• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /*
2  * Copyright 2012 Google Inc.
3  *
4  * Use of this source code is governed by a BSD-style license that can be
5  * found in the LICENSE file.
6  */
7 #include "src/pathops/SkAddIntersections.h"
8 #include "src/pathops/SkOpCoincidence.h"
9 #include "src/pathops/SkOpEdgeBuilder.h"
10 #include "src/pathops/SkPathOpsCommon.h"
11 #include "src/pathops/SkPathWriter.h"
12 
bridgeWinding(SkOpContourHead * contourList,SkPathWriter * writer)13 static bool bridgeWinding(SkOpContourHead* contourList, SkPathWriter* writer) {
14     bool unsortable = false;
15     do {
16         SkOpSpan* span = FindSortableTop(contourList);
17         if (!span) {
18             break;
19         }
20         SkOpSegment* current = span->segment();
21         SkOpSpanBase* start = span->next();
22         SkOpSpanBase* end = span;
23         SkTDArray<SkOpSpanBase*> chase;
24         do {
25             if (current->activeWinding(start, end)) {
26                 do {
27                     if (!unsortable && current->done()) {
28                         break;
29                     }
30                     SkASSERT(unsortable || !current->done());
31                     SkOpSpanBase* nextStart = start;
32                     SkOpSpanBase* nextEnd = end;
33                     SkOpSegment* next = current->findNextWinding(&chase, &nextStart, &nextEnd,
34                             &unsortable);
35                     if (!next) {
36                         break;
37                     }
38         #if DEBUG_FLOW
39             SkDebugf("%s current id=%d from=(%1.9g,%1.9g) to=(%1.9g,%1.9g)\n", __FUNCTION__,
40                     current->debugID(), start->pt().fX, start->pt().fY,
41                     end->pt().fX, end->pt().fY);
42         #endif
43                     if (!current->addCurveTo(start, end, writer)) {
44                         return false;
45                     }
46                     current = next;
47                     start = nextStart;
48                     end = nextEnd;
49                 } while (!writer->isClosed() && (!unsortable || !start->starter(end)->done()));
50                 if (current->activeWinding(start, end) && !writer->isClosed()) {
51                     SkOpSpan* spanStart = start->starter(end);
52                     if (!spanStart->done()) {
53                         if (!current->addCurveTo(start, end, writer)) {
54                             return false;
55                         }
56                         current->markDone(spanStart);
57                     }
58                 }
59                 writer->finishContour();
60             } else {
61                 SkOpSpanBase* last;
62                  if (!current->markAndChaseDone(start, end, &last)) {
63                     return false;
64                 }
65                 if (last && !last->chased()) {
66                     last->setChased(true);
67                     SkASSERT(!SkPathOpsDebug::ChaseContains(chase, last));
68                     *chase.append() = last;
69 #if DEBUG_WINDING
70                     SkDebugf("%s chase.append id=%d", __FUNCTION__, last->segment()->debugID());
71                     if (!last->final()) {
72                          SkDebugf(" windSum=%d", last->upCast()->windSum());
73                     }
74                     SkDebugf("\n");
75 #endif
76                 }
77             }
78             current = FindChase(&chase, &start, &end);
79             SkPathOpsDebug::ShowActiveSpans(contourList);
80             if (!current) {
81                 break;
82             }
83         } while (true);
84     } while (true);
85     return true;
86 }
87 
88 // returns true if all edges were processed
bridgeXor(SkOpContourHead * contourList,SkPathWriter * writer)89 static bool bridgeXor(SkOpContourHead* contourList, SkPathWriter* writer) {
90     bool unsortable = false;
91     int safetyNet = 1000000;
92     do {
93         SkOpSpan* span = FindUndone(contourList);
94         if (!span) {
95             break;
96         }
97         SkOpSegment* current = span->segment();
98         SkOpSpanBase* start = span->next();
99         SkOpSpanBase* end = span;
100         do {
101             if (--safetyNet < 0) {
102                 return false;
103             }
104             if (!unsortable && current->done()) {
105                 break;
106             }
107             SkASSERT(unsortable || !current->done());
108             SkOpSpanBase* nextStart = start;
109             SkOpSpanBase* nextEnd = end;
