DisplayListOp.h revision 3b748a44c6bd2ea05fe16839caf73dbe50bd7ae9
1/* 2 * Copyright (C) 2013 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#ifndef ANDROID_HWUI_DISPLAY_OPERATION_H 18#define ANDROID_HWUI_DISPLAY_OPERATION_H 19 20#ifndef LOG_TAG 21 #define LOG_TAG "OpenGLRenderer" 22#endif 23 24#include <SkXfermode.h> 25 26#include <private/hwui/DrawGlInfo.h> 27 28#include "OpenGLRenderer.h" 29#include "AssetAtlas.h" 30#include "DeferredDisplayList.h" 31#include "DisplayListRenderer.h" 32#include "UvMapper.h" 33#include "utils/LinearAllocator.h" 34 35#define CRASH() do { \ 36 *(int *)(uintptr_t)0xbbadbeef = 0; \ 37 ((void(*)())0)(); /* More reliable, but doesn't say BBADBEEF */ \ 38} while(false) 39 40#define MATRIX_STRING "[%.2f %.2f %.2f] [%.2f %.2f %.2f] [%.2f %.2f %.2f]" 41#define MATRIX_ARGS(m) \ 42 m->get(0), m->get(1), m->get(2), \ 43 m->get(3), m->get(4), m->get(5), \ 44 m->get(6), m->get(7), m->get(8) 45#define RECT_STRING "%.2f %.2f %.2f %.2f" 46#define RECT_ARGS(r) \ 47 r.left, r.top, r.right, r.bottom 48 49// Use OP_LOG for logging with arglist, OP_LOGS if just printing char* 50#define OP_LOGS(s) OP_LOG("%s", s) 51#define OP_LOG(s, ...) ALOGD( "%*s" s, level * 2, "", __VA_ARGS__ ) 52 53namespace android { 54namespace uirenderer { 55 56/** 57 * Structure for storing canvas operations when they are recorded into a DisplayList, so that they 58 * may be replayed to an OpenGLRenderer. 59 * 60 * To avoid individual memory allocations, DisplayListOps may only be allocated into a 61 * LinearAllocator's managed memory buffers. Each pointer held by a DisplayListOp is either a 62 * pointer into memory also allocated in the LinearAllocator (mostly for text and float buffers) or 63 * references a externally refcounted object (Sk... and Skia... objects). ~DisplayListOp() is 64 * never called as LinearAllocators are simply discarded, so no memory management should be done in 65 * this class. 66 */ 67class DisplayListOp { 68public: 69 // These objects should always be allocated with a LinearAllocator, and never destroyed/deleted. 70 // standard new() intentionally not implemented, and delete/deconstructor should never be used. 71 virtual ~DisplayListOp() { CRASH(); } 72 static void operator delete(void* ptr) { CRASH(); } 73 /** static void* operator new(size_t size); PURPOSELY OMITTED **/ 74 static void* operator new(size_t size, LinearAllocator& allocator) { 75 return allocator.alloc(size); 76 } 77 78 enum OpLogFlag { 79 kOpLogFlag_Recurse = 0x1, 80 kOpLogFlag_JSON = 0x2 // TODO: add? 81 }; 82 83 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 84 bool useQuickReject) = 0; 85 86 virtual void replay(ReplayStateStruct& replayStruct, int saveCount, int level, 87 bool useQuickReject) = 0; 88 89 virtual void output(int level, uint32_t logFlags = 0) = 0; 90 91 // NOTE: it would be nice to declare constants and overriding the implementation in each op to 92 // point at the constants, but that seems to require a .cpp file 93 virtual const char* name() = 0; 94 95 /** 96 * Stores the relevant canvas state of the object between deferral and replay (if the canvas 97 * state supports being stored) See OpenGLRenderer::simpleClipAndState() 98 * 99 * TODO: don't reserve space for StateOps that won't be deferred 100 */ 101 DeferredDisplayState state; 102 103}; 104 105class StateOp : public DisplayListOp { 106public: 107 StateOp() {}; 108 109 virtual ~StateOp() {} 110 111 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 112 bool useQuickReject) { 113 // default behavior only affects immediate, deferrable state, issue directly to renderer 114 applyState(deferStruct.mRenderer, saveCount); 115 } 116 117 /** 118 * State operations are applied directly to the renderer, but can cause the deferred drawing op 119 * list to flush 120 */ 121 virtual void replay(ReplayStateStruct& replayStruct, int saveCount, int level, 122 bool useQuickReject) { 123 applyState(replayStruct.mRenderer, saveCount); 124 } 125 126 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const = 0; 127}; 128 129class DrawOp : public DisplayListOp { 130friend class MergingDrawBatch; 131public: 132 DrawOp(SkPaint* paint) 133 : mPaint(paint), mQuickRejected(false) {} 134 135 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 136 bool useQuickReject) { 137 if (mQuickRejected && CC_LIKELY(useQuickReject)) { 138 return; 139 } 140 141 if (!getLocalBounds(state.mBounds)) { 142 // empty bounds signify bounds can't be calculated 143 state.mBounds.setEmpty(); 144 } 145 146 deferStruct.mDeferredList.addDrawOp(deferStruct.mRenderer, this); 147 } 148 149 virtual void replay(ReplayStateStruct& replayStruct, int saveCount, int level, 150 bool useQuickReject) { 151 if (mQuickRejected && CC_LIKELY(useQuickReject)) { 152 return; 153 } 154 155 replayStruct.mDrawGlStatus |= applyDraw(replayStruct.mRenderer, replayStruct.mDirty); 156 } 157 158 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) = 0; 159 160 /** 161 * Draw multiple instances of an operation, must be overidden for operations that merge 162 * 163 * Currently guarantees certain similarities between ops (see MergingDrawBatch::canMergeWith), 164 * and pure translation transformations. Other guarantees of similarity should be enforced by 165 * reducing which operations are tagged as mergeable. 166 */ 167 virtual status_t multiDraw(OpenGLRenderer& renderer, Rect& dirty, 168 const Vector<DrawOp*>& ops, const Rect& bounds) { 169 status_t status = DrawGlInfo::kStatusDone; 170 for (unsigned int i = 0; i < ops.size(); i++) { 171 renderer.restoreDisplayState(ops[i]->state); 172 status |= ops[i]->applyDraw(renderer, dirty); 173 } 174 return status; 175 } 176 177 /* 178 * When this method is invoked the state field is initialized to have the 179 * final rendering state. We can thus use it to process data as it will be 180 * used at draw time. 181 * 182 * Additionally, this method allows subclasses to provide defer-time preferences for batching 183 * and merging. 