third_party/agg23/agg_curves.h - pdfium - Git at Google


 //----------------------------------------------------------------------------
 // Anti-Grain Geometry - Version 2.3
 // Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
 // Copyright (C) 2005 Tony Juricic (tonygeek@yahoo.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
 //----------------------------------------------------------------------------
 #ifndef AGG_CURVES_INCLUDED
 #define AGG_CURVES_INCLUDED
 #include "agg_array.h"
 namespace agg
 {
 struct curve4_points  {
     FX_FLOAT cp[8];
     curve4_points() {}
     curve4_points(FX_FLOAT x1, FX_FLOAT y1,
                   FX_FLOAT x2, FX_FLOAT y2,
                   FX_FLOAT x3, FX_FLOAT y3,
                   FX_FLOAT x4, FX_FLOAT y4)
     {
         cp[0] = x1;
         cp[1] = y1;
         cp[2] = x2;
         cp[3] = y2;
         cp[4] = x3;
         cp[5] = y3;
         cp[6] = x4;
         cp[7] = y4;
     }
     void init(FX_FLOAT x1, FX_FLOAT y1,
               FX_FLOAT x2, FX_FLOAT y2,
               FX_FLOAT x3, FX_FLOAT y3,
               FX_FLOAT x4, FX_FLOAT y4)
     {
         cp[0] = x1;
         cp[1] = y1;
         cp[2] = x2;
         cp[3] = y2;
         cp[4] = x3;
         cp[5] = y3;
         cp[6] = x4;
         cp[7] = y4;
     }
     FX_FLOAT  operator [] (unsigned i) const
     {
         return cp[i];
     }
     FX_FLOAT& operator [] (unsigned i)
     {
         return cp[i];
     }
 };
 class curve4_div
 {
 public:
     curve4_div() :
         m_count(0)
     {}
     curve4_div(FX_FLOAT x1, FX_FLOAT y1,
                FX_FLOAT x2, FX_FLOAT y2,
                FX_FLOAT x3, FX_FLOAT y3,
                FX_FLOAT x4, FX_FLOAT y4) :
         m_count(0)
     {
         init(x1, y1, x2, y2, x3, y3, x4, y4);
     }
     curve4_div(const curve4_points& cp) :
         m_count(0)
     {
         init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
     }
     void reset()
     {
         m_points.remove_all();
         m_count = 0;
     }
     void init(FX_FLOAT x1, FX_FLOAT y1,
               FX_FLOAT x2, FX_FLOAT y2,
               FX_FLOAT x3, FX_FLOAT y3,
               FX_FLOAT x4, FX_FLOAT y4);
     void init(const curve4_points& cp)
     {
         init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
     }
     void rewind(unsigned)
     {
         m_count = 0;
     }
     unsigned vertex(FX_FLOAT* x, FX_FLOAT* y)
     {
         if(m_count >= m_points.size()) {
             return path_cmd_stop;
         }
         const point_type& p = m_points[m_count++];
         *x = p.x;
         *y = p.y;
         return (m_count == 1) ? path_cmd_move_to : path_cmd_line_to;
     }
     unsigned vertex_flag(FX_FLOAT* x, FX_FLOAT* y, int& flag)
     {
         if(m_count >= m_points.size()) {
             return path_cmd_stop;
         }
         const point_type& p = m_points[m_count++];
         *x = p.x;
         *y = p.y;
         flag = p.flag;
         return (m_count == 1) ? path_cmd_move_to : path_cmd_line_to;
     }
     int count()
     {
         return m_points.size();
     }
 private:
     void bezier(FX_FLOAT x1, FX_FLOAT y1,
                 FX_FLOAT x2, FX_FLOAT y2,
                 FX_FLOAT x3, FX_FLOAT y3,
                 FX_FLOAT x4, FX_FLOAT y4);
     void recursive_bezier(FX_FLOAT x1, FX_FLOAT y1,
                           FX_FLOAT x2, FX_FLOAT y2,
                           FX_FLOAT x3, FX_FLOAT y3,
                           FX_FLOAT x4, FX_FLOAT y4,
                           unsigned level);
     FX_FLOAT    m_distance_tolerance_square;
     FX_FLOAT    m_distance_tolerance_manhattan;
     unsigned              m_count;
     pod_deque<point_type> m_points;
 };
 class curve4
 {
 public:
     curve4() {}
     curve4(FX_FLOAT x1, FX_FLOAT y1,
            FX_FLOAT x2, FX_FLOAT y2,
            FX_FLOAT x3, FX_FLOAT y3,
            FX_FLOAT x4, FX_FLOAT y4)
     {
         init(x1, y1, x2, y2, x3, y3, x4, y4);
     }
     curve4(const curve4_points& cp)
     {
         init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
     }
     void reset()
     {
         m_curve_div.reset();
     }
     void init(FX_FLOAT x1, FX_FLOAT y1,
