1 
2 //----------------------------------------------------------------------------
3 // Anti-Grain Geometry - Version 2.3
4 // Copyright (C) 2002-2005 Maxim Shemanarev (http://www.antigrain.com)
5 //
6 // Permission to copy, use, modify, sell and distribute this software
7 // is granted provided this copyright notice appears in all copies.
8 // This software is provided "as is" without express or implied
9 // warranty, and with no claim as to its suitability for any purpose.
10 //
11 //----------------------------------------------------------------------------
12 // Contact: mcseem@antigrain.com
13 //          mcseemagg@yahoo.com
14 //          http://www.antigrain.com
15 //----------------------------------------------------------------------------
16 #ifndef AGG_BASICS_INCLUDED
17 #define AGG_BASICS_INCLUDED
18 #ifndef AGG_INT8
19 #define AGG_INT8 signed char
20 #endif
21 #ifndef AGG_INT8U
22 #define AGG_INT8U unsigned char
23 #endif
24 #ifndef AGG_INT16
25 #define AGG_INT16 short
26 #endif
27 #ifndef AGG_INT16U
28 #define AGG_INT16U unsigned short
29 #endif
30 #ifndef AGG_INT32
31 #define AGG_INT32 int
32 #endif
33 #ifndef AGG_INT32U
34 #define AGG_INT32U unsigned
35 #endif
36 #ifndef AGG_INT64
37 #define AGG_INT64 signed long long
38 #endif
39 #ifndef AGG_INT64U
40 #define AGG_INT64U unsigned long long
41 #endif
42 #define AGG_INLINE inline
43 
44 #include "core/include/fxcrt/fx_system.h"  // For FX_FLOAT
45 
46 namespace agg
47 {
48 typedef AGG_INT8   int8;
49 typedef AGG_INT8U  int8u;
50 typedef AGG_INT16  int16;
51 typedef AGG_INT16U int16u;
52 typedef AGG_INT32  int32;
53 typedef AGG_INT32U int32u;
54 typedef AGG_INT64  int64;
55 typedef AGG_INT64U int64u;
56 typedef unsigned char cover_type;
57 enum cover_scale_e {
58     cover_shift = 8,
59     cover_size  = 1 << cover_shift,
60     cover_mask  = cover_size - 1,
61     cover_none  = 0,
62     cover_full  = cover_mask
63 };
64 template<class T> struct rect_base  {
65     typedef rect_base<T> self_type;
66     T x1;
67     T y1;
68     T x2;
69     T y2;
rect_baserect_base70     rect_base() {}
rect_baserect_base71     rect_base(T x1_, T y1_, T x2_, T y2_) :
72         x1(x1_), y1(y1_), x2(x2_), y2(y2_) {}
normalizerect_base73     const self_type& normalize()
74     {
75         T t;
76         if(x1 > x2) {
77             t = x1;
78             x1 = x2;
79             x2 = t;
80         }
81         if(y1 > y2) {
82             t = y1;
83             y1 = y2;
84             y2 = t;
85         }
86         return *this;
87     }
cliprect_base88     bool clip(const self_type& r)
89     {
90         if(x2 > r.x2) {
91             x2 = r.x2;
92         }
93         if(y2 > r.y2) {
94             y2 = r.y2;
95         }
96         if(x1 < r.x1) {
97             x1 = r.x1;
98         }
99         if(y1 < r.y1) {
100             y1 = r.y1;
101         }
102         return x1 <= x2 && y1 <= y2;
103     }
is_validrect_base104     bool is_valid() const
105     {
106         return x1 <= x2 && y1 <= y2;
107     }
108 };
109 template<class Rect>
intersect_rectangles(const Rect & r1,const Rect & r2)110 inline Rect intersect_rectangles(const Rect& r1, const Rect& r2)
111 {
112     Rect r = r1;
113     if(r.x2 > r2.x2) {
114         r.x2 = r2.x2;
115     }
116     if(r.y2 > r2.y2) {
117         r.y2 = r2.y2;
118     }
119     if(r.x1 < r2.x1) {
120         r.x1 = r2.x1;
121     }
122     if(r.y1 < r2.y1) {
123         r.y1 = r2.y1;
124     }
125     return r;
126 }
127 template<class Rect>
unite_rectangles(const Rect & r1,const Rect & r2)128 inline Rect unite_rectangles(const Rect& r1, const Rect& r2)
129 {
130     Rect r = r1;
131     if(r.x2 < r2.x2) {
132         r.x2 = r2.x2;
133     }
134     if(r.y2 < r2.y2) {
135         r.y2 = r2.y2;
136     }
137     if(r.x1 > r2.x1) {
138         r.x1 = r2.x1;
139     }
140     if(r.y1 > r2.y1) {
141         r.y1 = r2.y1;
142     }
143     return r;
144 }
145 typedef rect_base<int>    rect;
146 typedef rect_base<FX_FLOAT> rect_d;
147 enum path_commands_e {
148     path_cmd_stop     = 0,
149     path_cmd_move_to  = 1,
150     path_cmd_line_to  = 2,
151     path_cmd_curve3   = 3,
152     path_cmd_curve4   = 4,