110             SkOpSegment* next = current->findNextXor(&nextStart, &nextEnd,
111                     &unsortable);
112             if (!next) {
113                 break;
114             }
115         #if DEBUG_FLOW
116             SkDebugf("%s current id=%d from=(%1.9g,%1.9g) to=(%1.9g,%1.9g)\n", __FUNCTION__,
117                     current->debugID(), start->pt().fX, start->pt().fY,
118                     end->pt().fX, end->pt().fY);
119         #endif
120             if (!current->addCurveTo(start, end, writer)) {
121                 return false;
122             }
123             current = next;
124             start = nextStart;
125             end = nextEnd;
126         } while (!writer->isClosed() && (!unsortable || !start->starter(end)->done()));
127         if (!writer->isClosed()) {
128             SkOpSpan* spanStart = start->starter(end);
129             if (!spanStart->done()) {
130                 return false;
131             }
132         }
133         writer->finishContour();
134         SkPathOpsDebug::ShowActiveSpans(contourList);
135     } while (true);
136     return true;
137 }
138 
139 // FIXME : add this as a member of SkPath
SimplifyDebug(const SkPath & path,SkPath * result SkDEBUGPARAMS (bool skipAssert)SkDEBUGPARAMS (const char * testName))140 bool SimplifyDebug(const SkPath& path, SkPath* result
141         SkDEBUGPARAMS(bool skipAssert) SkDEBUGPARAMS(const char* testName)) {
142     // returns 1 for evenodd, -1 for winding, regardless of inverse-ness
143     SkPathFillType fillType = path.isInverseFillType() ? SkPathFillType::kInverseEvenOdd
144             : SkPathFillType::kEvenOdd;
145     if (path.isConvex()) {
146         if (result != &path) {
147             *result = path;
148         }
149         result->setFillType(fillType);
150         return true;
151     }
152     // turn path into list of segments
153     SkSTArenaAlloc<4096> allocator;  // FIXME: constant-ize, tune
154     SkOpContour contour;
155     SkOpContourHead* contourList = static_cast<SkOpContourHead*>(&contour);
156     SkOpGlobalState globalState(contourList, &allocator
157             SkDEBUGPARAMS(skipAssert) SkDEBUGPARAMS(testName));
158     SkOpCoincidence coincidence(&globalState);
159 #if DEBUG_DUMP_VERIFY
160 #ifndef SK_DEBUG
161     const char* testName = "release";
162 #endif
163     if (SkPathOpsDebug::gDumpOp) {
164         SkPathOpsDebug::DumpSimplify(path, testName);
165     }
166 #endif
167 #if DEBUG_SORT
168     SkPathOpsDebug::gSortCount = SkPathOpsDebug::gSortCountDefault;
169 #endif
170     SkOpEdgeBuilder builder(path, contourList, &globalState);
171     if (!builder.finish()) {
172         return false;
173     }
174 #if DEBUG_DUMP_SEGMENTS
175     contour.dumpSegments();
176 #endif
177     if (!SortContourList(&contourList, false, false)) {
178         result->reset();
179         result->setFillType(fillType);
180         return true;
181     }
182     // find all intersections between segments
183     SkOpContour* current = contourList;
184     do {
185         SkOpContour* next = current;
186         while (AddIntersectTs(current, next, &coincidence)
187                 && (next = next->next()));
188     } while ((current = current->next()));
189 #if DEBUG_VALIDATE
190     globalState.setPhase(SkOpPhase::kWalking);
191 #endif
192     bool success = HandleCoincidence(contourList, &coincidence);
193 #if DEBUG_COIN
194     globalState.debugAddToGlobalCoinDicts();
195 #endif
196     if (!success) {
197         return false;
198     }
199 #if DEBUG_DUMP_ALIGNMENT
200     contour.dumpSegments("aligned");
201 #endif
202     // construct closed contours
203     result->reset();
204     result->setFillType(fillType);
205     SkPathWriter wrapper(*result);
206     if (builder.xorMask() == kWinding_PathOpsMask ? !bridgeWinding(contourList, &wrapper)
207             : !bridgeXor(contourList, &wrapper)) {
208         return false;
209     }
210     wrapper.assemble();  // if some edges could not be resolved, assemble remaining
211     return true;
212 }
213 
Simplify(const SkPath & path,SkPath * result)214 bool Simplify(const SkPath& path, SkPath* result) {
215 #if DEBUG_DUMP_VERIFY
216     if (SkPathOpsDebug::gVerifyOp) {
217         if (!SimplifyDebug(path, result  SkDEBUGPARAMS(false) SkDEBUGPARAMS(nullptr))) {
218             SkPathOpsDebug::ReportSimplifyFail(path);
219             return false;
220         }
221         SkPathOpsDebug::VerifySimplify(path, *result);
222         return true;
223     }
224 #endif
225     return SimplifyDebug(path, result  SkDEBUGPARAMS(true) SkDEBUGPARAMS(nullptr));
226 }
227