src/gpu/GrAADistanceFieldPathRenderer.cpp - skia - Git at Google


 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrAADistanceFieldPathRenderer.h"

 #include "GrAtlas.h"
 #include "GrContext.h"
 #include "GrPipelineBuilder.h"
 #include "GrSurfacePriv.h"
 #include "GrSWMaskHelper.h"
 #include "GrTexturePriv.h"
 #include "effects/GrDistanceFieldTextureEffect.h"

 #include "SkDistanceFieldGen.h"
 #include "SkRTConf.h"

 #define ATLAS_TEXTURE_WIDTH 1024
 #define ATLAS_TEXTURE_HEIGHT 2048
 #define PLOT_WIDTH  256
 #define PLOT_HEIGHT 256

 #define NUM_PLOTS_X   (ATLAS_TEXTURE_WIDTH / PLOT_WIDTH)
 #define NUM_PLOTS_Y   (ATLAS_TEXTURE_HEIGHT / PLOT_HEIGHT)

 SK_CONF_DECLARE(bool, c_DumpPathCache, "gpu.dumpPathCache", false,
                 "Dump the contents of the path cache before every purge.");

 #ifdef DF_PATH_TRACKING
 static int g_NumCachedPaths = 0;
 static int g_NumFreedPaths = 0;
 #endif

 // mip levels
 static const int kSmallMIP = 32;
 static const int kMediumMIP = 78;
 static const int kLargeMIP = 192;

 ////////////////////////////////////////////////////////////////////////////////
 GrAADistanceFieldPathRenderer::GrAADistanceFieldPathRenderer(GrContext* context)
     : fContext(context)
     , fAtlas(NULL)
     , fEffectFlags(kInvalid_DistanceFieldEffectFlag) {
 }

 GrAADistanceFieldPathRenderer::~GrAADistanceFieldPathRenderer() {
     PathDataList::Iter iter;
     iter.init(fPathList, PathDataList::Iter::kHead_IterStart);
     PathData* pathData;
     while ((pathData = iter.get())) {
         iter.next();
         fPathList.remove(pathData);
         SkDELETE(pathData);
     }

     SkDELETE(fAtlas);

 #ifdef DF_PATH_TRACKING
     SkDebugf("Cached paths: %d, freed paths: %d\n", g_NumCachedPaths, g_NumFreedPaths);
 #endif
 }

 ////////////////////////////////////////////////////////////////////////////////
 bool GrAADistanceFieldPathRenderer::canDrawPath(const GrDrawTarget* target,
                                                 const GrPipelineBuilder* pipelineBuilder,
                                                 const SkMatrix& viewMatrix,
                                                 const SkPath& path,
                                                 const SkStrokeRec& stroke,
                                                 bool antiAlias) const {

     // TODO: Support inverse fill
     // TODO: Support strokes
     if (!target->caps()->shaderDerivativeSupport() || !antiAlias || path.isInverseFillType()
         || path.isVolatile() || SkStrokeRec::kFill_Style != stroke.getStyle()) {
         return false;
     }

     // currently don't support perspective
     if (viewMatrix.hasPerspective()) {
         return false;
     }

     // only support paths smaller than 64x64, scaled to less than 256x256
     // the goal is to accelerate rendering of lots of small paths that may be scaling
     SkScalar maxScale = viewMatrix.getMaxScale();
     const SkRect& bounds = path.getBounds();
     SkScalar maxDim = SkMaxScalar(bounds.width(), bounds.height());
     return maxDim < 64.f && maxDim*maxScale < 256.f;
 }


 GrPathRenderer::StencilSupport
 GrAADistanceFieldPathRenderer::onGetStencilSupport(const GrDrawTarget*,
                                                    const GrPipelineBuilder*,
                                                    const SkPath&,
                                                    const SkStrokeRec&) const {
     return GrPathRenderer::kNoSupport_StencilSupport;
 }

 ////////////////////////////////////////////////////////////////////////////////

 bool GrAADistanceFieldPathRenderer::onDrawPath(GrDrawTarget* target,
                                                GrPipelineBuilder* pipelineBuilder,
                                                GrColor color,
                                                const SkMatrix& viewMatrix,
                                                const SkPath& path,
                                                const SkStrokeRec& stroke,
                                                bool antiAlias) {
     // we've already bailed on inverse filled paths, so this is safe
     if (path.isEmpty()) {
         return true;
     }

