• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  * Copyright (C) 2007 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #define LOG_TAG "Region"
18 
19 #include <inttypes.h>
20 #include <limits.h>
21 
22 #include <utils/Log.h>
23 #include <utils/String8.h>
24 #include <utils/CallStack.h>
25 
26 #include <ui/Rect.h>
27 #include <ui/Region.h>
28 #include <ui/Point.h>
29 
30 #include <private/ui/RegionHelper.h>
31 
32 // ----------------------------------------------------------------------------
33 #define VALIDATE_REGIONS        (false)
34 #define VALIDATE_WITH_CORECG    (false)
35 // ----------------------------------------------------------------------------
36 
37 #if VALIDATE_WITH_CORECG
38 #include <core/SkRegion.h>
39 #endif
40 
41 namespace android {
42 // ----------------------------------------------------------------------------
43 
44 enum {
45     op_nand = region_operator<Rect>::op_nand,
46     op_and  = region_operator<Rect>::op_and,
47     op_or   = region_operator<Rect>::op_or,
48     op_xor  = region_operator<Rect>::op_xor
49 };
50 
51 enum {
52     direction_LTR,
53     direction_RTL
54 };
55 
56 const Region Region::INVALID_REGION(Rect::INVALID_RECT);
57 
58 // ----------------------------------------------------------------------------
59 
Region()60 Region::Region() {
61     mStorage.add(Rect(0,0));
62 }
63 
Region(const Region & rhs)64 Region::Region(const Region& rhs)
65     : mStorage(rhs.mStorage)
66 {
67 #if VALIDATE_REGIONS
68     validate(rhs, "rhs copy-ctor");
69 #endif
70 }
71 
Region(const Rect & rhs)72 Region::Region(const Rect& rhs) {
73     mStorage.add(rhs);
74 }
75 
~Region()76 Region::~Region()
77 {
78 }
79 
80 /**
81  * Copy rects from the src vector into the dst vector, resolving vertical T-Junctions along the way
82  *
83  * First pass through, divideSpanRTL will be set because the 'previous span' (indexing into the dst
84  * vector) will be reversed. Each rectangle in the original list, starting from the bottom, will be
85  * compared with the span directly below, and subdivided as needed to resolve T-junctions.
86  *
87  * The resulting temporary vector will be a completely reversed copy of the original, without any
88  * bottom-up T-junctions.
89  *
90  * Second pass through, divideSpanRTL will be false since the previous span will index into the
91  * final, correctly ordered region buffer. Each rectangle will be compared with the span directly
92  * above it, and subdivided to resolve any remaining T-junctions.
93  */
reverseRectsResolvingJunctions(const Rect * begin,const Rect * end,Vector<Rect> & dst,int spanDirection)94 static void reverseRectsResolvingJunctions(const Rect* begin, const Rect* end,
95         Vector<Rect>& dst, int spanDirection) {
96     dst.clear();
97 
98     const Rect* current = end - 1;
99     int lastTop = current->top;
100 
101     // add first span immediately
102     do {
103         dst.add(*current);
104         current--;
105     } while (current->top == lastTop && current >= begin);
106 
107     int beginLastSpan = -1;
108     int endLastSpan = -1;
109     int top = -1;
110     int bottom = -1;
111 
112     // for all other spans, split if a t-junction exists in the span directly above
113     while (current >= begin) {
114         if (current->top != (current + 1)->top) {
115             // new span
116             if ((spanDirection == direction_RTL && current->bottom != (current + 1)->top) ||
117                     (spanDirection == direction_LTR && current->top != (current + 1)->bottom)) {
118                 // previous span not directly adjacent, don't check for T junctions
119                 beginLastSpan = INT_MAX;
120             } else {
121                 beginLastSpan = endLastSpan + 1;
122             }
123             endLastSpan = static_cast<int>(dst.size()) - 1;
