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/*
* 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 "GrBatchFlushState.h"
#include "GrBatchTest.h"
#include "GrBuffer.h"
#include "GrContext.h"
#include "GrPipelineBuilder.h"
#include "GrResourceProvider.h"
#include "GrSurfacePriv.h"
#include "GrSWMaskHelper.h"
#include "GrTexturePriv.h"
#include "batches/GrVertexBatch.h"
#include "effects/GrDistanceFieldGeoProc.h"
#include "SkDistanceFieldGen.h"
#include "SkRTConf.h"
#define ATLAS_TEXTURE_WIDTH 2048
#define ATLAS_TEXTURE_HEIGHT 2048
#define PLOT_WIDTH 512
#define PLOT_HEIGHT 256
#define NUM_PLOTS_X (ATLAS_TEXTURE_WIDTH / PLOT_WIDTH)
#define NUM_PLOTS_Y (ATLAS_TEXTURE_HEIGHT / PLOT_HEIGHT)
#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 = 73;
static const int kLargeMIP = 162;
// Callback to clear out internal path cache when eviction occurs
void GrAADistanceFieldPathRenderer::HandleEviction(GrBatchAtlas::AtlasID id, void* pr) {
GrAADistanceFieldPathRenderer* dfpr = (GrAADistanceFieldPathRenderer*)pr;
// remove any paths that use this plot
PathDataList::Iter iter;
iter.init(dfpr->fPathList, PathDataList::Iter::kHead_IterStart);
PathData* pathData;
while ((pathData = iter.get())) {
iter.next();
if (id == pathData->fID) {
dfpr->fPathCache.remove(pathData->fKey);
dfpr->fPathList.remove(pathData);
delete pathData;
#ifdef DF_PATH_TRACKING
++g_NumFreedPaths;
#endif
}
}
}
////////////////////////////////////////////////////////////////////////////////
GrAADistanceFieldPathRenderer::GrAADistanceFieldPathRenderer() : fAtlas(nullptr) {}
GrAADistanceFieldPathRenderer::~GrAADistanceFieldPathRenderer() {
PathDataList::Iter iter;
iter.init(fPathList, PathDataList::Iter::kHead_IterStart);
PathData* pathData;
while ((pathData = iter.get())) {
iter.next();
fPathList.remove(pathData);
delete pathData;
}
delete fAtlas;
#ifdef DF_PATH_TRACKING
SkDebugf("Cached paths: %d, freed paths: %d\n", g_NumCachedPaths, g_NumFreedPaths);
#endif
}
////////////////////////////////////////////////////////////////////////////////
bool GrAADistanceFieldPathRenderer::onCanDrawPath(const CanDrawPathArgs& args) const {
// TODO: Support inverse fill
if (!args.fShaderCaps->shaderDerivativeSupport() || !args.fAntiAlias ||
SkStrokeRec::kHairline_Style == args.fStroke->getStyle() ||
args.fPath->isInverseFillType() || args.fPath->isVolatile() ||
// We don't currently apply the dash or factor it into the DF key. (skbug.com/5082)
args.fStroke->isDashed()) {
return false;
}
// currently don't support perspective
if (args.fViewMatrix->hasPerspective()) {
return false;
}
// only support paths with bounds within kMediumMIP by kMediumMIP,
// scaled to have bounds within 2.0f*kLargeMIP by 2.0f*kLargeMIP
// the goal is to accelerate rendering of lots of small paths that may be scaling
SkScalar maxScale = args.fViewMatrix->getMaxScale();
const SkRect& bounds = args.fPath->getBounds();
SkScalar maxDim = SkMaxScalar(bounds.width(), bounds.height());
// Approximate stroked size by adding the maximum of the stroke width or 2x the miter limit
if (!args.fStroke->isFillStyle()) {
SkScalar extraWidth = args.fStroke->getWidth();
if (SkPaint::kMiter_Join == args.fStroke->getJoin()) {
extraWidth = SkTMax(extraWidth, 2.0f*args.fStroke->getMiter());
}
maxDim += extraWidth;
}
return maxDim <= kMediumMIP && maxDim * maxScale <= 2.0f*kLargeMIP;
}
////////////////////////////////////////////////////////////////////////////////
// padding around path bounds to allow for antialiased pixels
static const SkScalar kAntiAliasPad = 1.0f;
class AADistanceFieldPathBatch : public GrVertexBatch {
public:
DEFINE_BATCH_CLASS_ID
typedef GrAADistanceFieldPathRenderer::PathData PathData;
typedef SkTDynamicHash<PathData, PathData::Key> PathCache;
typedef GrAADistanceFieldPathRenderer::PathDataList PathDataList;
struct Geometry {
Geometry(const SkStrokeRec& stroke) : fStroke(stroke) {
if (!stroke.needToApply()) {
// purify unused values to ensure binary equality
fStroke.setStrokeParams(SkPaint::kDefault_Cap, SkPaint::kDefault_Join,
SkIntToScalar(4));
if (fStroke.getWidth() < 0) {
fStroke.setStrokeStyle(-1.0f);
}
}
}
SkPath fPath;
// The unique ID of the path involved in this draw. This may be different than the ID
// in fPath since that path may have resulted from a SkStrokeRec::applyToPath call.
