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	//----------------------------------------------------------------------------
	// Anti-Grain Geometry - Version 2.4
	// Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
	//
	// Permission to copy, use, modify, sell and distribute this software
	// is granted provided this copyright notice appears in all copies.
	// This software is provided "as is" without express or implied
	// warranty, and with no claim as to its suitability for any purpose.
	//
	//----------------------------------------------------------------------------
	// Contact: mcseem@antigrain.com
	// mcseemagg@yahoo.com
	// http://www.antigrain.com
	//----------------------------------------------------------------------------
	//
	// General Polygon Clipper based on the GPC library by Alan Murta
	// Union, Intersection, XOR, A-B, B-A
	// Contact the author if you intend to use it in commercial applications!
	// http://www.cs.man.ac.uk/aig/staff/alan/software/
	// Alan Murta (email: gpc@cs.man.ac.uk)
	//
	//----------------------------------------------------------------------------

	#ifndef AGG_CONV_GPC_INCLUDED
	#define AGG_CONV_GPC_INCLUDED

	#include <math.h>
	#include "agg_basics.h"
	#include "agg_array.h"

	extern "C"
	{
	#include "gpc.h"
	}

	namespace agg
	{
	enum gpc_op_e
	{
	gpc_or,
	gpc_and,
	gpc_xor,
	gpc_a_minus_b,
	gpc_b_minus_a
	};


	//================================================================conv_gpc
	template<class VSA, class VSB> class conv_gpc
	{
	enum status
	{
	status_move_to,
	status_line_to,
	status_stop
	};

	struct contour_header_type
	{
	int num_vertices;
	int hole_flag;
	gpc_vertex* vertices;
	};

	typedef pod_bvector<gpc_vertex, 8> vertex_array_type;
	typedef pod_bvector<contour_header_type, 6> contour_header_array_type;


	public:
	typedef VSA source_a_type;
	typedef VSB source_b_type;
	typedef conv_gpc<source_a_type, source_b_type> self_type;

	~conv_gpc()
	{
	free_gpc_data();
	}

	conv_gpc(source_a_type& a, source_b_type& b, gpc_op_e op = gpc_or) :
	m_src_a(&a),
	m_src_b(&b),
	m_status(status_move_to),
	m_vertex(-1),
	m_contour(-1),
	m_operation(op)
	{
	memset(&m_poly_a, 0, sizeof(m_poly_a));
	memset(&m_poly_b, 0, sizeof(m_poly_b));
	memset(&m_result, 0, sizeof(m_result));
	}

	void attach1(VSA& source) { m_src_a = &source; }
	void attach2(VSB& source) { m_src_b = &source; }

	void operation(gpc_op_e v) { m_operation = v; }

	// Vertex Source Interface
	void rewind(unsigned path_id);
	unsigned vertex(double* x, double* y);

	private:
	conv_gpc(const conv_gpc<VSA, VSB>&);
	const conv_gpc<VSA, VSB>& operator = (const conv_gpc<VSA, VSB>&);

	//--------------------------------------------------------------------
	void free_polygon(gpc_polygon& p);
	void free_result();
	void free_gpc_data();
	void start_contour();
	void add_vertex(double x, double y);
	void end_contour(unsigned orientation);
	void make_polygon(gpc_polygon& p);
	void start_extracting();
	bool next_contour();
	bool next_vertex(double* x, double* y);


	//--------------------------------------------------------------------
	template<class VS> void add(VS& src, gpc_polygon& p)
	{
	unsigned cmd;
	double x, y;
	double start_x = 0.0;
	double start_y = 0.0;
	bool line_to = false;
	unsigned orientation = 0;

	m_contour_accumulator.remove_all();

	while(!is_stop(cmd = src.vertex(&x, &y)))
	{
	if(is_vertex(cmd))
	{
	if(is_move_to(cmd))
	{
	if(line_to)
	{
	end_contour(orientation);
	orientation = 0;
	}
	start_contour();
	start_x = x;
	start_y = y;
	}
	add_vertex(x, y);
	line_to = true;
	}
	else
	{
	if(is_end_poly(cmd))
	{
	orientation = get_orientation(cmd);
	if(line_to && is_closed(cmd))
	{
	add_vertex(start_x, start_y);
	}
	}
	}
	}
	if(line_to)
	{
	end_contour(orientation);
	}
	make_polygon(p);
	}


	private:
	//--------------------------------------------------------------------
	source_a_type* m_src_a;
	source_b_type* m_src_b;
	status m_status;
	int m_vertex;
	int m_contour;
	gpc_op_e m_operation;
	vertex_array_type m_vertex_accumulator;
	contour_header_array_type m_contour_accumulator;
	gpc_polygon m_poly_a;
	gpc_polygon m_poly_b;
	gpc_polygon m_result;
	};