184 * 185 * Return true if the op can merge with others of its kind (such subclasses should implement 186 * multiDraw) 187 */ 188 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 189 return false; 190 } 191 192 // returns true if bounds exist 193 virtual bool getLocalBounds(Rect& localBounds) { return false; } 194 195 // TODO: better refine localbounds usage 196 void setQuickRejected(bool quickRejected) { mQuickRejected = quickRejected; } 197 bool getQuickRejected() { return mQuickRejected; } 198 199 inline int getPaintAlpha() { 200 return OpenGLRenderer::getAlphaDirect(mPaint); 201 } 202 203 inline float strokeWidthOutset() { 204 float width = mPaint->getStrokeWidth(); 205 if (width == 0) return 0.5f; // account for hairline 206 return width * 0.5f; 207 } 208 209protected: 210 SkPaint* getPaint(OpenGLRenderer& renderer) { 211 return renderer.filterPaint(mPaint); 212 } 213 214 SkPaint* mPaint; // should be accessed via getPaint() when applying 215 bool mQuickRejected; 216}; 217 218class DrawBoundedOp : public DrawOp { 219public: 220 DrawBoundedOp(float left, float top, float right, float bottom, SkPaint* paint) 221 : DrawOp(paint), mLocalBounds(left, top, right, bottom) {} 222 223 // Calculates bounds as smallest rect encompassing all points 224 // NOTE: requires at least 1 vertex, and doesn't account for stroke size (should be handled in 225 // subclass' constructor) 226 DrawBoundedOp(const float* points, int count, SkPaint* paint) 227 : DrawOp(paint), mLocalBounds(points[0], points[1], points[0], points[1]) { 228 for (int i = 2; i < count; i += 2) { 229 mLocalBounds.left = fminf(mLocalBounds.left, points[i]); 230 mLocalBounds.right = fmaxf(mLocalBounds.right, points[i]); 231 mLocalBounds.top = fminf(mLocalBounds.top, points[i + 1]); 232 mLocalBounds.bottom = fmaxf(mLocalBounds.bottom, points[i + 1]); 233 } 234 } 235 236 // default empty constructor for bounds, to be overridden in child constructor body 237 DrawBoundedOp(SkPaint* paint) 238 : DrawOp(paint) {} 239 240 bool getLocalBounds(Rect& localBounds) { 241 localBounds.set(mLocalBounds); 242 return true; 243 } 244 245 bool mergeAllowed() { 246 if (!state.mMatrix.isPureTranslate()) return false; 247 248 // checks that we're unclipped, and srcover 249 const Rect& opBounds = state.mBounds; 250 return fabs(opBounds.getWidth() - mLocalBounds.getWidth()) < 0.1 && 251 fabs(opBounds.getHeight() - mLocalBounds.getHeight()) < 0.1 && 252 (OpenGLRenderer::getXfermodeDirect(mPaint) == SkXfermode::kSrcOver_Mode); 253 } 254 255protected: 256 Rect mLocalBounds; // displayed area in LOCAL coord. doesn't incorporate stroke, so check paint 257}; 258 259/////////////////////////////////////////////////////////////////////////////// 260// STATE OPERATIONS - these may affect the state of the canvas/renderer, but do 261// not directly draw or alter output 262/////////////////////////////////////////////////////////////////////////////// 263 264class SaveOp : public StateOp { 265 friend class DisplayList; // give DisplayList private constructor/reinit access 266public: 267 SaveOp(int flags) 268 : mFlags(flags) {} 269 270 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 271 bool useQuickReject) { 272 int newSaveCount = deferStruct.mRenderer.save(mFlags); 273 deferStruct.mDeferredList.addSave(deferStruct.mRenderer, this, newSaveCount); 274 } 275 276 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 277 renderer.save(mFlags); 278 } 279 280 virtual void output(int level, uint32_t logFlags) { 281 OP_LOG("Save flags %x", mFlags); 282 } 283 284 virtual const char* name() { return "Save"; } 285 286 int getFlags() const { return mFlags; } 287private: 288 SaveOp() {} 289 DisplayListOp* reinit(int flags) { 290 mFlags = flags; 291 return this; 292 } 293 294 int mFlags; 295}; 296 297class RestoreToCountOp : public StateOp { 298 friend class DisplayList; // give DisplayList private constructor/reinit access 299public: 300 RestoreToCountOp(int count) 301 : mCount(count) {} 302 303 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 304 bool useQuickReject) { 305 deferStruct.mDeferredList.addRestoreToCount(deferStruct.mRenderer, 306 this, saveCount + mCount); 307 deferStruct.mRenderer.restoreToCount(saveCount + mCount); 308 } 309 310 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 311 renderer.restoreToCount(saveCount + mCount); 312 } 313 314 virtual void output(int level, uint32_t logFlags) { 315 OP_LOG("Restore to count %d", mCount); 316 } 317 318 virtual const char* name() { return "RestoreToCount"; } 319 320private: 321 RestoreToCountOp() {} 322 DisplayListOp* reinit(int count) { 323 mCount = count; 324 return this; 325 } 326 327 int mCount; 328}; 329 330class SaveLayerOp : public StateOp { 331 friend class DisplayList; // give DisplayList private constructor/reinit access 332public: 333 SaveLayerOp(float left, float top, float right, float bottom, 334 int alpha, SkXfermode::Mode mode, int flags) 335 : mArea(left, top, right, bottom), mAlpha(alpha), mMode(mode), mFlags(flags) {} 336 337 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 338 bool useQuickReject) { 339 // NOTE: don't bother with actual saveLayer, instead issuing it at flush time 340 int newSaveCount = deferStruct.mRenderer.getSaveCount(); 341 deferStruct.mDeferredList.addSaveLayer(deferStruct.mRenderer, this, newSaveCount); 342 343 // NOTE: don't issue full saveLayer, since