124 
125             top = current->top;
126             bottom = current->bottom;
127         }
128         int left = current->left;
129         int right = current->right;
130 
131         for (int prevIndex = beginLastSpan; prevIndex <= endLastSpan; prevIndex++) {
132             // prevIndex can't be -1 here because if endLastSpan is set to a
133             // value greater than -1 (allowing the loop to execute),
134             // beginLastSpan (and therefore prevIndex) will also be increased
135             const Rect prev = dst[static_cast<size_t>(prevIndex)];
136             if (spanDirection == direction_RTL) {
137                 // iterating over previous span RTL, quit if it's too far left
138                 if (prev.right <= left) break;
139 
140                 if (prev.right > left && prev.right < right) {
141                     dst.add(Rect(prev.right, top, right, bottom));
142                     right = prev.right;
143                 }
144 
145                 if (prev.left > left && prev.left < right) {
146                     dst.add(Rect(prev.left, top, right, bottom));
147                     right = prev.left;
148                 }
149 
150                 // if an entry in the previous span is too far right, nothing further left in the
151                 // current span will need it
152                 if (prev.left >= right) {
153                     beginLastSpan = prevIndex;
154                 }
155             } else {
156                 // iterating over previous span LTR, quit if it's too far right
157                 if (prev.left >= right) break;
158 
159                 if (prev.left > left && prev.left < right) {
160                     dst.add(Rect(left, top, prev.left, bottom));
161                     left = prev.left;
162                 }
163 
164                 if (prev.right > left && prev.right < right) {
165                     dst.add(Rect(left, top, prev.right, bottom));
166                     left = prev.right;
167                 }
168                 // if an entry in the previous span is too far left, nothing further right in the
169                 // current span will need it
170                 if (prev.right <= left) {
171                     beginLastSpan = prevIndex;
172                 }
173             }
174         }
175 
176         if (left < right) {
177             dst.add(Rect(left, top, right, bottom));
178         }
179 
180         current--;
181     }
182 }
183 
184 /**
185  * Creates a new region with the same data as the argument, but divides rectangles as necessary to
186  * remove T-Junctions
187  *
188  * Note: the output will not necessarily be a very efficient representation of the region, since it
189  * may be that a triangle-based approach would generate significantly simpler geometry
190  */
createTJunctionFreeRegion(const Region & r)191 Region Region::createTJunctionFreeRegion(const Region& r) {
192     if (r.isEmpty()) return r;
193     if (r.isRect()) return r;
194 
195     Vector<Rect> reversed;
196     reverseRectsResolvingJunctions(r.begin(), r.end(), reversed, direction_RTL);
197 
198     Region outputRegion;
199     reverseRectsResolvingJunctions(reversed.begin(), reversed.end(),
200             outputRegion.mStorage, direction_LTR);
201     outputRegion.mStorage.add(r.getBounds()); // to make region valid, mStorage must end with bounds
202 
203 #if VALIDATE_REGIONS
204     validate(outputRegion, "T-Junction free region");
205 #endif
206 
207     return outputRegion;
208 }
209 
operator =(const Region & rhs)210 Region& Region::operator = (const Region& rhs)
211 {
212 #if VALIDATE_REGIONS
213     validate(*this, "this->operator=");
214     validate(rhs, "rhs.operator=");
215 #endif
216     mStorage = rhs.mStorage;
217     return *this;
218 }
219 
