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Side by Side Diff: src/pathops/SkOpEdgeBuilder.cpp

Issue 1037573004: cumulative pathops patch (Closed) Base URL: https://skia.googlesource.com/skia.git@master
Patch Set: fix pathopsinverse gm Created 5 years, 9 months ago
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1 /* 1 /*
2 * Copyright 2012 Google Inc. 2 * Copyright 2012 Google Inc.
3 * 3 *
4 * Use of this source code is governed by a BSD-style license that can be 4 * Use of this source code is governed by a BSD-style license that can be
5 * found in the LICENSE file. 5 * found in the LICENSE file.
6 */ 6 */
7 #include "SkGeometry.h" 7 #include "SkGeometry.h"
8 #include "SkOpEdgeBuilder.h" 8 #include "SkOpEdgeBuilder.h"
9 #include "SkReduceOrder.h" 9 #include "SkReduceOrder.h"
10 10
11 void SkOpEdgeBuilder::init() { 11 void SkOpEdgeBuilder::init() {
12 fCurrentContour = NULL; 12 fCurrentContour = fContoursHead;
13 fOperand = false; 13 fOperand = false;
14 fXorMask[0] = fXorMask[1] = (fPath->getFillType() & 1) ? kEvenOdd_PathOpsMas k 14 fXorMask[0] = fXorMask[1] = (fPath->getFillType() & 1) ? kEvenOdd_PathOpsMas k
15 : kWinding_PathOpsMask; 15 : kWinding_PathOpsMask;
16 fUnparseable = false; 16 fUnparseable = false;
17 fSecondHalf = preFetch(); 17 fSecondHalf = preFetch();
18 } 18 }
19 19
20 void SkOpEdgeBuilder::addOperand(const SkPath& path) { 20 void SkOpEdgeBuilder::addOperand(const SkPath& path) {
21 SkASSERT(fPathVerbs.count() > 0 && fPathVerbs.end()[-1] == SkPath::kDone_Ver b); 21 SkASSERT(fPathVerbs.count() > 0 && fPathVerbs.end()[-1] == SkPath::kDone_Ver b);
22 fPathVerbs.pop_back(); 22 fPathVerbs.pop();
23 fPath = &path; 23 fPath = &path;
24 fXorMask[1] = (fPath->getFillType() & 1) ? kEvenOdd_PathOpsMask 24 fXorMask[1] = (fPath->getFillType() & 1) ? kEvenOdd_PathOpsMask
25 : kWinding_PathOpsMask; 25 : kWinding_PathOpsMask;
26 preFetch(); 26 preFetch();
27 } 27 }
28 28
29 bool SkOpEdgeBuilder::finish() { 29 int SkOpEdgeBuilder::count() const {
30 if (fUnparseable || !walk()) { 30 SkOpContour* contour = fContoursHead;
31 int count = 0;
32 while (contour) {
33 count += contour->count() > 0;
34 contour = contour->next();
35 }
36 return count;
37 }
38
39 bool SkOpEdgeBuilder::finish(SkChunkAlloc* allocator) {
40 fOperand = false;
41 if (fUnparseable || !walk(allocator)) {
31 return false; 42 return false;
32 } 43 }
33 complete(); 44 complete();
34 if (fCurrentContour && !fCurrentContour->segments().count()) { 45 if (fCurrentContour && !fCurrentContour->count()) {
35 fContours.pop_back(); 46 fContoursHead->remove(fCurrentContour);
36 } 47 }
37 return true; 48 return true;
38 } 49 }
39 50
40 void SkOpEdgeBuilder::closeContour(const SkPoint& curveEnd, const SkPoint& curve Start) { 51 void SkOpEdgeBuilder::closeContour(const SkPoint& curveEnd, const SkPoint& curve Start) {
41 if (!SkDPoint::ApproximatelyEqual(curveEnd, curveStart)) { 52 if (!SkDPoint::ApproximatelyEqual(curveEnd, curveStart)) {
42 fPathVerbs.push_back(SkPath::kLine_Verb); 53 *fPathVerbs.append() = SkPath::kLine_Verb;
43 fPathPts.push_back_n(1, &curveStart); 54 *fPathPts.append() = curveStart;
44 } else { 55 } else {
45 fPathPts[fPathPts.count() - 1] = curveStart; 56 fPathPts[fPathPts.count() - 1] = curveStart;
46 } 57 }
47 fPathVerbs.push_back(SkPath::kClose_Verb); 58 *fPathVerbs.append() = SkPath::kClose_Verb;