uint32_t fGenID;
SkStrokeRec fStroke;
GrColor fColor;
bool fAntiAlias;
};
static GrDrawBatch* Create(const Geometry& geometry, const SkMatrix& viewMatrix,
GrBatchAtlas* atlas, PathCache* pathCache, PathDataList* pathList) {
return new AADistanceFieldPathBatch(geometry, viewMatrix, atlas, pathCache, pathList);
}
const char* name() const override { return "AADistanceFieldPathBatch"; }
void computePipelineOptimizations(GrInitInvariantOutput* color,
GrInitInvariantOutput* coverage,
GrBatchToXPOverrides* overrides) const override {
color->setKnownFourComponents(fGeoData[0].fColor);
coverage->setUnknownSingleComponent();
}
private:
void initBatchTracker(const GrXPOverridesForBatch& overrides) override {
// Handle any color overrides
if (!overrides.readsColor()) {
fGeoData[0].fColor = GrColor_ILLEGAL;
}
overrides.getOverrideColorIfSet(&fGeoData[0].fColor);
// setup batch properties
fBatch.fColorIgnored = !overrides.readsColor();
fBatch.fUsesLocalCoords = overrides.readsLocalCoords();
fBatch.fCoverageIgnored = !overrides.readsCoverage();
}
struct FlushInfo {
SkAutoTUnref<const GrBuffer> fVertexBuffer;
SkAutoTUnref<const GrBuffer> fIndexBuffer;
int fVertexOffset;
int fInstancesToFlush;
};
void onPrepareDraws(Target* target) const override {
int instanceCount = fGeoData.count();
SkMatrix invert;
if (this->usesLocalCoords() && !this->viewMatrix().invert(&invert)) {
SkDebugf("Could not invert viewmatrix\n");
return;
}
const SkMatrix& ctm = this->viewMatrix();
uint32_t flags = 0;
flags |= ctm.isScaleTranslate() ? kScaleOnly_DistanceFieldEffectFlag : 0;
flags |= ctm.isSimilarity() ? kSimilarity_DistanceFieldEffectFlag : 0;
GrTextureParams params(SkShader::kRepeat_TileMode, GrTextureParams::kBilerp_FilterMode);
// Setup GrGeometryProcessor
GrBatchAtlas* atlas = fAtlas;
SkAutoTUnref<GrGeometryProcessor> dfProcessor(
GrDistanceFieldPathGeoProc::Create(this->color(),
this->viewMatrix(),
atlas->getTexture(),
params,
flags,
this->usesLocalCoords()));
target->initDraw(dfProcessor);
FlushInfo flushInfo;
// allocate vertices
size_t vertexStride = dfProcessor->getVertexStride();
SkASSERT(vertexStride == 2 * sizeof(SkPoint) + sizeof(GrColor));
const GrBuffer* vertexBuffer;
void* vertices = target->makeVertexSpace(vertexStride,
kVerticesPerQuad * instanceCount,
&vertexBuffer,
&flushInfo.fVertexOffset);
flushInfo.fVertexBuffer.reset(SkRef(vertexBuffer));
flushInfo.fIndexBuffer.reset(target->resourceProvider()->refQuadIndexBuffer());
if (!vertices || !flushInfo.fIndexBuffer) {
SkDebugf("Could not allocate vertices\n");
return;
}
flushInfo.fInstancesToFlush = 0;
for (int i = 0; i < instanceCount; i++) {
const Geometry& args = fGeoData[i];
// get mip level
SkScalar maxScale = this->viewMatrix().getMaxScale();
const SkRect& bounds = args.fPath.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
PathData::Key key(args.fGenID, desiredDimension, args.fStroke);
PathData* pathData = fPathCache->find(key);
if (nullptr == pathData || !atlas->hasID(pathData->fID)) {
// Remove the stale cache entry
if (pathData) {
fPathCache->remove(pathData->fKey);
fPathList->remove(pathData);
delete pathData;
}
SkScalar scale = desiredDimension/maxDim;
pathData = new PathData;
if (!this->addPathToAtlas(target,
dfProcessor,
this->pipeline(),
&flushInfo,
atlas,
pathData,
args.fPath,
args.fGenID,
args.fStroke,
args.fAntiAlias,
desiredDimension,
scale)) {
SkDebugf("Can't rasterize path\n");
return;
}
}
atlas->setLastUseToken(pathData->fID, target->currentToken());
// Now set vertices