makeBoundsSelf()220 Region& Region::makeBoundsSelf()
221 {
222     if (mStorage.size() >= 2) {
223         const Rect bounds(getBounds());
224         mStorage.clear();
225         mStorage.add(bounds);
226     }
227     return *this;
228 }
229 
contains(const Point & point) const230 bool Region::contains(const Point& point) const {
231     return contains(point.x, point.y);
232 }
233 
contains(int x,int y) const234 bool Region::contains(int x, int y) const {
235     const_iterator cur = begin();
236     const_iterator const tail = end();
237     while (cur != tail) {
238         if (y >= cur->top && y < cur->bottom && x >= cur->left && x < cur->right) {
239             return true;
240         }
241         cur++;
242     }
243     return false;
244 }
245 
clear()246 void Region::clear()
247 {
248     mStorage.clear();
249     mStorage.add(Rect(0,0));
250 }
251 
set(const Rect & r)252 void Region::set(const Rect& r)
253 {
254     mStorage.clear();
255     mStorage.add(r);
256 }
257 
set(int32_t w,int32_t h)258 void Region::set(int32_t w, int32_t h)
259 {
260     mStorage.clear();
261     mStorage.add(Rect(w, h));
262 }
263 
set(uint32_t w,uint32_t h)264 void Region::set(uint32_t w, uint32_t h)
265 {
266     mStorage.clear();
267     mStorage.add(Rect(w, h));
268 }
269 
isTriviallyEqual(const Region & region) const270 bool Region::isTriviallyEqual(const Region& region) const {
271     return begin() == region.begin();
272 }
273 
274 // ----------------------------------------------------------------------------
275 
addRectUnchecked(int l,int t,int r,int b)276 void Region::addRectUnchecked(int l, int t, int r, int b)
277 {
278     Rect rect(l,t,r,b);
279     size_t where = mStorage.size() - 1;
280     mStorage.insertAt(rect, where, 1);
281 }
282 
283 // ----------------------------------------------------------------------------
284 
orSelf(const Rect & r)285 Region& Region::orSelf(const Rect& r) {
286     return operationSelf(r, op_or);
287 }
xorSelf(const Rect & r)288 Region& Region::xorSelf(const Rect& r) {
289     return operationSelf(r, op_xor);
290 }
andSelf(const Rect & r)291 Region& Region::andSelf(const Rect& r) {
292     return operationSelf(r, op_and);
293 }
subtractSelf(const Rect & r)294 Region& Region::subtractSelf(const Rect& r) {
295     return operationSelf(r, op_nand);
296 }
operationSelf(const Rect & r,int op)297 Region& Region::operationSelf(const Rect& r, int op) {
298     Region lhs(*this);
299     boolean_operation(op, *this, lhs, r);
300     return *this;
301 }
302 
303 // ----------------------------------------------------------------------------
304 
orSelf(const Region & rhs)305 Region& Region::orSelf(const Region& rhs) {
306     return operationSelf(rhs, op_or);
307 }
xorSelf(const Region & rhs)308 Region& Region::xorSelf(const Region& rhs) {
309     return operationSelf(rhs, op_xor);
310 }
andSelf(const Region & rhs)311 Region& Region::andSelf(const Region& rhs) {
312     return operationSelf(rhs, op_and);
313 }
subtractSelf(const Region & rhs)314 Region& Region::subtractSelf(const Region& rhs) {
315     return operationSelf(rhs, op_nand);
316 }
operationSelf(const Region & rhs,int op)317 Region& Region::operationSelf(const Region& rhs, int op) {
318     Region lhs(*this);
319     boolean_operation(op, *this, lhs, rhs);
320     return *this;
321 }
322 
translateSelf(int x,int y)323 Region& Region::translateSelf(int x, int y) {
324     if (x|y) translate(*this, x, y);
325     return *this;
326 }
327 
328 // ----------------------------------------------------------------------------
329 
merge(const Rect & rhs) const330 const Region Region::merge(const Rect& rhs) const {
331     return operation(rhs, op_or);
332 }
mergeExclusive(const Rect & rhs) const333 const Region Region::mergeExclusive(const Rect& rhs) const {
334     return operation(rhs, op_xor);