48 } 59 }
49 60
50 // very tiny points cause numerical instability : don't allow them 61 // very tiny points cause numerical instability : don't allow them
51 static void force_small_to_zero(SkPoint* pt) { 62 static void force_small_to_zero(SkPoint* pt) {
52 if (SkScalarAbs(pt->fX) < FLT_EPSILON_ORDERABLE_ERR) { 63 if (SkScalarAbs(pt->fX) < FLT_EPSILON_ORDERABLE_ERR) {
53 pt->fX = 0; 64 pt->fX = 0;
54 } 65 }
55 if (SkScalarAbs(pt->fY) < FLT_EPSILON_ORDERABLE_ERR) { 66 if (SkScalarAbs(pt->fY) < FLT_EPSILON_ORDERABLE_ERR) {
56 pt->fY = 0; 67 pt->fY = 0;
57 } 68 }
58 } 69 }
59 70
60
61 int SkOpEdgeBuilder::preFetch() { 71 int SkOpEdgeBuilder::preFetch() {
62 if (!fPath->isFinite()) { 72 if (!fPath->isFinite()) {
63 fUnparseable = true; 73 fUnparseable = true;
64 return 0; 74 return 0;
65 } 75 }
66 SkAutoConicToQuads quadder; 76 SkAutoConicToQuads quadder;
67 const SkScalar quadderTol = SK_Scalar1 / 16; 77 const SkScalar quadderTol = SK_Scalar1 / 16;
68 SkPath::RawIter iter(*fPath); 78 SkPath::RawIter iter(*fPath);
69 SkPoint curveStart; 79 SkPoint curveStart;
70 SkPoint curve[4]; 80 SkPoint curve[4];
71 SkPoint pts[4]; 81 SkPoint pts[4];
72 SkPath::Verb verb; 82 SkPath::Verb verb;
73 bool lastCurve = false; 83 bool lastCurve = false;
74 do { 84 do {
75 verb = iter.next(pts); 85 verb = iter.next(pts);
76 switch (verb) { 86 switch (verb) {
77 case SkPath::kMove_Verb: 87 case SkPath::kMove_Verb:
78 if (!fAllowOpenContours && lastCurve) { 88 if (!fAllowOpenContours && lastCurve) {
79 closeContour(curve[0], curveStart); 89 closeContour(curve[0], curveStart);
80 } 90 }
81 fPathVerbs.push_back(verb); 91 *fPathVerbs.append() = verb;
82 force_small_to_zero(&pts[0]); 92 force_small_to_zero(&pts[0]);
83 fPathPts.push_back(pts[0]); 93 *fPathPts.append() = pts[0];
84 curveStart = curve[0] = pts[0]; 94 curveStart = curve[0] = pts[0];
85 lastCurve = false; 95 lastCurve = false;
86 continue; 96 continue;
87 case SkPath::kLine_Verb: 97 case SkPath::kLine_Verb:
88 force_small_to_zero(&pts[1]); 98 force_small_to_zero(&pts[1]);
89 if (SkDPoint::ApproximatelyEqual(curve[0], pts[1])) { 99 if (SkDPoint::ApproximatelyEqual(curve[0], pts[1])) {
90 uint8_t lastVerb = fPathVerbs.back(); 100 uint8_t lastVerb = fPathVerbs.top();
91 if (lastVerb != SkPath::kLine_Verb && lastVerb != SkPath::kM ove_Verb) { 101 if (lastVerb != SkPath::kLine_Verb && lastVerb != SkPath::kM ove_Verb) {
92 fPathPts.back() = pts[1]; 102 fPathPts.top() = pts[1];
93 } 103 }
94 continue; // skip degenerate points 104 continue; // skip degenerate points
95 } 105 }
96 break; 106 break;
97 case SkPath::kQuad_Verb: 107 case SkPath::kQuad_Verb:
98 force_small_to_zero(&pts[1]); 108 force_small_to_zero(&pts[1]);
99 force_small_to_zero(&pts[2]); 109 force_small_to_zero(&pts[2]);
100 curve[1] = pts[1]; 110 curve[1] = pts[1];
101 curve[2] = pts[2]; 111 curve[2] = pts[2];
102 verb = SkReduceOrder::Quad(curve, pts); 112 verb = SkReduceOrder::Quad(curve, pts);
103 if (verb == SkPath::kMove_Verb) { 113 if (verb == SkPath::kMove_Verb) {
104 continue; // skip degenerate points 114 continue; // skip degenerate points
105 } 115 }
106 break; 116 break;
107 case SkPath::kConic_Verb: { 117 case SkPath::kConic_Verb: {
108 const SkPoint* quadPts = quadder.computeQuads(pts, iter.coni cWeight(), 118 const SkPoint* quadPts = quadder.computeQuads(pts, iter.coni cWeight(),
