| 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 | |
| 13 | #include <utility> |
| 14 | |
| 15 | static bool findChaseOp(SkTDArray<SkOpSpanBase*>& chase, SkOpSpanBase** startPtr, |
| 16 | SkOpSpanBase** endPtr, SkOpSegment** result) { |
| 17 | while (chase.count()) { |
| 18 | SkOpSpanBase* span; |
| 19 | chase.pop(&span); |
| 20 | // OPTIMIZE: prev makes this compatible with old code -- but is it necessary? |
| 21 | *startPtr = span->ptT()->prev()->span(); |
| 22 | SkOpSegment* segment = (*startPtr)->segment(); |
| 23 | bool done = true; |
| 24 | *endPtr = nullptr; |
| 25 | if (SkOpAngle* last = segment->activeAngle(*startPtr, startPtr, endPtr, &done)) { |
| 26 | *startPtr = last->start(); |
| 27 | *endPtr = last->end(); |
| 28 | #if TRY_ROTATE |
| 29 | *chase.insert(0) = span; |
| 30 | #else |
| 31 | *chase.append() = span; |
| 32 | #endif |
| 33 | *result = last->segment(); |
| 34 | return true; |
| 35 | } |
| 36 | if (done) { |
| 37 | continue; |
| 38 | } |
| 39 | int winding; |
| 40 | bool sortable; |
| 41 | const SkOpAngle* angle = AngleWinding(*startPtr, *endPtr, &winding, &sortable); |
| 42 | if (!angle) { |
| 43 | *result = nullptr; |
| 44 | return true; |
| 45 | } |
| 46 | if (winding == SK_MinS32) { |
| 47 | continue; |
| 48 | } |
| 49 | int sumMiWinding, sumSuWinding; |
| 50 | if (sortable) { |
| 51 | segment = angle->segment(); |
| 52 | sumMiWinding = segment->updateWindingReverse(angle); |
| 53 | if (sumMiWinding == SK_MinS32) { |
| 54 | SkASSERT(segment->globalState()->debugSkipAssert()); |
| 55 | *result = nullptr; |
| 56 | return true; |
| 57 | } |
| 58 | sumSuWinding = segment->updateOppWindingReverse(angle); |
| 59 | if (sumSuWinding == SK_MinS32) { |
| 60 | SkASSERT(segment->globalState()->debugSkipAssert()); |
| 61 | *result = nullptr; |
| 62 | return true; |
| 63 | } |
| 64 | if (segment->operand()) { |
| 65 | using std::swap; |
| 66 | swap(sumMiWinding, sumSuWinding); |
| 67 | } |
| 68 | } |
| 69 | SkOpSegment* first = nullptr; |
| 70 | const SkOpAngle* firstAngle = angle; |
| 71 | while ((angle = angle->next()) != firstAngle) { |
| 72 | segment = angle->segment(); |
| 73 | SkOpSpanBase* start = angle->start(); |
| 74 | SkOpSpanBase* end = angle->end(); |
| 75 | int maxWinding = 0, sumWinding = 0, oppMaxWinding = 0, oppSumWinding = 0; |
| 76 | if (sortable) { |
| 77 | segment->setUpWindings(start, end, &sumMiWinding, &sumSuWinding, |
| 78 | &maxWinding, &sumWinding, &oppMaxWinding, &oppSumWinding); |
| 79 | } |
| 80 | if (!segment->done(angle)) { |
| 81 | if (!first && (sortable || start->starter(end)->windSum() != SK_MinS32)) { |
| 82 | first = segment; |
| 83 | *startPtr = start; |
| 84 | *endPtr = end; |
| 85 | } |
| 86 | // OPTIMIZATION: should this also add to the chase? |
| 87 | if (sortable) { |
| 88 | if (!segment->markAngle(maxWinding, sumWinding, oppMaxWinding, |
| 89 | oppSumWinding, angle, nullptr)) { |
| 90 | return false; |
| 91 | } |
| 92 | } |
| 93 | } |
| 94 | } |
| 95 | if (first) { |
| 96 | #if TRY_ROTATE |
| 97 | *chase.insert(0) = span; |
| 98 | #else |
| 99 | *chase.append() = span; |
| 100 | #endif |
| 101 | *result = first; |
| 102 | return true; |
| 103 | } |
| 104 | } |
| 105 | *result = nullptr; |
| 106 | return true; |
| 107 | } |
| 108 | |
| 109 | static bool bridgeOp(SkOpContourHead* contourList, const SkPathOp op, |
| 110 | const int xorMask, const int xorOpMask, SkPathWriter* writer) { |
| 111 | bool unsortable = false; |