335 }
intersect(const Rect & rhs) const336 const Region Region::intersect(const Rect& rhs) const {
337     return operation(rhs, op_and);
338 }
subtract(const Rect & rhs) const339 const Region Region::subtract(const Rect& rhs) const {
340     return operation(rhs, op_nand);
341 }
operation(const Rect & rhs,int op) const342 const Region Region::operation(const Rect& rhs, int op) const {
343     Region result;
344     boolean_operation(op, result, *this, rhs);
345     return result;
346 }
347 
348 // ----------------------------------------------------------------------------
349 
merge(const Region & rhs) const350 const Region Region::merge(const Region& rhs) const {
351     return operation(rhs, op_or);
352 }
mergeExclusive(const Region & rhs) const353 const Region Region::mergeExclusive(const Region& rhs) const {
354     return operation(rhs, op_xor);
355 }
intersect(const Region & rhs) const356 const Region Region::intersect(const Region& rhs) const {
357     return operation(rhs, op_and);
358 }
subtract(const Region & rhs) const359 const Region Region::subtract(const Region& rhs) const {
360     return operation(rhs, op_nand);
361 }
operation(const Region & rhs,int op) const362 const Region Region::operation(const Region& rhs, int op) const {
363     Region result;
364     boolean_operation(op, result, *this, rhs);
365     return result;
366 }
367 
translate(int x,int y) const368 const Region Region::translate(int x, int y) const {
369     Region result;
370     translate(result, *this, x, y);
371     return result;
372 }
373 
374 // ----------------------------------------------------------------------------
375 
orSelf(const Region & rhs,int dx,int dy)376 Region& Region::orSelf(const Region& rhs, int dx, int dy) {
377     return operationSelf(rhs, dx, dy, op_or);
378 }
xorSelf(const Region & rhs,int dx,int dy)379 Region& Region::xorSelf(const Region& rhs, int dx, int dy) {
380     return operationSelf(rhs, dx, dy, op_xor);
381 }
andSelf(const Region & rhs,int dx,int dy)382 Region& Region::andSelf(const Region& rhs, int dx, int dy) {
383     return operationSelf(rhs, dx, dy, op_and);
384 }
subtractSelf(const Region & rhs,int dx,int dy)385 Region& Region::subtractSelf(const Region& rhs, int dx, int dy) {
386     return operationSelf(rhs, dx, dy, op_nand);
387 }
operationSelf(const Region & rhs,int dx,int dy,int op)388 Region& Region::operationSelf(const Region& rhs, int dx, int dy, int op) {
389     Region lhs(*this);
390     boolean_operation(op, *this, lhs, rhs, dx, dy);
391     return *this;
392 }
393 
394 // ----------------------------------------------------------------------------
395 
merge(const Region & rhs,int dx,int dy) const396 const Region Region::merge(const Region& rhs, int dx, int dy) const {
397     return operation(rhs, dx, dy, op_or);
398 }
mergeExclusive(const Region & rhs,int dx,int dy) const399 const Region Region::mergeExclusive(const Region& rhs, int dx, int dy) const {
400     return operation(rhs, dx, dy, op_xor);
401 }
intersect(const Region & rhs,int dx,int dy) const402 const Region Region::intersect(const Region& rhs, int dx, int dy) const {
403     return operation(rhs, dx, dy, op_and);
404 }
subtract(const Region & rhs,int dx,int dy) const405 const Region Region::subtract(const Region& rhs, int dx, int dy) const {
406     return operation(rhs, dx, dy, op_nand);
407 }
operation(const Region & rhs,int dx,int dy,int op) const408 const Region Region::operation(const Region& rhs, int dx, int dy, int op) const {
409     Region result;
410     boolean_operation(op, result, *this, rhs, dx, dy);
411     return result;
412 }
413 
414 // ----------------------------------------------------------------------------
415 
416 // This is our region rasterizer, which merges rects and spans together
417 // to obtain an optimal region.