intptr_t offset = reinterpret_cast<intptr_t>(vertices);
offset += i * kVerticesPerQuad * vertexStride;
this->writePathVertices(target,
atlas,
this->pipeline(),
dfProcessor,
offset,
args.fColor,
vertexStride,
this->viewMatrix(),
args.fPath,
pathData);
flushInfo.fInstancesToFlush++;
}
this->flush(target, &flushInfo);
}
SkSTArray<1, Geometry, true>* geoData() { return &fGeoData; }
AADistanceFieldPathBatch(const Geometry& geometry,
const SkMatrix& viewMatrix,
GrBatchAtlas* atlas,
PathCache* pathCache, PathDataList* pathList)
: INHERITED(ClassID()) {
fBatch.fViewMatrix = viewMatrix;
fGeoData.push_back(geometry);
fAtlas = atlas;
fPathCache = pathCache;
fPathList = pathList;
// Compute bounds
fBounds = geometry.fPath.getBounds();
viewMatrix.mapRect(&fBounds);
}
bool addPathToAtlas(GrVertexBatch::Target* target,
const GrGeometryProcessor* dfProcessor,
const GrPipeline* pipeline,
FlushInfo* flushInfo,
GrBatchAtlas* atlas,
PathData* pathData,
const SkPath& path,
uint32_t genID,
const SkStrokeRec& stroke,
bool antiAlias,
uint32_t dimension,
SkScalar scale) const {
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
const int intPad = SkScalarCeilToInt(kAntiAliasPad);
// pre-move origin (after outset, will be 0,0)
int width = devPathBounds.width();
int height = devPathBounds.height();
devPathBounds.fLeft = intPad;
devPathBounds.fTop = intPad;
devPathBounds.fRight = intPad + width;
devPathBounds.fBottom = intPad + height;
devPathBounds.outset(intPad, intPad);
// draw path to bitmap
SkMatrix drawMatrix;
drawMatrix.setTranslate(-bounds.left(), -bounds.top());
drawMatrix.postScale(scale, scale);
drawMatrix.postTranslate(kAntiAliasPad, kAntiAliasPad);
// setup bitmap backing
SkASSERT(devPathBounds.fLeft == 0);
SkASSERT(devPathBounds.fTop == 0);
SkAutoPixmapStorage dst;
if (!dst.tryAlloc(SkImageInfo::MakeA8(devPathBounds.width(),
devPathBounds.height()))) {
return false;
}
sk_bzero(dst.writable_addr(), dst.getSafeSize());
// rasterize path
SkPaint paint;
paint.setStyle(SkPaint::kFill_Style);
paint.setAntiAlias(antiAlias);
SkDraw draw;
sk_bzero(&draw, sizeof(draw));
SkRasterClip rasterClip;
rasterClip.setRect(devPathBounds);
draw.fRC = &rasterClip;
draw.fClip = &rasterClip.bwRgn();
draw.fMatrix = &drawMatrix;
draw.fDst = dst;
draw.drawPathCoverage(path, paint);
// generate signed distance field
devPathBounds.outset(SK_DistanceFieldPad, SK_DistanceFieldPad);
width = devPathBounds.width();
height = devPathBounds.height();
// TODO We should really generate this directly into the plot somehow
SkAutoSMalloc<1024> dfStorage(width * height * sizeof(unsigned char));
// Generate signed distance field
SkGenerateDistanceFieldFromA8Image((unsigned char*)dfStorage.get(),
(const unsigned char*)dst.addr(),
dst.width(), dst.height(), dst.rowBytes());
// add to atlas
SkIPoint16 atlasLocation;
GrBatchAtlas::AtlasID id;
bool success = atlas->addToAtlas(&id, target, width, height, dfStorage.get(),
&atlasLocation);
if (!success) {
this->flush(target, flushInfo);
target->initDraw(dfProcessor);
SkDEBUGCODE(success =) atlas->addToAtlas(&id, target, width, height,
dfStorage.get(), &atlasLocation);
SkASSERT(success);
}
// add to cache
pathData->fKey = PathData::Key(genID, dimension, stroke);
pathData->fScale = scale;
pathData->fID = id;
// 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 true;
}
void writePathVertices(GrDrawBatch::Target* target,
GrBatchAtlas* atlas,
const GrPipeline* pipeline,
const GrGeometryProcessor* gp,
intptr_t offset,
GrColor color,
size_t vertexStride,