| 112 | bool lastSimple = false; |
| 113 | bool simple = false; |
| 114 | do { |
| 115 | SkOpSpan* span = FindSortableTop(contourList); |
| 116 | if (!span) { |
| 117 | break; |
| 118 | } |
| 119 | SkOpSegment* current = span->segment(); |
| 120 | SkOpSpanBase* start = span->next(); |
| 121 | SkOpSpanBase* end = span; |
| 122 | SkTDArray<SkOpSpanBase*> chase; |
| 123 | do { |
| 124 | if (current->activeOp(start, end, xorMask, xorOpMask, op)) { |
| 125 | do { |
| 126 | if (!unsortable && current->done()) { |
| 127 | break; |
| 128 | } |
| 129 | SkASSERT(unsortable || !current->done()); |
| 130 | SkOpSpanBase* nextStart = start; |
| 131 | SkOpSpanBase* nextEnd = end; |
| 132 | lastSimple = simple; |
| 133 | SkOpSegment* next = current->findNextOp(&chase, &nextStart, &nextEnd, |
| 134 | &unsortable, &simple, op, xorMask, xorOpMask); |
| 135 | if (!next) { |
| 136 | if (!unsortable && writer->hasMove() |
| 137 | && current->verb() != SkPath::kLine_Verb |
| 138 | && !writer->isClosed()) { |
| 139 | if (!current->addCurveTo(start, end, writer)) { |
| 140 | return false; |
| 141 | } |
| 142 | if (!writer->isClosed()) { |
| 143 | SkPathOpsDebug::ShowActiveSpans(contourList); |
| 144 | } |
| 145 | } else if (lastSimple) { |
| 146 | if (!current->addCurveTo(start, end, writer)) { |
| 147 | return false; |
| 148 | } |
| 149 | } |
| 150 | break; |
| 151 | } |
| 152 | #if DEBUG_FLOW |
| 153 | SkDebugf("%s current id=%d from=(%1.9g,%1.9g) to=(%1.9g,%1.9g)\n", __FUNCTION__, |
| 154 | current->debugID(), start->pt().fX, start->pt().fY, |
| 155 | end->pt().fX, end->pt().fY); |
| 156 | #endif |
| 157 | if (!current->addCurveTo(start, end, writer)) { |
| 158 | return false; |
| 159 | } |
| 160 | current = next; |
| 161 | start = nextStart; |
| 162 | end = nextEnd; |
| 163 | } while (!writer->isClosed() && (!unsortable || !start->starter(end)->done())); |
| 164 | if (current->activeWinding(start, end) && !writer->isClosed()) { |
| 165 | SkOpSpan* spanStart = start->starter(end); |
| 166 | if (!spanStart->done()) { |
| 167 | if (!current->addCurveTo(start, end, writer)) { |
| 168 | return false; |
| 169 | } |
| 170 | current->markDone(spanStart); |
| 171 | } |
| 172 | } |
| 173 | writer->finishContour(); |
| 174 | } else { |
| 175 | SkOpSpanBase* last; |
| 176 | if (!current->markAndChaseDone(start, end, &last)) { |
| 177 | return false; |
| 178 | } |
| 179 | if (last && !last->chased()) { |
| 180 | last->setChased(true); |
| 181 | SkASSERT(!SkPathOpsDebug::ChaseContains(chase, last)); |
| 182 | *chase.append() = last; |
| 183 | #if DEBUG_WINDING |
| 184 | SkDebugf("%s chase.append id=%d", __FUNCTION__, last->segment()->debugID()); |
| 185 | if (!last->final()) { |
| 186 | SkDebugf(" windSum=%d", last->upCast()->windSum()); |
| 187 | } |
| 188 | SkDebugf("\n"); |
| 189 | #endif |
| 190 | } |
| 191 | } |
| 192 | if (!findChaseOp(chase, &start, &end, ¤t)) { |
| 193 | return false; |
| 194 | } |
| 195 | SkPathOpsDebug::ShowActiveSpans(contourList); |
| 196 | if (!current) { |
| 197 | break; |
| 198 | } |
| 199 | } while (true); |
| 200 | } while (true); |
| 201 | return true; |
| 202 | } |
| 203 | |
| 204 | // diagram of why this simplifcation is possible is here: |
| 205 | // https://skia.org/dev/present/pathops link at bottom of the page |
| 206 | // https://drive.google.com/file/d/0BwoLUwz9PYkHLWpsaXd0UDdaN00/view?usp=sharing |
| 207 | static const SkPathOp gOpInverse[kReverseDifference_SkPathOp + 1][2][2] = { |