that has side effects/is costly. instead just 344 // setup the snapshot for deferral, and re-issue the op at flush time 345 deferStruct.mRenderer.saveLayerDeferred(mArea.left, mArea.top, mArea.right, mArea.bottom, 346 mAlpha, mMode, mFlags); 347 } 348 349 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 350 renderer.saveLayer(mArea.left, mArea.top, mArea.right, mArea.bottom, mAlpha, mMode, mFlags); 351 } 352 353 virtual void output(int level, uint32_t logFlags) { 354 OP_LOG("SaveLayer%s of area " RECT_STRING, 355 (isSaveLayerAlpha() ? "Alpha" : ""),RECT_ARGS(mArea)); 356 } 357 358 virtual const char* name() { return isSaveLayerAlpha() ? "SaveLayerAlpha" : "SaveLayer"; } 359 360 int getFlags() { return mFlags; } 361 362private: 363 // Special case, reserved for direct DisplayList usage 364 SaveLayerOp() {} 365 DisplayListOp* reinit(float left, float top, float right, float bottom, 366 int alpha, SkXfermode::Mode mode, int flags) { 367 mArea.set(left, top, right, bottom); 368 mAlpha = alpha; 369 mMode = mode; 370 mFlags = flags; 371 return this; 372 } 373 374 bool isSaveLayerAlpha() { return mAlpha < 255 && mMode == SkXfermode::kSrcOver_Mode; } 375 Rect mArea; 376 int mAlpha; 377 SkXfermode::Mode mMode; 378 int mFlags; 379}; 380 381class TranslateOp : public StateOp { 382public: 383 TranslateOp(float dx, float dy) 384 : mDx(dx), mDy(dy) {} 385 386 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 387 renderer.translate(mDx, mDy); 388 } 389 390 virtual void output(int level, uint32_t logFlags) { 391 OP_LOG("Translate by %f %f", mDx, mDy); 392 } 393 394 virtual const char* name() { return "Translate"; } 395 396private: 397 float mDx; 398 float mDy; 399}; 400 401class RotateOp : public StateOp { 402public: 403 RotateOp(float degrees) 404 : mDegrees(degrees) {} 405 406 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 407 renderer.rotate(mDegrees); 408 } 409 410 virtual void output(int level, uint32_t logFlags) { 411 OP_LOG("Rotate by %f degrees", mDegrees); 412 } 413 414 virtual const char* name() { return "Rotate"; } 415 416private: 417 float mDegrees; 418}; 419 420class ScaleOp : public StateOp { 421public: 422 ScaleOp(float sx, float sy) 423 : mSx(sx), mSy(sy) {} 424 425 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 426 renderer.scale(mSx, mSy); 427 } 428 429 virtual void output(int level, uint32_t logFlags) { 430 OP_LOG("Scale by %f %f", mSx, mSy); 431 } 432 433 virtual const char* name() { return "Scale"; } 434 435private: 436 float mSx; 437 float mSy; 438}; 439 440class SkewOp : public StateOp { 441public: 442 SkewOp(float sx, float sy) 443 : mSx(sx), mSy(sy) {} 444 445 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 446 renderer.skew(mSx, mSy); 447 } 448 449 virtual void output(int level, uint32_t logFlags) { 450 OP_LOG("Skew by %f %f", mSx, mSy); 451 } 452 453 virtual const char* name() { return "Skew"; } 454 455private: 456 float mSx; 457 float mSy; 458}; 459 460class SetMatrixOp : public StateOp { 461public: 462 SetMatrixOp(SkMatrix* matrix) 463 : mMatrix(matrix) {} 464 465 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 466 renderer.setMatrix(mMatrix); 467 } 468 469 virtual void output(int level, uint32_t logFlags) { 470 OP_LOG("SetMatrix " MATRIX_STRING, MATRIX_ARGS(mMatrix)); 471 } 472 473 virtual const char* name() { return "SetMatrix"; } 474 475private: 476 SkMatrix* mMatrix; 477}; 478 479class ConcatMatrixOp : public StateOp { 480public: 481 ConcatMatrixOp(SkMatrix* matrix) 482 : mMatrix(matrix) {} 483 484 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 485 renderer.concatMatrix(mMatrix); 486 } 487 488 virtual void output(int level, uint32_t logFlags) { 489 OP_LOG("ConcatMatrix " MATRIX_STRING, MATRIX_ARGS(mMatrix)); 490 } 491 492 virtual const char* name() { return "ConcatMatrix"; } 493 494private: 495 SkMatrix* mMatrix; 496}; 497 498class ClipOp : public StateOp { 499public: 500 ClipOp(SkRegion::Op op) : mOp(op) {} 501 502 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 503 bool useQuickReject) { 504 // NOTE: must defer op BEFORE applying state, since it may read clip 505 deferStruct.mDeferredList.addClip(deferStruct.mRenderer, this); 506 507 // TODO: Can we avoid applying complex clips at defer time? 508 applyState(deferStruct.mRenderer, saveCount); 509 } 510 511 bool canCauseComplexClip() { 512 return ((mOp != SkRegion::kIntersect_Op) && (mOp != SkRegion::kReplace_Op)) || !isRect(); 513 } 514 515protected: 516 ClipOp() {} 517 virtual bool isRect() { return false; } 518 519 SkRegion::Op mOp; 520}; 521 522class ClipRectOp : public ClipOp { 523 friend class DisplayList; // give DisplayList private constructor/reinit access 524public: 525 ClipRectOp(float left, float top, float right, float bottom, SkRegion::Op op) 526 : ClipOp(op), mArea(left, top, right, bottom) {} 527 528 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 529 renderer.clipRect(mArea.left, mArea.top, mArea.right, mArea.bottom, mOp); 530 } 531 532 virtual void output(int level, uint32_t logFlags) { 533 OP_LOG("ClipRect " RECT_STRING, RECT_ARGS(mArea)); 534 } 535 536 virtual const char* name() { return "ClipRect"; } 537 538protected: 539 virtual bool isRect() { return true; } 540 541private: 542 ClipRectOp() {} 543 DisplayListOp* reinit(float left, float top, float right, float bottom, SkRegion::Op op) { 544 mOp = op; 545 mArea.set(left, top, right, bottom); 546 return this; 547 } 548 549 Rect mArea; 550}; 551 552class ClipPathOp : public ClipOp { 553public: 554 ClipPathOp(SkPath* path, SkRegion::Op op) 555 : ClipOp(op), mPath(path) {} 556 557 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 558 renderer.clipPath(mPath, mOp); 559 } 