/* * Copyright 2012 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkAutoPixmapStorage.h" #include "GrCaps.h" #include "GrContext.h" #include "GrDrawContext.h" #include "GrImageIDTextureAdjuster.h" #include "effects/GrYUVEffect.h" #include "SkCanvas.h" #include "SkBitmapCache.h" #include "SkGrPixelRef.h" #include "SkGrPriv.h" #include "SkImage_Gpu.h" #include "SkPixelRef.h" SkImage_Gpu::SkImage_Gpu(int w, int h, uint32_t uniqueID, SkAlphaType at, GrTexture* tex, SkBudgeted budgeted) : INHERITED(w, h, uniqueID) , fTexture(SkRef(tex)) , fAlphaType(at) , fBudgeted(budgeted) , fAddedRasterVersionToCache(false) { SkASSERT(tex->width() == w); SkASSERT(tex->height() == h); } SkImage_Gpu::~SkImage_Gpu() { if (fAddedRasterVersionToCache.load()) { SkNotifyBitmapGenIDIsStale(this->uniqueID()); } } extern void SkTextureImageApplyBudgetedDecision(SkImage* image) { if (as_IB(image)->peekTexture()) { ((SkImage_Gpu*)image)->applyBudgetDecision(); } } static SkImageInfo make_info(int w, int h, bool isOpaque) { return SkImageInfo::MakeN32(w, h, isOpaque ? kOpaque_SkAlphaType : kPremul_SkAlphaType); } bool SkImage_Gpu::getROPixels(SkBitmap* dst, CachingHint chint) const { if (SkBitmapCache::Find(this->uniqueID(), dst)) { SkASSERT(dst->getGenerationID() == this->uniqueID()); SkASSERT(dst->isImmutable()); SkASSERT(dst->getPixels()); return true; } if (!dst->tryAllocPixels(make_info(this->width(), this->height(), this->isOpaque()))) { return false; } if (!fTexture->readPixels(0, 0, dst->width(), dst->height(), kSkia8888_GrPixelConfig, dst->getPixels(), dst->rowBytes())) { return false; } dst->pixelRef()->setImmutableWithID(this->uniqueID()); if (kAllow_CachingHint == chint) { SkBitmapCache::Add(this->uniqueID(), *dst); fAddedRasterVersionToCache.store(true); } return true; } bool SkImage_Gpu::asBitmapForImageFilters(SkBitmap* bitmap) const { bitmap->setInfo(make_info(this->width(), this->height(), this->isOpaque())); bitmap->setPixelRef(new SkGrPixelRef(bitmap->info(), fTexture))->unref(); bitmap->pixelRef()->setImmutableWithID(this->uniqueID()); return true; } GrTexture* SkImage_Gpu::asTextureRef(GrContext* ctx, const GrTextureParams& params) const { return GrImageTextureAdjuster(as_IB(this)).refTextureSafeForParams(params, nullptr); } bool SkImage_Gpu::isOpaque() const { return GrPixelConfigIsOpaque(fTexture->config()) || fAlphaType == kOpaque_SkAlphaType; } static void apply_premul(const SkImageInfo& info, void* pixels, size_t rowBytes) { switch (info.colorType()) { case kRGBA_8888_SkColorType: case kBGRA_8888_SkColorType: break; default: return; // nothing to do } // SkColor is not necesarily RGBA or BGRA, but it is one of them on little-endian, // and in either case, the alpha-byte is always in the same place, so we can safely call // SkPreMultiplyColor() // SkColor* row = (SkColor*)pixels; for (int y = 0; y < info.height(); ++y) { for (int x = 0; x < info.width(); ++x) { row[x] = SkPreMultiplyColor(row[x]); } } } bool SkImage_Gpu::onReadPixels(const SkImageInfo& info, void* pixels, size_t rowBytes, int srcX, int srcY, CachingHint) const { GrPixelConfig config = SkImageInfo2GrPixelConfig(info.colorType(), info.alphaType(), info.profileType(), *fTexture->getContext()->caps()); uint32_t flags = 0; if (kUnpremul_SkAlphaType == info.alphaType() && kPremul_SkAlphaType == fAlphaType) { // let the GPU perform this transformation for