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 //
13 // The author gratefully acknowleges the support of David Turner,
14 // Robert Wilhelm, and Werner Lemberg - the authors of the FreeType
15 // libray - in producing this work. See http://www.freetype.org for details.
16 //
17 //----------------------------------------------------------------------------
18 // Contact: mcseem@antigrain.com
19 // mcseemagg@yahoo.com
20 // http://www.antigrain.com
21 //----------------------------------------------------------------------------
22 //
23 // Adaptation for 32-bit screen coordinates has been sponsored by
24 // Liberty Technology Systems, Inc., visit http://lib-sys.com
25 //
26 // Liberty Technology Systems, Inc. is the provider of
27 // PostScript and PDF technology for software developers.
28 //
29 //----------------------------------------------------------------------------
30 #ifndef AGG_RASTERIZER_SCANLINE_AA_INCLUDED
31 #define AGG_RASTERIZER_SCANLINE_AA_INCLUDED
32
33 #include "agg_array.h"
34 #include "agg_basics.h"
35 #include "agg_clip_liang_barsky.h"
36 #include "agg_math.h"
37 #include "agg_render_scanlines.h"
38 #include "core/fxcrt/fx_coordinates.h"
39 #include "core/fxcrt/fx_memory.h"
40
41 namespace agg
42 {
43 enum poly_base_scale_e {
44 poly_base_shift = 8,
45 poly_base_size = 1 << poly_base_shift,
46 poly_base_mask = poly_base_size - 1
47 };
poly_coord(FX_FLOAT c)48 inline int poly_coord(FX_FLOAT c)
49 {
50 return int(c * poly_base_size);
51 }
52 struct cell_aa {
53 int x;
54 int y;
55 int cover;
56 int area;
57 void set(int x, int y, int c, int a);
58 void set_coord(int x, int y);
59 void set_cover(int c, int a);
60 void add_cover(int c, int a);
61 };
62 class outline_aa
63 {
64 enum cell_block_scale_e {
65 cell_block_shift = 12,
66 cell_block_size = 1 << cell_block_shift,
67 cell_block_mask = cell_block_size - 1,
68 cell_block_pool = 256,
69 cell_block_limit = 1024
70 };
71 struct sorted_y {
72 unsigned start;
73 unsigned num;
74 };
75 public:
76 ~outline_aa();
77 outline_aa();
78 void reset();
79 void move_to(int x, int y);
80 void line_to(int x, int y);
min_x()81 int min_x() const
82 {
83 return m_min_x;
84 }
min_y()85 int min_y() const
86 {
87 return m_min_y;
88 }
max_x()89 int max_x() const
90 {
91 return m_max_x;
92 }
max_y()93 int max_y() const
94 {
95 return m_max_y;
96 }
97 void sort_cells();
total_cells()98 unsigned total_cells() const
99 {
100 return m_num_cells;
101 }
scanline_num_cells(unsigned y)102 unsigned scanline_num_cells(unsigned y) const
103 {
104 return m_sorted_y[y - m_min_y].num;
105 }
scanline_cells(unsigned y)106 const cell_aa* const* scanline_cells(unsigned y) const
107 {
108 return m_sorted_cells.data() + m_sorted_y[y - m_min_y].start;
109 }
sorted()110 bool sorted() const
111 {
112 return m_sorted;
113 }
114 private:
115 outline_aa(const outline_aa&);
116 const outline_aa& operator = (const outline_aa&);
117 void set_cur_cell(int x, int y);
118 void add_cur_cell();
119 void render_hline(int ey, int x1, int y1, int x2, int y2);
120 void render_line(int x1, int y1, int x2, int y2);
121 void allocate_block();
122 private:
123 unsigned m_num_blocks;
124 unsigned m_max_blocks;
125 unsigned m_cur_block;
126 unsigned m_num_cells;
127 cell_aa** m_cells;
128 cell_aa* m_cur_cell_ptr;
129 pod_array<cell_aa*> m_sorted_cells;
130 pod_array<sorted_y> m_sorted_y;
131 cell_aa m_cur_cell;
132 int m_cur_x;
133 int m_cur_y;
134 int m_min_x;
135 int m_min_y;
136 int m_max_x;
137 int m_max_y;
138 bool m_sorted;
139 };
140 class scanline_hit_test
141 {
142 public:
scanline_hit_test(int x)143 scanline_hit_test(int x) : m_x(x), m_hit(false) {}
reset_spans()144 void reset_spans() {}
finalize(int)145 void finalize(int) {}
add_cell(int x,int)146 void add_cell(int x, int)
147 {
148 if(m_x == x) {
149 m_hit = true;
150 }
151 }