560 561 virtual void output(int level, uint32_t logFlags) { 562 SkRect bounds = mPath->getBounds(); 563 OP_LOG("ClipPath bounds " RECT_STRING, 564 bounds.left(), bounds.top(), bounds.right(), bounds.bottom()); 565 } 566 567 virtual const char* name() { return "ClipPath"; } 568 569private: 570 SkPath* mPath; 571}; 572 573class ClipRegionOp : public ClipOp { 574public: 575 ClipRegionOp(SkRegion* region, SkRegion::Op op) 576 : ClipOp(op), mRegion(region) {} 577 578 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 579 renderer.clipRegion(mRegion, mOp); 580 } 581 582 virtual void output(int level, uint32_t logFlags) { 583 SkIRect bounds = mRegion->getBounds(); 584 OP_LOG("ClipRegion bounds %d %d %d %d", 585 bounds.left(), bounds.top(), bounds.right(), bounds.bottom()); 586 } 587 588 virtual const char* name() { return "ClipRegion"; } 589 590private: 591 SkRegion* mRegion; 592 SkRegion::Op mOp; 593}; 594 595class ResetShaderOp : public StateOp { 596public: 597 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 598 renderer.resetShader(); 599 } 600 601 virtual void output(int level, uint32_t logFlags) { 602 OP_LOGS("ResetShader"); 603 } 604 605 virtual const char* name() { return "ResetShader"; } 606}; 607 608class SetupShaderOp : public StateOp { 609public: 610 SetupShaderOp(SkiaShader* shader) 611 : mShader(shader) {} 612 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 613 renderer.setupShader(mShader); 614 } 615 616 virtual void output(int level, uint32_t logFlags) { 617 OP_LOG("SetupShader, shader %p", mShader); 618 } 619 620 virtual const char* name() { return "SetupShader"; } 621 622private: 623 SkiaShader* mShader; 624}; 625 626class ResetColorFilterOp : public StateOp { 627public: 628 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 629 renderer.resetColorFilter(); 630 } 631 632 virtual void output(int level, uint32_t logFlags) { 633 OP_LOGS("ResetColorFilter"); 634 } 635 636 virtual const char* name() { return "ResetColorFilter"; } 637}; 638 639class SetupColorFilterOp : public StateOp { 640public: 641 SetupColorFilterOp(SkiaColorFilter* colorFilter) 642 : mColorFilter(colorFilter) {} 643 644 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 645 renderer.setupColorFilter(mColorFilter); 646 } 647 648 virtual void output(int level, uint32_t logFlags) { 649 OP_LOG("SetupColorFilter, filter %p", mColorFilter); 650 } 651 652 virtual const char* name() { return "SetupColorFilter"; } 653 654private: 655 SkiaColorFilter* mColorFilter; 656}; 657 658class ResetShadowOp : public StateOp { 659public: 660 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 661 renderer.resetShadow(); 662 } 663 664 virtual void output(int level, uint32_t logFlags) { 665 OP_LOGS("ResetShadow"); 666 } 667 668 virtual const char* name() { return "ResetShadow"; } 669}; 670 671class SetupShadowOp : public StateOp { 672public: 673 SetupShadowOp(float radius, float dx, float dy, int color) 674 : mRadius(radius), mDx(dx), mDy(dy), mColor(color) {} 675 676 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 677 renderer.setupShadow(mRadius, mDx, mDy, mColor); 678 } 679 680 virtual void output(int level, uint32_t logFlags) { 681 OP_LOG("SetupShadow, radius %f, %f, %f, color %#x", mRadius, mDx, mDy, mColor); 682 } 683 684 virtual const char* name() { return "SetupShadow"; } 685 686private: 687 float mRadius; 688 float mDx; 689 float mDy; 690 int mColor; 691}; 692 693class ResetPaintFilterOp : public StateOp { 694public: 695 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 696 renderer.resetPaintFilter(); 697 } 698 699 virtual void output(int level, uint32_t logFlags) { 700 OP_LOGS("ResetPaintFilter"); 701 } 702 703 virtual const char* name() { return "ResetPaintFilter"; } 704}; 705 706class SetupPaintFilterOp : public StateOp { 707public: 708 SetupPaintFilterOp(int clearBits, int setBits) 709 : mClearBits(clearBits), mSetBits(setBits) {} 710 711 virtual void applyState(OpenGLRenderer& renderer, int saveCount) const { 712 renderer.setupPaintFilter(mClearBits, mSetBits); 713 } 714 715 virtual void output(int level, uint32_t logFlags) { 716 OP_LOG("SetupPaintFilter, clear %#x, set %#x", mClearBits, mSetBits); 717 } 718 719 virtual const char* name() { return "SetupPaintFilter"; } 720 721private: 722 int mClearBits; 723 int mSetBits; 724}; 725 726/////////////////////////////////////////////////////////////////////////////// 727// DRAW OPERATIONS - these are operations that can draw to the canvas's device 728/////////////////////////////////////////////////////////////////////////////// 729 730class DrawBitmapOp : public DrawBoundedOp { 731public: 732 DrawBitmapOp(SkBitmap* bitmap, float left, float top, SkPaint* paint) 733 : DrawBoundedOp(left, top, left + bitmap->width(), top + bitmap->height(), paint), 734 mBitmap(bitmap), mAtlasEntry(NULL) { 735 } 736 737 DrawBitmapOp(SkBitmap* bitmap, float left, float top, SkPaint* paint, 738 const AssetAtlas::Entry* entry) 739 : DrawBoundedOp(left, top, left + bitmap->width(), top + bitmap->height(), paint), 740 mBitmap(bitmap), mAtlasEntry(entry) { 741 if (entry) mUvMapper = entry->uvMapper; 742 } 743 744 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 745 return renderer.drawBitmap(mBitmap, mLocalBounds.left, mLocalBounds.top, 746 getPaint(renderer)); 747 } 748 749#define SET_TEXTURE(ptr, posRect, offsetRect, texCoordsRect, xDim, yDim) \ 750 TextureVertex::set(ptr++, posRect.xDim - offsetRect.left, posRect.yDim - offsetRect.top, \ 751 texCoordsRect.xDim, texCoordsRect.yDim) 752 753 virtual status_t multiDraw(OpenGLRenderer& renderer, Rect& dirty, 754 const Vector<DrawOp*>& ops, const Rect& bounds) { 755 renderer.restoreDisplayState(state, true); // restore