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|
/*
* Copyright 2011 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "GrContext.h"
#include "GrBackendSemaphore.h"
#include "GrClip.h"
#include "GrContextOptions.h"
#include "GrContextPriv.h"
#include "GrDrawingManager.h"
#include "GrGpu.h"
#include "GrMemoryPool.h"
#include "GrProxyProvider.h"
#include "GrRenderTargetContext.h"
#include "GrRenderTargetProxy.h"
#include "GrResourceCache.h"
#include "GrResourceProvider.h"
#include "GrSemaphore.h"
#include "GrSoftwarePathRenderer.h"
#include "GrSurfaceContext.h"
#include "GrSurfacePriv.h"
#include "GrSurfaceProxyPriv.h"
#include "GrTexture.h"
#include "GrTextureContext.h"
#include "GrTextureStripAtlas.h"
#include "GrTracing.h"
#include "SkAutoPixmapStorage.h"
#include "SkDeferredDisplayList.h"
#include "SkGr.h"
#include "SkImageInfoPriv.h"
#include "SkJSONWriter.h"
#include "SkMakeUnique.h"
#include "SkSurface_Gpu.h"
#include "SkTaskGroup.h"
#include "SkUnPreMultiplyPriv.h"
#include "effects/GrConfigConversionEffect.h"
#include "effects/GrSkSLFP.h"
#include "text/GrTextBlobCache.h"
#include <unordered_map>
#define ASSERT_OWNED_PROXY(P) \
SkASSERT(!(P) || !((P)->priv().peekTexture()) || (P)->priv().peekTexture()->getContext() == this)
#define ASSERT_OWNED_PROXY_PRIV(P) \
SkASSERT(!(P) || !((P)->priv().peekTexture()) || (P)->priv().peekTexture()->getContext() == fContext)
#define ASSERT_OWNED_RESOURCE(R) SkASSERT(!(R) || (R)->getContext() == this)
#define ASSERT_SINGLE_OWNER \
SkDEBUGCODE(GrSingleOwner::AutoEnforce debug_SingleOwner(&fSingleOwner);)
#define ASSERT_SINGLE_OWNER_PRIV \
SkDEBUGCODE(GrSingleOwner::AutoEnforce debug_SingleOwner(&fContext->fSingleOwner);)
#define RETURN_IF_ABANDONED if (fDrawingManager->wasAbandoned()) { return; }
#define RETURN_IF_ABANDONED_PRIV if (fContext->fDrawingManager->wasAbandoned()) { return; }
#define RETURN_FALSE_IF_ABANDONED if (fDrawingManager->wasAbandoned()) { return false; }
#define RETURN_FALSE_IF_ABANDONED_PRIV if (fContext->fDrawingManager->wasAbandoned()) { return false; }
#define RETURN_NULL_IF_ABANDONED if (fDrawingManager->wasAbandoned()) { return nullptr; }
////////////////////////////////////////////////////////////////////////////////
static int32_t gNextID = 1;
static int32_t next_id() {
int32_t id;
do {
id = sk_atomic_inc(&gNextID);
} while (id == SK_InvalidGenID);
return id;
}
GrContext::GrContext(GrBackend backend, int32_t id)
: fBackend(backend)
, fUniqueID(SK_InvalidGenID == id ? next_id() : id) {
fResourceCache = nullptr;
fResourceProvider = nullptr;
fProxyProvider = nullptr;
fGlyphCache = nullptr;
}
bool GrContext::initCommon(const GrContextOptions& options) {
ASSERT_SINGLE_OWNER
SkASSERT(fCaps); // needs to have been initialized by derived classes
SkASSERT(fThreadSafeProxy); // needs to have been initialized by derived classes
if (fGpu) {
fCaps = fGpu->refCaps();
fResourceCache = new GrResourceCache(fCaps.get(), fUniqueID);
fResourceProvider = new GrResourceProvider(fGpu.get(), fResourceCache, &fSingleOwner,
options.fExplicitlyAllocateGPUResources);
fProxyProvider =
new GrProxyProvider(fResourceProvider, fResourceCache, fCaps, &fSingleOwner);
} else {
fProxyProvider = new GrProxyProvider(this->uniqueID(), fCaps, &fSingleOwner);
}
if (fResourceCache) {
fResourceCache->setProxyProvider(fProxyProvider);
}
fTextureStripAtlasManager.reset(new GrTextureStripAtlasManager);
fDisableGpuYUVConversion = options.fDisableGpuYUVConversion;
fSharpenMipmappedTextures = options.fSharpenMipmappedTextures;
fDidTestPMConversions = false;
GrPathRendererChain::Options prcOptions;
prcOptions.fAllowPathMaskCaching = options.fAllowPathMaskCaching;
#if GR_TEST_UTILS
prcOptions.fGpuPathRenderers = options.fGpuPathRenderers;
#endif
if (options.fDisableCoverageCountingPaths) {
prcOptions.fGpuPathRenderers &= ~GpuPathRenderers::kCoverageCounting;
}
if (options.fDisableDistanceFieldPaths) {
prcOptions.fGpuPathRenderers &= ~GpuPathRenderers::kSmall;
}
if (!fResourceCache) {
// DDL TODO: remove this crippling of the path renderer chain
// Disable the small path renderer bc of the proxies in the atlas. They need to be
// unified when the opLists are added back to the destination drawing manager.
prcOptions.fGpuPathRenderers &= ~GpuPathRenderers::kSmall;
prcOptions.fGpuPathRenderers &= ~GpuPathRenderers::kStencilAndCover;
}
GrTextContext::Options textContextOptions;
textContextOptions.fMaxDistanceFieldFontSize = options.fGlyphsAsPathsFontSize;
textContextOptions.fMinDistanceFieldFontSize = options.fMinDistanceFieldFontSize;
textContextOptions.fDistanceFieldVerticesAlwaysHaveW = false;
#if SK_SUPPORT_ATLAS_TEXT
if (GrContextOptions::Enable::kYes == options.fDistanceFieldGlyphVerticesAlwaysHaveW) {
textContextOptions.fDistanceFieldVerticesAlwaysHaveW = true;
}
#endif
bool explicitlyAllocatingResources = fResourceProvider
? fResourceProvider->explicitlyAllocateGPUResources()
: false;
fDrawingManager.reset(new GrDrawingManager(this, prcOptions, textContextOptions,
&fSingleOwner, explicitlyAllocatingResources,
options.fSortRenderTargets));
fGlyphCache = new GrGlyphCache(fCaps.get(), options.fGlyphCacheTextureMaximumBytes);
fTextBlobCache.reset(new GrTextBlobCache(TextBlobCacheOverBudgetCB,
this, this->uniqueID()));
// DDL TODO: we need to think through how the task group & persistent cache
// get passed on to/shared between all the DDLRecorders created with this context.