     SkASSERT(fContext);

     // get mip level
     SkScalar maxScale = viewMatrix.getMaxScale();
     const SkRect& bounds = path.getBounds();
     SkScalar maxDim = SkMaxScalar(bounds.width(), bounds.height());
     SkScalar size = maxScale*maxDim;
     uint32_t desiredDimension;
     if (size <= kSmallMIP) {
         desiredDimension = kSmallMIP;
     } else if (size <= kMediumMIP) {
         desiredDimension = kMediumMIP;
     } else {
         desiredDimension = kLargeMIP;
     }

     // check to see if path is cached
     // TODO: handle stroked vs. filled version of same path
     PathData::Key key = { path.getGenerationID(), desiredDimension };
     PathData* pathData = fPathCache.find(key);
     if (NULL == pathData) {
         SkScalar scale = desiredDimension/maxDim;
         pathData = this->addPathToAtlas(path, stroke, antiAlias, desiredDimension, scale);
         if (NULL == pathData) {
             return false;
         }
     }

     // use signed distance field to render
     return this->internalDrawPath(target, pipelineBuilder, color, viewMatrix, path, pathData);
 }

 // padding around path bounds to allow for antialiased pixels
 const SkScalar kAntiAliasPad = 1.0f;

 GrAADistanceFieldPathRenderer::PathData* GrAADistanceFieldPathRenderer::addPathToAtlas(
                                                                         const SkPath& path,
                                                                         const SkStrokeRec& stroke,
                                                                         bool antiAlias,
                                                                         uint32_t dimension,
                                                                         SkScalar scale) {

     // generate distance field and add to atlas
     if (NULL == fAtlas) {
         SkISize textureSize = SkISize::Make(ATLAS_TEXTURE_WIDTH, ATLAS_TEXTURE_HEIGHT);
         fAtlas = SkNEW_ARGS(GrAtlas, (fContext->getGpu(), kAlpha_8_GrPixelConfig,
                                       kNone_GrSurfaceFlags, textureSize,
                                       NUM_PLOTS_X, NUM_PLOTS_Y, false));
         if (NULL == fAtlas) {
             return NULL;
         }
     }

     const SkRect& bounds = path.getBounds();

     // generate bounding rect for bitmap draw
     SkRect scaledBounds = bounds;
     // scale to mip level size
     scaledBounds.fLeft *= scale;
     scaledBounds.fTop *= scale;
     scaledBounds.fRight *= scale;
     scaledBounds.fBottom *= scale;
     // move the origin to an integer boundary (gives better results)
     SkScalar dx = SkScalarFraction(scaledBounds.fLeft);
     SkScalar dy = SkScalarFraction(scaledBounds.fTop);
     scaledBounds.offset(-dx, -dy);
     // get integer boundary
     SkIRect devPathBounds;
     scaledBounds.roundOut(&devPathBounds);
     // pad to allow room for antialiasing
     devPathBounds.outset(SkScalarCeilToInt(kAntiAliasPad), SkScalarCeilToInt(kAntiAliasPad));
     // move origin to upper left corner
     devPathBounds.offsetTo(0,0);

     // draw path to bitmap
     SkMatrix drawMatrix;
     drawMatrix.setTranslate(-bounds.left(), -bounds.top());
     drawMatrix.postScale(scale, scale);
     drawMatrix.postTranslate(kAntiAliasPad, kAntiAliasPad);
     GrSWMaskHelper helper(fContext);

     if (!helper.init(devPathBounds, &drawMatrix)) {
         return NULL;
     }
     helper.draw(path, stroke, SkRegion::kReplace_Op, antiAlias, 0xFF);

     // generate signed distance field
     devPathBounds.outset(SK_DistanceFieldPad, SK_DistanceFieldPad);
     int width = devPathBounds.width();
     int height = devPathBounds.height();
     SkAutoSMalloc<1024> dfStorage(width*height*sizeof(unsigned char));
     helper.toSDF((unsigned char*) dfStorage.get());

     // add to atlas
     SkIPoint16  atlasLocation;
     GrPlot* plot = fAtlas->addToAtlas(&fPlotUsage, width, height, dfStorage.get(),
                                       &atlasLocation);