all but the clip 756 renderer.setFullScreenClip(); // ensure merged ops aren't clipped 757 TextureVertex vertices[6 * ops.size()]; 758 TextureVertex* vertex = &vertices[0]; 759 760 // TODO: manually handle rect clip for bitmaps by adjusting texCoords per op, 761 // and allowing them to be merged in getBatchId() 762 for (unsigned int i = 0; i < ops.size(); i++) { 763 const Rect& opBounds = ops[i]->state.mBounds; 764 765 Rect texCoords(0, 0, 1, 1); 766 ((DrawBitmapOp*) ops[i])->mUvMapper.map(texCoords); 767 768 SET_TEXTURE(vertex, opBounds, bounds, texCoords, left, top); 769 SET_TEXTURE(vertex, opBounds, bounds, texCoords, right, top); 770 SET_TEXTURE(vertex, opBounds, bounds, texCoords, left, bottom); 771 772 SET_TEXTURE(vertex, opBounds, bounds, texCoords, left, bottom); 773 SET_TEXTURE(vertex, opBounds, bounds, texCoords, right, top); 774 SET_TEXTURE(vertex, opBounds, bounds, texCoords, right, bottom); 775 } 776 777 return renderer.drawBitmaps(mBitmap, ops.size(), &vertices[0], bounds, mPaint); 778 } 779 780 virtual void output(int level, uint32_t logFlags) { 781 OP_LOG("Draw bitmap %p at %f %f", mBitmap, mLocalBounds.left, mLocalBounds.top); 782 } 783 784 virtual const char* name() { return "DrawBitmap"; } 785 786 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 787 *batchId = DeferredDisplayList::kOpBatch_Bitmap; 788 *mergeId = mAtlasEntry ? (mergeid_t) &mAtlasEntry->atlas : (mergeid_t) mBitmap; 789 790 // don't merge A8 bitmaps - the paint's color isn't compared by mergeId, or in 791 // MergingDrawBatch::canMergeWith 792 return mergeAllowed() && (mBitmap->getConfig() != SkBitmap::kA8_Config); 793 } 794 795 const SkBitmap* bitmap() { return mBitmap; } 796protected: 797 SkBitmap* mBitmap; 798 const AssetAtlas::Entry* mAtlasEntry; 799 UvMapper mUvMapper; 800}; 801 802class DrawBitmapMatrixOp : public DrawBoundedOp { 803public: 804 DrawBitmapMatrixOp(SkBitmap* bitmap, SkMatrix* matrix, SkPaint* paint) 805 : DrawBoundedOp(paint), mBitmap(bitmap), mMatrix(matrix) { 806 mLocalBounds.set(0, 0, bitmap->width(), bitmap->height()); 807 const mat4 transform(*matrix); 808 transform.mapRect(mLocalBounds); 809 } 810 811 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 812 return renderer.drawBitmap(mBitmap, mMatrix, getPaint(renderer)); 813 } 814 815 virtual void output(int level, uint32_t logFlags) { 816 OP_LOG("Draw bitmap %p matrix " MATRIX_STRING, mBitmap, MATRIX_ARGS(mMatrix)); 817 } 818 819 virtual const char* name() { return "DrawBitmapMatrix"; } 820 821 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 822 *batchId = DeferredDisplayList::kOpBatch_Bitmap; 823 return false; 824 } 825 826private: 827 SkBitmap* mBitmap; 828 SkMatrix* mMatrix; 829}; 830 831class DrawBitmapRectOp : public DrawBoundedOp { 832public: 833 DrawBitmapRectOp(SkBitmap* bitmap, float srcLeft, float srcTop, float srcRight, float srcBottom, 834 float dstLeft, float dstTop, float dstRight, float dstBottom, SkPaint* paint) 835 : DrawBoundedOp(dstLeft, dstTop, dstRight, dstBottom, paint), 836 mBitmap(bitmap), mSrc(srcLeft, srcTop, srcRight, srcBottom) {} 837 838 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 839 return renderer.drawBitmap(mBitmap, mSrc.left, mSrc.top, mSrc.right, mSrc.bottom, 840 mLocalBounds.left, mLocalBounds.top, mLocalBounds.right, mLocalBounds.bottom, 841 getPaint(renderer)); 842 } 843 844 virtual void output(int level, uint32_t logFlags) { 845 OP_LOG("Draw bitmap %p src="RECT_STRING", dst="RECT_STRING, 846 mBitmap, RECT_ARGS(mSrc), RECT_ARGS(mLocalBounds)); 847 } 848 849 virtual const char* name() { return "DrawBitmapRect"; } 850 851 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 852 *batchId = DeferredDisplayList::kOpBatch_Bitmap; 853 return false; 854 } 855 856private: 857 SkBitmap* mBitmap; 858 Rect mSrc; 859}; 860 861class DrawBitmapDataOp : public DrawBitmapOp { 862public: 863 DrawBitmapDataOp(SkBitmap* bitmap, float left, float top, SkPaint* paint) 864 : DrawBitmapOp(bitmap, left, top, paint) {} 865 866 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 867 return renderer.drawBitmapData(mBitmap, mLocalBounds.left, 868 mLocalBounds.top, getPaint(renderer)); 869 } 870 871 virtual void output(int level, uint32_t logFlags) { 872 OP_LOG("Draw bitmap %p", mBitmap); 873 } 874 875 virtual const char* name() { return "DrawBitmapData"; } 876 877 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 878 *batchId = DeferredDisplayList::kOpBatch_Bitmap; 879 return false; 880 } 881}; 882 883class DrawBitmapMeshOp : public DrawBoundedOp { 884public: 885 DrawBitmapMeshOp(SkBitmap* bitmap, int meshWidth, int meshHeight, 886 float* vertices, int* colors, SkPaint* paint) 887 : DrawBoundedOp(vertices, 2 * (meshWidth + 1) * (meshHeight + 1), paint), 888 mBitmap(bitmap), mMeshWidth(meshWidth), mMeshHeight(meshHeight), 889 mVertices(vertices), mColors(colors) {} 890 891 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 892 return renderer.drawBitmapMesh(mBitmap, mMeshWidth, mMeshHeight, 893 mVertices, mColors, getPaint(renderer)); 894 } 895 896 virtual void output(int level, uint32_t logFlags) { 897 OP_LOG("Draw bitmap %p mesh %d x %d", mBitmap, mMeshWidth, mMeshHeight); 898 } 899 900 virtual const char* name() { return "DrawBitmapMesh"; } 901 902 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 903 *batchId = DeferredDisplayList::kOpBatch_Bitmap; 904 return false; 905 } 906 907private: 908 SkBitmap* mBitmap; 909 int mMeshWidth; 910 int mMeshHeight; 911 float* mVertices; 912 int* mColors; 913}; 914 915class DrawPatchOp : public DrawBoundedOp { 916public: 917 DrawPatchOp(SkBitmap* bitmap, Res_png_9patch* patch, 918 float left, float