if (options.fExecutor) {
fTaskGroup = skstd::make_unique<SkTaskGroup>(*options.fExecutor);
}
fPersistentCache = options.fPersistentCache;
return true;
}
GrContext::~GrContext() {
ASSERT_SINGLE_OWNER
if (fDrawingManager) {
fDrawingManager->cleanup();
}
fTextureStripAtlasManager = nullptr;
delete fResourceProvider;
delete fResourceCache;
delete fProxyProvider;
delete fGlyphCache;
}
//////////////////////////////////////////////////////////////////////////////
GrContextThreadSafeProxy::GrContextThreadSafeProxy(sk_sp<const GrCaps> caps, uint32_t uniqueID,
GrBackend backend,
const GrContextOptions& options,
sk_sp<GrSkSLFPFactoryCache> cache)
: fCaps(std::move(caps))
, fContextUniqueID(uniqueID)
, fBackend(backend)
, fOptions(options)
, fFPFactoryCache(std::move(cache)) {}
GrContextThreadSafeProxy::~GrContextThreadSafeProxy() = default;
sk_sp<GrContextThreadSafeProxy> GrContext::threadSafeProxy() {
return fThreadSafeProxy;
}
SkSurfaceCharacterization GrContextThreadSafeProxy::createCharacterization(
size_t cacheMaxResourceBytes,
const SkImageInfo& ii, const GrBackendFormat& backendFormat,
int sampleCnt, GrSurfaceOrigin origin,
const SkSurfaceProps& surfaceProps,
bool isMipMapped, bool willUseGLFBO0) {
if (!backendFormat.isValid()) {
return SkSurfaceCharacterization(); // return an invalid characterization
}
if (kOpenGL_GrBackend != backendFormat.backend() && willUseGLFBO0) {
// The willUseGLFBO0 flags can only be used for a GL backend.
return SkSurfaceCharacterization(); // return an invalid characterization
}
if (!fCaps->mipMapSupport()) {
isMipMapped = false;
}
GrPixelConfig config = kUnknown_GrPixelConfig;
if (!fCaps->getConfigFromBackendFormat(backendFormat, ii.colorType(), &config)) {
return SkSurfaceCharacterization(); // return an invalid characterization
}
if (!SkSurface_Gpu::Valid(fCaps.get(), config, ii.colorSpace())) {
return SkSurfaceCharacterization(); // return an invalid characterization
}
sampleCnt = fCaps->getRenderTargetSampleCount(sampleCnt, config);
if (!sampleCnt) {
return SkSurfaceCharacterization(); // return an invalid characterization
}
GrFSAAType FSAAType = GrFSAAType::kNone;
if (sampleCnt > 1) {
FSAAType = fCaps->usesMixedSamples() ? GrFSAAType::kMixedSamples : GrFSAAType::kUnifiedMSAA;
}
// This surface characterization factory assumes that the resulting characterization is
// textureable.
if (!fCaps->isConfigTexturable(config)) {
return SkSurfaceCharacterization(); // return an invalid characterization
}
return SkSurfaceCharacterization(sk_ref_sp<GrContextThreadSafeProxy>(this),
cacheMaxResourceBytes, ii,
origin, config, FSAAType, sampleCnt,
SkSurfaceCharacterization::Textureable(true),
SkSurfaceCharacterization::MipMapped(isMipMapped),
SkSurfaceCharacterization::UsesGLFBO0(willUseGLFBO0),
surfaceProps);
}
void GrContext::abandonContext() {
ASSERT_SINGLE_OWNER
fTextureStripAtlasManager->abandon();
fProxyProvider->abandon();
fResourceProvider->abandon();
// Need to abandon the drawing manager first so all the render targets
// will be released/forgotten before they too are abandoned.
fDrawingManager->abandon();
// abandon first to so destructors
// don't try to free the resources in the API.
fResourceCache->abandonAll();
fGpu->disconnect(GrGpu::DisconnectType::kAbandon);
fGlyphCache->freeAll();
fTextBlobCache->freeAll();
}
bool GrContext::abandoned() const {
ASSERT_SINGLE_OWNER
return fDrawingManager->wasAbandoned();
}
void GrContext::releaseResourcesAndAbandonContext() {
ASSERT_SINGLE_OWNER
fTextureStripAtlasManager->abandon();
fProxyProvider->abandon();
fResourceProvider->abandon();
// Need to abandon the drawing manager first so all the render targets
// will be released/forgotten before they too are abandoned.
fDrawingManager->abandon();
// Release all resources in the backend 3D API.