               FX_FLOAT x2, FX_FLOAT y2,
               FX_FLOAT x3, FX_FLOAT y3,
               FX_FLOAT x4, FX_FLOAT y4)
     {
         m_curve_div.init(x1, y1, x2, y2, x3, y3, x4, y4);
     }
     void init(const curve4_points& cp)
     {
         init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
     }
     void rewind(unsigned path_id)
     {
         m_curve_div.rewind(path_id);
     }
     unsigned vertex(FX_FLOAT* x, FX_FLOAT* y)
     {
         return m_curve_div.vertex(x, y);
     }
     unsigned vertex_curve_flag(FX_FLOAT* x, FX_FLOAT* y, int& flag)
     {
         return m_curve_div.vertex_flag(x, y, flag);
     }
     int count()
     {
         return m_curve_div.count();
     }
 private:
     curve4_div m_curve_div;
 };
 }
 #endif

	//----------------------------------------------------------------------------
	// Anti-Grain Geometry - Version 2.3
	// Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
	// Copyright (C) 2005 Tony Juricic (tonygeek@yahoo.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
	//----------------------------------------------------------------------------
	#ifndef AGG_CURVES_INCLUDED
	#define AGG_CURVES_INCLUDED
	#include "agg_array.h"
	namespace agg
	{
	struct curve4_points {
	FX_FLOAT cp[8];
	curve4_points() {}
	curve4_points(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4)
	{
	cp[0] = x1;
	cp[1] = y1;
	cp[2] = x2;
	cp[3] = y2;
	cp[4] = x3;
	cp[5] = y3;
	cp[6] = x4;
	cp[7] = y4;
	}
	void init(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4)
	{
	cp[0] = x1;
	cp[1] = y1;
	cp[2] = x2;
	cp[3] = y2;
	cp[4] = x3;
	cp[5] = y3;
	cp[6] = x4;
	cp[7] = y4;
	}
	FX_FLOAT operator [] (unsigned i) const
	{
	return cp[i];
	}
	FX_FLOAT& operator [] (unsigned i)
	{
	return cp[i];
	}
	};
	class curve4_div
	{
	public:
	curve4_div() :
	m_count(0)
	{}
	curve4_div(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4) :
	m_count(0)
	{
	init(x1, y1, x2, y2, x3, y3, x4, y4);
	}
	curve4_div(const curve4_points& cp) :
	m_count(0)
	{
	init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
	}
	void reset()
	{
	m_points.remove_all();
	m_count = 0;
	}
	void init(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4);
	void init(const curve4_points& cp)
	{
	init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
	}
	void rewind(unsigned)
	{
	m_count = 0;
	}
	unsigned vertex(FX_FLOAT* x, FX_FLOAT* y)
	{
	if(m_count >= m_points.size()) {
	return path_cmd_stop;
	}
	const point_type& p = m_points[m_count++];
	*x = p.x;
	*y = p.y;
	return (m_count == 1) ? path_cmd_move_to : path_cmd_line_to;
	}
	unsigned vertex_flag(FX_FLOAT* x, FX_FLOAT* y, int& flag)
	{
	if(m_count >= m_points.size()) {
	return path_cmd_stop;
	}
	const point_type& p = m_points[m_count++];
	*x = p.x;
	*y = p.y;
	flag = p.flag;
	return (m_count == 1) ? path_cmd_move_to : path_cmd_line_to;
	}
	int count()
	{
	return m_points.size();
	}
	private:
	void bezier(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4);
	void recursive_bezier(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4,
	unsigned level);
	FX_FLOAT m_distance_tolerance_square;
	FX_FLOAT m_distance_tolerance_manhattan;
	unsigned m_count;
	pod_deque<point_type> m_points;
	};
	class curve4
	{
	public:
	curve4() {}
	curve4(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4)
	{
	init(x1, y1, x2, y2, x3, y3, x4, y4);
	}
	curve4(const curve4_points& cp)
	{
	init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
	}
	void reset()
	{
	m_curve_div.reset();
	}
	void init(FX_FLOAT x1, FX_FLOAT y1,
	FX_FLOAT x2, FX_FLOAT y2,
	FX_FLOAT x3, FX_FLOAT y3,
	FX_FLOAT x4, FX_FLOAT y4)
	{
	m_curve_div.init(x1, y1, x2, y2, x3, y3, x4, y4);
	}
	void init(const curve4_points& cp)
	{
	init(cp[0], cp[1], cp[2], cp[3], cp[4], cp[5], cp[6], cp[7]);
	}
	void rewind(unsigned path_id)
	{
	m_curve_div.rewind(path_id);
	}
	unsigned vertex(FX_FLOAT* x, FX_FLOAT* y)
	{
	return m_curve_div.vertex(x, y);
	}
	unsigned vertex_curve_flag(FX_FLOAT* x, FX_FLOAT* y, int& flag)
	{
	return m_curve_div.vertex_flag(x, y, flag);
	}
	int count()
	{
	return m_curve_div.count();
	}
	private:
	curve4_div m_curve_div;
	};
	}
	#endif