top, float right, float bottom, int alpha, SkXfermode::Mode mode) 919 : DrawBoundedOp(left, top, right, bottom, 0), 920 mBitmap(bitmap), mPatch(patch), mAlpha(alpha), mMode(mode) { 921 mEntry = Caches::getInstance().assetAtlas.getEntry(bitmap); 922 }; 923 924 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 925 // NOTE: not calling the virtual method, which takes a paint 926 return renderer.drawPatch(mBitmap, mPatch, mEntry, mLocalBounds.left, mLocalBounds.top, 927 mLocalBounds.right, mLocalBounds.bottom, mAlpha, mMode); 928 } 929 930 virtual void output(int level, uint32_t logFlags) { 931 OP_LOG("Draw patch "RECT_STRING, RECT_ARGS(mLocalBounds)); 932 } 933 934 virtual const char* name() { return "DrawPatch"; } 935 936 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 937 *batchId = DeferredDisplayList::kOpBatch_Patch; 938 *mergeId = (mergeid_t) mBitmap; 939 return true; 940 } 941 942private: 943 SkBitmap* mBitmap; 944 Res_png_9patch* mPatch; 945 int mAlpha; 946 SkXfermode::Mode mMode; 947 AssetAtlas::Entry* mEntry; 948}; 949 950class DrawColorOp : public DrawOp { 951public: 952 DrawColorOp(int color, SkXfermode::Mode mode) 953 : DrawOp(0), mColor(color), mMode(mode) {}; 954 955 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 956 return renderer.drawColor(mColor, mMode); 957 } 958 959 virtual void output(int level, uint32_t logFlags) { 960 OP_LOG("Draw color %#x, mode %d", mColor, mMode); 961 } 962 963 virtual const char* name() { return "DrawColor"; } 964 965private: 966 int mColor; 967 SkXfermode::Mode mMode; 968}; 969 970class DrawStrokableOp : public DrawBoundedOp { 971public: 972 DrawStrokableOp(float left, float top, float right, float bottom, SkPaint* paint) 973 : DrawBoundedOp(left, top, right, bottom, paint) {}; 974 975 bool getLocalBounds(Rect& localBounds) { 976 localBounds.set(mLocalBounds); 977 if (mPaint && mPaint->getStyle() != SkPaint::kFill_Style) { 978 localBounds.outset(strokeWidthOutset()); 979 } 980 return true; 981 } 982 983 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 984 if (mPaint->getPathEffect()) { 985 *batchId = DeferredDisplayList::kOpBatch_AlphaMaskTexture; 986 } else { 987 *batchId = mPaint->isAntiAlias() ? 988 DeferredDisplayList::kOpBatch_AlphaVertices : 989 DeferredDisplayList::kOpBatch_Vertices; 990 } 991 return false; 992 } 993}; 994 995class DrawRectOp : public DrawStrokableOp { 996public: 997 DrawRectOp(float left, float top, float right, float bottom, SkPaint* paint) 998 : DrawStrokableOp(left, top, right, bottom, paint) {} 999 1000 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1001 return renderer.drawRect(mLocalBounds.left, mLocalBounds.top, 1002 mLocalBounds.right, mLocalBounds.bottom, getPaint(renderer)); 1003 } 1004 1005 virtual void output(int level, uint32_t logFlags) { 1006 OP_LOG("Draw Rect "RECT_STRING, RECT_ARGS(mLocalBounds)); 1007 } 1008 1009 virtual const char* name() { return "DrawRect"; } 1010}; 1011 1012class DrawRectsOp : public DrawBoundedOp { 1013public: 1014 DrawRectsOp(const float* rects, int count, SkPaint* paint) 1015 : DrawBoundedOp(rects, count, paint), 1016 mRects(rects), mCount(count) {} 1017 1018 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1019 return renderer.drawRects(mRects, mCount, getPaint(renderer)); 1020 } 1021 1022 virtual void output(int level, uint32_t logFlags) { 1023 OP_LOG("Draw Rects count %d", mCount); 1024 } 1025 1026 virtual const char* name() { return "DrawRects"; } 1027 1028 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 1029 *batchId = DeferredDisplayList::kOpBatch_Vertices; 1030 return false; 1031 } 1032 1033private: 1034 const float* mRects; 1035 int mCount; 1036}; 1037 1038class DrawRoundRectOp : public DrawStrokableOp { 1039public: 1040 DrawRoundRectOp(float left, float top, float right, float bottom, 1041 float rx, float ry, SkPaint* paint) 1042 : DrawStrokableOp(left, top, right, bottom, paint), mRx(rx), mRy(ry) {} 1043 1044 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1045 return renderer.drawRoundRect(mLocalBounds.left, mLocalBounds.top, 1046 mLocalBounds.right, mLocalBounds.bottom, mRx, mRy, getPaint(renderer)); 1047 } 1048 1049 virtual void output(int level, uint32_t logFlags) { 1050 OP_LOG("Draw RoundRect "RECT_STRING", rx %f, ry %f", RECT_ARGS(mLocalBounds), mRx, mRy); 1051 } 1052 1053 virtual const char* name() { return "DrawRoundRect"; } 1054 1055private: 1056 float mRx; 1057 float mRy; 1058}; 1059 1060class DrawCircleOp : public DrawStrokableOp { 1061public: 1062 DrawCircleOp(float x, float y, float radius, SkPaint* paint) 1063 : DrawStrokableOp(x - radius, y - radius, x + radius, y + radius, paint), 1064 mX(x), mY(y), mRadius(radius) {} 1065 1066 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1067 return renderer.drawCircle(mX, mY, mRadius, getPaint(renderer)); 1068 } 1069 1070 virtual void output(int level, uint32_t logFlags) { 1071 OP_LOG("Draw Circle x %f, y %f, r %f", mX, mY, mRadius); 1072 } 1073 1074 virtual const char* name() { return "DrawCircle"; } 1075 1076private: 1077 float mX; 1078 float mY; 1079 float mRadius; 1080}; 1081 1082class DrawOvalOp : public DrawStrokableOp { 1083public: 1084 DrawOvalOp(float left, float top, float right, float bottom, SkPaint* paint) 1085 : DrawStrokableOp(left, top, right, bottom, paint) {} 1086 1087 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1088 return renderer.drawOval(mLocalBounds.left, mLocalBounds.top, 1089 mLocalBounds.right, mLocalBounds.bottom, getPaint(renderer)); 1090 } 1091 1092 virtual void output(int level, uint32_t logFlags) { 1093 OP_LOG("Draw Oval "RECT_STRING, RECT_ARGS(mLocalBounds)); 1094 } 1095 1096 virtual const char* name() { return "DrawOval"; } 1097}; 1098 1099class DrawArcOp : public DrawStrokableOp { 1100public: 1101 DrawArcOp(float left, float top, float right, float bottom, 1102 float startAngle, float sweepAngle, bool useCenter, SkPaint* paint) 1103 : DrawStrokableOp(left, top, right, bottom, paint), 1104 mStartAngle(startAngle), mSweepAngle(sweepAngle), mUseCenter(useCenter) {} 1105 1106 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1107 return renderer.drawArc(mLocalBounds.left, mLocalBounds.top, 1108 mLocalBounds.right, mLocalBounds.bottom, 1109 mStartAngle, mSweepAngle, mUseCenter, getPaint(renderer)); 1110 } 1111 1112 virtual void output(int level, uint32_t logFlags) { 1113 OP_LOG("Draw Arc "RECT_STRING", start %f, sweep %f, useCenter %d", 1114 RECT_ARGS(mLocalBounds), mStartAngle, mSweepAngle, mUseCenter); 1115 } 1116 1117 virtual const char* name() { return "DrawArc"; } 1118 1119private: 1120 float mStartAngle; 1121 float mSweepAngle; 1122 bool mUseCenter; 1123}; 1124 1125class DrawPathOp : public DrawBoundedOp { 1126public: 1127 DrawPathOp(SkPath* path, SkPaint* paint) 1128 : DrawBoundedOp(paint), mPath(path) { 1129 float left, top, offset; 1130 uint32_t width, height; 1131 PathCache::computePathBounds(path, paint, left, top, offset, width, height); 1132 left -= offset; 1133 top -= offset; 1134 mLocalBounds.set(left, top, left + width, top + height); 1135 } 1136 1137 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1138 return renderer.drawPath(mPath, getPaint(renderer)); 1139 } 1140 1141 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 1142 SkPaint* paint = getPaint(renderer); 1143 renderer.getCaches().pathCache.precache(mPath, paint); 1144 1145 *batchId = DeferredDisplayList::kOpBatch_AlphaMaskTexture; 1146 return false; 1147 } 1148 1149 virtual void output(int level, uint32_t logFlags) { 1150 OP_LOG("Draw Path %p in "RECT_STRING, mPath, RECT_ARGS(mLocalBounds)); 1151 } 1152 1153 virtual const char* name() { return "DrawPath"; } 1154 1155private: 1156 SkPath* mPath; 1157}; 1158 1159class DrawLinesOp : public DrawBoundedOp { 1160public: 1161 DrawLinesOp(float* points, int count, SkPaint* paint) 1162 : DrawBoundedOp(points, count, paint), 1163 mPoints(points), mCount(count) { 1164 mLocalBounds.outset(strokeWidthOutset()); 1165 } 1166 1167 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1168 return renderer.drawLines(mPoints, mCount, getPaint(renderer)); 1169 } 1170 1171 virtual void output(int level, uint32_t logFlags) { 1172 OP_LOG("Draw Lines count %d", mCount); 1173 } 1174 1175 virtual const char* name() { return "DrawLines"; } 1176 1177 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 1178 *batchId = mPaint->isAntiAlias() ? 1179 DeferredDisplayList::kOpBatch_AlphaVertices : 1180 DeferredDisplayList::kOpBatch_Vertices; 1181 return false; 1182 } 1183 1184protected: 1185 float* mPoints; 1186 int mCount; 1187}; 1188 1189class DrawPointsOp : public DrawLinesOp { 1190public: 1191 DrawPointsOp(float* points, int count, SkPaint* paint) 1192 : DrawLinesOp(points, count, paint) {} 1193 1194 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1195 return renderer.drawPoints(mPoints, mCount, getPaint(renderer)); 1196 } 1197 1198 virtual void output(int level, uint32_t logFlags) { 1199 OP_LOG("Draw Points count %d", mCount); 1200 } 1201 1202 virtual const char* name() { return "DrawPoints"; } 1203}; 1204 1205class DrawSomeTextOp : public DrawOp { 1206public: 1207 DrawSomeTextOp(const char* text, int bytesCount, int count, SkPaint* paint) 1208 : DrawOp(paint), mText(text), mBytesCount(bytesCount), mCount(count) {}; 1209 1210 virtual void output(int level, uint32_t logFlags) { 1211 OP_LOG("Draw some text, %d bytes", mBytesCount); 1212 } 1213 1214 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 1215 SkPaint* paint = getPaint(renderer); 1216 FontRenderer& fontRenderer = renderer.getCaches().fontRenderer->getFontRenderer(paint); 1217 fontRenderer.precache(paint, mText, mCount, mat4::identity()); 1218 1219 *batchId = mPaint->getColor() == 0xff000000 ? 1220 DeferredDisplayList::kOpBatch_Text : 1221 DeferredDisplayList::kOpBatch_ColorText; 1222 1223 return false; 1224 } 1225 1226protected: 1227 const char* mText; 1228 int mBytesCount; 1229 int mCount; 1230}; 1231 1232class DrawTextOnPathOp : public DrawSomeTextOp { 1233public: 1234 DrawTextOnPathOp(const char* text, int bytesCount, int count, 1235 SkPath* path, float hOffset, float vOffset, SkPaint* paint) 1236 : DrawSomeTextOp(text, bytesCount, count, paint), 1237 mPath(path), mHOffset(hOffset), mVOffset(vOffset) { 1238 /* TODO: inherit from DrawBounded and init mLocalBounds */ 1239 } 1240 1241 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1242 return renderer.drawTextOnPath(mText, mBytesCount, mCount, mPath, 1243 mHOffset, mVOffset, getPaint(renderer)); 1244 } 1245 1246 virtual const char* name() { return "DrawTextOnPath"; } 1247 1248private: 1249 SkPath* mPath; 1250 float mHOffset; 1251 float mVOffset; 1252}; 1253 1254class DrawPosTextOp : public DrawSomeTextOp { 1255public: 1256 DrawPosTextOp(const char* text, int bytesCount, int count, 1257 const float* positions, SkPaint* paint) 1258 : DrawSomeTextOp(text, bytesCount, count, paint), mPositions(positions) { 1259 /* TODO: inherit from DrawBounded and init mLocalBounds */ 1260 } 1261 1262 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1263 return renderer.drawPosText(mText, mBytesCount, mCount, mPositions, getPaint(renderer)); 1264 } 1265 1266 virtual const char* name() { return "DrawPosText"; } 1267 1268private: 1269 const float* mPositions; 1270}; 1271 1272class DrawTextOp : public DrawBoundedOp { 1273public: 1274 DrawTextOp(const char* text, int