153     path_cmd_curveN   = 5,
154     path_cmd_catrom   = 6,
155     path_cmd_ubspline = 7,
156     path_cmd_end_poly = 0x0F,
157     path_cmd_mask     = 0x0F
158 };
159 enum path_flags_e {
160     path_flags_none  = 0,
161     path_flags_ccw   = 0x10,
162     path_flags_cw    = 0x20,
163     path_flags_close = 0x40,
164     path_flags_jr	 = 0x80,
165     path_flags_mask  = 0xF0
166 };
is_vertex(unsigned c)167 inline bool is_vertex(unsigned c)
168 {
169     c &= ~path_flags_jr;
170     return c >= path_cmd_move_to && c < path_cmd_end_poly;
171 }
is_drawing(unsigned c)172 inline bool is_drawing(unsigned c)
173 {
174     c &= ~path_flags_jr;
175     return c >= path_cmd_line_to && c < path_cmd_end_poly;
176 }
is_stop(unsigned c)177 inline bool is_stop(unsigned c)
178 {
179     c &= ~path_flags_jr;
180     return c == path_cmd_stop;
181 }
is_move_to(unsigned c)182 inline bool is_move_to(unsigned c)
183 {
184     c &= ~path_flags_jr;
185     return c == path_cmd_move_to;
186 }
is_line_to(unsigned c)187 inline bool is_line_to(unsigned c)
188 {
189     c &= ~path_flags_jr;
190     return c == path_cmd_line_to;
191 }
is_curve(unsigned c)192 inline bool is_curve(unsigned c)
193 {
194     c &= ~path_flags_jr;
195     return c == path_cmd_curve3 || c == path_cmd_curve4;
196 }
is_curve3(unsigned c)197 inline bool is_curve3(unsigned c)
198 {
199     c &= ~path_flags_jr;
200     return c == path_cmd_curve3;
201 }
is_curve4(unsigned c)202 inline bool is_curve4(unsigned c)
203 {
204     c &= ~path_flags_jr;
205     return c == path_cmd_curve4;
206 }
is_end_poly(unsigned c)207 inline bool is_end_poly(unsigned c)
208 {
209     c &= ~path_flags_jr;
210     return (c & path_cmd_mask) == path_cmd_end_poly;
211 }
is_close(unsigned c)212 inline bool is_close(unsigned c)
213 {
214     c &= ~path_flags_jr;
215     return (c & ~(path_flags_cw | path_flags_ccw)) ==
216            (path_cmd_end_poly | path_flags_close);
217 }
is_next_poly(unsigned c)218 inline bool is_next_poly(unsigned c)
219 {
220     c &= ~path_flags_jr;
221     return is_stop(c) || is_move_to(c) || is_end_poly(c);
222 }
is_cw(unsigned c)223 inline bool is_cw(unsigned c)
224 {
225     c &= ~path_flags_jr;
226     return (c & path_flags_cw) != 0;
227 }
is_ccw(unsigned c)228 inline bool is_ccw(unsigned c)
229 {
230     c &= ~path_flags_jr;
231     return (c & path_flags_ccw) != 0;
232 }
is_oriented(unsigned c)233 inline bool is_oriented(unsigned c)
234 {
235     c &= ~path_flags_jr;
236     return (c & (path_flags_cw | path_flags_ccw)) != 0;
237 }
is_closed(unsigned c)238 inline bool is_closed(unsigned c)
239 {
240     c &= ~path_flags_jr;
241     return (c & path_flags_close) != 0;
242 }
get_close_flag(unsigned c)243 inline unsigned get_close_flag(unsigned c)
244 {
245     c &= ~path_flags_jr;
246     return c & path_flags_close;
247 }
clear_orientation(unsigned c)248 inline unsigned clear_orientation(unsigned c)
249 {
250     c &= ~path_flags_jr;
251     return c & ~(path_flags_cw | path_flags_ccw);
252 }
get_orientation(unsigned c)253 inline unsigned get_orientation(unsigned c)
254 {
255     c &= ~path_flags_jr;
256     return c & (path_flags_cw | path_flags_ccw);
257 }
set_orientation(unsigned c,unsigned o)258 inline unsigned set_orientation(unsigned c, unsigned o)
259 {
260     c &= ~path_flags_jr;
261     return clear_orientation(c) | o;
262 }
263 struct point_type  {
264     FX_FLOAT x, y;
265     unsigned flag;
point_typepoint_type266     point_type() {}
xpoint_type267     point_type(FX_FLOAT x_, FX_FLOAT y_, unsigned flag_ = 0) : x(x_), y(y_), flag(flag_) {}
268 };
269 struct point_type_flag : public point_type {
270     unsigned flag;
point_type_flagpoint_type_flag271     point_type_flag()
272     {
273         flag = 0;
274     }
point_typepoint_type_flag275     point_type_flag(FX_FLOAT x_, FX_FLOAT y_, unsigned flag_ = 0) : point_type(x_, y_), flag(flag_) {}
276 };
277 struct vertex_type  {
278     FX_FLOAT   x, y;
279     unsigned cmd;
vertex_typevertex_type280     vertex_type() {}
vertex_typevertex_type281     vertex_type(FX_FLOAT x_, FX_FLOAT y_, unsigned cmd_) :
282         x(x_), y(y_), cmd(cmd_) {}
283 };
284 }
285 #endif
286