418 class Region::rasterizer : public region_operator<Rect>::region_rasterizer
419 {
420     Rect bounds;
421     Vector<Rect>& storage;
422     Rect* head;
423     Rect* tail;
424     Vector<Rect> span;
425     Rect* cur;
426 public:
rasterizer(Region & reg)427     rasterizer(Region& reg)
428         : bounds(INT_MAX, 0, INT_MIN, 0), storage(reg.mStorage), head(), tail(), cur() {
429         storage.clear();
430     }
431 
432     virtual ~rasterizer();
433 
434     virtual void operator()(const Rect& rect);
435 
436 private:
437     template<typename T>
min(T rhs,T lhs)438     static inline T min(T rhs, T lhs) { return rhs < lhs ? rhs : lhs; }
439     template<typename T>
max(T rhs,T lhs)440     static inline T max(T rhs, T lhs) { return rhs > lhs ? rhs : lhs; }
441 
442     void flushSpan();
443 };
444 
~rasterizer()445 Region::rasterizer::~rasterizer()
446 {
447     if (span.size()) {
448         flushSpan();
449     }
450     if (storage.size()) {
451         bounds.top = storage.itemAt(0).top;
452         bounds.bottom = storage.top().bottom;
453         if (storage.size() == 1) {
454             storage.clear();
455         }
456     } else {
457         bounds.left  = 0;
458         bounds.right = 0;
459     }
460     storage.add(bounds);
461 }
462 
operator ()(const Rect & rect)463 void Region::rasterizer::operator()(const Rect& rect)
464 {
465     //ALOGD(">>> %3d, %3d, %3d, %3d",
466     //        rect.left, rect.top, rect.right, rect.bottom);
467     if (span.size()) {
468         if (cur->top != rect.top) {
469             flushSpan();
470         } else if (cur->right == rect.left) {
471             cur->right = rect.right;
472             return;
473         }
474     }
475     span.add(rect);
476     cur = span.editArray() + (span.size() - 1);
477 }
478 
flushSpan()479 void Region::rasterizer::flushSpan()
480 {
481     bool merge = false;
482     if (tail-head == ssize_t(span.size())) {
483         Rect const* p = span.editArray();
484         Rect const* q = head;
485         if (p->top == q->bottom) {
486             merge = true;
487             while (q != tail) {
488                 if ((p->left != q->left) || (p->right != q->right)) {
489                     merge = false;
490                     break;
491                 }
492                 p++, q++;
493             }
494         }
495     }
496     if (merge) {
497         const int bottom = span[0].bottom;
498         Rect* r = head;
499         while (r != tail) {
500             r->bottom = bottom;
501             r++;
502         }
503     } else {
504         bounds.left = min(span.itemAt(0).left, bounds.left);
505         bounds.right = max(span.top().right, bounds.right);
506         storage.appendVector(span);
507         tail = storage.editArray() + storage.size();
508         head = tail - span.size();
509     }
510     span.clear();
511 }
512 
validate(const Region & reg,const char * name,bool silent)513 bool Region::validate(const Region& reg, const char* name, bool silent)
514 {
515     bool result = true;
516     const_iterator cur = reg.begin();
517     const_iterator const tail = reg.end();
518     const_iterator prev = cur;
519     Rect b(*prev);
520     while (cur != tail) {
521         if (cur->isValid() == false) {
522             // We allow this particular flavor of invalid Rect, since it is used
523             // as a signal value in various parts of the system
524             if (*cur != Rect::INVALID_RECT) {
525                 ALOGE_IF(!silent, "%s: region contains an invalid Rect", name);
526                 result = false;
527             }
528         }
529         if (cur->right > region_operator<Rect>::max_value) {
530             ALOGE_IF(!silent, "%s: rect->right > max_value", name);
531             result = false;
532         }
533         if (cur->bottom > region_operator<Rect>::max_value) {
534             ALOGE_IF(!silent, "%s: rect->right > max_value", name);
535             result = false;
536         }
537         if (prev != cur) {