bytesCount, int count, float x, float y, 1275 const float* positions, SkPaint* paint, float length) 1276 : DrawBoundedOp(paint), mText(text), mBytesCount(bytesCount), mCount(count), 1277 mX(x), mY(y), mPositions(positions), mLength(length) { 1278 // duplicates bounds calculation from OpenGLRenderer::drawText, but doesn't alter mX 1279 SkPaint::FontMetrics metrics; 1280 paint->getFontMetrics(&metrics, 0.0f); 1281 switch (paint->getTextAlign()) { 1282 case SkPaint::kCenter_Align: 1283 x -= length / 2.0f; 1284 break; 1285 case SkPaint::kRight_Align: 1286 x -= length; 1287 break; 1288 default: 1289 break; 1290 } 1291 mLocalBounds.set(x, mY + metrics.fTop, x + length, mY + metrics.fBottom); 1292 memset(&mPrecacheTransform.data[0], 0xff, 16 * sizeof(float)); 1293 } 1294 1295 virtual bool onDefer(OpenGLRenderer& renderer, int* batchId, mergeid_t* mergeId) { 1296 SkPaint* paint = getPaint(renderer); 1297 FontRenderer& fontRenderer = renderer.getCaches().fontRenderer->getFontRenderer(paint); 1298 const mat4& transform = renderer.findBestFontTransform(state.mMatrix); 1299 if (mPrecacheTransform != transform) { 1300 fontRenderer.precache(paint, mText, mCount, transform); 1301 mPrecacheTransform = transform; 1302 } 1303 *batchId = mPaint->getColor() == 0xff000000 ? 1304 DeferredDisplayList::kOpBatch_Text : 1305 DeferredDisplayList::kOpBatch_ColorText; 1306 1307 *mergeId = (mergeid_t)mPaint->getColor(); 1308 1309 // don't merge decorated text - the decorations won't draw in order 1310 bool noDecorations = !(mPaint->getFlags() & (SkPaint::kUnderlineText_Flag | 1311 SkPaint::kStrikeThruText_Flag)); 1312 return mergeAllowed() && noDecorations; 1313 } 1314 1315 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1316 return renderer.drawText(mText, mBytesCount, mCount, mX, mY, 1317 mPositions, getPaint(renderer), mLength); 1318 } 1319 1320 virtual status_t multiDraw(OpenGLRenderer& renderer, Rect& dirty, 1321 const Vector<DrawOp*>& ops, const Rect& bounds) { 1322 status_t status = DrawGlInfo::kStatusDone; 1323 renderer.setFullScreenClip(); // ensure merged ops aren't clipped 1324 for (unsigned int i = 0; i < ops.size(); i++) { 1325 DrawOpMode drawOpMode = (i == ops.size() - 1) ? kDrawOpMode_Flush : kDrawOpMode_Defer; 1326 renderer.restoreDisplayState(ops[i]->state, true); // restore all but the clip 1327 1328 DrawTextOp& op = *((DrawTextOp*)ops[i]); 1329 status |= renderer.drawText(op.mText, op.mBytesCount, op.mCount, op.mX, op.mY, 1330 op.mPositions, op.getPaint(renderer), op.mLength, drawOpMode); 1331 } 1332 return status; 1333 } 1334 1335 virtual void output(int level, uint32_t logFlags) { 1336 OP_LOG("Draw Text of count %d, bytes %d", mCount, mBytesCount); 1337 } 1338 1339 virtual const char* name() { return "DrawText"; } 1340 1341private: 1342 const char* mText; 1343 int mBytesCount; 1344 int mCount; 1345 float mX; 1346 float mY; 1347 const float* mPositions; 1348 float mLength; 1349 mat4 mPrecacheTransform; 1350}; 1351 1352/////////////////////////////////////////////////////////////////////////////// 1353// SPECIAL DRAW OPERATIONS 1354/////////////////////////////////////////////////////////////////////////////// 1355 1356class DrawFunctorOp : public DrawOp { 1357public: 1358 DrawFunctorOp(Functor* functor) 1359 : DrawOp(0), mFunctor(functor) {} 1360 1361 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1362 renderer.startMark("GL functor"); 1363 status_t ret = renderer.callDrawGLFunction(mFunctor, dirty); 1364 renderer.endMark(); 1365 return ret; 1366 } 1367 1368 virtual void output(int level, uint32_t logFlags) { 1369 OP_LOG("Draw Functor %p", mFunctor); 1370 } 1371 1372 virtual const char* name() { return "DrawFunctor"; } 1373 1374private: 1375 Functor* mFunctor; 1376}; 1377 1378class DrawDisplayListOp : public DrawBoundedOp { 1379public: 1380 DrawDisplayListOp(DisplayList* displayList, int flags) 1381 : DrawBoundedOp(0, 0, displayList->getWidth(), displayList->getHeight(), 0), 1382 mDisplayList(displayList), mFlags(flags) {} 1383 1384 virtual void defer(DeferStateStruct& deferStruct, int saveCount, int level, 1385 bool useQuickReject) { 1386 if (mDisplayList && mDisplayList->isRenderable()) { 1387 mDisplayList->defer(deferStruct, level + 1); 1388 } 1389 } 1390 virtual void replay(ReplayStateStruct& replayStruct, int saveCount, int level, 1391 bool useQuickReject) { 1392 if (mDisplayList && mDisplayList->isRenderable()) { 1393 mDisplayList->replay(replayStruct, level + 1); 1394 } 1395 } 1396 1397 // NOT USED since replay() is overridden 1398 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1399 return DrawGlInfo::kStatusDone; 1400 } 1401 1402 virtual void output(int level, uint32_t logFlags) { 1403 OP_LOG("Draw Display List %p, flags %#x", mDisplayList, mFlags); 1404 if (mDisplayList && (logFlags & kOpLogFlag_Recurse)) { 1405 mDisplayList->output(level + 1); 1406 } 1407 } 1408 1409 virtual const char* name() { return "DrawDisplayList"; } 1410 1411private: 1412 DisplayList* mDisplayList; 1413 int mFlags; 1414}; 1415 1416class DrawLayerOp : public DrawOp { 1417public: 1418 DrawLayerOp(Layer* layer, float x, float y) 1419 : DrawOp(0), mLayer(layer), mX(x), mY(y) {} 1420 1421 virtual status_t applyDraw(OpenGLRenderer& renderer, Rect& dirty) { 1422 return renderer.drawLayer(mLayer, mX, mY); 1423 } 1424 1425 virtual void output(int level, uint32_t logFlags) { 1426 OP_LOG("Draw Layer %p at %f %f", mLayer, mX, mY); 1427 } 1428 1429 virtual const char* name() { return "DrawLayer"; } 1430 1431private: 1432 Layer* mLayer; 1433 float mX; 1434 float mY; 1435}; 1436 1437}; // namespace uirenderer 1438}; // namespace android 1439 1440#endif // ANDROID_HWUI_DISPLAY_OPERATION_H 1441