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//----------------------------------------------------------------------------
// Anti-Grain Geometry - Version 2.2
// Copyright (C) 2002-2004 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
//----------------------------------------------------------------------------
#ifndef AGG_BASICS_INCLUDED
#define AGG_BASICS_INCLUDED
namespace agg
{
//-------------------------------------------------------------------------
typedef signed char int8; //----int8
typedef unsigned char int8u; //----int8u
typedef signed short int16; //----int16
typedef unsigned short int16u; //----int16u
typedef signed int int32; //----int32
typedef unsigned int int32u; //----int32u
//-------------------------------------------------------------------------
typedef unsigned char cover_type; //----cover_type
enum
{
cover_shift = 8, //----cover_shift
cover_size = 1 << cover_shift, //----cover_size
cover_mask = cover_size - 1, //----cover_mask
cover_none = 0, //----cover_none
cover_full = cover_mask //----cover_full
};
//-----------------------------------------------------------------------pi
const double pi = 3.14159265358979323846;
//------------------------------------------------------------------deg2rad
inline double deg2rad(double deg)
{
return deg * pi / 180.0;
}
//------------------------------------------------------------------rad2deg
inline double rad2deg(double rad)
{
return rad * 180.0 / pi;
}
//----------------------------------------------------------------rect_base
template<class T> struct rect_base
{
typedef rect_base<T> self_type;
T x1;
T y1;
T x2;
T y2;
rect_base() {}
rect_base(T x1_, T y1_, T x2_, T y2_) :
x1(x1_), y1(y1_), x2(x2_), y2(y2_) {}
const self_type& normalize()
{
T t;
if(x1 > x2) { t = x1; x1 = x2; x2 = t; }
if(y1 > y2) { t = y1; y1 = y2; y2 = t; }
return *this;
}
bool clip(const self_type& r)
{
if(x2 > r.x2) x2 = r.x2;
if(y2 > r.y2) y2 = r.y2;
if(x1 < r.x1) x1 = r.x1;
if(y1 < r.y1) y1 = r.y1;
return x1 <= x2 && y1 <= y2;
}
bool is_valid() const
{
return x1 <= x2 && y1 <= y2;
}
};
//-----------------------------------------------------intersect_rectangles
template<class Rect>
inline Rect intersect_rectangles(const Rect& r1, const Rect& r2)
{
Rect r = r1;
// First process x2,y2 because the other order
// results in Internal Compiler Error under
// Microsoft Visual C++ .NET 2003 69462-335-0000007-18038 in
// case of "Maximize Speed" optimization option.
//-----------------
if(r.x2 > r2.x2) r.x2 = r2.x2;
if(r.y2 > r2.y2) r.y2 = r2.y2;
if(r.x1 < r2.x1) r.x1 = r2.x1;
if(r.y1 < r2.y1) r.y1 = r2.y1;
return r;
}
//---------------------------------------------------------unite_rectangles
template<class Rect>
inline Rect unite_rectangles(const Rect& r1, const Rect& r2)
{
Rect r = r1;
if(r.x2 < r2.x2) r.x2 = r2.x2;
if(r.y2 < r2.y2) r.y2 = r2.y2;
if(r.x1 > r2.x1) r.x1 = r2.x1;
if(r.y1 > r2.y1) r.y1 = r2.y1;
return r;
}
typedef rect_base<int> rect; //----rect
typedef rect_base<double> rect_d; //----rect_d
//---------------------------------------------------------path_commands_e
enum path_commands_e
{
path_cmd_stop = 0, //----path_cmd_stop
path_cmd_move_to = 1, //----path_cmd_move_to
path_cmd_line_to = 2, //----path_cmd_line_to
path_cmd_curve3 = 3, //----path_cmd_curve3
path_cmd_curve4 = 4, //----path_cmd_curve4
path_cmd_end_poly = 6, //----path_cmd_end_poly
path_cmd_mask = 0x0F //----path_cmd_mask
};
//------------------------------------------------------------path_flags_e
enum path_flags_e
{
path_flags_none = 0, //----path_flags_none
path_flags_ccw = 0x10, //----path_flags_ccw
path_flags_cw = 0x20, //----path_flags_cw
path_flags_close = 0x40, //----path_flags_close
path_flags_mask = 0xF0 //----path_flags_mask
};
//---------------------------------------------------------------is_vertex
inline bool is_vertex(unsigned c)
{
return c >= path_cmd_move_to && c < path_cmd_end_poly;
}
//-----------------------------------------------------------------is_stop
inline bool is_stop(unsigned c)
{
return c == path_cmd_stop;
}
//--------------------------------------------------------------is_move_to
inline bool is_move_to(unsigned c)
{
return c == path_cmd_move_to;
}
//--------------------------------------------------------------is_line_to
inline bool is_line_to(unsigned c)
{
return c == path_cmd_line_to;
}
//----------------------------------------------------------------is_curve
inline bool is_curve(unsigned c)
{
return c == path_cmd_curve3 || c == path_cmd_curve4;
}
//---------------------------------------------------------------is_curve3
inline bool is_curve3(unsigned c)
{
return c == path_cmd_curve3;
}
//---------------------------------------------------------------is_curve4
inline bool is_curve4(unsigned c)
{
return c == path_cmd_curve4;
}
//-------------------------------------------------------------is_end_poly
inline bool is_end_poly(unsigned c)
{
return (c & path_cmd_mask) == path_cmd_end_poly;
}
//----------------------------------------------------------------is_close
inline bool is_close(unsigned c)
{
return (c & ~(path_flags_cw | path_flags_ccw)) ==
(path_cmd_end_poly | path_flags_close);
}
//------------------------------------------------------------is_next_poly
inline bool is_next_poly(unsigned c)
{
return is_stop(c) || is_move_to(c) || is_end_poly(c);
}
//-------------------------------------------------------------------is_cw
inline bool is_cw(unsigned c)
{
return (c & path_flags_cw) != 0;
}
//------------------------------------------------------------------is_ccw
inline bool is_ccw(unsigned c)
{
return (c & path_flags_ccw) != 0;
}
//-------------------------------------------------------------is_oriented
inline bool is_oriented(unsigned c)
{
return (c & (path_flags_cw | path_flags_ccw)) != 0;
}
//---------------------------------------------------------------is_closed
inline bool is_closed(unsigned c)
{
return (c & path_flags_close) != 0;
}
//----------------------------------------------------------get_close_flag
inline unsigned get_close_flag(unsigned c)
{
return c & path_flags_close;
}
//-------------------------------------------------------clear_orientation
inline unsigned clear_orientation(unsigned c)
{
return c & ~(path_flags_cw | path_flags_ccw);
}
//---------------------------------------------------------get_orientation
inline unsigned get_orientation(unsigned c)
{
return c & (path_flags_cw | path_flags_ccw);
}
//---------------------------------------------------------set_orientation
inline unsigned set_orientation(unsigned c, unsigned o)
{
return clear_orientation(c) | o;
}
//--------------------------------------------------------------point_type
struct point_type
{
double x, y;
point_type() {}
point_type(double x_, double y_) : x(x_), y(y_) {}
};
//-------------------------------------------------------------vertex_type
struct vertex_type
{
double x, y;
unsigned cmd;
vertex_type() {}
vertex_type(double x_, double y_, unsigned cmd_) :
x(x_), y(y_), cmd(cmd_) {}
};
}
#endif
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