src/gpu/text/GrTextBlobVertexRegenerator.cpp - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrAtlasManager.h"
 #include "GrTextBlob.h"
 #include "GrTextUtils.h"
 #include "SkDistanceFieldGen.h"
 #include "SkGlyphCache.h"
 #include "ops/GrAtlasTextOp.h"

 using Regenerator = GrTextBlob::VertexRegenerator;

 enum RegenMask {
     kNoRegen    = 0x0,
     kRegenPos   = 0x1,
     kRegenCol   = 0x2,
     kRegenTex   = 0x4,
     kRegenGlyph = 0x8 | kRegenTex,  // we have to regenerate the texture coords when we regen glyphs

     // combinations
     kRegenPosCol = kRegenPos | kRegenCol,
     kRegenPosTex = kRegenPos | kRegenTex,
     kRegenPosTexGlyph = kRegenPos | kRegenGlyph,
     kRegenPosColTex = kRegenPos | kRegenCol | kRegenTex,
     kRegenPosColTexGlyph = kRegenPos | kRegenCol | kRegenGlyph,
     kRegenColTex = kRegenCol | kRegenTex,
     kRegenColTexGlyph = kRegenCol | kRegenGlyph,
 };

 ////////////////////////////////////////////////////////////////////////////////////////////////////
 // A large template to handle regenerating the vertices of a textblob with as few branches as
 // possible
 template <bool regenPos, bool regenCol, bool regenTexCoords>
 inline void regen_vertices(char* vertex, const GrGlyph* glyph, size_t vertexStride,
                            bool useDistanceFields, SkScalar transX, SkScalar transY,
                            GrColor color) {
     uint16_t u0, v0, u1, v1;
 #ifdef DISPLAY_PAGE_INDEX
     // Enable this to visualize the page from which each glyph is being drawn.
     // Green Red Magenta Cyan -> 0 1 2 3; Black -> error
     SkColor hackColor;
 #endif
     if (regenTexCoords) {
         SkASSERT(glyph);
         int width = glyph->fBounds.width();
         int height = glyph->fBounds.height();

         if (useDistanceFields) {
             u0 = glyph->fAtlasLocation.fX + SK_DistanceFieldInset;
             v0 = glyph->fAtlasLocation.fY + SK_DistanceFieldInset;
             u1 = u0 + width - 2 * SK_DistanceFieldInset;
             v1 = v0 + height - 2 * SK_DistanceFieldInset;
         } else {
             u0 = glyph->fAtlasLocation.fX;
             v0 = glyph->fAtlasLocation.fY;
             u1 = u0 + width;
             v1 = v0 + height;
         }
         // We pack the 2bit page index in the low bit of the u and v texture coords
         uint32_t pageIndex = glyph->pageIndex();
         SkASSERT(pageIndex < 4);
         uint16_t uBit = (pageIndex >> 1) & 0x1;
         uint16_t vBit = pageIndex & 0x1;
         u0 <<= 1;
         u0 |= uBit;
         v0 <<= 1;
         v0 |= vBit;
         u1 <<= 1;
         u1 |= uBit;
         v1 <<= 1;
         v1 |= vBit;
 #ifdef DISPLAY_PAGE_INDEX
         switch (pageIndex) {
             case 0:
                 hackColor = SK_ColorGREEN;
                 break;
             case 1:
                 hackColor = SK_ColorRED;
                 break;
             case 2:
                 hackColor = SK_ColorMAGENTA;
                 break;
             case 3:
                 hackColor = SK_ColorCYAN;
                 break;
             default:
                 hackColor = SK_ColorBLACK;
                 break;
         }
 #endif
     }

     // This is a bit wonky, but sometimes we have LCD text, in which case we won't have color
     // vertices, hence vertexStride - sizeof(SkIPoint16)
     intptr_t texCoordOffset = vertexStride - sizeof(SkIPoint16);
     intptr_t colorOffset = texCoordOffset - sizeof(GrColor);