538             b.left   = b.left   < cur->left   ? b.left   : cur->left;
539             b.top    = b.top    < cur->top    ? b.top    : cur->top;
540             b.right  = b.right  > cur->right  ? b.right  : cur->right;
541             b.bottom = b.bottom > cur->bottom ? b.bottom : cur->bottom;
542             if ((*prev < *cur) == false) {
543                 ALOGE_IF(!silent, "%s: region's Rects not sorted", name);
544                 result = false;
545             }
546             if (cur->top == prev->top) {
547                 if (cur->bottom != prev->bottom) {
548                     ALOGE_IF(!silent, "%s: invalid span %p", name, cur);
549                     result = false;
550                 } else if (cur->left < prev->right) {
551                     ALOGE_IF(!silent,
552                             "%s: spans overlap horizontally prev=%p, cur=%p",
553                             name, prev, cur);
554                     result = false;
555                 }
556             } else if (cur->top < prev->bottom) {
557                 ALOGE_IF(!silent,
558                         "%s: spans overlap vertically prev=%p, cur=%p",
559                         name, prev, cur);
560                 result = false;
561             }
562             prev = cur;
563         }
564         cur++;
565     }
566     if (b != reg.getBounds()) {
567         result = false;
568         ALOGE_IF(!silent,
569                 "%s: invalid bounds [%d,%d,%d,%d] vs. [%d,%d,%d,%d]", name,
570                 b.left, b.top, b.right, b.bottom,
571                 reg.getBounds().left, reg.getBounds().top,
572                 reg.getBounds().right, reg.getBounds().bottom);
573     }
574     if (reg.mStorage.size() == 2) {
575         result = false;
576         ALOGE_IF(!silent, "%s: mStorage size is 2, which is never valid", name);
577     }
578     if (result == false && !silent) {
579         reg.dump(name);
580         CallStack stack(LOG_TAG);
581     }
582     return result;
583 }
584 
boolean_operation(int op,Region & dst,const Region & lhs,const Region & rhs,int dx,int dy)585 void Region::boolean_operation(int op, Region& dst,
586         const Region& lhs,
587         const Region& rhs, int dx, int dy)
588 {
589 #if VALIDATE_REGIONS
590     validate(lhs, "boolean_operation (before): lhs");
591     validate(rhs, "boolean_operation (before): rhs");
592     validate(dst, "boolean_operation (before): dst");
593 #endif
594 
595     size_t lhs_count;
596     Rect const * const lhs_rects = lhs.getArray(&lhs_count);
597 
598     size_t rhs_count;
599     Rect const * const rhs_rects = rhs.getArray(&rhs_count);
600 
601     region_operator<Rect>::region lhs_region(lhs_rects, lhs_count);
602     region_operator<Rect>::region rhs_region(rhs_rects, rhs_count, dx, dy);
603     region_operator<Rect> operation(op, lhs_region, rhs_region);
604     { // scope for rasterizer (dtor has side effects)
605         rasterizer r(dst);
606         operation(r);
607     }
608 
609 #if VALIDATE_REGIONS
610     validate(lhs, "boolean_operation: lhs");
611     validate(rhs, "boolean_operation: rhs");
612     validate(dst, "boolean_operation: dst");
613 #endif
614 
615 #if VALIDATE_WITH_CORECG
616     SkRegion sk_lhs;
617     SkRegion sk_rhs;
618     SkRegion sk_dst;
619 
620     for (size_t i=0 ; i<lhs_count ; i++)
621         sk_lhs.op(
622                 lhs_rects[i].left   + dx,
623                 lhs_rects[i].top    + dy,
624                 lhs_rects[i].right  + dx,
625                 lhs_rects[i].bottom + dy,
626                 SkRegion::kUnion_Op);
627 
628     for (size_t i=0 ; i<rhs_count ; i++)
629         sk_rhs.op(
630                 rhs_rects[i].left   + dx,
631                 rhs_rects[i].top    + dy,
632                 rhs_rects[i].right  + dx,
633                 rhs_rects[i].bottom + dy,
634                 SkRegion::kUnion_Op);
635 
636     const char* name = "---";
637     SkRegion::Op sk_op;
638     switch (op) {
639         case op_or: sk_op = SkRegion::kUnion_Op; name="OR"; break;