add_span(int x,int len,int)152 void add_span(int x, int len, int)
153 {
154 if(m_x >= x && m_x < x + len) {
155 m_hit = true;
156 }
157 }
num_spans()158 unsigned num_spans() const
159 {
160 return 1;
161 }
hit()162 bool hit() const
163 {
164 return m_hit;
165 }
166 private:
167 int m_x;
168 bool m_hit;
169 };
170 enum filling_rule_e {
171 fill_non_zero,
172 fill_even_odd
173 };
174 class rasterizer_scanline_aa
175 {
176 enum status {
177 status_initial,
178 status_line_to,
179 status_closed
180 };
181 public:
182 enum aa_scale_e {
183 aa_num = 1 << 8,
184 aa_mask = aa_num - 1,
185 aa_2num = aa_num * 2,
186 aa_2mask = aa_2num - 1
187 };
rasterizer_scanline_aa()188 rasterizer_scanline_aa() :
189 m_filling_rule(fill_non_zero),
190 m_clipped_start_x(0),
191 m_clipped_start_y(0),
192 m_status(status_initial),
193 m_clipping(false)
194 {
195 }
~rasterizer_scanline_aa()196 ~rasterizer_scanline_aa() {}
filling_rule(filling_rule_e filling_rule)197 void filling_rule(filling_rule_e filling_rule)
198 {
199 m_filling_rule = filling_rule;
200 }
min_x()201 int min_x() const
202 {
203 return m_outline.min_x();
204 }
min_y()205 int min_y() const
206 {
207 return m_outline.min_y();
208 }
max_x()209 int max_x() const
210 {
211 return m_outline.max_x();
212 }
max_y()213 int max_y() const
214 {
215 return m_outline.max_y();
216 }
reset()217 void reset()
218 {
219 m_outline.reset();
220 m_status = status_initial;
221 }
clip_box(FX_FLOAT x1,FX_FLOAT y1,FX_FLOAT x2,FX_FLOAT y2)222 void clip_box(FX_FLOAT x1, FX_FLOAT y1, FX_FLOAT x2, FX_FLOAT y2)
223 {
224 m_clip_box = rect(poly_coord(x1), poly_coord(y1),
225 poly_coord(x2), poly_coord(y2));
226 m_clip_box.normalize();
227 m_clipping = true;
228 }
add_vertex(FX_FLOAT x,FX_FLOAT y,unsigned cmd)229 void add_vertex(FX_FLOAT x, FX_FLOAT y, unsigned cmd)
230 {
231 if(is_close(cmd)) {
232 close_polygon();
233 } else {
234 if(is_move_to(cmd)) {
235 move_to(poly_coord(x), poly_coord(y));
236 } else {
237 if(is_vertex(cmd)) {
238 line_to(poly_coord(x), poly_coord(y));
239 }
240 }
241 }
242 }
move_to(int x,int y)243 void move_to(int x, int y)
244 {
245 if(m_clipping) {
246 if(m_outline.sorted()) {
247 reset();
248 }
249 if(m_status == status_line_to) {
250 close_polygon();
251 }
252 m_prev_x = m_start_x = x;
253 m_prev_y = m_start_y = y;
254 m_status = status_initial;
255 m_prev_flags = clipping_flags(x, y, m_clip_box);
256 if(m_prev_flags == 0) {
257 move_to_no_clip(x, y);
258 }
259 } else {
260 move_to_no_clip(x, y);
261 }
262 }
line_to(int x,int y)263 void line_to(int x, int y)
264 {
265 if(m_clipping) {
266 clip_segment(x, y);
267 } else {
268 line_to_no_clip(x, y);
269 }
270 }
close_polygon()271 void close_polygon()
272 {
273 if (m_status != status_line_to) {
274 return;
275 }
276 if(m_clipping) {
277 clip_segment(m_start_x, m_start_y);
278 }
279 close_polygon_no_clip();
280 }
calculate_alpha(int area,bool no_smooth)281 AGG_INLINE unsigned calculate_alpha(int area, bool no_smooth) const
282 {
283 int cover = area >> (poly_base_shift * 2 + 1 - 8);
284 if(cover < 0) {
285 cover = -cover;
286 }
287 if(m_filling_rule == fill_even_odd) {
288 cover &= aa_2mask;
289 if(cover > aa_num) {
290 cover = aa_2num - cover;
291 }
292 }
293 if (no_smooth) {
294 cover = cover > aa_mask / 2 ? aa_mask : 0;
295 }
296 if(cover > aa_mask) {
297 cover = aa_mask;
298 }
299 return cover;
300 }
sort()301 AGG_INLINE void sort()
302 {
303 m_outline.sort_cells();
304 }
rewind_scanlines()305 AGG_INLINE bool rewind_scanlines()
306 {
307 close_polygon();
308 m_outline.sort_cells();
309 if(m_outline.total_cells() == 0) {
310 return false;
311 }
312 m_cur_y = m_outline.min_y();
313 return true;
314 }
navigate_scanline(int y)315 AGG_INLINE bool navigate_scanline(int y)
316 {
317 close_polygon();
318 m_outline.sort_cells();
319 if(m_outline.total_cells() == 0 ||