| 208 | // inside minuend outside minuend |
| 209 | // inside subtrahend outside subtrahend inside subtrahend outside subtrahend |
| 210 | {{ kDifference_SkPathOp, kIntersect_SkPathOp }, { kUnion_SkPathOp, kReverseDifference_SkPathOp }}, |
| 211 | {{ kIntersect_SkPathOp, kDifference_SkPathOp }, { kReverseDifference_SkPathOp, kUnion_SkPathOp }}, |
| 212 | {{ kUnion_SkPathOp, kReverseDifference_SkPathOp }, { kDifference_SkPathOp, kIntersect_SkPathOp }}, |
| 213 | {{ kXOR_SkPathOp, kXOR_SkPathOp }, { kXOR_SkPathOp, kXOR_SkPathOp }}, |
| 214 | {{ kReverseDifference_SkPathOp, kUnion_SkPathOp }, { kIntersect_SkPathOp, kDifference_SkPathOp }}, |
| 215 | }; |
| 216 | |
| 217 | static const bool gOutInverse[kReverseDifference_SkPathOp + 1][2][2] = { |
| 218 | {{ false, false }, { true, false }}, // diff |
| 219 | {{ false, false }, { false, true }}, // sect |
| 220 | {{ false, true }, { true, true }}, // union |
| 221 | {{ false, true }, { true, false }}, // xor |
| 222 | {{ false, true }, { false, false }}, // rev diff |
| 223 | }; |
| 224 | |
| 225 | #if DEBUG_T_SECT_LOOP_COUNT |
| 226 | |
| 227 | #include "include/private/SkMutex.h" |
| 228 | |
| 229 | SkOpGlobalState debugWorstState(nullptr, nullptr SkDEBUGPARAMS(false) SkDEBUGPARAMS(nullptr)); |
| 230 | |
| 231 | void ReportPathOpsDebugging() { |
| 232 | debugWorstState.debugLoopReport(); |
| 233 | } |
| 234 | |
| 235 | extern void (*gVerboseFinalize)(); |
| 236 | |
| 237 | #endif |
| 238 | |
| 239 | bool OpDebug(const SkPath& one, const SkPath& two, SkPathOp op, SkPath* result |
| 240 | SkDEBUGPARAMS(bool skipAssert) SkDEBUGPARAMS(const char* testName)) { |
| 241 | #if DEBUG_DUMP_VERIFY |
| 242 | #ifndef SK_DEBUG |
| 243 | const char* testName = "release"; |
| 244 | #endif |
| 245 | if (SkPathOpsDebug::gDumpOp) { |
| 246 | SkPathOpsDebug::DumpOp(one, two, op, testName); |
| 247 | } |
| 248 | #endif |
| 249 | op = gOpInverse[op][one.isInverseFillType()][two.isInverseFillType()]; |
| 250 | bool inverseFill = gOutInverse[op][one.isInverseFillType()][two.isInverseFillType()]; |
| 251 | SkPathFillType fillType = inverseFill ? SkPathFillType::kInverseEvenOdd : |
| 252 | SkPathFillType::kEvenOdd; |
| 253 | SkRect rect1, rect2; |
| 254 | if (kIntersect_SkPathOp == op && one.isRect(&rect1) && two.isRect(&rect2)) { |
| 255 | result->reset(); |
| 256 | result->setFillType(fillType); |
| 257 | if (rect1.intersect(rect2)) { |
| 258 | result->addRect(rect1); |
| 259 | } |
| 260 | return true; |
| 261 | } |
| 262 | if (one.isEmpty() || two.isEmpty()) { |
| 263 | SkPath work; |
| 264 | switch (op) { |
| 265 | case kIntersect_SkPathOp: |
| 266 | break; |
| 267 | case kUnion_SkPathOp: |
| 268 | case kXOR_SkPathOp: |
| 269 | work = one.isEmpty() ? two : one; |
| 270 | break; |
| 271 | case kDifference_SkPathOp: |
| 272 | if (!one.isEmpty()) { |
| 273 | work = one; |
| 274 | } |
| 275 | break; |
| 276 | case kReverseDifference_SkPathOp: |
| 277 | if (!two.isEmpty()) { |
| 278 | work = two; |
| 279 | } |
| 280 | break; |
| 281 | default: |
| 282 | SkASSERT(0); // unhandled case |
| 283 | } |
| 284 | if (inverseFill != work.isInverseFillType()) { |
| 285 | work.toggleInverseFillType(); |
| 286 | } |
| 287 | return Simplify(work, result); |
| 288 | } |
| 289 | SkSTArenaAlloc<4096> allocator; // FIXME: add a constant expression here, tune |
| 290 | SkOpContour contour; |
| 291 | SkOpContourHead* contourList = static_cast<SkOpContourHead*>(&contour); |
