg::get<1>(pt));
rotate(geometry, type, angle);
translate(geometry, bg::get<0>(point), bg::get<1>(point));
}
//////////////////////////////////////////////////////////////////////////
// 比例变形
//////////////////////////////////////////////////////////////////////////
template<typename Geometry, typename CalculationType>
struct scale_impl
{
static void apply(Geometry& geometry, const CalculationType& scale_x, const CalculationType& scale_y)
{
bg::strategy::transform::scale_transformer<CalculationType, 2, 2> t(scale_x, scale_y);
bg::transform(geometry, geometry, t);
}
};
template<typename Geometry, typename CalculationType>
struct scale_trais
{
static void apply(Geometry& geometry, const CalculationType& scale_x, const CalculationType& scale_y);
};
#define SCALE_TRAIS(Geometry)
template<typename CalculationType>
struct scale_trais<Geometry, CalculationType>
{
static void apply(Geometry& geometry, const CalculationType& scale_x, const CalculationType& scale_y)
{
scale_impl<Geometry, CalculationType>::apply(geometry, scale_x, scale_y);
}
};
SCALE_TRAIS(DPoint)
SCALE_TRAIS(DSegment)
SCALE_TRAIS(DBox)
SCALE_TRAIS(DRing)
SCALE_TRAIS(DPolygon)
template<typename Geometry, typename CalculationType>
void scale(Geometry& geometry, const CalculationType& scale_x, const CalculationType& scale_y)
{
scale_trais<Geometry, CalculationType>::apply(geometry, scale_x, scale_y);
}
//////////////////////////////////////////////////////////////////////////
// 函数功能:
// 扩充box
//////////////////////////////////////////////////////////////////////////
template<typename Geometry, typename CalculateType>
void InflateBox(Geometry& geometry, CalculateType const& cx, CalculateType const& cy)
{
typedef typename bg::point_type<Geometry>::type point_type;
point_type& ptMin = geometry.min_corner();
point_type& ptMax = geometry.max_corner();
ptMin.x(ptMin.x() - cx);
ptMin.y(ptMin.y() - cy);
ptMax.x(ptMax.x() + cx);
ptMax.y(ptMax.y() + cy);
}
//////////////////////////////////////////////////////////////////////////
// 函数功能:
// 求点到线段的垂足;
// 返回值:
// true,垂足在线段上;
// false,垂足在线段外;
//////////////////////////////////////////////////////////////////////////
template<typename Point, typename Segment>
bool point_to_segment_org(Point const& point, Segment const& segment, Point& ptOut)
{
bool bInSegment = true;
try
{
typedef typename bg::point_type<Segment>::type point_type;
point_type p[2] = {segment.first, segment.second};
if (boost::geometry::equals(point, p[0]) ||
boost::geometry::equals(point, p[1]))
{
boost::geometry::assign_point(ptOut, point);
bInSegment = true;
throw bInSegment;
}
point_type v(p[1]), w(point);
boost::geometry::subtract_point(v, p[0]);
boost::geometry::subtract_point(w, p[0]);
typedef typename bg::select_calculation_type<Point, Segment, void>::type calculation_type;
calculation_type const zero = calculation_type();
calculation_type const c1 = boost::geometry::dot_product(w, v);
if (c1 < zero)
{
bInSegment = false;
}
double const c2 = boost::geometry::dot_product(v, v);
if (c2 < c1)
{
bInSegment = false;
}
calculation_type const b = c1 / c2;
DPoint projected(p[0]);
boost::geometry::multiply_value(v, b);
boost::geometry::add_point(projected, v);
boost::geometry::assign_point(ptOut, projected);
}
catch (bool)
{
}
return bInSegment;
}
//////////////////////////////////////////////////////////////////////////
// 函数功能:
// 通过比例求段上的点;
//////////////////////////////////////////////////////////////////////////
template<typename Segment, typename Point>
void get_segment_on_point_by_scale(Segment const& segment, double const& dScale, Point& ptOut)
{
typedef typename bg::point_type<Segment>::type point_type;
point_type p[2] = {segment.first, segment.second};
point_type v(p[1]);
point_type ptDest(p[0]);
boost::geometry::subtract_point(v, p[0]);
boost::geometry::multiply_value(v, dScale);
boost::geometry::add_point(ptDest, v);
boost::geometry::assign_point(ptOut, ptDest);
}
//////////////////////////////////////////////////////////////////////////
// 函数功能:
// 通过长度求段上的点;
//////////////////////////////////////////////////////////////////////////
template<typename Segment, typename Point>
void get_segment_on_point_by_length(Segment const& segment, double const& dLength, Point& ptOut)
{
typedef typename bg::point_type<Segment>::type point_type;
point_type p[2] = {segment.first, segment.second};
double dTotalLength = boost::geometry::distance(p[0], p[1]);
double dScale = dLength / dTotalLength;
get_segment_on_point_by_scale(segment, dScale, ptOut);
}
}
int main()
{
DBox box1(DPoint(100, 100), DPoint(300, 200));
GeometryExtend::InflateBox(box1, 20, 10);
DSegment sg1(DPoint(100, 100), DPoint(300, 300));
DPoint pt1(300, 100);
DPoint pt2(100, 0);
DPoint ptOut;
bool bOnSegment;
bOnSegment = GeometryExtend::point_to_segment_org(pt1, sg1, ptOut);
bOnSegment = GeometryExtend::point_to_segment_org(pt2, sg1, ptOut);
GeometryExtend::get_segment_on_point_by_scale(sg1, 0.5, ptOut);
GeometryExtend::get_segment_on_point_by_length(sg1, 0, ptOut);
DPoint pt4;
DSegment sg4;
//平移变换
bg::assign_point(pt4, pt1);
GeometryExtend::translate(pt4, 10, 20);
bg::assign(sg4, sg1);
GeometryExtend::translate(sg4, 10, 20);
//旋转变形
bg::assign(pt4, pt1);
GeometryExtend::rotate(pt4, bg::degree(), 45.0);
bg::assign(sg4, sg1);
GeometryExtend::rotate(sg4, bg::degree(), 45.0);
//比例变换
bg::assign(pt4, pt1);
GeometryExtend::scale(pt4, 0.5, 0.2);
bg::assign(sg4, sg1);
GeometryExtend::scale(sg4, 0.5, 0.2);
return 0;
}