us flags = GrContext::kUnpremul_PixelOpsFlag; } if (!fTexture->readPixels(srcX, srcY, info.width(), info.height(), config, pixels, rowBytes, flags)) { return false; } // do we have to manually fix-up the alpha channel? // src dst // unpremul premul fix manually // premul unpremul done by kUnpremul_PixelOpsFlag // all other combos need to change. // // Should this be handled by Ganesh? todo:? // if (kPremul_SkAlphaType == info.alphaType() && kUnpremul_SkAlphaType == fAlphaType) { apply_premul(info, pixels, rowBytes); } return true; } sk_sp SkImage_Gpu::onMakeSubset(const SkIRect& subset) const { GrContext* ctx = fTexture->getContext(); GrSurfaceDesc desc = fTexture->desc(); desc.fWidth = subset.width(); desc.fHeight = subset.height(); GrTexture* subTx = ctx->textureProvider()->createTexture(desc, fBudgeted); if (!subTx) { return nullptr; } ctx->copySurface(subTx, fTexture, subset, SkIPoint::Make(0, 0)); return sk_make_sp(desc.fWidth, desc.fHeight, kNeedNewImageUniqueID, fAlphaType, subTx, fBudgeted); } /////////////////////////////////////////////////////////////////////////////////////////////////// static sk_sp new_wrapped_texture_common(GrContext* ctx, const GrBackendTextureDesc& desc, SkAlphaType at, GrWrapOwnership ownership, SkImage::TextureReleaseProc releaseProc, SkImage::ReleaseContext releaseCtx) { if (desc.fWidth <= 0 || desc.fHeight <= 0) { return nullptr; } SkAutoTUnref tex(ctx->textureProvider()->wrapBackendTexture(desc, ownership)); if (!tex) { return nullptr; } if (releaseProc) { tex->setRelease(releaseProc, releaseCtx); } const SkBudgeted budgeted = SkBudgeted::kNo; return sk_make_sp(desc.fWidth, desc.fHeight, kNeedNewImageUniqueID, at, tex, budgeted); } sk_sp SkImage::MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc, SkAlphaType at, TextureReleaseProc releaseP, ReleaseContext releaseC) { return new_wrapped_texture_common(ctx, desc, at, kBorrow_GrWrapOwnership, releaseP, releaseC); } sk_sp SkImage::MakeFromAdoptedTexture(GrContext* ctx, const GrBackendTextureDesc& desc, SkAlphaType at) { return new_wrapped_texture_common(ctx, desc, at, kAdopt_GrWrapOwnership, nullptr, nullptr); } sk_sp SkImage::MakeFromTextureCopy(GrContext* ctx, const GrBackendTextureDesc& desc, SkAlphaType at) { if (desc.fWidth <= 0 || desc.fHeight <= 0) { return nullptr; } SkAutoTUnref src(ctx->textureProvider()->wrapBackendTexture( desc, kBorrow_GrWrapOwnership)); if (!src) { return nullptr; } SkAutoTUnref dst(GrDeepCopyTexture(src, SkBudgeted::kYes)); if (!dst) { return nullptr; } return sk_make_sp(desc.fWidth, desc.fHeight, kNeedNewImageUniqueID, at, dst, SkBudgeted::kYes); } sk_sp SkImage::MakeFromYUVTexturesCopy(GrContext* ctx , SkYUVColorSpace colorSpace, const GrBackendObject yuvTextureHandles[3], const SkISize yuvSizes[3], GrSurfaceOrigin origin) { const SkBudgeted budgeted = SkBudgeted::kYes; if (yuvSizes[0].fWidth <= 0 || yuvSizes[0].fHeight <= 0 || yuvSizes[1].fWidth <= 0 || yuvSizes[1].fHeight <= 0 || yuvSizes[2].fWidth <= 0 || yuvSizes[2].fHeight <= 0) { return nullptr; } static const GrPixelConfig kConfig = kAlpha_8_GrPixelConfig; GrBackendTextureDesc yDesc; yDesc.fConfig = kConfig; yDesc.fOrigin = origin; yDesc.fSampleCnt = 0; yDesc.fTextureHandle = yuvTextureHandles[0]; yDesc.fWidth = yuvSizes[0].fWidth; yDesc.fHeight = yuvSizes[0].fHeight; GrBackendTextureDesc uDesc; uDesc.fConfig = kConfig; uDesc.fOrigin = origin; uDesc.fSampleCnt = 0; uDesc.fTextureHandle = yuvTextureHandles[1]; uDesc.fWidth = yuvSizes[1].fWidth; uDesc.fHeight = yuvSizes[1].fHeight; GrBackendTextureDesc vDesc; vDesc.fConfig = kConfig; vDesc.fOrigin = origin; vDesc.fSampleCnt = 0; vDesc.fTextureHandle = yuvTextureHandles[2]; vDesc.fWidth = yuvSizes[2].fWidth; vDesc.fHeight = yuvSizes[2].fHeight; SkAutoTUnref yTex(ctx->textureProvider()->wrapBackendTexture( yDesc, kBorrow_GrWrapOwnership)); SkAutoTUnref uTex(ctx->textureProvider()->wrapBackendTexture( uDesc, kBorrow_GrWrapOwnership)); SkAutoTUnref vTex(ctx->textureProvider()->wrapBackendTexture( vDesc, kBorrow_GrWrapOwnership)); if (!yTex || !uTex || !vTex) { return nullptr; } const int width = yuvSizes[0].fWidth; const int height = yuvSizes[0].fHeight; // Needs to be a render target in order to draw to it for the yuv->rgb conversion. sk_sp drawContext(ctx->newDrawContext(SkBackingFit::kExact, width, height, kRGBA_8888_GrPixelConfig, 0, origin)); if (!drawContext) { return nullptr; } GrPaint paint; paint.setPorterDuffXPFactory(SkXfermode::kSrc_Mode); paint.addColorFragmentProcessor(GrYUVEffect::CreateYUVToRGB(yTex, uTex, vTex, yuvSizes, colorSpace))->unref(); const SkRect rect = SkRect::MakeWH(SkIntToScalar(width), SkIntToScalar(height)); drawContext->drawRect(GrNoClip(), paint, SkMatrix::I(), rect); ctx->flushSurfaceWrites(drawContext->accessRenderTarget()); return sk_make_sp(width, height, kNeedNewImageUniqueID, kOpaque_SkAlphaType, drawContext->asTexture().get(), budgeted); } static sk_sp create_image_from_maker(GrTextureMaker* maker, SkAlphaType at, uint32_t id) { SkAutoTUnref texture(maker->refTextureForParams(GrTextureParams::ClampNoFilter())); if (!texture) { return nullptr; } return sk_make_sp(texture->width(), texture->height(), id, at, texture, SkBudgeted::kNo); } sk_sp SkImage::makeTextureImage(GrContext *context) const { if (!context) { return nullptr; } if (GrTexture* peek = as_IB(this)->peekTexture()) { return peek->getContext() == context ? sk_ref_sp(const_cast(this)) : nullptr; } // No way to check whether a image is premul or not? SkAlphaType at = this->isOpaque() ? kOpaque_SkAlphaType : kPremul_SkAlphaType; if (SkImageCacherator* cacher = as_IB(this)->peekCacherator()) { GrImageTextureMaker maker(context, cacher, this, kDisallow_CachingHint); return create_image_from_maker(&maker, at, this->uniqueID()); } SkBitmap bmp; if (!this->asLegacyBitmap(&bmp, kRO_LegacyBitmapMode)) { return nullptr; } GrBitmapTextureMaker maker(context, bmp); return create_image_from_maker(&maker, at, this->uniqueID()); } sk_sp SkImage::MakeTextureFromPixmap(GrContext* ctx, const SkPixmap& pixmap, SkBudgeted budgeted) { if (!ctx) { return nullptr; } SkAutoTUnref texture(GrUploadPixmapToTexture(ctx, pixmap, budgeted)); if (!texture) { return nullptr; } return sk_make_sp(texture->width(), texture->height(), kNeedNewImageUniqueID, pixmap.alphaType(), texture, budgeted); } /////////////////////////////////////////////////////////////////////////////////////////////////// class DeferredTextureImage { public: SkImage* newImage(GrContext* context, SkBudgeted) const; private: uint32_t fContextUniqueID; struct Data { SkImageInfo fInfo; void* fPixelData; size_t fRowBytes; int fColorTableCnt; uint32_t* fColorTableData; }; Data fData; friend class SkImage; }; size_t SkImage::getDeferredTextureImageData(const