     // if atlas full
     if (NULL == plot) {
         if (this->freeUnusedPlot()) {
             plot = fAtlas->addToAtlas(&fPlotUsage, width, height, dfStorage.get(),
                                       &atlasLocation);
             if (plot) {
                 goto HAS_ATLAS;
             }
         }

         if (c_DumpPathCache) {
 #ifdef SK_DEVELOPER
             GrTexture* texture = fAtlas->getTexture();
             texture->surfacePriv().savePixels("pathcache.png");
 #endif
         }

         // before we purge the cache, we must flush any accumulated draws
         fContext->flush();

         if (this->freeUnusedPlot()) {
             plot = fAtlas->addToAtlas(&fPlotUsage, width, height, dfStorage.get(),
                                       &atlasLocation);
             if (plot) {
                 goto HAS_ATLAS;
             }
         }

         return NULL;
     }

 HAS_ATLAS:
     // add to cache
     PathData* pathData = SkNEW(PathData);
     pathData->fKey.fGenID = path.getGenerationID();
     pathData->fKey.fDimension = dimension;
     pathData->fScale = scale;
     pathData->fPlot = plot;
     // change the scaled rect to match the size of the inset distance field
     scaledBounds.fRight = scaledBounds.fLeft +
         SkIntToScalar(devPathBounds.width() - 2*SK_DistanceFieldInset);
     scaledBounds.fBottom = scaledBounds.fTop +
         SkIntToScalar(devPathBounds.height() - 2*SK_DistanceFieldInset);
     // shift the origin to the correct place relative to the distance field
     // need to also restore the fractional translation
     scaledBounds.offset(-SkIntToScalar(SK_DistanceFieldInset) - kAntiAliasPad + dx,
                         -SkIntToScalar(SK_DistanceFieldInset) - kAntiAliasPad + dy);
     pathData->fBounds = scaledBounds;
     // origin we render from is inset from distance field edge
     atlasLocation.fX += SK_DistanceFieldInset;
     atlasLocation.fY += SK_DistanceFieldInset;
     pathData->fAtlasLocation = atlasLocation;

     fPathCache.add(pathData);
     fPathList.addToTail(pathData);
 #ifdef DF_PATH_TRACKING
     ++g_NumCachedPaths;
 #endif

     return pathData;
 }

 bool GrAADistanceFieldPathRenderer::freeUnusedPlot() {
     // find an unused plot
     GrPlot* plot = fAtlas->getUnusedPlot();
     if (NULL == plot) {
         return false;
     }
     plot->resetRects();

     // remove any paths that use this plot
     PathDataList::Iter iter;
     iter.init(fPathList, PathDataList::Iter::kHead_IterStart);
     PathData* pathData;
     while ((pathData = iter.get())) {
         iter.next();
         if (plot == pathData->fPlot) {
             fPathCache.remove(pathData->fKey);
             fPathList.remove(pathData);
             SkDELETE(pathData);
 #ifdef DF_PATH_TRACKING
             ++g_NumFreedPaths;
 #endif
         }
     }

     // tell the atlas to free the plot
     GrAtlas::RemovePlot(&fPlotUsage, plot);

     return true;
 }

 bool GrAADistanceFieldPathRenderer::internalDrawPath(GrDrawTarget* target,
                                                      GrPipelineBuilder* pipelineBuilder,
                                                      GrColor color,
                                                      const SkMatrix& viewMatrix,
                                                      const SkPath& path,
                                                      const PathData* pathData) {
     GrTexture* texture = fAtlas->getTexture();
     GrPipelineBuilder::AutoRestoreEffects are(pipelineBuilder);

     SkASSERT(pathData->fPlot);
     GrDrawTarget::DrawToken drawToken = target->getCurrentDrawToken();
     pathData->fPlot->setDrawToken(drawToken);

     // set up any flags
     uint32_t flags = 0;
     flags |= viewMatrix.isSimilarity() ? kSimilarity_DistanceFieldEffectFlag : 0;

     GrTextureParams params(SkShader::kRepeat_TileMode, GrTextureParams::kBilerp_FilterMode);
     if (flags != fEffectFlags || fCachedGeometryProcessor->color() != color ||
         !fCachedGeometryProcessor->viewMatrix().cheapEqualTo(viewMatrix)) {
         fCachedGeometryProcessor.reset(GrDistanceFieldNoGammaTextureEffect::Create(color,
                                                                                    viewMatrix,
                                                                                    texture,
                                                                                    params,
                                                                                    flags,
                                                                                    false));
         fEffectFlags = flags;
     }

     void* vertices = NULL;
     bool success = target->reserveVertexAndIndexSpace(4,
                                                       fCachedGeometryProcessor->getVertexStride(),
                                                       0, &vertices, NULL);
     SkASSERT(fCachedGeometryProcessor->getVertexStride() == 2 * sizeof(SkPoint));
     GrAlwaysAssert(success);