     // V0
     if (regenPos) {
         SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
         point->fX += transX;
         point->fY += transY;
     }

     if (regenCol) {
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = color;
     }

     if (regenTexCoords) {
         uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
         textureCoords[0] = u0;
         textureCoords[1] = v0;
 #ifdef DISPLAY_PAGE_INDEX
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = hackColor;
 #endif
     }
     vertex += vertexStride;

     // V1
     if (regenPos) {
         SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
         point->fX += transX;
         point->fY += transY;
     }

     if (regenCol) {
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = color;
     }

     if (regenTexCoords) {
         uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
         textureCoords[0] = u0;
         textureCoords[1] = v1;
 #ifdef DISPLAY_PAGE_INDEX
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = hackColor;
 #endif
     }
     vertex += vertexStride;

     // V2
     if (regenPos) {
         SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
         point->fX += transX;
         point->fY += transY;
     }

     if (regenCol) {
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = color;
     }

     if (regenTexCoords) {
         uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
         textureCoords[0] = u1;
         textureCoords[1] = v0;
 #ifdef DISPLAY_PAGE_INDEX
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = hackColor;
 #endif
     }
     vertex += vertexStride;

     // V3
     if (regenPos) {
         SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
         point->fX += transX;
         point->fY += transY;
     }

     if (regenCol) {
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = color;
     }

     if (regenTexCoords) {
         uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
         textureCoords[0] = u1;
         textureCoords[1] = v1;
 #ifdef DISPLAY_PAGE_INDEX
         SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
         *vcolor = hackColor;
 #endif
     }
 }

 Regenerator::VertexRegenerator(GrResourceProvider* resourceProvider, GrTextBlob* blob,
                                int runIdx, int subRunIdx,
                                const SkMatrix& viewMatrix, SkScalar x, SkScalar y, GrColor color,
                                GrDeferredUploadTarget* uploadTarget, GrGlyphCache* glyphCache,
                                GrAtlasManager* fullAtlasManager, SkExclusiveStrikePtr* lazyCache)
         : fResourceProvider(resourceProvider)
         , fViewMatrix(viewMatrix)
         , fBlob(blob)
         , fUploadTarget(uploadTarget)
         , fGlyphCache(glyphCache)
         , fFullAtlasManager(fullAtlasManager)
         , fLazyCache(lazyCache)
         , fRun(&blob->fRuns[runIdx])
         , fSubRun(&blob->fRuns[runIdx].fSubRunInfo[subRunIdx])
         , fColor(color) {
     // Compute translation if any
     fSubRun->computeTranslation(fViewMatrix, x, y, &fTransX, &fTransY);

     // Because the GrGlyphCache may evict the strike a blob depends on using for
     // generating its texture coords, we have to track whether or not the strike has
     // been abandoned.  If it hasn't been abandoned, then we can use the GrGlyph*s as is
     // otherwise we have to get the new strike, and use that to get the correct glyphs.
     // Because we do not have the packed ids, and thus can't look up our glyphs in the
     // new strike, we instead keep our ref to the old strike and use the packed ids from
     // it.  These ids will still be valid as long as we hold the ref.  When we are done
     // updating our cache of the GrGlyph*s, we drop our ref on the old strike
     if (fSubRun->strike()->isAbandoned()) {
         fRegenFlags |= kRegenGlyph;
         fRegenFlags |= kRegenTex;
     }
     if (kARGB_GrMaskFormat != fSubRun->maskFormat() && fSubRun->color() != color) {
         fRegenFlags |= kRegenCol;
     }
     if (0.f != fTransX || 0.f != fTransY) {
         fRegenFlags |= kRegenPos;
     }
 }

 template <bool regenPos, bool regenCol, bool regenTexCoords, bool regenGlyphs>
 bool Regenerator::doRegen(Regenerator::Result* result) {
     static_assert(!regenGlyphs || regenTexCoords, "must regenTexCoords along regenGlyphs");
     sk_sp<GrTextStrike> strike;
     if (regenTexCoords) {
         fSubRun->resetBulkUseToken();

         const SkDescriptor* desc = (fRun->fOverrideDescriptor && !fSubRun->drawAsDistanceFields())
                                            ? fRun->fOverrideDescriptor->getDesc()
                                            : fRun->fDescriptor.getDesc();