	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::free_polygon(gpc_polygon& p)
	{
	int i;
	for(i = 0; i < p.num_contours; i++)
	{
	pod_allocator<gpc_vertex>::deallocate(p.contour[i].vertex,
	p.contour[i].num_vertices);
	}
	pod_allocator<gpc_vertex_list>::deallocate(p.contour, p.num_contours);
	memset(&p, 0, sizeof(gpc_polygon));
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::free_result()
	{
	if(m_result.contour)
	{
	gpc_free_polygon(&m_result);
	}
	memset(&m_result, 0, sizeof(m_result));
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::free_gpc_data()
	{
	free_polygon(m_poly_a);
	free_polygon(m_poly_b);
	free_result();
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::start_contour()
	{
	contour_header_type h;
	memset(&h, 0, sizeof(h));
	m_contour_accumulator.add(h);
	m_vertex_accumulator.remove_all();
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	inline void conv_gpc<VSA, VSB>::add_vertex(double x, double y)
	{
	gpc_vertex v;
	v.x = x;
	v.y = y;
	m_vertex_accumulator.add(v);
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::end_contour(unsigned orientation)
	{
	if(m_contour_accumulator.size())
	{
	if(m_vertex_accumulator.size() > 2)
	{
	contour_header_type& h =
	m_contour_accumulator[m_contour_accumulator.size() - 1];

	h.num_vertices = m_vertex_accumulator.size();
	h.hole_flag = 0;

	// TO DO: Clarify the "holes"
	//if(is_cw(orientation)) h.hole_flag = 1;

	h.vertices = pod_allocator<gpc_vertex>::allocate(h.num_vertices);
	gpc_vertex* d = h.vertices;
	int i;
	for(i = 0; i < h.num_vertices; i++)
	{
	const gpc_vertex& s = m_vertex_accumulator[i];
	d->x = s.x;
	d->y = s.y;
	++d;
	}
	}
	else
	{
	m_vertex_accumulator.remove_last();
	}
	}
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::make_polygon(gpc_polygon& p)
	{
	free_polygon(p);
	if(m_contour_accumulator.size())
	{
	p.num_contours = m_contour_accumulator.size();

	p.hole = 0;
	p.contour = pod_allocator<gpc_vertex_list>::allocate(p.num_contours);

	int i;
	gpc_vertex_list* pv = p.contour;
	for(i = 0; i < p.num_contours; i++)
	{
	const contour_header_type& h = m_contour_accumulator[i];
	pv->num_vertices = h.num_vertices;
	pv->vertex = h.vertices;
	++pv;
	}
	}
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::start_extracting()
	{
	m_status = status_move_to;
	m_contour = -1;
	m_vertex = -1;
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	bool conv_gpc<VSA, VSB>::next_contour()
	{
	if(++m_contour < m_result.num_contours)
	{
	m_vertex = -1;
	return true;
	}
	return false;
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	inline bool conv_gpc<VSA, VSB>::next_vertex(double* x, double* y)
	{
	const gpc_vertex_list& vlist = m_result.contour[m_contour];
	if(++m_vertex < vlist.num_vertices)
	{
	const gpc_vertex& v = vlist.vertex[m_vertex];
	*x = v.x;
	*y = v.y;
	return true;
	}
	return false;
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	void conv_gpc<VSA, VSB>::rewind(unsigned path_id)
	{
	free_result();
	m_src_a->rewind(path_id);
	m_src_b->rewind(path_id);
	add(*m_src_a, m_poly_a);
	add(*m_src_b, m_poly_b);
	switch(m_operation)
	{
	case gpc_or:
	gpc_polygon_clip(GPC_UNION,
	&m_poly_a,
	&m_poly_b,
	&m_result);
	break;

	case gpc_and:
	gpc_polygon_clip(GPC_INT,
	&m_poly_a,
	&m_poly_b,
	&m_result);
	break;

	case gpc_xor:
	gpc_polygon_clip(GPC_XOR,
	&m_poly_a,
	&m_poly_b,
	&m_result);
	break;

	case gpc_a_minus_b:
	gpc_polygon_clip(GPC_DIFF,
	&m_poly_a,
	&m_poly_b,
	&m_result);
	break;

	case gpc_b_minus_a:
	gpc_polygon_clip(GPC_DIFF,
	&m_poly_b,
	&m_poly_a,
	&m_result);
	break;
	}
	start_extracting();
	}


	//------------------------------------------------------------------------
	template<class VSA, class VSB>
	unsigned conv_gpc<VSA, VSB>::vertex(double* x, double* y)
	{
	if(m_status == status_move_to)
	{
	if(next_contour())
	{
	if(next_vertex(x, y))
	{
	m_status = status_line_to;
	return path_cmd_move_to;
	}
	m_status = status_stop;
	return path_cmd_end_poly \| path_flags_close;
	}
	}
	else
	{
	if(next_vertex(x, y))
	{
	return path_cmd_line_to;
	}
	else
	{
	m_status = status_move_to;
	}
	return path_cmd_end_poly \| path_flags_close;
	}
	return path_cmd_stop;
	}


	}


	#endif