/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*- * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/layers/YCbCrImageDataSerializer.h" #define MOZ_ALIGN_WORD(x) (((x) + 3) & ~3) using namespace mozilla::ipc; namespace mozilla { namespace layers { // The Data is layed out as follows: // // +-----------------+ -++ --+ --+ <-- Beginning of the buffer // | YCbCrBufferInfo | | | | // +-----------------+ --+ | | // | data | | | YCbCrBufferInfo->[mY/mCb/mCr]Offset // +-----------------+ ------+ | // | data | | // +-----------------+ ----------+ // | data | // +-----------------+ // // There can be padding between the blocks above to keep word alignment. // Structure written at the beginning og the data blob containing the image // (as shown in the figure above). It contains the necessary informations to // read the image in the blob. struct YCbCrBufferInfo { uint32_t mYOffset; uint32_t mCbOffset; uint32_t mCrOffset; uint32_t mYWidth; uint32_t mYHeight; uint32_t mCbCrWidth; uint32_t mCbCrHeight; }; static YCbCrBufferInfo* GetYCbCrBufferInfo(uint8_t* aData) { return reinterpret_cast(aData); } bool YCbCrImageDataDeserializerBase::IsValid() { if (mData == nullptr) { return false; } size_t bufferInfoSize = MOZ_ALIGN_WORD(sizeof(YCbCrBufferInfo)); return true; } uint8_t* YCbCrImageDataDeserializerBase::GetYData() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return reinterpret_cast(info) + info->mYOffset; } uint8_t* YCbCrImageDataDeserializerBase::GetCbData() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return reinterpret_cast(info) + info->mCbOffset; } uint8_t* YCbCrImageDataDeserializerBase::GetCrData() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return reinterpret_cast(info) + info->mCrOffset; } uint8_t* YCbCrImageDataDeserializerBase::GetData() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return (reinterpret_cast(info)) + MOZ_ALIGN_WORD(sizeof(YCbCrBufferInfo)); } uint32_t YCbCrImageDataDeserializerBase::GetYStride() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return info->mYWidth; } uint32_t YCbCrImageDataDeserializerBase::GetCbCrStride() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return info->mCbCrWidth; } gfxIntSize YCbCrImageDataDeserializerBase::GetYSize() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return gfxIntSize(info->mYWidth, info->mYHeight); } gfxIntSize YCbCrImageDataDeserializerBase::GetCbCrSize() { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); return gfxIntSize(info->mCbCrWidth, info->mCbCrHeight); } // Offset in bytes static size_t ComputeOffset(uint32_t aHeight, uint32_t aStride) { return MOZ_ALIGN_WORD(aHeight * aStride); } // Minimum required shmem size in bytes size_t YCbCrImageDataSerializer::ComputeMinBufferSize(const gfx::IntSize& aYSize, const gfx::IntSize& aCbCrSize) { uint32_t yStride = aYSize.width; uint32_t CbCrStride = aCbCrSize.width; return ComputeOffset(aYSize.height, yStride) + 2 * ComputeOffset(aCbCrSize.height, CbCrStride) + MOZ_ALIGN_WORD(sizeof(YCbCrBufferInfo)); } size_t YCbCrImageDataSerializer::ComputeMinBufferSize(const gfxIntSize& aYSize, const gfxIntSize& aCbCrSize) { return ComputeMinBufferSize(gfx::IntSize(aYSize.width, aYSize.height), gfx::IntSize(aCbCrSize.width, aCbCrSize.height)); } // Offset in bytes static size_t ComputeOffset(uint32_t aSize) { return MOZ_ALIGN_WORD(aSize); } // Minimum required shmem size in bytes size_t YCbCrImageDataSerializer::ComputeMinBufferSize(uint32_t aSize) { return ComputeOffset(aSize) + MOZ_ALIGN_WORD(sizeof(YCbCrBufferInfo)); } void YCbCrImageDataSerializer::InitializeBufferInfo(const gfx::IntSize& aYSize, const gfx::IntSize& aCbCrSize) { YCbCrBufferInfo* info = GetYCbCrBufferInfo(mData); info->mYOffset = MOZ_ALIGN_WORD(sizeof(YCbCrBufferInfo)); info->mCbOffset = info->mYOffset + MOZ_ALIGN_WORD(aYSize.width * aYSize.height); info->mCrOffset = info->mCbOffset + MOZ_ALIGN_WORD(aCbCrSize.width * aCbCrSize.height); info->mYWidth = aYSize.width; info->mYHeight = aYSize.height; info->mCbCrWidth = aCbCrSize.width; info->mCbCrHeight = aCbCrSize.height; } void YCbCrImageDataSerializer::InitializeBufferInfo(const gfxIntSize& aYSize, const gfxIntSize& aCbCrSize) { InitializeBufferInfo(gfx::IntSize(aYSize.width, aYSize.height), gfx::IntSize(aCbCrSize.width, aCbCrSize.height)); } static void CopyLineWithSkip(const uint8_t* src, uint8_t* dst, uint32_t len, uint32_t skip) { for (uint32_t i = 0; i < len; ++i) { *dst = *src; src += 1 + skip; ++dst; } } bool YCbCrImageDataSerializer::CopyData(const uint8_t* aYData, const uint8_t* aCbData, const uint8_t* aCrData, gfxIntSize aYSize, uint32_t aYStride, gfxIntSize aCbCrSize, uint32_t aCbCrStride, uint32_t aYSkip, uint32_t aCbCrSkip) { if (!IsValid() || GetYSize() != aYSize || GetCbCrSize() != aCbCrSize) { return false; } for (int i = 0; i < aYSize.height; ++i) { if (aYSkip == 0) { // fast path memcpy(GetYData() + i * GetYStride(), aYData + i * aYStride, aYSize.width); } else { // slower path CopyLineWithSkip(aYData + i * aYStride, GetYData() + i * GetYStride(), aYSize.width, aYSkip); } } for (int i = 0; i < aCbCrSize.height; ++i) { if (aCbCrSkip == 0) { // fast path memcpy(GetCbData() + i * GetCbCrStride(), aCbData + i * aCbCrStride, aCbCrSize.width); memcpy(GetCrData() + i * GetCbCrStride(), aCrData + i * aCbCrStride, aCbCrSize.width); } else { // slower path CopyLineWithSkip(aCbData + i * aCbCrStride, GetCbData() + i * GetCbCrStride(), aCbCrSize.width, aCbCrSkip); CopyLineWithSkip(aCrData + i * aCbCrStride, GetCrData() + i * GetCbCrStride(), aCbCrSize.width, aCbCrSkip); } } return true; } } // namespace } // namespace