320 y < m_outline.min_y() ||
321 y > m_outline.max_y()) {
322 return false;
323 }
324 m_cur_y = y;
325 return true;
326 }
sweep_scanline(Scanline & sl,bool no_smooth)327 template<class Scanline> bool sweep_scanline(Scanline& sl, bool no_smooth)
328 {
329 for(;;) {
330 if(m_cur_y > m_outline.max_y()) {
331 return false;
332 }
333 sl.reset_spans();
334 unsigned num_cells = m_outline.scanline_num_cells(m_cur_y);
335 const cell_aa* const* cells = m_outline.scanline_cells(m_cur_y);
336 int cover = 0;
337 while(num_cells) {
338 const cell_aa* cur_cell = *cells;
339 int x = cur_cell->x;
340 int area = cur_cell->area;
341 unsigned alpha;
342 cover += cur_cell->cover;
343 while(--num_cells) {
344 cur_cell = *++cells;
345 if(cur_cell->x != x) {
346 break;
347 }
348 area += cur_cell->area;
349 cover += cur_cell->cover;
350 }
351 if(area) {
352 alpha = calculate_alpha((cover << (poly_base_shift + 1)) - area, no_smooth);
353 if(alpha) {
354 sl.add_cell(x, alpha);
355 }
356 x++;
357 }
358 if(num_cells && cur_cell->x > x) {
359 alpha = calculate_alpha(cover << (poly_base_shift + 1), no_smooth);
360 if(alpha) {
361 sl.add_span(x, cur_cell->x - x, alpha);
362 }
363 }
364 }
365 if(sl.num_spans()) {
366 break;
367 }
368 ++m_cur_y;
369 }
370 sl.finalize(m_cur_y);
371 ++m_cur_y;
372 return true;
373 }
374 template<class VertexSource>
375 void add_path(VertexSource& vs, unsigned path_id = 0)
376 {
377 FX_FLOAT x;
378 FX_FLOAT y;
379 unsigned cmd;
380 vs.rewind(path_id);
381 while(!is_stop(cmd = vs.vertex(&x, &y))) {
382 add_vertex(x, y, cmd);
383 }
384 }
385 template<class VertexSource>
386 void add_path_transformed(VertexSource& vs, const CFX_Matrix* pMatrix, unsigned path_id = 0)
387 {
388 FX_FLOAT x;
389 FX_FLOAT y;
390 unsigned cmd;
391 vs.rewind(path_id);
392 while(!is_stop(cmd = vs.vertex(&x, &y))) {
393 if (pMatrix) {
394 CFX_PointF ret = pMatrix->Transform(CFX_PointF(x, y));
395 x = ret.x;
396 y = ret.y;
397 }
398 add_vertex(x, y, cmd);
399 }
400 }
401 private:
402 rasterizer_scanline_aa(const rasterizer_scanline_aa&);
403 const rasterizer_scanline_aa&
404 operator = (const rasterizer_scanline_aa&);
move_to_no_clip(int x,int y)405 void move_to_no_clip(int x, int y)
406 {
407 if(m_status == status_line_to) {
408 close_polygon_no_clip();
409 }
410 m_outline.move_to(x * 1, y);
411 m_clipped_start_x = x;
412 m_clipped_start_y = y;
413 m_status = status_line_to;
414 }
line_to_no_clip(int x,int y)415 void line_to_no_clip(int x, int y)
416 {
417 if(m_status != status_initial) {
418 m_outline.line_to(x * 1, y);
419 m_status = status_line_to;
420 }
421 }
close_polygon_no_clip()422 void close_polygon_no_clip()
423 {
424 if(m_status == status_line_to) {
425 m_outline.line_to(m_clipped_start_x * 1, m_clipped_start_y);
426 m_status = status_closed;
427 }
428 }
clip_segment(int x,int y)429 void clip_segment(int x, int y)
430 {
431 unsigned flags = clipping_flags(x, y, m_clip_box);
432 if(m_prev_flags == flags) {
433 if(flags == 0) {
434 if(m_status == status_initial) {
435 move_to_no_clip(x, y);
436 } else {
437 line_to_no_clip(x, y);
438 }
439 }
440 } else {
441 int cx[4];
442 int cy[4];
443 unsigned n = clip_liang_barsky(m_prev_x, m_prev_y,
444 x, y,
445 m_clip_box,
446 cx, cy);
447 const int* px = cx;
448 const int* py = cy;
449 while(n--) {
450 if(m_status == status_initial) {
451 move_to_no_clip(*px++, *py++);
452 } else {
453 line_to_no_clip(*px++, *py++);
454 }
455 }
456 }
457 m_prev_flags = flags;
458 m_prev_x = x;
459 m_prev_y = y;
460 }
461 private:
462 outline_aa m_outline;
463 filling_rule_e m_filling_rule;
464 int m_clipped_start_x;
465 int m_clipped_start_y;
466 int m_start_x;
467 int m_start_y;
468 int m_prev_x;
469 int m_prev_y;
470 unsigned m_prev_flags;
471 unsigned m_status;
472 rect m_clip_box;
473 bool m_clipping;
474 int m_cur_y;
475 };
476 }
477 #endif
478