const SkMatrix& viewMatrix,
const SkPath& path,
const PathData* pathData) const {
GrTexture* texture = atlas->getTexture();
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;
SkPoint* positions = reinterpret_cast<SkPoint*>(offset);
// vertex positions
// TODO make the vertex attributes a struct
SkRect r = SkRect::MakeXYWH(dx, dy, width, height);
positions->setRectFan(r.left(), r.top(), r.right(), r.bottom(), vertexStride);
// colors
for (int i = 0; i < kVerticesPerQuad; i++) {
GrColor* colorPtr = (GrColor*)(offset + sizeof(SkPoint) + i * vertexStride);
*colorPtr = color;
}
const SkScalar tx = SkIntToScalar(pathData->fAtlasLocation.fX);
const SkScalar ty = SkIntToScalar(pathData->fAtlasLocation.fY);
// vertex texture coords
SkPoint* textureCoords = (SkPoint*)(offset + sizeof(SkPoint) + sizeof(GrColor));
textureCoords->setRectFan(tx / texture->width(),
ty / texture->height(),
(tx + pathData->fBounds.width()) / texture->width(),
(ty + pathData->fBounds.height()) / texture->height(),
vertexStride);
}
void flush(GrVertexBatch::Target* target, FlushInfo* flushInfo) const {
GrMesh mesh;
int maxInstancesPerDraw =
static_cast<int>(flushInfo->fIndexBuffer->gpuMemorySize() / sizeof(uint16_t) / 6);
mesh.initInstanced(kTriangles_GrPrimitiveType, flushInfo->fVertexBuffer,
flushInfo->fIndexBuffer, flushInfo->fVertexOffset, kVerticesPerQuad,
kIndicesPerQuad, flushInfo->fInstancesToFlush, maxInstancesPerDraw);
target->draw(mesh);
flushInfo->fVertexOffset += kVerticesPerQuad * flushInfo->fInstancesToFlush;
flushInfo->fInstancesToFlush = 0;
}
GrColor color() const { return fGeoData[0].fColor; }
const SkMatrix& viewMatrix() const { return fBatch.fViewMatrix; }
bool usesLocalCoords() const { return fBatch.fUsesLocalCoords; }
bool onCombineIfPossible(GrBatch* t, const GrCaps& caps) override {
AADistanceFieldPathBatch* that = t->cast<AADistanceFieldPathBatch>();
if (!GrPipeline::CanCombine(*this->pipeline(), this->bounds(), *that->pipeline(),
that->bounds(), caps)) {
return false;
}
// TODO We can position on the cpu
if (!this->viewMatrix().cheapEqualTo(that->viewMatrix())) {
return false;
}
fGeoData.push_back_n(that->geoData()->count(), that->geoData()->begin());
this->joinBounds(that->bounds());
return true;
}
struct BatchTracker {
SkMatrix fViewMatrix;
bool fUsesLocalCoords;
bool fColorIgnored;
bool fCoverageIgnored;
};
BatchTracker fBatch;
SkSTArray<1, Geometry, true> fGeoData;
GrBatchAtlas* fAtlas;
PathCache* fPathCache;
PathDataList* fPathList;
typedef GrVertexBatch INHERITED;
};
bool GrAADistanceFieldPathRenderer::onDrawPath(const DrawPathArgs& args) {
GR_AUDIT_TRAIL_AUTO_FRAME(args.fTarget->getAuditTrail(),
"GrAADistanceFieldPathRenderer::onDrawPath");
// we've already bailed on inverse filled paths, so this is safe
if (args.fPath->isEmpty()) {
return true;
}
if (!fAtlas) {
fAtlas = args.fResourceProvider->createAtlas(kAlpha_8_GrPixelConfig,
ATLAS_TEXTURE_WIDTH, ATLAS_TEXTURE_HEIGHT,
NUM_PLOTS_X, NUM_PLOTS_Y,
&GrAADistanceFieldPathRenderer::HandleEviction,
(void*)this);
if (!fAtlas) {
return false;
}
}
AADistanceFieldPathBatch::Geometry geometry(*args.fStroke);
if (SkStrokeRec::kFill_Style == args.fStroke->getStyle()) {
geometry.fPath = *args.fPath;
} else {
args.fStroke->applyToPath(&geometry.fPath, *args.fPath);
}
geometry.fColor = args.fColor;
geometry.fAntiAlias = args.fAntiAlias;
// Note: this is the generation ID of the _original_ path. When a new path is
// generated due to stroking it is important that the original path's id is used
// for caching.