| 292 | SkOpGlobalState globalState(contourList, &allocator |
| 293 | SkDEBUGPARAMS(skipAssert) SkDEBUGPARAMS(testName)); |
| 294 | SkOpCoincidence coincidence(&globalState); |
| 295 | const SkPath* minuend = &one; |
| 296 | const SkPath* subtrahend = &two; |
| 297 | if (op == kReverseDifference_SkPathOp) { |
| 298 | using std::swap; |
| 299 | swap(minuend, subtrahend); |
| 300 | op = kDifference_SkPathOp; |
| 301 | } |
| 302 | #if DEBUG_SORT |
| 303 | SkPathOpsDebug::gSortCount = SkPathOpsDebug::gSortCountDefault; |
| 304 | #endif |
| 305 | // turn path into list of segments |
| 306 | SkOpEdgeBuilder builder(*minuend, contourList, &globalState); |
| 307 | if (builder.unparseable()) { |
| 308 | return false; |
| 309 | } |
| 310 | const int xorMask = builder.xorMask(); |
| 311 | builder.addOperand(*subtrahend); |
| 312 | if (!builder.finish()) { |
| 313 | return false; |
| 314 | } |
| 315 | #if DEBUG_DUMP_SEGMENTS |
| 316 | contourList->dumpSegments("seg", op); |
| 317 | #endif |
| 318 | |
| 319 | const int xorOpMask = builder.xorMask(); |
| 320 | if (!SortContourList(&contourList, xorMask == kEvenOdd_PathOpsMask, |
| 321 | xorOpMask == kEvenOdd_PathOpsMask)) { |
| 322 | result->reset(); |
| 323 | result->setFillType(fillType); |
| 324 | return true; |
| 325 | } |
| 326 | // find all intersections between segments |
| 327 | SkOpContour* current = contourList; |
| 328 | do { |
| 329 | SkOpContour* next = current; |
| 330 | while (AddIntersectTs(current, next, &coincidence) |
| 331 | && (next = next->next())) |
| 332 | ; |
| 333 | } while ((current = current->next())); |
| 334 | #if DEBUG_VALIDATE |
| 335 | globalState.setPhase(SkOpPhase::kWalking); |
| 336 | #endif |
| 337 | bool success = HandleCoincidence(contourList, &coincidence); |
| 338 | #if DEBUG_COIN |
| 339 | globalState.debugAddToGlobalCoinDicts(); |
| 340 | #endif |
| 341 | if (!success) { |
| 342 | return false; |
| 343 | } |
| 344 | #if DEBUG_ALIGNMENT |
| 345 | contourList->dumpSegments("aligned"); |
| 346 | #endif |
| 347 | // construct closed contours |
| 348 | SkPath original = *result; |
| 349 | result->reset(); |
| 350 | result->setFillType(fillType); |
| 351 | SkPathWriter wrapper(*result); |
| 352 | if (!bridgeOp(contourList, op, xorMask, xorOpMask, &wrapper)) { |
| 353 | *result = original; |
| 354 | return false; |
| 355 | } |
| 356 | wrapper.assemble(); // if some edges could not be resolved, assemble remaining |
| 357 | #if DEBUG_T_SECT_LOOP_COUNT |
| 358 | static SkMutex& debugWorstLoop = *(new SkMutex); |
| 359 | { |
| 360 | SkAutoMutexExclusive autoM(debugWorstLoop); |
| 361 | if (!gVerboseFinalize) { |
| 362 | gVerboseFinalize = &ReportPathOpsDebugging; |
| 363 | } |
| 364 | debugWorstState.debugDoYourWorst(&globalState); |
| 365 | } |
| 366 | #endif |
| 367 | return true; |
| 368 | } |
| 369 | |
| 370 | bool Op(const SkPath& one, const SkPath& two, SkPathOp op, SkPath* result) { |
| 371 | #if DEBUG_DUMP_VERIFY |
| 372 | if (SkPathOpsDebug::gVerifyOp) { |
| 373 | if (!OpDebug(one, two, op, result SkDEBUGPARAMS(false) SkDEBUGPARAMS(nullptr))) { |
| 374 | SkPathOpsDebug::ReportOpFail(one, two, op); |
| 375 | return false; |
| 376 | } |
| 377 | SkPathOpsDebug::VerifyOp(one, two, op, *result); |
| 378 | return true; |
| 379 | } |
| 380 | #endif |
| 381 | return OpDebug(one, two, op, result SkDEBUGPARAMS(true) SkDEBUGPARAMS(nullptr)); |
| 382 | } |
| 383 |
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