     SkScalar dx = pathData->fBounds.fLeft;
     SkScalar dy = pathData->fBounds.fTop;
     SkScalar width = pathData->fBounds.width();
     SkScalar height = pathData->fBounds.height();

     SkScalar invScale = 1.0f/pathData->fScale;
     dx *= invScale;
     dy *= invScale;
     width *= invScale;
     height *= invScale;

     SkFixed tx = SkIntToFixed(pathData->fAtlasLocation.fX);
     SkFixed ty = SkIntToFixed(pathData->fAtlasLocation.fY);
     SkFixed tw = SkScalarToFixed(pathData->fBounds.width());
     SkFixed th = SkScalarToFixed(pathData->fBounds.height());

     // vertex positions
     SkRect r = SkRect::MakeXYWH(dx, dy, width, height);
     size_t vertSize = 2 * sizeof(SkPoint);
     SkPoint* positions = reinterpret_cast<SkPoint*>(vertices);
     positions->setRectFan(r.left(), r.top(), r.right(), r.bottom(), vertSize);

     // vertex texture coords
     intptr_t intPtr = reinterpret_cast<intptr_t>(positions);
     SkPoint* textureCoords = reinterpret_cast<SkPoint*>(intPtr + vertSize - sizeof(SkPoint));
     textureCoords->setRectFan(SkFixedToFloat(texture->texturePriv().normalizeFixedX(tx)),
                               SkFixedToFloat(texture->texturePriv().normalizeFixedY(ty)),
                               SkFixedToFloat(texture->texturePriv().normalizeFixedX(tx + tw)),
                               SkFixedToFloat(texture->texturePriv().normalizeFixedY(ty + th)),
                               vertSize);

     viewMatrix.mapRect(&r);
     target->setIndexSourceToBuffer(fContext->getQuadIndexBuffer());
     target->drawIndexedInstances(pipelineBuilder, fCachedGeometryProcessor.get(),
                                  kTriangles_GrPrimitiveType, 1, 4, 6, &r);
     target->resetVertexSource();

     return true;
 }

	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrAADistanceFieldPathRenderer.h"

	#include "GrAtlas.h"
	#include "GrContext.h"
	#include "GrPipelineBuilder.h"
	#include "GrSurfacePriv.h"
	#include "GrSWMaskHelper.h"
	#include "GrTexturePriv.h"
	#include "effects/GrDistanceFieldTextureEffect.h"

	#include "SkDistanceFieldGen.h"
	#include "SkRTConf.h"

	#define ATLAS_TEXTURE_WIDTH 1024
	#define ATLAS_TEXTURE_HEIGHT 2048
	#define PLOT_WIDTH 256
	#define PLOT_HEIGHT 256

	#define NUM_PLOTS_X (ATLAS_TEXTURE_WIDTH / PLOT_WIDTH)
	#define NUM_PLOTS_Y (ATLAS_TEXTURE_HEIGHT / PLOT_HEIGHT)

	SK_CONF_DECLARE(bool, c_DumpPathCache, "gpu.dumpPathCache", false,
	"Dump the contents of the path cache before every purge.");

	#ifdef DF_PATH_TRACKING
	static int g_NumCachedPaths = 0;
	static int g_NumFreedPaths = 0;
	#endif

	// mip levels
	static const int kSmallMIP = 32;
	static const int kMediumMIP = 78;
	static const int kLargeMIP = 192;

	////////////////////////////////////////////////////////////////////////////////
	GrAADistanceFieldPathRenderer::GrAADistanceFieldPathRenderer(GrContext* context)
	: fContext(context)
	, fAtlas(NULL)
	, fEffectFlags(kInvalid_DistanceFieldEffectFlag) {
	}

	GrAADistanceFieldPathRenderer::~GrAADistanceFieldPathRenderer() {
	PathDataList::Iter iter;
	iter.init(fPathList, PathDataList::Iter::kHead_IterStart);
	PathData* pathData;
	while ((pathData = iter.get())) {
	iter.next();
	fPathList.remove(pathData);
	SkDELETE(pathData);
	}