fResourceCache->releaseAll();
fGpu->disconnect(GrGpu::DisconnectType::kCleanup);
fGlyphCache->freeAll();
fTextBlobCache->freeAll();
}
void GrContext::resetContext(uint32_t state) {
ASSERT_SINGLE_OWNER
fGpu->markContextDirty(state);
}
void GrContext::freeGpuResources() {
ASSERT_SINGLE_OWNER
fGlyphCache->freeAll();
fDrawingManager->freeGpuResources();
fResourceCache->purgeAllUnlocked();
}
void GrContext::purgeUnlockedResources(bool scratchResourcesOnly) {
ASSERT_SINGLE_OWNER
fResourceCache->purgeUnlockedResources(scratchResourcesOnly);
fResourceCache->purgeAsNeeded();
fTextBlobCache->purgeStaleBlobs();
}
void GrContext::performDeferredCleanup(std::chrono::milliseconds msNotUsed) {
ASSERT_SINGLE_OWNER
fResourceCache->purgeAsNeeded();
fResourceCache->purgeResourcesNotUsedSince(GrStdSteadyClock::now() - msNotUsed);
fTextBlobCache->purgeStaleBlobs();
}
void GrContext::purgeUnlockedResources(size_t bytesToPurge, bool preferScratchResources) {
ASSERT_SINGLE_OWNER
fResourceCache->purgeUnlockedResources(bytesToPurge, preferScratchResources);
}
void GrContext::getResourceCacheUsage(int* resourceCount, size_t* resourceBytes) const {
ASSERT_SINGLE_OWNER
if (resourceCount) {
*resourceCount = fResourceCache->getBudgetedResourceCount();
}
if (resourceBytes) {
*resourceBytes = fResourceCache->getBudgetedResourceBytes();
}
}
size_t GrContext::getResourceCachePurgeableBytes() const {
ASSERT_SINGLE_OWNER
return fResourceCache->getPurgeableBytes();
}
////////////////////////////////////////////////////////////////////////////////
int GrContext::maxTextureSize() const { return fCaps->maxTextureSize(); }
int GrContext::maxRenderTargetSize() const { return fCaps->maxRenderTargetSize(); }
bool GrContext::colorTypeSupportedAsImage(SkColorType colorType) const {
GrPixelConfig config = SkColorType2GrPixelConfig(colorType);
return fCaps->isConfigTexturable(config);
}
int GrContext::maxSurfaceSampleCountForColorType(SkColorType colorType) const {
GrPixelConfig config = SkColorType2GrPixelConfig(colorType);
return fCaps->maxRenderTargetSampleCount(config);
}
////////////////////////////////////////////////////////////////////////////////
void GrContext::TextBlobCacheOverBudgetCB(void* data) {
SkASSERT(data);
// TextBlobs are drawn at the SkGpuDevice level, therefore they cannot rely on
// GrRenderTargetContext to perform a necessary flush. The solution is to move drawText calls
// to below the GrContext level, but this is not trivial because they call drawPath on
// SkGpuDevice.
GrContext* context = reinterpret_cast<GrContext*>(data);
context->flush();
}
////////////////////////////////////////////////////////////////////////////////
void GrContext::flush() {
ASSERT_SINGLE_OWNER
RETURN_IF_ABANDONED
fDrawingManager->flush(nullptr);
}
GrSemaphoresSubmitted GrContext::flushAndSignalSemaphores(int numSemaphores,
GrBackendSemaphore signalSemaphores[]) {
ASSERT_SINGLE_OWNER
if (fDrawingManager->wasAbandoned()) { return GrSemaphoresSubmitted::kNo; }
return fDrawingManager->flush(nullptr, numSemaphores, signalSemaphores);
}
void GrContextPriv::flush(GrSurfaceProxy* proxy) {
ASSERT_SINGLE_OWNER_PRIV
RETURN_IF_ABANDONED_PRIV
ASSERT_OWNED_PROXY_PRIV(proxy);
fContext->fDrawingManager->flush(proxy);
}
// TODO: This will be removed when GrSurfaceContexts are aware of their color types.
// (skbug.com/6718)
static bool valid_premul_config(GrPixelConfig config) {
switch (config) {
case kUnknown_GrPixelConfig: return false;
case kAlpha_8_GrPixelConfig: return false;
case kGray_8_GrPixelConfig: return false;
case kRGB_565_GrPixelConfig: return false;
case kRGBA_4444_GrPixelConfig: return true;
case kRGBA_8888_GrPixelConfig: return true;
case kRGB_888_GrPixelConfig: return false;
case kBGRA_8888_GrPixelConfig: return true;
case kSRGBA_8888_GrPixelConfig: return true;
case kSBGRA_8888_GrPixelConfig: return true;
case kRGBA_1010102_GrPixelConfig: return true;
case kRGBA_float_GrPixelConfig: return true;
case kRG_float_GrPixelConfig: return false;
case kAlpha_half_GrPixelConfig: return false;
case kRGBA_half_GrPixelConfig: return true;
case kAlpha_8_as_Alpha_GrPixelConfig: return false;
case kAlpha_8_as_Red_GrPixelConfig: return false;
case kAlpha_half_as_Red_GrPixelConfig: return false;
case kGray_8_as_Lum_GrPixelConfig: return false;
case kGray_8_as_Red_GrPixelConfig: return false;
}
SK_ABORT("Invalid GrPixelConfig");
return false;
}
static bool valid_premul_color_type(GrColorType ct) {
switch (ct) {
case GrColorType::kUnknown: return false;
case GrColorType::kAlpha_8: return false;
case GrColorType::kRGB_565: return false;
case GrColorType::kABGR_4444: return true;
case GrColorType::kRGBA_8888: return true;
case GrColorType::kRGB_888x: return false;
case GrColorType::kBGRA_8888: return true;
case GrColorType::kRGBA_1010102: return true;
case GrColorType::kGray_8: return false;
case GrColorType::kAlpha_F16: return false;
case GrColorType::kRGBA_F16: return true;
case GrColorType::kRG_F32: return false;
case GrColorType::kRGBA_F32: return true;
}
SK_ABORT("Invalid GrColorType");
return false;
}
static bool valid_pixel_conversion(GrColorType cpuColorType, GrPixelConfig gpuConfig,
bool premulConversion) {
// We only allow premul <-> unpremul conversions for some formats
if (premulConversion &&
(!valid_premul_color_type(cpuColorType) || !valid_premul_config(gpuConfig))) {
return false;
}
return true;
}
bool GrContextPriv::writeSurfacePixels(GrSurfaceContext* dst, int left, int top, int width,
int height, GrColorType srcColorType,
SkColorSpace* srcColorSpace, const void* buffer,
size_t rowBytes, uint32_t pixelOpsFlags) {
ASSERT_SINGLE_OWNER_PRIV
RETURN_FALSE_IF_ABANDONED_PRIV
SkASSERT(dst);
SkASSERT(buffer);
ASSERT_OWNED_PROXY_PRIV(dst->asSurfaceProxy());
GR_CREATE_TRACE_MARKER_CONTEXT("GrContextPriv", "writeSurfacePixels", fContext);
if (GrColorType::kUnknown == srcColorType) {
return false;
}
if (!dst->asSurfaceProxy()->instantiate(this->resourceProvider())) {
return false;
}
GrSurfaceProxy* dstProxy = dst->asSurfaceProxy();
GrSurface* dstSurface = dstProxy->priv().peekSurface();
if (!GrSurfacePriv::AdjustWritePixelParams(dstSurface->width(), dstSurface->height(),
GrColorTypeBytesPerPixel(srcColorType), &left, &top,
&width, &height, &buffer, &rowBytes)) {
return false;
}
// TODO: Make GrSurfaceContext know its alpha type and pass src buffer's alpha type.
