//=============================================================================== // Copyright (c) 2007-2016 Advanced Micro Devices, Inc. All rights reserved. // Copyright (c) 2004-2006 ATI Technologies Inc. //=============================================================================== // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files(the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and / or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions : // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // // // File Name: CodecBuffer_RGBA2101010.cpp // Description: implementation of the CCodecBuffer_RGBA2101010 class // ////////////////////////////////////////////////////////////////////////////// #include "Common.h" #include "CodecBuffer_RGBA2101010.h" ////////////////////////////////////////////////////////////////////////////// // Construction/Destruction ////////////////////////////////////////////////////////////////////////////// const int nChannelCount = 4; const int nPixelSize = sizeof(CMP_DWORD); CCodecBuffer_RGBA2101010::CCodecBuffer_RGBA2101010( CMP_BYTE nBlockWidth, CMP_BYTE nBlockHeight, CMP_BYTE nBlockDepth, CMP_DWORD dwWidth, CMP_DWORD dwHeight, CMP_DWORD dwPitch, CMP_BYTE* pData,CMP_DWORD dwDataSize) : CCodecBuffer(nBlockWidth, nBlockHeight, nBlockDepth, dwWidth, dwHeight, dwPitch, pData,dwDataSize) { assert((m_dwPitch == 0) || (m_dwPitch >= GetWidth() * nPixelSize)); if(m_dwPitch <= GetWidth() * nPixelSize) m_dwPitch = GetWidth() * nPixelSize; if(m_pData == NULL) { CMP_DWORD dwSize = m_dwPitch * GetHeight(); m_pData = (CMP_BYTE*) malloc(dwSize); } } CCodecBuffer_RGBA2101010::~CCodecBuffer_RGBA2101010() { } void CCodecBuffer_RGBA2101010::Copy(CCodecBuffer& srcBuffer) { if(GetWidth() != srcBuffer.GetWidth() || GetHeight() != srcBuffer.GetHeight()) return; const CMP_DWORD dwBlocksX = ((GetWidth() + 3) >> 2); const CMP_DWORD dwBlocksY = ((GetHeight() + 3) >> 2); for(CMP_DWORD j = 0; j < dwBlocksY; j++) { for(CMP_DWORD i = 0; i < dwBlocksX; i++) { CMP_DWORD block[BLOCK_SIZE_4X4]; srcBuffer.ReadBlockRGBA(i*4, j*4, 4, 4, block); WriteBlockRGBA(i*4, j*4, 4, 4, block); } } } bool CCodecBuffer_RGBA2101010::ReadBlock(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[], CMP_DWORD dwChannelMask, CMP_DWORD dwChannelOffset, bool b10Bit) { assert(x < GetWidth()); assert(y < GetHeight()); if(x >= GetWidth() || y >= GetHeight()) return false; CMP_DWORD dwWidth = min(w, (GetWidth() - x)); CMP_DWORD i, j; for(j = 0; j < h && (y + j) < GetHeight(); j++) { CMP_DWORD* pData = (CMP_DWORD*) (GetData() + ((y + j) * m_dwPitch) + (x * nPixelSize)); for(i = 0; i < dwWidth; i++) { CMP_DWORD dwData = *pData++; if(b10Bit) block[(j * w) + i] = CONVERT_10BIT_TO_WORD(static_cast(((dwData) >> dwChannelOffset) & dwChannelMask)); else block[(j * w) + i] = CONVERT_2BIT_TO_WORD(static_cast(((dwData) >> dwChannelOffset) & dwChannelMask)); } // Pad line with previous values if necessary if(i < w) PadLine(i, w, 1, &block[j * w]); } // Pad block with previous values if necessary if(j < h) PadBlock(j, w, h, 1, block); return true; } bool CCodecBuffer_RGBA2101010::WriteBlock(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[], CMP_DWORD dwChannelMask, CMP_DWORD dwChannelOffset, bool b10Bit) { assert(x < GetWidth()); assert(y < GetHeight()); if(x >= GetWidth() || y >= GetHeight()) return false; CMP_DWORD dwMask = ~((CMP_DWORD) dwChannelMask << dwChannelOffset); CMP_DWORD dwWidth = min(w, (GetWidth() - x)); for(CMP_DWORD j = 0; j < h && (y + j) < GetHeight(); j++) { CMP_DWORD* pData = (CMP_DWORD*) (GetData() + ((y + j) * m_dwPitch) + (x * nPixelSize)); for(CMP_DWORD i = 0; i < dwWidth; i++) { if(b10Bit) *pData = (*pData & dwMask) | (((CMP_DWORD) (CONVERT_WORD_TO_10BIT(block[(j * w) + i]))) << dwChannelOffset); else *pData = (*pData & dwMask) | (((CMP_DWORD) (CONVERT_WORD_TO_2BIT(block[(j * w) + i]))) << dwChannelOffset); pData++; } } return true; } bool