geometry.fGenID = args.fPath->getGenerationID();
SkAutoTUnref<GrDrawBatch> batch(AADistanceFieldPathBatch::Create(geometry,
*args.fViewMatrix, fAtlas,
&fPathCache, &fPathList));
args.fTarget->drawBatch(*args.fPipelineBuilder, batch);
return true;
}
///////////////////////////////////////////////////////////////////////////////////////////////////
#ifdef GR_TEST_UTILS
struct PathTestStruct {
typedef GrAADistanceFieldPathRenderer::PathCache PathCache;
typedef GrAADistanceFieldPathRenderer::PathData PathData;
typedef GrAADistanceFieldPathRenderer::PathDataList PathDataList;
PathTestStruct() : fContextID(SK_InvalidGenID), fAtlas(nullptr) {}
~PathTestStruct() { this->reset(); }
void reset() {
PathDataList::Iter iter;
iter.init(fPathList, PathDataList::Iter::kHead_IterStart);
PathData* pathData;
while ((pathData = iter.get())) {
iter.next();
fPathList.remove(pathData);
delete pathData;
}
delete fAtlas;
fPathCache.reset();
}
static void HandleEviction(GrBatchAtlas::AtlasID id, void* pr) {
PathTestStruct* dfpr = (PathTestStruct*)pr;
// remove any paths that use this plot
PathDataList::Iter iter;
iter.init(dfpr->fPathList, PathDataList::Iter::kHead_IterStart);
PathData* pathData;
while ((pathData = iter.get())) {
iter.next();
if (id == pathData->fID) {
dfpr->fPathCache.remove(pathData->fKey);
dfpr->fPathList.remove(pathData);
delete pathData;
}
}
}
uint32_t fContextID;
GrBatchAtlas* fAtlas;
PathCache fPathCache;
PathDataList fPathList;
};
DRAW_BATCH_TEST_DEFINE(AADistanceFieldPathBatch) {
static PathTestStruct gTestStruct;
if (context->uniqueID() != gTestStruct.fContextID) {
gTestStruct.fContextID = context->uniqueID();
gTestStruct.reset();
gTestStruct.fAtlas =
context->resourceProvider()->createAtlas(kAlpha_8_GrPixelConfig,
ATLAS_TEXTURE_WIDTH, ATLAS_TEXTURE_HEIGHT,
NUM_PLOTS_X, NUM_PLOTS_Y,
&PathTestStruct::HandleEviction,
(void*)&gTestStruct);
}
SkMatrix viewMatrix = GrTest::TestMatrix(random);
GrColor color = GrRandomColor(random);
AADistanceFieldPathBatch::Geometry geometry(GrTest::TestStrokeRec(random));
geometry.fColor = color;
geometry.fPath = GrTest::TestPath(random);
geometry.fAntiAlias = random->nextBool();
geometry.fGenID = random->nextU();
return AADistanceFieldPathBatch::Create(geometry, viewMatrix,
gTestStruct.fAtlas,
&gTestStruct.fPathCache,
&gTestStruct.fPathList);
}
#endif
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