109 quadderTol); 119 quadderTol);
110 const int nQuads = quadder.countQuads(); 120 const int nQuads = quadder.countQuads();
111 for (int i = 0; i < nQuads; ++i) { 121 for (int i = 0; i < nQuads; ++i) {
112 fPathVerbs.push_back(SkPath::kQuad_Verb); 122 *fPathVerbs.append() = SkPath::kQuad_Verb;
113 } 123 }
114 fPathPts.push_back_n(nQuads * 2, &quadPts[1]); 124 fPathPts.append(nQuads * 2, &quadPts[1]);
115 curve[0] = pts[2]; 125 curve[0] = pts[2];
116 lastCurve = true; 126 lastCurve = true;
117 } 127 }
118 continue; 128 continue;
119 case SkPath::kCubic_Verb: 129 case SkPath::kCubic_Verb:
120 force_small_to_zero(&pts[1]); 130 force_small_to_zero(&pts[1]);
121 force_small_to_zero(&pts[2]); 131 force_small_to_zero(&pts[2]);
122 force_small_to_zero(&pts[3]); 132 force_small_to_zero(&pts[3]);
123 curve[1] = pts[1]; 133 curve[1] = pts[1];
124 curve[2] = pts[2]; 134 curve[2] = pts[2];
125 curve[3] = pts[3]; 135 curve[3] = pts[3];
126 verb = SkReduceOrder::Cubic(curve, pts); 136 verb = SkReduceOrder::Cubic(curve, pts);
127 if (verb == SkPath::kMove_Verb) { 137 if (verb == SkPath::kMove_Verb) {
128 continue; // skip degenerate points 138 continue; // skip degenerate points
129 } 139 }
130 break; 140 break;
131 case SkPath::kClose_Verb: 141 case SkPath::kClose_Verb:
132 closeContour(curve[0], curveStart); 142 closeContour(curve[0], curveStart);
133 lastCurve = false; 143 lastCurve = false;
134 continue; 144 continue;
135 case SkPath::kDone_Verb: 145 case SkPath::kDone_Verb:
136 continue; 146 continue;
137 } 147 }
138 fPathVerbs.push_back(verb); 148 *fPathVerbs.append() = verb;
139 int ptCount = SkPathOpsVerbToPoints(verb); 149 int ptCount = SkPathOpsVerbToPoints(verb);
140 fPathPts.push_back_n(ptCount, &pts[1]); 150 fPathPts.append(ptCount, &pts[1]);
141 curve[0] = pts[ptCount]; 151 curve[0] = pts[ptCount];
142 lastCurve = true; 152 lastCurve = true;
143 } while (verb != SkPath::kDone_Verb); 153 } while (verb != SkPath::kDone_Verb);
144 if (!fAllowOpenContours && lastCurve) { 154 if (!fAllowOpenContours && lastCurve) {
145 closeContour(curve[0], curveStart); 155 closeContour(curve[0], curveStart);
146 } 156 }
147 fPathVerbs.push_back(SkPath::kDone_Verb); 157 *fPathVerbs.append() = SkPath::kDone_Verb;
148 return fPathVerbs.count() - 1; 158 return fPathVerbs.count() - 1;
149 } 159 }
150 160
151 bool SkOpEdgeBuilder::close() { 161 bool SkOpEdgeBuilder::close() {
152 complete(); 162 complete();
153 return true; 163 return true;
154 } 164 }
155 165
156 bool SkOpEdgeBuilder::walk() { 166 bool SkOpEdgeBuilder::walk(SkChunkAlloc* allocator) {
157 uint8_t* verbPtr = fPathVerbs.begin(); 167 uint8_t* verbPtr = fPathVerbs.begin();
158 uint8_t* endOfFirstHalf = &verbPtr[fSecondHalf]; 168 uint8_t* endOfFirstHalf = &verbPtr[fSecondHalf];
159 const SkPoint* pointsPtr = fPathPts.begin() - 1; 169 SkPoint* pointsPtr = fPathPts.begin() - 1;
160 SkPath::Verb verb; 170 SkPath::Verb verb;
161 while ((verb = (SkPath::Verb) *verbPtr) != SkPath::kDone_Verb) { 171 while ((verb = (SkPath::Verb) *verbPtr) != SkPath::kDone_Verb) {
162 if (verbPtr == endOfFirstHalf) { 172 if (verbPtr == endOfFirstHalf) {
163 fOperand = true; 173 fOperand = true;
164 } 174 }
165 verbPtr++; 175 verbPtr++;
166 switch (verb) { 176 switch (verb) {