bool premul = SkToBool(kUnpremul_PixelOpsFlag & pixelOpsFlags);
// For canvas2D putImageData performance we have a special code path for unpremul RGBA_8888 srcs
// that are premultiplied on the GPU. This is kept as narrow as possible for now.
bool canvas2DFastPath =
premul &&
!dst->colorSpaceInfo().colorSpace() &&
(srcColorType == GrColorType::kRGBA_8888 || srcColorType == GrColorType::kBGRA_8888) &&
SkToBool(dst->asRenderTargetContext()) &&
(dstProxy->config() == kRGBA_8888_GrPixelConfig ||
dstProxy->config() == kBGRA_8888_GrPixelConfig) &&
!(pixelOpsFlags & kDontFlush_PixelOpsFlag) &&
fContext->contextPriv().caps()->isConfigTexturable(kRGBA_8888_GrPixelConfig) &&
fContext->validPMUPMConversionExists();
if (!fContext->contextPriv().caps()->surfaceSupportsWritePixels(dstSurface) ||
canvas2DFastPath) {
// We don't expect callers that are skipping flushes to require an intermediate draw.
SkASSERT(!(pixelOpsFlags & kDontFlush_PixelOpsFlag));
if (pixelOpsFlags & kDontFlush_PixelOpsFlag) {
return false;
}
GrSurfaceDesc desc;
desc.fConfig = canvas2DFastPath ? kRGBA_8888_GrPixelConfig : dstProxy->config();
desc.fWidth = width;
desc.fHeight = height;
desc.fSampleCnt = 1;
auto tempProxy = this->proxyProvider()->createProxy(
desc, kTopLeft_GrSurfaceOrigin, SkBackingFit::kApprox, SkBudgeted::kYes);
if (!tempProxy) {
return false;
}
auto tempCtx = this->drawingManager()->makeTextureContext(
tempProxy, dst->colorSpaceInfo().refColorSpace());
if (!tempCtx) {
return false;
}
uint32_t flags = canvas2DFastPath ? 0 : pixelOpsFlags;
// In the fast path we always write the srcData to the temp context as though it were RGBA.
// When the data is really BGRA the write will cause the R and B channels to be swapped in
// the intermediate surface which gets corrected by a swizzle effect when drawing to the
// dst.
auto tmpColorType = canvas2DFastPath ? GrColorType::kRGBA_8888 : srcColorType;
if (!this->writeSurfacePixels(tempCtx.get(), 0, 0, width, height, tmpColorType,
srcColorSpace, buffer, rowBytes, flags)) {
return false;
}
if (canvas2DFastPath) {
GrPaint paint;
paint.setPorterDuffXPFactory(SkBlendMode::kSrc);
auto fp = fContext->createUPMToPMEffect(
GrSimpleTextureEffect::Make(std::move(tempProxy), SkMatrix::I()), true);
if (srcColorType == GrColorType::kBGRA_8888) {
fp = GrFragmentProcessor::SwizzleOutput(std::move(fp), GrSwizzle::BGRA());
}
if (!fp) {
return false;
}
paint.addColorFragmentProcessor(std::move(fp));
dst->asRenderTargetContext()->fillRectToRect(
GrNoClip(), std::move(paint), GrAA::kNo, SkMatrix::I(),
SkRect::MakeXYWH(left, top, width, height), SkRect::MakeWH(width, height));
return true;
} else {
return dst->copy(tempProxy.get(), SkIRect::MakeWH(width, height), {left, top});
}
}
bool convert = premul;
if (!valid_pixel_conversion(srcColorType, dstProxy->config(), premul)) {
return false;
}
GrColorType allowedColorType = fContext->contextPriv().caps()->supportedWritePixelsColorType(
dstProxy->config(), srcColorType);
convert = convert || (srcColorType != allowedColorType);
if (!dst->colorSpaceInfo().colorSpace()) {
// "Legacy" mode - no color space conversions.