	SkDELETE(fAtlas);

	#ifdef DF_PATH_TRACKING
	SkDebugf("Cached paths: %d, freed paths: %d\n", g_NumCachedPaths, g_NumFreedPaths);
	#endif
	}

	////////////////////////////////////////////////////////////////////////////////
	bool GrAADistanceFieldPathRenderer::canDrawPath(const GrDrawTarget* target,
	const GrPipelineBuilder* pipelineBuilder,
	const SkMatrix& viewMatrix,
	const SkPath& path,
	const SkStrokeRec& stroke,
	bool antiAlias) const {

	// TODO: Support inverse fill
	// TODO: Support strokes
	if (!target->caps()->shaderDerivativeSupport() \|\| !antiAlias \|\| path.isInverseFillType()
	\|\| path.isVolatile() \|\| SkStrokeRec::kFill_Style != stroke.getStyle()) {
	return false;
	}

	// currently don't support perspective
	if (viewMatrix.hasPerspective()) {
	return false;
	}

	// only support paths smaller than 64x64, scaled to less than 256x256
	// the goal is to accelerate rendering of lots of small paths that may be scaling
	SkScalar maxScale = viewMatrix.getMaxScale();
	const SkRect& bounds = path.getBounds();
	SkScalar maxDim = SkMaxScalar(bounds.width(), bounds.height());
	return maxDim < 64.f && maxDim*maxScale < 256.f;
	}


	GrPathRenderer::StencilSupport
	GrAADistanceFieldPathRenderer::onGetStencilSupport(const GrDrawTarget*,
	const GrPipelineBuilder*,
	const SkPath&,
	const SkStrokeRec&) const {
	return GrPathRenderer::kNoSupport_StencilSupport;
	}

	////////////////////////////////////////////////////////////////////////////////

	bool GrAADistanceFieldPathRenderer::onDrawPath(GrDrawTarget* target,
	GrPipelineBuilder* pipelineBuilder,
	GrColor color,
	const SkMatrix& viewMatrix,
	const SkPath& path,
	const SkStrokeRec& stroke,
	bool antiAlias) {
	// we've already bailed on inverse filled paths, so this is safe
	if (path.isEmpty()) {
	return true;
	}

	SkASSERT(fContext);

	// get mip level
	SkScalar maxScale = viewMatrix.getMaxScale();
	const SkRect& bounds = path.getBounds();
	SkScalar maxDim = SkMaxScalar(bounds.width(), bounds.height());
	SkScalar size = maxScale*maxDim;
	uint32_t desiredDimension;
	if (size <= kSmallMIP) {
	desiredDimension = kSmallMIP;
	} else if (size <= kMediumMIP) {
	desiredDimension = kMediumMIP;
	} else {
	desiredDimension = kLargeMIP;
	}

	// check to see if path is cached
	// TODO: handle stroked vs. filled version of same path
	PathData::Key key = { path.getGenerationID(), desiredDimension };
	PathData* pathData = fPathCache.find(key);
	if (NULL == pathData) {
	SkScalar scale = desiredDimension/maxDim;
	pathData = this->addPathToAtlas(path, stroke, antiAlias, desiredDimension, scale);
	if (NULL == pathData) {
	return false;
	}
	}

	// use signed distance field to render
	return this->internalDrawPath(target, pipelineBuilder, color, viewMatrix, path, pathData);
	}

	// padding around path bounds to allow for antialiased pixels
	const SkScalar kAntiAliasPad = 1.0f;

	GrAADistanceFieldPathRenderer::PathData* GrAADistanceFieldPathRenderer::addPathToAtlas(
	const SkPath& path,
	const SkStrokeRec& stroke,
	bool antiAlias,
	uint32_t dimension,
	SkScalar scale) {

	// generate distance field and add to atlas
	if (NULL == fAtlas) {
	SkISize textureSize = SkISize::Make(ATLAS_TEXTURE_WIDTH, ATLAS_TEXTURE_HEIGHT);
	fAtlas = SkNEW_ARGS(GrAtlas, (fContext->getGpu(), kAlpha_8_GrPixelConfig,
	kNone_GrSurfaceFlags, textureSize,
	NUM_PLOTS_X, NUM_PLOTS_Y, false));
	if (NULL == fAtlas) {
	return NULL;
	}
	}

	const SkRect& bounds = path.getBounds();