167 case SkPath::kMove_Verb: 177 case SkPath::kMove_Verb:
168 if (fCurrentContour) { 178 if (fCurrentContour && fCurrentContour->count()) {
169 if (fAllowOpenContours) { 179 if (fAllowOpenContours) {
170 complete(); 180 complete();
171 } else if (!close()) { 181 } else if (!close()) {
172 return false; 182 return false;
173 } 183 }
174 } 184 }
175 if (!fCurrentContour) { 185 if (!fCurrentContour) {
176 fCurrentContour = fContours.push_back_n(1); 186 fCurrentContour = fContoursHead->appendContour(allocator);
177 fCurrentContour->setOperand(fOperand);
178 fCurrentContour->setXor(fXorMask[fOperand] == kEvenOdd_PathO psMask);
179 } 187 }
188 fCurrentContour->init(fGlobalState, fOperand,
189 fXorMask[fOperand] == kEvenOdd_PathOpsMask);
180 pointsPtr += 1; 190 pointsPtr += 1;
181 continue; 191 continue;
182 case SkPath::kLine_Verb: 192 case SkPath::kLine_Verb:
183 fCurrentContour->addLine(pointsPtr); 193 fCurrentContour->addLine(pointsPtr, fAllocator);
184 break; 194 break;
185 case SkPath::kQuad_Verb: 195 case SkPath::kQuad_Verb:
186 fCurrentContour->addQuad(pointsPtr); 196 fCurrentContour->addQuad(pointsPtr, fAllocator);
187 break; 197 break;
188 case SkPath::kCubic_Verb: 198 case SkPath::kCubic_Verb: {
189 fCurrentContour->addCubic(pointsPtr); 199 // split self-intersecting cubics in two before proceeding
190 break; 200 // if the cubic is convex, it doesn't self intersect.
201 SkScalar loopT;
202 if (SkDCubic::ComplexBreak(pointsPtr, &loopT)) {
203 SkPoint cubicPair[7];
204 SkChopCubicAt(pointsPtr, cubicPair, loopT);
205 SkPoint cStorage[2][4];
206 SkPath::Verb v1 = SkReduceOrder::Cubic(&cubicPair[0], cStora ge[0]);
207 SkPath::Verb v2 = SkReduceOrder::Cubic(&cubicPair[3], cStora ge[1]);
208 if (v1 != SkPath::kMove_Verb && v2 != SkPath::kMove_Verb) {
209 SkPoint* curve1 = v1 == SkPath::kCubic_Verb ? &cubicPair [0] : cStorage[0];
210 SkPoint* curve2 = v2 == SkPath::kCubic_Verb ? &cubicPair [3] : cStorage[1];
211 for (int index = 0; index < SkPathOpsVerbToPoints(v1); + +index) {
212 force_small_to_zero(&curve1[index]);
213 }
214 for (int index = 0; index < SkPathOpsVerbToPoints(v2); + +index) {
215 force_small_to_zero(&curve2[index]);
216 }
217 fCurrentContour->addCurve(v1, curve1, fAllocator);
218 fCurrentContour->addCurve(v2, curve2, fAllocator);
219 } else {
220 fCurrentContour->addCubic(pointsPtr, fAllocator);
221 }
222 } else {
223 fCurrentContour->addCubic(pointsPtr, fAllocator);
224 }
225 } break;
191 case SkPath::kClose_Verb: 226 case SkPath::kClose_Verb:
192 SkASSERT(fCurrentContour); 227 SkASSERT(fCurrentContour);
193 if (!close()) { 228 if (!close()) {
194 return false; 229 return false;
195 } 230 }
196 continue; 231 continue;
197 default: 232 default:
198 SkDEBUGFAIL("bad verb"); 233 SkDEBUGFAIL("bad verb");
199 return false; 234 return false;
200 } 235 }
236 SkASSERT(fCurrentContour);
237 fCurrentContour->debugValidate();
201 pointsPtr += SkPathOpsVerbToPoints(verb); 238 pointsPtr += SkPathOpsVerbToPoints(verb);
202 SkASSERT(fCurrentContour);
203 } 239 }
204 if (fCurrentContour && !fAllowOpenContours && !close()) { 240 if (fCurrentContour && fCurrentContour->count() &&!fAllowOpenContours && !clo se()) {
205 return false; 241 return false;
206 } 242 }
207 return true; 243 return true;
208 } 244 }
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