srcColorSpace = nullptr;
}
convert = convert || !SkColorSpace::Equals(srcColorSpace, dst->colorSpaceInfo().colorSpace());
std::unique_ptr<char[]> tempBuffer;
if (convert) {
auto srcSkColorType = GrColorTypeToSkColorType(srcColorType);
auto dstSkColorType = GrColorTypeToSkColorType(allowedColorType);
if (kUnknown_SkColorType == srcSkColorType || kUnknown_SkColorType == dstSkColorType) {
return false;
}
auto srcAlphaType = premul ? kUnpremul_SkAlphaType : kPremul_SkAlphaType;
SkPixmap src(SkImageInfo::Make(width, height, srcSkColorType, srcAlphaType,
sk_ref_sp(srcColorSpace)),
buffer, rowBytes);
auto tempSrcII = SkImageInfo::Make(width, height, dstSkColorType, kPremul_SkAlphaType,
dst->colorSpaceInfo().refColorSpace());
auto size = tempSrcII.computeMinByteSize();
if (!size) {
return false;
}
tempBuffer.reset(new char[size]);
SkPixmap tempSrc(tempSrcII, tempBuffer.get(), tempSrcII.minRowBytes());
if (!src.readPixels(tempSrc)) {
return false;
}
srcColorType = allowedColorType;
buffer = tempSrc.addr();
rowBytes = tempSrc.rowBytes();
if (dstProxy->origin() == kBottomLeft_GrSurfaceOrigin) {
std::unique_ptr<char[]> row(new char[rowBytes]);
for (int y = 0; y < height / 2; ++y) {
memcpy(row.get(), tempSrc.addr(0, y), rowBytes);
memcpy(tempSrc.writable_addr(0, y), tempSrc.addr(0, height - 1 - y), rowBytes);
memcpy(tempSrc.writable_addr(0, height - 1 - y), row.get(), rowBytes);
}
top = dstSurface->height() - top - height;
}
} else if (dstProxy->origin() == kBottomLeft_GrSurfaceOrigin) {
size_t trimRowBytes = GrColorTypeBytesPerPixel(srcColorType) * width;
tempBuffer.reset(new char[trimRowBytes * height]);
char* dst = reinterpret_cast<char*>(tempBuffer.get()) + trimRowBytes * (height - 1);
const char* src = reinterpret_cast<const char*>(buffer);
for (int i = 0; i < height; ++i, src += rowBytes, dst -= trimRowBytes) {
memcpy(dst, src, trimRowBytes);
}
buffer = tempBuffer.get();
rowBytes = trimRowBytes;
top = dstSurface->height() - top - height;
}
if (!(kDontFlush_PixelOpsFlag & pixelOpsFlags) && dstSurface->surfacePriv().hasPendingIO()) {
this->flush(nullptr); // MDB TODO: tighten this
}
return this->getGpu()->writePixels(dstSurface, left, top, width, height, srcColorType, buffer,
rowBytes);
}
bool GrContextPriv::readSurfacePixels(GrSurfaceContext* src, int left, int top, int width,
int height, GrColorType dstColorType,
SkColorSpace* dstColorSpace, void* buffer, size_t rowBytes,
uint32_t pixelOpsFlags) {
ASSERT_SINGLE_OWNER_PRIV
RETURN_FALSE_IF_ABANDONED_PRIV
SkASSERT(src);
SkASSERT(buffer);
ASSERT_OWNED_PROXY_PRIV(src->asSurfaceProxy());
GR_CREATE_TRACE_MARKER_CONTEXT("GrContextPriv", "readSurfacePixels", fContext);
SkASSERT(!(pixelOpsFlags & kDontFlush_PixelOpsFlag));
if (pixelOpsFlags & kDontFlush_PixelOpsFlag) {
return false;
}
// MDB TODO: delay this instantiation until later in the method
if (!src->asSurfaceProxy()->instantiate(this->resourceProvider())) {
return false;
}
GrSurfaceProxy* srcProxy = src->asSurfaceProxy();
GrSurface* srcSurface = srcProxy->priv().peekSurface();
if (!GrSurfacePriv::AdjustReadPixelParams(srcSurface->width(), srcSurface->height(),
GrColorTypeBytesPerPixel(dstColorType), &left, &top,
&width, &height, &buffer, &rowBytes)) {
return false;
}
// TODO: Make GrSurfaceContext know its alpha type and pass dst buffer's alpha type.
bool unpremul = SkToBool(kUnpremul_PixelOpsFlag & pixelOpsFlags);
if (!valid_pixel_conversion(dstColorType, srcProxy->config(), unpremul)) {
return false;
}
// This is the getImageData equivalent to the canvas2D putImageData fast path. We probably don't
// care so much about getImageData performance. However, in order to ensure putImageData/
// getImageData in "legacy" mode are round-trippable we use the GPU to do the complementary
// unpremul step to writeSurfacePixels's premul step (which is determined empirically in
// fContext->vaildaPMUPMConversionExists()).
bool canvas2DFastPath =
unpremul &&
!src->colorSpaceInfo().colorSpace() &&
(GrColorType::kRGBA_8888 == dstColorType || GrColorType::kBGRA_8888 == dstColorType) &&
SkToBool(srcProxy->asTextureProxy()) &&
(srcProxy->config() == kRGBA_8888_GrPixelConfig ||
srcProxy->config() == kBGRA_8888_GrPixelConfig) &&
fContext->contextPriv().caps()->isConfigRenderable(kRGBA_8888_GrPixelConfig) &&
fContext->validPMUPMConversionExists();
if (!fContext->contextPriv().caps()->surfaceSupportsReadPixels(srcSurface) ||
canvas2DFastPath) {
GrSurfaceDesc desc;
desc.fFlags = canvas2DFastPath ? kRenderTarget_GrSurfaceFlag : kNone_GrSurfaceFlags;
desc.fConfig = canvas2DFastPath ? kRGBA_8888_GrPixelConfig : srcProxy->config();
desc.fWidth = width;
desc.fHeight = height;
desc.fSampleCnt = 1;
auto tempProxy = this->proxyProvider()->createProxy(
desc, kTopLeft_GrSurfaceOrigin, SkBackingFit::kApprox, SkBudgeted::kYes);
if (!tempProxy) {
return false;
}
sk_sp<GrSurfaceContext> tempCtx;
if (canvas2DFastPath) {
tempCtx = this->drawingManager()->makeRenderTargetContext(std::move(tempProxy), nullptr,
nullptr);
SkASSERT(tempCtx->asRenderTargetContext());
tempCtx->asRenderTargetContext()->discard();
} else {
tempCtx = this->drawingManager()->makeTextureContext(
std::move(tempProxy), src->colorSpaceInfo().refColorSpace());
}
if (!tempCtx) {
return false;
}
if (canvas2DFastPath) {
GrPaint paint;
paint.setPorterDuffXPFactory(SkBlendMode::kSrc);
auto fp = fContext->createPMToUPMEffect(
GrSimpleTextureEffect::Make(sk_ref_sp(srcProxy->asTextureProxy()),
SkMatrix::I()),
true);
if (dstColorType == GrColorType::kBGRA_8888) {
fp = GrFragmentProcessor::SwizzleOutput(std::move(fp), GrSwizzle::BGRA());
dstColorType = GrColorType::kRGBA_8888;
}
if (!fp) {
return false;
}
paint.addColorFragmentProcessor(std::move(fp));
tempCtx->asRenderTargetContext()->fillRectToRect(
GrNoClip(), std::move(paint), GrAA::kNo, SkMatrix::I(),
SkRect::MakeWH(width, height), SkRect::MakeXYWH(left, top, width, height));
} else if (!tempCtx->copy(srcProxy, SkIRect::MakeXYWH(left, top, width, height), {0, 0})) {
return false;
}
uint32_t flags = canvas2DFastPath ? 0 : pixelOpsFlags;
return this->readSurfacePixels(tempCtx.get(), 0, 0, width, height, dstColorType,
dstColorSpace, buffer, rowBytes, flags);
}
bool convert = unpremul;
bool flip = srcProxy->origin() == kBottomLeft_GrSurfaceOrigin;
if (flip) {
top = srcSurface->height() - top - height;
}
GrColorType allowedColorType = fContext->contextPriv().caps()->supportedReadPixelsColorType(
srcProxy->config(), dstColorType);
convert = convert || (dstColorType != allowedColorType);
if (!src->colorSpaceInfo().colorSpace()) {
// "Legacy" mode - no color space conversions.