	// generate bounding rect for bitmap draw
	SkRect scaledBounds = bounds;
	// scale to mip level size
	scaledBounds.fLeft *= scale;
	scaledBounds.fTop *= scale;
	scaledBounds.fRight *= scale;
	scaledBounds.fBottom *= scale;
	// move the origin to an integer boundary (gives better results)
	SkScalar dx = SkScalarFraction(scaledBounds.fLeft);
	SkScalar dy = SkScalarFraction(scaledBounds.fTop);
	scaledBounds.offset(-dx, -dy);
	// get integer boundary
	SkIRect devPathBounds;
	scaledBounds.roundOut(&devPathBounds);
	// pad to allow room for antialiasing
	devPathBounds.outset(SkScalarCeilToInt(kAntiAliasPad), SkScalarCeilToInt(kAntiAliasPad));
	// move origin to upper left corner
	devPathBounds.offsetTo(0,0);

	// draw path to bitmap
	SkMatrix drawMatrix;
	drawMatrix.setTranslate(-bounds.left(), -bounds.top());
	drawMatrix.postScale(scale, scale);
	drawMatrix.postTranslate(kAntiAliasPad, kAntiAliasPad);
	GrSWMaskHelper helper(fContext);

	if (!helper.init(devPathBounds, &drawMatrix)) {
	return NULL;
	}
	helper.draw(path, stroke, SkRegion::kReplace_Op, antiAlias, 0xFF);

	// generate signed distance field
	devPathBounds.outset(SK_DistanceFieldPad, SK_DistanceFieldPad);
	int width = devPathBounds.width();
	int height = devPathBounds.height();
	SkAutoSMalloc<1024> dfStorage(widthheightsizeof(unsigned char));
	helper.toSDF((unsigned char*) dfStorage.get());

	// add to atlas
	SkIPoint16 atlasLocation;
	GrPlot* plot = fAtlas->addToAtlas(&fPlotUsage, width, height, dfStorage.get(),
	&atlasLocation);

	// if atlas full
	if (NULL == plot) {
	if (this->freeUnusedPlot()) {
	plot = fAtlas->addToAtlas(&fPlotUsage, width, height, dfStorage.get(),
	&atlasLocation);
	if (plot) {
	goto HAS_ATLAS;
	}
	}

	if (c_DumpPathCache) {
	#ifdef SK_DEVELOPER
	GrTexture* texture = fAtlas->getTexture();
	texture->surfacePriv().savePixels("pathcache.png");
	#endif
	}

	// before we purge the cache, we must flush any accumulated draws
	fContext->flush();

	if (this->freeUnusedPlot()) {
	plot = fAtlas->addToAtlas(&fPlotUsage, width, height, dfStorage.get(),
	&atlasLocation);
	if (plot) {
	goto HAS_ATLAS;
	}
	}

	return NULL;
	}

	HAS_ATLAS:
	// add to cache
	PathData* pathData = SkNEW(PathData);
	pathData->fKey.fGenID = path.getGenerationID();
	pathData->fKey.fDimension = dimension;
	pathData->fScale = scale;
	pathData->fPlot = plot;
	// change the scaled rect to match the size of the inset distance field
	scaledBounds.fRight = scaledBounds.fLeft +
	SkIntToScalar(devPathBounds.width() - 2*SK_DistanceFieldInset);
	scaledBounds.fBottom = scaledBounds.fTop +
	SkIntToScalar(devPathBounds.height() - 2*SK_DistanceFieldInset);
	// shift the origin to the correct place relative to the distance field
	// need to also restore the fractional translation
	scaledBounds.offset(-SkIntToScalar(SK_DistanceFieldInset) - kAntiAliasPad + dx,
	-SkIntToScalar(SK_DistanceFieldInset) - kAntiAliasPad + dy);
	pathData->fBounds = scaledBounds;
	// origin we render from is inset from distance field edge
	atlasLocation.fX += SK_DistanceFieldInset;
	atlasLocation.fY += SK_DistanceFieldInset;
	pathData->fAtlasLocation = atlasLocation;

	fPathCache.add(pathData);
	fPathList.addToTail(pathData);
	#ifdef DF_PATH_TRACKING
	++g_NumCachedPaths;
	#endif

	return pathData;
	}

	bool GrAADistanceFieldPathRenderer::freeUnusedPlot() {
	// find an unused plot
	GrPlot* plot = fAtlas->getUnusedPlot();
	if (NULL == plot) {
	return false;
	}
	plot->resetRects();