640         case op_xor: sk_op = SkRegion::kUnion_XOR; name="XOR"; break;
641         case op_and: sk_op = SkRegion::kIntersect_Op; name="AND"; break;
642         case op_nand: sk_op = SkRegion::kDifference_Op; name="NAND"; break;
643     }
644     sk_dst.op(sk_lhs, sk_rhs, sk_op);
645 
646     if (sk_dst.isEmpty() && dst.isEmpty())
647         return;
648 
649     bool same = true;
650     Region::const_iterator head = dst.begin();
651     Region::const_iterator const tail = dst.end();
652     SkRegion::Iterator it(sk_dst);
653     while (!it.done()) {
654         if (head != tail) {
655             if (
656                     head->left != it.rect().fLeft ||
657                     head->top != it.rect().fTop ||
658                     head->right != it.rect().fRight ||
659                     head->bottom != it.rect().fBottom
660             ) {
661                 same = false;
662                 break;
663             }
664         } else {
665             same = false;
666             break;
667         }
668         head++;
669         it.next();
670     }
671 
672     if (head != tail) {
673         same = false;
674     }
675 
676     if(!same) {
677         ALOGD("---\nregion boolean %s failed", name);
678         lhs.dump("lhs");
679         rhs.dump("rhs");
680         dst.dump("dst");
681         ALOGD("should be");
682         SkRegion::Iterator it(sk_dst);
683         while (!it.done()) {
684             ALOGD("    [%3d, %3d, %3d, %3d]",
685                 it.rect().fLeft,
686                 it.rect().fTop,
687                 it.rect().fRight,
688                 it.rect().fBottom);
689             it.next();
690         }
691     }
692 #endif
693 }
694 
boolean_operation(int op,Region & dst,const Region & lhs,const Rect & rhs,int dx,int dy)695 void Region::boolean_operation(int op, Region& dst,
696         const Region& lhs,
697         const Rect& rhs, int dx, int dy)
698 {
699     // We allow this particular flavor of invalid Rect, since it is used as a
700     // signal value in various parts of the system
701     if (!rhs.isValid() && rhs != Rect::INVALID_RECT) {
702         ALOGE("Region::boolean_operation(op=%d) invalid Rect={%d,%d,%d,%d}",
703                 op, rhs.left, rhs.top, rhs.right, rhs.bottom);
704         return;
705     }
706 
707 #if VALIDATE_WITH_CORECG || VALIDATE_REGIONS
708     boolean_operation(op, dst, lhs, Region(rhs), dx, dy);
709 #else
710     size_t lhs_count;
711     Rect const * const lhs_rects = lhs.getArray(&lhs_count);
712 
713     region_operator<Rect>::region lhs_region(lhs_rects, lhs_count);
714     region_operator<Rect>::region rhs_region(&rhs, 1, dx, dy);
715     region_operator<Rect> operation(op, lhs_region, rhs_region);
716     { // scope for rasterizer (dtor has side effects)
717         rasterizer r(dst);
718         operation(r);
719     }
720 
721 #endif
722 }
723 
boolean_operation(int op,Region & dst,const Region & lhs,const Region & rhs)724 void Region::boolean_operation(int op, Region& dst,
725         const Region& lhs, const Region& rhs)
726 {
727     boolean_operation(op, dst, lhs, rhs, 0, 0);
728 }
729 
boolean_operation(int op,Region & dst,const Region & lhs,const Rect & rhs)730 void Region::boolean_operation(int op, Region& dst,
731         const Region& lhs, const Rect& rhs)
732 {
733     boolean_operation(op, dst, lhs, rhs, 0, 0);
734 }
735 
translate(Region & reg,int dx,int dy)736 void Region::translate(Region& reg, int dx, int dy)
737 {
738     if ((dx || dy) && !reg.isEmpty()) {
739 #if VALIDATE_REGIONS
740         validate(reg, "translate (before)");
741 #endif
742         size_t count = reg.mStorage.size();
743         Rect* rects = reg.mStorage.editArray();
744         while (count) {
745             rects->offsetBy(dx, dy);
746             rects++;
747             count--;
748         }
749 #if VALIDATE_REGIONS
750         validate(reg, "translate (after)");
751 #endif
752     }
753 }
754 