dstColorSpace = nullptr;
}
convert = convert || !SkColorSpace::Equals(dstColorSpace, src->colorSpaceInfo().colorSpace());
SkAutoPixmapStorage tempPixmap;
SkPixmap finalPixmap;
if (convert) {
SkColorType srcSkColorType = GrColorTypeToSkColorType(allowedColorType);
SkColorType dstSkColorType = GrColorTypeToSkColorType(dstColorType);
if (kUnknown_SkColorType == srcSkColorType || kUnknown_SkColorType == dstSkColorType) {
return false;
}
auto tempAT = SkColorTypeIsAlwaysOpaque(srcSkColorType) ? kOpaque_SkAlphaType
: kPremul_SkAlphaType;
auto tempII = SkImageInfo::Make(width, height, srcSkColorType, tempAT,
src->colorSpaceInfo().refColorSpace());
SkASSERT(!unpremul || !SkColorTypeIsAlwaysOpaque(dstSkColorType));
auto finalAT = SkColorTypeIsAlwaysOpaque(srcSkColorType)
? kOpaque_SkAlphaType
: unpremul ? kUnpremul_SkAlphaType : kPremul_SkAlphaType;
auto finalII =
SkImageInfo::Make(width, height, dstSkColorType, finalAT, sk_ref_sp(dstColorSpace));
if (!SkImageInfoValidConversion(finalII, tempII)) {
return false;
}
if (!tempPixmap.tryAlloc(tempII)) {
return false;
}
finalPixmap.reset(finalII, buffer, rowBytes);
buffer = tempPixmap.writable_addr();
rowBytes = tempPixmap.rowBytes();
// Chrome msan bots require this.
sk_bzero(buffer, tempPixmap.computeByteSize());
}
if (srcSurface->surfacePriv().hasPendingWrite()) {
this->flush(nullptr); // MDB TODO: tighten this
}
if (!fContext->fGpu->readPixels(srcSurface, left, top, width, height, allowedColorType, buffer,
rowBytes)) {
return false;
}
if (flip) {
size_t trimRowBytes = GrColorTypeBytesPerPixel(allowedColorType) * width;
std::unique_ptr<char[]> row(new char[trimRowBytes]);
char* upper = reinterpret_cast<char*>(buffer);
char* lower = reinterpret_cast<char*>(buffer) + (height - 1) * rowBytes;
for (int y = 0; y < height / 2; ++y, upper += rowBytes, lower -= rowBytes) {
memcpy(row.get(), upper, trimRowBytes);
memcpy(upper, lower, trimRowBytes);
memcpy(lower, row.get(), trimRowBytes);
}
}
if (convert) {
if (!tempPixmap.readPixels(finalPixmap)) {
return false;
}
}
return true;
}
void GrContextPriv::prepareSurfaceForExternalIO(GrSurfaceProxy* proxy) {
ASSERT_SINGLE_OWNER_PRIV
RETURN_IF_ABANDONED_PRIV
SkASSERT(proxy);
ASSERT_OWNED_PROXY_PRIV(proxy);
fContext->fDrawingManager->prepareSurfaceForExternalIO(proxy, 0, nullptr);
}
void GrContextPriv::flushSurfaceWrites(GrSurfaceProxy* proxy) {
ASSERT_SINGLE_OWNER_PRIV
RETURN_IF_ABANDONED_PRIV
SkASSERT(proxy);
ASSERT_OWNED_PROXY_PRIV(proxy);
if (proxy->priv().hasPendingWrite()) {
this->flush(proxy);
}
}
void GrContextPriv::flushSurfaceIO(GrSurfaceProxy* proxy) {
ASSERT_SINGLE_OWNER_PRIV
RETURN_IF_ABANDONED_PRIV
SkASSERT(proxy);
ASSERT_OWNED_PROXY_PRIV(proxy);
if (proxy->priv().hasPendingIO()) {
this->flush(proxy);
}
}
////////////////////////////////////////////////////////////////////////////////
sk_sp<GrOpMemoryPool> GrContextPriv::refOpMemoryPool() {
if (!fContext->fOpMemoryPool) {
// DDL TODO: should the size of the memory pool be decreased in DDL mode? CPU-side memory
// consumed in DDL mode vs. normal mode for a single skp might be a good metric of wasted
// memory.