GrContextThreadSafeProxy& proxy, const DeferredTextureImageUsageParams[], int paramCnt, void* buffer) const { const bool fillMode = SkToBool(buffer); if (fillMode && !SkIsAlign8(reinterpret_cast(buffer))) { return 0; } const int maxTextureSize = proxy.fCaps->maxTextureSize(); if (width() > maxTextureSize || height() > maxTextureSize) { return 0; } SkAutoPixmapStorage pixmap; SkImageInfo info; size_t pixelSize = 0; size_t ctSize = 0; int ctCount = 0; if (this->peekPixels(&pixmap)) { info = pixmap.info(); pixelSize = SkAlign8(pixmap.getSafeSize()); if (pixmap.ctable()) { ctCount = pixmap.ctable()->count(); ctSize = SkAlign8(pixmap.ctable()->count() * 4); } } else { // Here we're just using presence of data to know whether there is a codec behind the image. // In the future we will access the cacherator and get the exact data that we want to (e.g. // yuv planes) upload. SkAutoTUnref data(this->refEncoded()); if (!data) { return 0; } SkAlphaType at = this->isOpaque() ? kOpaque_SkAlphaType : kPremul_SkAlphaType; info = SkImageInfo::MakeN32(this->width(), this->height(), at); pixelSize = SkAlign8(SkAutoPixmapStorage::AllocSize(info, nullptr)); if (fillMode) { pixmap.alloc(info); if (!this->readPixels(pixmap, 0, 0, SkImage::kDisallow_CachingHint)) { return 0; } SkASSERT(!pixmap.ctable()); } } size_t size = 0; size_t dtiSize = SkAlign8(sizeof(DeferredTextureImage)); size += dtiSize; size_t pixelOffset = size; size += pixelSize; size_t ctOffset = size; size += ctSize; if (!fillMode) { return size; } intptr_t bufferAsInt = reinterpret_cast(buffer); void* pixels = reinterpret_cast(bufferAsInt + pixelOffset); SkPMColor* ct = nullptr; if (ctSize) { ct = reinterpret_cast(bufferAsInt + ctOffset); } memcpy(pixels, pixmap.addr(), pixmap.getSafeSize()); if (ctSize) { memcpy(ct, pixmap.ctable()->readColors(), ctSize); } SkASSERT(info == pixmap.info()); size_t rowBytes = pixmap.rowBytes(); DeferredTextureImage* dti = new (buffer) DeferredTextureImage(); dti->fContextUniqueID = proxy.fContextUniqueID; dti->fData.fInfo = info; dti->fData.fPixelData = pixels; dti->fData.fRowBytes = rowBytes; dti->fData.fColorTableCnt = ctCount; dti->fData.fColorTableData = ct; return size; } sk_sp SkImage::MakeFromDeferredTextureImageData(GrContext* context, const void* data, SkBudgeted budgeted) { if (!data) { return nullptr; } const DeferredTextureImage* dti = reinterpret_cast(data); if (!context || context->uniqueID() != dti->fContextUniqueID) { return nullptr; } SkAutoTUnref colorTable; if (dti->fData.fColorTableCnt) { SkASSERT(dti->fData.fColorTableData); colorTable.reset(new SkColorTable(dti->fData.fColorTableData, dti->fData.fColorTableCnt)); } SkPixmap pixmap; pixmap.reset(dti->fData.fInfo, dti->fData.fPixelData, dti->fData.fRowBytes, colorTable.get()); return SkImage::MakeTextureFromPixmap(context, pixmap, budgeted); } /////////////////////////////////////////////////////////////////////////////////////////////////// GrTexture* GrDeepCopyTexture(GrTexture* src, SkBudgeted budgeted) { GrContext* ctx = src->getContext(); GrSurfaceDesc desc = src->desc(); GrTexture* dst = ctx->textureProvider()->createTexture(desc, budgeted, nullptr, 0); if (!dst) { return nullptr; } const SkIRect srcR = SkIRect::MakeWH(desc.fWidth, desc.fHeight); const SkIPoint dstP = SkIPoint::Make(0, 0); ctx->copySurface(dst, src, srcR, dstP); ctx->flushSurfaceWrites(dst); return dst; }