         if (!*fLazyCache || (*fLazyCache)->getDescriptor() != *desc) {
             SkScalerContextEffects effects;
             effects.fPathEffect = fRun->fPathEffect.get();
             effects.fMaskFilter = fRun->fMaskFilter.get();
             *fLazyCache =
                 SkStrikeCache::FindOrCreateStrikeExclusive(*desc, effects, *fRun->fTypeface);
         }

         if (regenGlyphs) {
             strike = fGlyphCache->getStrike(fLazyCache->get());
         } else {
             strike = fSubRun->refStrike();
         }
     }

     bool hasW = fSubRun->hasWCoord();
     auto vertexStride = GetVertexStride(fSubRun->maskFormat(), hasW);
     char* currVertex = fBlob->fVertices + fSubRun->vertexStartIndex() +
                        fCurrGlyph * kVerticesPerGlyph * vertexStride;
     result->fFirstVertex = currVertex;

     for (int glyphIdx = fCurrGlyph; glyphIdx < (int)fSubRun->glyphCount(); glyphIdx++) {
         GrGlyph* glyph = nullptr;
         if (regenTexCoords) {
             size_t glyphOffset = glyphIdx + fSubRun->glyphStartIndex();

             if (regenGlyphs) {
                 // Get the id from the old glyph, and use the new strike to lookup
                 // the glyph.
                 GrGlyph::PackedID id = fBlob->fGlyphs[glyphOffset]->fPackedID;
                 fBlob->fGlyphs[glyphOffset] =
                         strike->getGlyph(id, fSubRun->maskFormat(), fLazyCache->get());
                 SkASSERT(id == fBlob->fGlyphs[glyphOffset]->fPackedID);
             }
             glyph = fBlob->fGlyphs[glyphOffset];
             SkASSERT(glyph && glyph->fMaskFormat == fSubRun->maskFormat());

             if (!fFullAtlasManager->hasGlyph(glyph)) {
                 GrDrawOpAtlas::ErrorCode code;
                 code = strike->addGlyphToAtlas(fResourceProvider, fUploadTarget, fGlyphCache,
                                               fFullAtlasManager, glyph,
                                               fLazyCache->get(), fSubRun->maskFormat(),
                                               fSubRun->needsTransform());
                 if (GrDrawOpAtlas::ErrorCode::kError == code) {
                     // Something horrible has happened - drop the op
                     return false;
                 }
                 else if (GrDrawOpAtlas::ErrorCode::kTryAgain == code) {
                     fBrokenRun = glyphIdx > 0;
                     result->fFinished = false;
                     return true;
                 }
             }
             auto tokenTracker = fUploadTarget->tokenTracker();
             fFullAtlasManager->addGlyphToBulkAndSetUseToken(fSubRun->bulkUseToken(), glyph,
                                                             tokenTracker->nextDrawToken());
         }

         regen_vertices<regenPos, regenCol, regenTexCoords>(currVertex, glyph, vertexStride,
                                                            fSubRun->drawAsDistanceFields(), fTransX,
                                                            fTransY, fColor);
         currVertex += vertexStride * GrAtlasTextOp::kVerticesPerGlyph;
         ++result->fGlyphsRegenerated;
         ++fCurrGlyph;
     }

     // We may have changed the color so update it here
     fSubRun->setColor(fColor);
     if (regenTexCoords) {
         if (regenGlyphs) {
             fSubRun->setStrike(std::move(strike));
         }
         fSubRun->setAtlasGeneration(fBrokenRun
                                     ? GrDrawOpAtlas::kInvalidAtlasGeneration
                                     : fFullAtlasManager->atlasGeneration(fSubRun->maskFormat()));
     }
     return true;
 }

 bool Regenerator::regenerate(Regenerator::Result* result) {
     uint64_t currentAtlasGen = fFullAtlasManager->atlasGeneration(fSubRun->maskFormat());
     // If regenerate() is called multiple times then the atlas gen may have changed. So we check
     // this each time.
     if (fSubRun->atlasGeneration() != currentAtlasGen) {
         fRegenFlags |= kRegenTex;
     }

     switch (static_cast<RegenMask>(fRegenFlags)) {
         case kRegenPos:
             return this->doRegen<true, false, false, false>(result);
         case kRegenCol:
             return this->doRegen<false, true, false, false>(result);
         case kRegenTex:
             return this->doRegen<false, false, true, false>(result);
         case kRegenGlyph:
             return this->doRegen<false, false, true, true>(result);