fContext->fOpMemoryPool = sk_sp<GrOpMemoryPool>(new GrOpMemoryPool(16384, 16384));
}
SkASSERT(fContext->fOpMemoryPool);
return fContext->fOpMemoryPool;
}
GrOpMemoryPool* GrContextPriv::opMemoryPool() {
return this->refOpMemoryPool().get();
}
sk_sp<GrSurfaceContext> GrContextPriv::makeWrappedSurfaceContext(sk_sp<GrSurfaceProxy> proxy,
sk_sp<SkColorSpace> colorSpace,
const SkSurfaceProps* props) {
ASSERT_SINGLE_OWNER_PRIV
if (proxy->asRenderTargetProxy()) {
return this->drawingManager()->makeRenderTargetContext(std::move(proxy),
std::move(colorSpace), props);
} else {
SkASSERT(proxy->asTextureProxy());
SkASSERT(!props);
return this->drawingManager()->makeTextureContext(std::move(proxy), std::move(colorSpace));
}
}
sk_sp<GrSurfaceContext> GrContextPriv::makeDeferredSurfaceContext(const GrSurfaceDesc& dstDesc,
GrSurfaceOrigin origin,
GrMipMapped mipMapped,
SkBackingFit fit,
SkBudgeted isDstBudgeted,
sk_sp<SkColorSpace> colorSpace,
const SkSurfaceProps* props) {
sk_sp<GrTextureProxy> proxy;
if (GrMipMapped::kNo == mipMapped) {
proxy = this->proxyProvider()->createProxy(dstDesc, origin, fit, isDstBudgeted);
} else {
SkASSERT(SkBackingFit::kExact == fit);
proxy = this->proxyProvider()->createMipMapProxy(dstDesc, origin, isDstBudgeted);
}
if (!proxy) {
return nullptr;
}
sk_sp<GrSurfaceContext> sContext = this->makeWrappedSurfaceContext(std::move(proxy),
std::move(colorSpace),
props);
if (sContext && sContext->asRenderTargetContext()) {
sContext->asRenderTargetContext()->discard();
}
return sContext;
}
sk_sp<GrTextureContext> GrContextPriv::makeBackendTextureContext(const GrBackendTexture& tex,
GrSurfaceOrigin origin,
sk_sp<SkColorSpace> colorSpace) {
ASSERT_SINGLE_OWNER_PRIV
sk_sp<GrSurfaceProxy> proxy = this->proxyProvider()->wrapBackendTexture(tex, origin);
if (!proxy) {
return nullptr;
}
return this->drawingManager()->makeTextureContext(std::move(proxy), std::move(colorSpace));
}
sk_sp<GrRenderTargetContext> GrContextPriv::makeBackendTextureRenderTargetContext(
const GrBackendTexture& tex,
GrSurfaceOrigin origin,
int sampleCnt,
sk_sp<SkColorSpace> colorSpace,
const SkSurfaceProps* props) {
ASSERT_SINGLE_OWNER_PRIV
SkASSERT(sampleCnt > 0);
sk_sp<GrTextureProxy> proxy(
this->proxyProvider()->wrapRenderableBackendTexture(tex, origin, sampleCnt));
if (!proxy) {
return nullptr;
}
return this->drawingManager()->makeRenderTargetContext(std::move(proxy),
std::move(colorSpace), props);
}
sk_sp<GrRenderTargetContext> GrContextPriv::makeBackendRenderTargetRenderTargetContext(
const GrBackendRenderTarget& backendRT,
GrSurfaceOrigin origin,
sk_sp<SkColorSpace> colorSpace,
const SkSurfaceProps* surfaceProps) {
ASSERT_SINGLE_OWNER_PRIV
sk_sp<GrSurfaceProxy> proxy = this->proxyProvider()->wrapBackendRenderTarget(backendRT, origin);
if (!proxy) {
return nullptr;
}
return this->drawingManager()->makeRenderTargetContext(std::move(proxy),
std::move(colorSpace),
surfaceProps);
}
sk_sp<GrRenderTargetContext> GrContextPriv::makeBackendTextureAsRenderTargetRenderTargetContext(
const GrBackendTexture& tex,
GrSurfaceOrigin origin,
int sampleCnt,
sk_sp<SkColorSpace> colorSpace,
const SkSurfaceProps* props) {
ASSERT_SINGLE_OWNER_PRIV
SkASSERT(sampleCnt > 0);
sk_sp<GrSurfaceProxy> proxy(
this->proxyProvider()->wrapBackendTextureAsRenderTarget(tex, origin, sampleCnt));
if (!proxy) {
return nullptr;
}
return this->drawingManager()->makeRenderTargetContext(std::move(proxy),
std::move(colorSpace),
props);
}
void GrContextPriv::addOnFlushCallbackObject(GrOnFlushCallbackObject* onFlushCBObject) {
fContext->fDrawingManager->addOnFlushCallbackObject(onFlushCBObject);
}
void GrContextPriv::moveOpListsToDDL(SkDeferredDisplayList* ddl) {
fContext->fDrawingManager->moveOpListsToDDL(ddl);
}
void GrContextPriv::copyOpListsFromDDL(const SkDeferredDisplayList* ddl,
GrRenderTargetProxy* newDest) {
fContext->fDrawingManager->copyOpListsFromDDL(ddl, newDest);
}
static inline GrPixelConfig GrPixelConfigFallback(GrPixelConfig config) {
switch (config) {
case kAlpha_8_GrPixelConfig:
case kAlpha_8_as_Alpha_GrPixelConfig:
case kAlpha_8_as_Red_GrPixelConfig:
case kRGB_565_GrPixelConfig:
case kRGBA_4444_GrPixelConfig:
case kBGRA_8888_GrPixelConfig:
case kRGBA_1010102_GrPixelConfig:
return kRGBA_8888_GrPixelConfig;
case kSBGRA_8888_GrPixelConfig:
return kSRGBA_8888_GrPixelConfig;
case kAlpha_half_GrPixelConfig:
case kAlpha_half_as_Red_GrPixelConfig:
return kRGBA_half_GrPixelConfig;
case kGray_8_GrPixelConfig:
case kGray_8_as_Lum_GrPixelConfig:
case kGray_8_as_Red_GrPixelConfig:
return kRGB_888_GrPixelConfig;
default:
return kUnknown_GrPixelConfig;
}
}
sk_sp<GrRenderTargetContext> GrContextPriv::makeDeferredRenderTargetContextWithFallback(
SkBackingFit fit,
int width, int height,
GrPixelConfig config,
sk_sp<SkColorSpace> colorSpace,
int sampleCnt,
GrMipMapped mipMapped,
GrSurfaceOrigin origin,
const SkSurfaceProps* surfaceProps,
SkBudgeted budgeted) {
SkASSERT(sampleCnt > 0);
if (0 == fContext->contextPriv().caps()->getRenderTargetSampleCount(sampleCnt, config)) {
config = GrPixelConfigFallback(config);
}