translate(Region & dst,const Region & reg,int dx,int dy)755 void Region::translate(Region& dst, const Region& reg, int dx, int dy)
756 {
757     dst = reg;
758     translate(dst, dx, dy);
759 }
760 
761 // ----------------------------------------------------------------------------
762 
getFlattenedSize() const763 size_t Region::getFlattenedSize() const {
764     return sizeof(uint32_t) + mStorage.size() * sizeof(Rect);
765 }
766 
flatten(void * buffer,size_t size) const767 status_t Region::flatten(void* buffer, size_t size) const {
768 #if VALIDATE_REGIONS
769     validate(*this, "Region::flatten");
770 #endif
771     if (size < getFlattenedSize()) {
772         return NO_MEMORY;
773     }
774     // Cast to uint32_t since the size of a size_t can vary between 32- and
775     // 64-bit processes
776     FlattenableUtils::write(buffer, size, static_cast<uint32_t>(mStorage.size()));
777     for (auto rect : mStorage) {
778         status_t result = rect.flatten(buffer, size);
779         if (result != NO_ERROR) {
780             return result;
781         }
782         FlattenableUtils::advance(buffer, size, sizeof(rect));
783     }
784     return NO_ERROR;
785 }
786 
unflatten(void const * buffer,size_t size)787 status_t Region::unflatten(void const* buffer, size_t size) {
788     if (size < sizeof(uint32_t)) {
789         return NO_MEMORY;
790     }
791 
792     uint32_t numRects = 0;
793     FlattenableUtils::read(buffer, size, numRects);
794     if (size < numRects * sizeof(Rect)) {
795         return NO_MEMORY;
796     }
797 
798     Region result;
799     result.mStorage.clear();
800     for (size_t r = 0; r < numRects; ++r) {
801         Rect rect(Rect::EMPTY_RECT);
802         status_t status = rect.unflatten(buffer, size);
803         if (status != NO_ERROR) {
804             return status;
805         }
806         FlattenableUtils::advance(buffer, size, sizeof(rect));
807         result.mStorage.push_back(rect);
808     }
809 
810 #if VALIDATE_REGIONS
811     validate(result, "Region::unflatten");
812 #endif
813 
814     if (!result.validate(result, "Region::unflatten", true)) {
815         ALOGE("Region::unflatten() failed, invalid region");
816         return BAD_VALUE;
817     }
818     mStorage = result.mStorage;
819     return NO_ERROR;
820 }
821 
822 // ----------------------------------------------------------------------------
823 
begin() const824 Region::const_iterator Region::begin() const {
825     return mStorage.array();
826 }
827 
end() const828 Region::const_iterator Region::end() const {
829     size_t numRects = isRect() ? 1 : mStorage.size() - 1;
830     return mStorage.array() + numRects;
831 }
832 
getArray(size_t * count) const833 Rect const* Region::getArray(size_t* count) const {
834     if (count) *count = static_cast<size_t>(end() - begin());
835     return begin();
836 }
837 
838 // ----------------------------------------------------------------------------
839 
dump(String8 & out,const char * what,uint32_t) const840 void Region::dump(String8& out, const char* what, uint32_t /* flags */) const
841 {
842     const_iterator head = begin();
843     const_iterator const tail = end();
844 
845     out.appendFormat("  Region %s (this=%p, count=%" PRIdPTR ")\n",
846             what, this, tail - head);
847     while (head != tail) {
848         out.appendFormat("    [%3d, %3d, %3d, %3d]\n", head->left, head->top,
849                 head->right, head->bottom);
850         ++head;
851     }
852 }
853 
dump(const char * what,uint32_t) const854 void Region::dump(const char* what, uint32_t /* flags */) const
855 {
856     const_iterator head = begin();
857     const_iterator const tail = end();
858     ALOGD("  Region %s (this=%p, count=%" PRIdPTR ")\n", what, this, tail-head);
859     while (head != tail) {
860         ALOGD("    [%3d, %3d, %3d, %3d]\n",
861                 head->left, head->top, head->right, head->bottom);
862         head++;
863     }
864 }
865 
866 // ----------------------------------------------------------------------------
867 
868 }; // namespace android
869