         // combinations
         case kRegenPosCol:
             return this->doRegen<true, true, false, false>(result);
         case kRegenPosTex:
             return this->doRegen<true, false, true, false>(result);
         case kRegenPosTexGlyph:
             return this->doRegen<true, false, true, true>(result);
         case kRegenPosColTex:
             return this->doRegen<true, true, true, false>(result);
         case kRegenPosColTexGlyph:
             return this->doRegen<true, true, true, true>(result);
         case kRegenColTex:
             return this->doRegen<false, true, true, false>(result);
         case kRegenColTexGlyph:
             return this->doRegen<false, true, true, true>(result);
         case kNoRegen: {
             bool hasW = fSubRun->hasWCoord();
             auto vertexStride = GetVertexStride(fSubRun->maskFormat(), hasW);
             result->fFinished = true;
             result->fGlyphsRegenerated = fSubRun->glyphCount() - fCurrGlyph;
             result->fFirstVertex = fBlob->fVertices + fSubRun->vertexStartIndex() +
                                     fCurrGlyph * kVerticesPerGlyph * vertexStride;
             fCurrGlyph = fSubRun->glyphCount();

             // set use tokens for all of the glyphs in our subrun.  This is only valid if we
             // have a valid atlas generation
             fFullAtlasManager->setUseTokenBulk(*fSubRun->bulkUseToken(),
                                                fUploadTarget->tokenTracker()->nextDrawToken(),
                                                fSubRun->maskFormat());
             return true;
         }
     }
     SK_ABORT("Should not get here");
     return false;
 }
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrAtlasManager.h"
	#include "GrTextBlob.h"
	#include "GrTextUtils.h"
	#include "SkDistanceFieldGen.h"
	#include "SkGlyphCache.h"
	#include "ops/GrAtlasTextOp.h"

	using Regenerator = GrTextBlob::VertexRegenerator;

	enum RegenMask {
	kNoRegen = 0x0,
	kRegenPos = 0x1,
	kRegenCol = 0x2,
	kRegenTex = 0x4,
	kRegenGlyph = 0x8 \| kRegenTex, // we have to regenerate the texture coords when we regen glyphs

	// combinations
	kRegenPosCol = kRegenPos \| kRegenCol,
	kRegenPosTex = kRegenPos \| kRegenTex,
	kRegenPosTexGlyph = kRegenPos \| kRegenGlyph,
	kRegenPosColTex = kRegenPos \| kRegenCol \| kRegenTex,
	kRegenPosColTexGlyph = kRegenPos \| kRegenCol \| kRegenGlyph,
	kRegenColTex = kRegenCol \| kRegenTex,
	kRegenColTexGlyph = kRegenCol \| kRegenGlyph,
	};

	////////////////////////////////////////////////////////////////////////////////////////////////////
	// A large template to handle regenerating the vertices of a textblob with as few branches as
	// possible
	template <bool regenPos, bool regenCol, bool regenTexCoords>
	inline void regen_vertices(char* vertex, const GrGlyph* glyph, size_t vertexStride,
	bool useDistanceFields, SkScalar transX, SkScalar transY,
	GrColor color) {
	uint16_t u0, v0, u1, v1;
	#ifdef DISPLAY_PAGE_INDEX
	// Enable this to visualize the page from which each glyph is being drawn.
	// Green Red Magenta Cyan -> 0 1 2 3; Black -> error
	SkColor hackColor;
	#endif
	if (regenTexCoords) {
	SkASSERT(glyph);
	int width = glyph->fBounds.width();
	int height = glyph->fBounds.height();