return this->makeDeferredRenderTargetContext(fit, width, height, config, std::move(colorSpace),
sampleCnt, mipMapped, origin, surfaceProps,
budgeted);
}
sk_sp<GrRenderTargetContext> GrContextPriv::makeDeferredRenderTargetContext(
SkBackingFit fit,
int width, int height,
GrPixelConfig config,
sk_sp<SkColorSpace> colorSpace,
int sampleCnt,
GrMipMapped mipMapped,
GrSurfaceOrigin origin,
const SkSurfaceProps* surfaceProps,
SkBudgeted budgeted) {
SkASSERT(sampleCnt > 0);
if (fContext->abandoned()) {
return nullptr;
}
GrSurfaceDesc desc;
desc.fFlags = kRenderTarget_GrSurfaceFlag;
desc.fWidth = width;
desc.fHeight = height;
desc.fConfig = config;
desc.fSampleCnt = sampleCnt;
sk_sp<GrTextureProxy> rtp;
if (GrMipMapped::kNo == mipMapped) {
rtp = fContext->fProxyProvider->createProxy(desc, origin, fit, budgeted);
} else {
rtp = fContext->fProxyProvider->createMipMapProxy(desc, origin, budgeted);
}
if (!rtp) {
return nullptr;
}
sk_sp<GrRenderTargetContext> renderTargetContext(
fContext->fDrawingManager->makeRenderTargetContext(std::move(rtp),
std::move(colorSpace),
surfaceProps));
if (!renderTargetContext) {
return nullptr;
}
renderTargetContext->discard();
return renderTargetContext;
}
std::unique_ptr<GrFragmentProcessor> GrContext::createPMToUPMEffect(
std::unique_ptr<GrFragmentProcessor> fp, bool useConfigConversionEffect) {
ASSERT_SINGLE_OWNER
// We have specialized effects that guarantee round-trip conversion for some formats
if (useConfigConversionEffect) {
// We should have already called this->validPMUPMConversionExists() in this case
SkASSERT(fDidTestPMConversions);
// ...and it should have succeeded
SkASSERT(this->validPMUPMConversionExists());
return GrConfigConversionEffect::Make(std::move(fp), PMConversion::kToUnpremul);
} else {
// For everything else (sRGB, half-float, etc...), it doesn't make sense to try and
// explicitly round the results. Just do the obvious, naive thing in the shader.
return GrFragmentProcessor::UnpremulOutput(std::move(fp));
}
}
std::unique_ptr<GrFragmentProcessor> GrContext::createUPMToPMEffect(
std::unique_ptr<GrFragmentProcessor> fp, bool useConfigConversionEffect) {
ASSERT_SINGLE_OWNER
// We have specialized effects that guarantee round-trip conversion for these formats
if (useConfigConversionEffect) {
// We should have already called this->validPMUPMConversionExists() in this case
SkASSERT(fDidTestPMConversions);
// ...and it should have succeeded
SkASSERT(this->validPMUPMConversionExists());
return GrConfigConversionEffect::Make(std::move(fp), PMConversion::kToPremul);
} else {
// For everything else (sRGB, half-float, etc...), it doesn't make sense to try and
// explicitly round the results. Just do the obvious, naive thing in the shader.
return GrFragmentProcessor::PremulOutput(std::move(fp));
}
}
bool GrContext::validPMUPMConversionExists() {
ASSERT_SINGLE_OWNER
if (!fDidTestPMConversions) {
fPMUPMConversionsRoundTrip = GrConfigConversionEffect::TestForPreservingPMConversions(this);
fDidTestPMConversions = true;
}
// The PM<->UPM tests fail or succeed together so we only need to check one.
return fPMUPMConversionsRoundTrip;
}
bool GrContext::supportsDistanceFieldText() const {
return fCaps->shaderCaps()->supportsDistanceFieldText();
}
//////////////////////////////////////////////////////////////////////////////
// DDL TODO: remove 'maxResources'
void GrContext::getResourceCacheLimits(int* maxResources, size_t* maxResourceBytes) const {
ASSERT_SINGLE_OWNER
if (maxResources) {
*maxResources = fResourceCache->getMaxResourceCount();
}
if (maxResourceBytes) {
*maxResourceBytes = fResourceCache->getMaxResourceBytes();
}
}
void GrContext::setResourceCacheLimits(int maxResources, size_t maxResourceBytes) {
ASSERT_SINGLE_OWNER
fResourceCache->setLimits(maxResources, maxResourceBytes);
}
//////////////////////////////////////////////////////////////////////////////
void GrContext::dumpMemoryStatistics(SkTraceMemoryDump* traceMemoryDump) const {
ASSERT_SINGLE_OWNER
fResourceCache->dumpMemoryStatistics(traceMemoryDump);
}
//////////////////////////////////////////////////////////////////////////////
SkString GrContextPriv::dump() const {
SkDynamicMemoryWStream stream;
SkJSONWriter writer(&stream, SkJSONWriter::Mode::kPretty);
writer.beginObject();
static const char* kBackendStr[] = {
"Metal",
"OpenGL",
"Vulkan",
"Mock",
};
GR_STATIC_ASSERT(0 == kMetal_GrBackend);
GR_STATIC_ASSERT(1 == kOpenGL_GrBackend);
GR_STATIC_ASSERT(2 == kVulkan_GrBackend);
GR_STATIC_ASSERT(3 == kMock_GrBackend);
writer.appendString("backend", kBackendStr[fContext->fBackend]);
writer.appendName("caps");
fContext->fCaps->dumpJSON(&writer);
writer.appendName("gpu");
fContext->fGpu->dumpJSON(&writer);
// Flush JSON to the memory stream
writer.endObject();
writer.flush();
// Null terminate the JSON data in the memory stream
stream.write8(0);
// Allocate a string big enough to hold all the data, then copy out of the stream
SkString result(stream.bytesWritten());
stream.copyToAndReset(result.writable_str());
return result;
}
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