	// remove any paths that use this plot
	PathDataList::Iter iter;
	iter.init(fPathList, PathDataList::Iter::kHead_IterStart);
	PathData* pathData;
	while ((pathData = iter.get())) {
	iter.next();
	if (plot == pathData->fPlot) {
	fPathCache.remove(pathData->fKey);
	fPathList.remove(pathData);
	SkDELETE(pathData);
	#ifdef DF_PATH_TRACKING
	++g_NumFreedPaths;
	#endif
	}
	}

	// tell the atlas to free the plot
	GrAtlas::RemovePlot(&fPlotUsage, plot);

	return true;
	}

	bool GrAADistanceFieldPathRenderer::internalDrawPath(GrDrawTarget* target,
	GrPipelineBuilder* pipelineBuilder,
	GrColor color,
	const SkMatrix& viewMatrix,
	const SkPath& path,
	const PathData* pathData) {
	GrTexture* texture = fAtlas->getTexture();
	GrPipelineBuilder::AutoRestoreEffects are(pipelineBuilder);

	SkASSERT(pathData->fPlot);
	GrDrawTarget::DrawToken drawToken = target->getCurrentDrawToken();
	pathData->fPlot->setDrawToken(drawToken);

	// set up any flags
	uint32_t flags = 0;
	flags \|= viewMatrix.isSimilarity() ? kSimilarity_DistanceFieldEffectFlag : 0;

	GrTextureParams params(SkShader::kRepeat_TileMode, GrTextureParams::kBilerp_FilterMode);
	if (flags != fEffectFlags \|\| fCachedGeometryProcessor->color() != color \|\|
	!fCachedGeometryProcessor->viewMatrix().cheapEqualTo(viewMatrix)) {
	fCachedGeometryProcessor.reset(GrDistanceFieldNoGammaTextureEffect::Create(color,
	viewMatrix,
	texture,
	params,
	flags,
	false));
	fEffectFlags = flags;
	}

	void* vertices = NULL;
	bool success = target->reserveVertexAndIndexSpace(4,
	fCachedGeometryProcessor->getVertexStride(),
	0, &vertices, NULL);
	SkASSERT(fCachedGeometryProcessor->getVertexStride() == 2 * sizeof(SkPoint));
	GrAlwaysAssert(success);

	SkScalar dx = pathData->fBounds.fLeft;
	SkScalar dy = pathData->fBounds.fTop;
	SkScalar width = pathData->fBounds.width();
	SkScalar height = pathData->fBounds.height();

	SkScalar invScale = 1.0f/pathData->fScale;
	dx *= invScale;
	dy *= invScale;
	width *= invScale;
	height *= invScale;

	SkFixed tx = SkIntToFixed(pathData->fAtlasLocation.fX);
	SkFixed ty = SkIntToFixed(pathData->fAtlasLocation.fY);
	SkFixed tw = SkScalarToFixed(pathData->fBounds.width());
	SkFixed th = SkScalarToFixed(pathData->fBounds.height());

	// vertex positions
	SkRect r = SkRect::MakeXYWH(dx, dy, width, height);
	size_t vertSize = 2 * sizeof(SkPoint);
	SkPoint* positions = reinterpret_cast<SkPoint*>(vertices);
	positions->setRectFan(r.left(), r.top(), r.right(), r.bottom(), vertSize);

	// vertex texture coords
	intptr_t intPtr = reinterpret_cast<intptr_t>(positions);
	SkPoint* textureCoords = reinterpret_cast<SkPoint*>(intPtr + vertSize - sizeof(SkPoint));
	textureCoords->setRectFan(SkFixedToFloat(texture->texturePriv().normalizeFixedX(tx)),
	SkFixedToFloat(texture->texturePriv().normalizeFixedY(ty)),
	SkFixedToFloat(texture->texturePriv().normalizeFixedX(tx + tw)),
	SkFixedToFloat(texture->texturePriv().normalizeFixedY(ty + th)),
	vertSize);

	viewMatrix.mapRect(&r);
	target->setIndexSourceToBuffer(fContext->getQuadIndexBuffer());
	target->drawIndexedInstances(pipelineBuilder, fCachedGeometryProcessor.get(),
	kTriangles_GrPrimitiveType, 1, 4, 6, &r);
	target->resetVertexSource();

	return true;
	}