	if (useDistanceFields) {
	u0 = glyph->fAtlasLocation.fX + SK_DistanceFieldInset;
	v0 = glyph->fAtlasLocation.fY + SK_DistanceFieldInset;
	u1 = u0 + width - 2 * SK_DistanceFieldInset;
	v1 = v0 + height - 2 * SK_DistanceFieldInset;
	} else {
	u0 = glyph->fAtlasLocation.fX;
	v0 = glyph->fAtlasLocation.fY;
	u1 = u0 + width;
	v1 = v0 + height;
	}
	// We pack the 2bit page index in the low bit of the u and v texture coords
	uint32_t pageIndex = glyph->pageIndex();
	SkASSERT(pageIndex < 4);
	uint16_t uBit = (pageIndex >> 1) & 0x1;
	uint16_t vBit = pageIndex & 0x1;
	u0 <<= 1;
	u0 \|= uBit;
	v0 <<= 1;
	v0 \|= vBit;
	u1 <<= 1;
	u1 \|= uBit;
	v1 <<= 1;
	v1 \|= vBit;
	#ifdef DISPLAY_PAGE_INDEX
	switch (pageIndex) {
	case 0:
	hackColor = SK_ColorGREEN;
	break;
	case 1:
	hackColor = SK_ColorRED;
	break;
	case 2:
	hackColor = SK_ColorMAGENTA;
	break;
	case 3:
	hackColor = SK_ColorCYAN;
	break;
	default:
	hackColor = SK_ColorBLACK;
	break;
	}
	#endif
	}

	// This is a bit wonky, but sometimes we have LCD text, in which case we won't have color
	// vertices, hence vertexStride - sizeof(SkIPoint16)
	intptr_t texCoordOffset = vertexStride - sizeof(SkIPoint16);
	intptr_t colorOffset = texCoordOffset - sizeof(GrColor);

	// V0
	if (regenPos) {
	SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
	point->fX += transX;
	point->fY += transY;
	}

	if (regenCol) {
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = color;
	}

	if (regenTexCoords) {
	uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
	textureCoords[0] = u0;
	textureCoords[1] = v0;
	#ifdef DISPLAY_PAGE_INDEX
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = hackColor;
	#endif
	}
	vertex += vertexStride;

	// V1
	if (regenPos) {
	SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
	point->fX += transX;
	point->fY += transY;
	}

	if (regenCol) {
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = color;
	}

	if (regenTexCoords) {
	uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
	textureCoords[0] = u0;
	textureCoords[1] = v1;
	#ifdef DISPLAY_PAGE_INDEX
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = hackColor;
	#endif
	}
	vertex += vertexStride;

	// V2
	if (regenPos) {
	SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
	point->fX += transX;
	point->fY += transY;
	}

	if (regenCol) {
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = color;
	}

	if (regenTexCoords) {
	uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
	textureCoords[0] = u1;
	textureCoords[1] = v0;
	#ifdef DISPLAY_PAGE_INDEX
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = hackColor;
	#endif
	}
	vertex += vertexStride;

	// V3
	if (regenPos) {
	SkPoint* point = reinterpret_cast<SkPoint*>(vertex);
	point->fX += transX;
	point->fY += transY;
	}

	if (regenCol) {
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = color;
	}

	if (regenTexCoords) {
	uint16_t* textureCoords = reinterpret_cast<uint16_t*>(vertex + texCoordOffset);
	textureCoords[0] = u1;
	textureCoords[1] = v1;
	#ifdef DISPLAY_PAGE_INDEX
	SkColor* vcolor = reinterpret_cast<SkColor*>(vertex + colorOffset);
	*vcolor = hackColor;
	#endif
	}
	}

	Regenerator::VertexRegenerator(GrResourceProvider* resourceProvider, GrTextBlob* blob,
	int runIdx, int subRunIdx,
	const SkMatrix& viewMatrix, SkScalar x, SkScalar y, GrColor color,
	GrDeferredUploadTarget* uploadTarget, GrGlyphCache* glyphCache,
	GrAtlasManager* fullAtlasManager, SkExclusiveStrikePtr* lazyCache)
	: fResourceProvider(resourceProvider)
	, fViewMatrix(viewMatrix)
	, fBlob(blob)
	, fUploadTarget(uploadTarget)
	, fGlyphCache(glyphCache)
	, fFullAtlasManager(fullAtlasManager)
	, fLazyCache(lazyCache)
	, fRun(&blob->fRuns[runIdx])
	, fSubRun(&blob->fRuns[runIdx].fSubRunInfo[subRunIdx])
	, fColor(color) {
	// Compute translation if any
	fSubRun->computeTranslation(fViewMatrix, x, y, &fTransX, &fTransY);

	// Because the GrGlyphCache may evict the strike a blob depends on using for
	// generating its texture coords, we have to track whether or not the strike has
	// been abandoned. If it hasn't been abandoned, then we can use the GrGlyph*s as is
	// otherwise we have to get the new strike, and use that to get the correct glyphs.
	// Because we do not have the packed ids, and thus can't look up our glyphs in the
	// new strike, we instead keep our ref to the old strike and use the packed ids from
	// it. These ids will still be valid as long as we hold the ref. When we are done
	// updating our cache of the GrGlyph*s, we drop our ref on the old strike
	if (fSubRun->strike()->isAbandoned()) {
	fRegenFlags \|= kRegenGlyph;
	fRegenFlags \|= kRegenTex;
	}
	if (kARGB_GrMaskFormat != fSubRun->maskFormat() && fSubRun->color() != color) {
	fRegenFlags \|= kRegenCol;
	}
	if (0.f != fTransX \|\| 0.f != fTransY) {
	fRegenFlags \|= kRegenPos;
	}
	}

	template <bool regenPos, bool regenCol, bool regenTexCoords, bool regenGlyphs>
	bool Regenerator::doRegen(Regenerator::Result* result) {
	static_assert(!regenGlyphs \|\| regenTexCoords, "must regenTexCoords along regenGlyphs");
	sk_sp<GrTextStrike> strike;
	if (regenTexCoords) {
	fSubRun->resetBulkUseToken();

	const SkDescriptor* desc = (fRun->fOverrideDescriptor && !fSubRun->drawAsDistanceFields())
	? fRun->fOverrideDescriptor->getDesc()
	: fRun->fDescriptor.getDesc();

	if (!fLazyCache \|\| (fLazyCache)->getDescriptor() != *desc) {
	SkScalerContextEffects effects;
	effects.fPathEffect = fRun->fPathEffect.get();
	effects.fMaskFilter = fRun->fMaskFilter.get();
	*fLazyCache =
	SkStrikeCache::FindOrCreateStrikeExclusive(desc, effects, fRun->fTypeface);
	}

	if (regenGlyphs) {
	strike = fGlyphCache->getStrike(fLazyCache->get());
	} else {
	strike = fSubRun->refStrike();
	}
	}

	bool hasW = fSubRun->hasWCoord();
	auto vertexStride = GetVertexStride(fSubRun->maskFormat(), hasW);
	char* currVertex = fBlob->fVertices + fSubRun->vertexStartIndex() +
	fCurrGlyph * kVerticesPerGlyph * vertexStride;
	result->fFirstVertex = currVertex;

	for (int glyphIdx = fCurrGlyph; glyphIdx < (int)fSubRun->glyphCount(); glyphIdx++) {
	GrGlyph* glyph = nullptr;
	if (regenTexCoords) {
	size_t glyphOffset = glyphIdx + fSubRun->glyphStartIndex();

	if (regenGlyphs) {
	// Get the id from the old glyph, and use the new strike to lookup
	// the glyph.
	GrGlyph::PackedID id = fBlob->fGlyphs[glyphOffset]->fPackedID;
	fBlob->fGlyphs[glyphOffset] =
	strike->getGlyph(id, fSubRun->maskFormat(), fLazyCache->get());
	SkASSERT(id == fBlob->fGlyphs[glyphOffset]->fPackedID);
	}
	glyph = fBlob->fGlyphs[glyphOffset];
	SkASSERT(glyph && glyph->fMaskFormat == fSubRun->maskFormat());

	if (!fFullAtlasManager->hasGlyph(glyph)) {
	GrDrawOpAtlas::ErrorCode code;
	code = strike->addGlyphToAtlas(fResourceProvider, fUploadTarget, fGlyphCache,
	fFullAtlasManager, glyph,
	fLazyCache->get(), fSubRun->maskFormat(),
	fSubRun->needsTransform());
	if (GrDrawOpAtlas::ErrorCode::kError == code) {
	// Something horrible has happened - drop the op
	return false;
	}
	else if (GrDrawOpAtlas::ErrorCode::kTryAgain == code) {
	fBrokenRun = glyphIdx > 0;
	result->fFinished = false;
	return true;
	}
	}
	auto tokenTracker = fUploadTarget->tokenTracker();
	fFullAtlasManager->addGlyphToBulkAndSetUseToken(fSubRun->bulkUseToken(), glyph,
	tokenTracker->nextDrawToken());
	}

	regen_vertices<regenPos, regenCol, regenTexCoords>(currVertex, glyph, vertexStride,
	fSubRun->drawAsDistanceFields(), fTransX,
	fTransY, fColor);
	currVertex += vertexStride * GrAtlasTextOp::kVerticesPerGlyph;
	++result->fGlyphsRegenerated;
	++fCurrGlyph;
	}

	// We may have changed the color so update it here
	fSubRun->setColor(fColor);
	if (regenTexCoords) {
	if (regenGlyphs) {
	fSubRun->setStrike(std::move(strike));
	}
	fSubRun->setAtlasGeneration(fBrokenRun
	? GrDrawOpAtlas::kInvalidAtlasGeneration
	: fFullAtlasManager->atlasGeneration(fSubRun->maskFormat()));
	}
	return true;
	}

	bool Regenerator::regenerate(Regenerator::Result* result) {
	uint64_t currentAtlasGen = fFullAtlasManager->atlasGeneration(fSubRun->maskFormat());
	// If regenerate() is called multiple times then the atlas gen may have changed. So we check
	// this each time.
	if (fSubRun->atlasGeneration() != currentAtlasGen) {
	fRegenFlags \|= kRegenTex;
	}

	switch (static_cast<RegenMask>(fRegenFlags)) {
	case kRegenPos:
	return this->doRegen<true, false, false, false>(result);
	case kRegenCol:
	return this->doRegen<false, true, false, false>(result);
	case kRegenTex:
	return this->doRegen<false, false, true, false>(result);
	case kRegenGlyph:
	return this->doRegen<false, false, true, true>(result);

	// combinations
	case kRegenPosCol:
	return this->doRegen<true, true, false, false>(result);
	case kRegenPosTex:
	return this->doRegen<true, false, true, false>(result);
	case kRegenPosTexGlyph:
	return this->doRegen<true, false, true, true>(result);
	case kRegenPosColTex:
	return this->doRegen<true, true, true, false>(result);
	case kRegenPosColTexGlyph:
	return this->doRegen<true, true, true, true>(result);
	case kRegenColTex:
	return this->doRegen<false, true, true, false>(result);
	case kRegenColTexGlyph:
	return this->doRegen<false, true, true, true>(result);
	case kNoRegen: {
	bool hasW = fSubRun->hasWCoord();
	auto vertexStride = GetVertexStride(fSubRun->maskFormat(), hasW);
	result->fFinished = true;
	result->fGlyphsRegenerated = fSubRun->glyphCount() - fCurrGlyph;
	result->fFirstVertex = fBlob->fVertices + fSubRun->vertexStartIndex() +
	fCurrGlyph * kVerticesPerGlyph * vertexStride;
	fCurrGlyph = fSubRun->glyphCount();

	// set use tokens for all of the glyphs in our subrun. This is only valid if we
	// have a valid atlas generation
	fFullAtlasManager->setUseTokenBulk(*fSubRun->bulkUseToken(),
	fUploadTarget->tokenTracker()->nextDrawToken(),
	fSubRun->maskFormat());
	return true;
	}
	}
	SK_ABORT("Should not get here");
	return false;
	}