CCodecBuffer_RGBA2101010::ReadBlockA(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return ReadBlock(x, y, w, h, block, TWO_BIT_MASK, RGBA2101010_OFFSET_A, false); } bool CCodecBuffer_RGBA2101010::ReadBlockR(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return ReadBlock(x, y, w, h, block, TEN_BIT_MASK, RGBA2101010_OFFSET_R, true); } bool CCodecBuffer_RGBA2101010::ReadBlockG(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return ReadBlock(x, y, w, h, block, TEN_BIT_MASK, RGBA2101010_OFFSET_G, true); } bool CCodecBuffer_RGBA2101010::ReadBlockB(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return ReadBlock(x, y, w, h, block, TEN_BIT_MASK, RGBA2101010_OFFSET_B, true); } bool CCodecBuffer_RGBA2101010::WriteBlockA(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return WriteBlock(x, y, w, h, block, TWO_BIT_MASK, RGBA2101010_OFFSET_A, false); } bool CCodecBuffer_RGBA2101010::WriteBlockR(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return WriteBlock(x, y, w, h, block, TEN_BIT_MASK, RGBA2101010_OFFSET_R, true); } bool CCodecBuffer_RGBA2101010::WriteBlockG(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return WriteBlock(x, y, w, h, block, TEN_BIT_MASK, RGBA2101010_OFFSET_G, true); } bool CCodecBuffer_RGBA2101010::WriteBlockB(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { return WriteBlock(x, y, w, h, block, TEN_BIT_MASK, RGBA2101010_OFFSET_B, true); } bool CCodecBuffer_RGBA2101010::ReadBlockRGBA(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_DWORD block[]) { assert(x < GetWidth()); assert(y < GetHeight()); assert(x % w == 0); assert(y % h == 0); if(x >= GetWidth() || y >= GetHeight()) return false; CMP_DWORD dwWidth = min(w, (GetWidth() - x)); CMP_DWORD i, j; for(j = 0; j < h && (y + j) < GetHeight(); j++) { CMP_DWORD* pData = (CMP_DWORD*) (GetData() + ((y + j) * m_dwPitch) + (x * nPixelSize)); for(i = 0; i < dwWidth; i++) block[(j * w) + i] = *pData++; // Pad line with previous values if necessary if(i < w) PadLine(i, w, 4, &block[j * w * 4]); } // Pad block with previous values if necessary if(j < h) PadBlock(j, w, h, 4, block); return true; } bool CCodecBuffer_RGBA2101010::WriteBlockRGBA(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_DWORD block[]) { assert(x < GetWidth()); assert(y < GetHeight()); assert(x % w == 0); assert(y % h == 0); if(x >= GetWidth() || y >= GetHeight()) return false; CMP_DWORD dwWidth = min(w, (GetWidth() - x)); for(CMP_DWORD j = 0; j < h && (y + j) < GetHeight(); j++) { CMP_DWORD* pData = (CMP_DWORD*) (GetData() + ((y + j) * m_dwPitch) + (x * nPixelSize)); for(CMP_DWORD i = 0; i < dwWidth; i++) *pData++ = block[(j * w) + i]; } return true; } #define GET_PIXEL(i, j) &block[(((j * w) + i) * 4)] bool CCodecBuffer_RGBA2101010::ReadBlockRGBA(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { assert(x < GetWidth()); assert(y < GetHeight()); if(x >= GetWidth() || y >= GetHeight()) return false; CMP_DWORD dwWidth = min(w, (GetWidth() - x)); CMP_DWORD i, j; for(j = 0; j < h && (y + j) < GetHeight(); j++) { CMP_DWORD* pData = (CMP_DWORD*) (GetData() + ((y + j) * m_dwPitch) + (x * nPixelSize)); for(i = 0; i < dwWidth; i++) { block[(((j * w) + i) * 4) + 0] = CONVERT_10BIT_TO_WORD(((*pData) >> RGBA2101010_OFFSET_R) & TEN_BIT_MASK); block[(((j * w) + i) * 4) + 1] = CONVERT_10BIT_TO_WORD(((*pData) >> RGBA2101010_OFFSET_G) & TEN_BIT_MASK); block[(((j * w) + i) * 4) + 2] = CONVERT_10BIT_TO_WORD(((*pData) >> RGBA2101010_OFFSET_B) & TEN_BIT_MASK); block[(((j * w) + i) * 4) + 3] = CONVERT_2BIT_TO_WORD(((*pData) >> RGBA2101010_OFFSET_A) & TWO_BIT_MASK); pData++; } // Pad line with previous values if necessary if(i < w) PadLine(i, w, 4, &block[j * w * 4]); } // Pad block with previous values if necessary if(j < h) PadBlock(j, w, h, 4, block); return true; } bool CCodecBuffer_RGBA2101010::WriteBlockRGBA(CMP_DWORD x, CMP_DWORD y, CMP_BYTE w, CMP_BYTE h, CMP_WORD block[]) { assert(x < GetWidth()); assert(y < GetHeight()); assert(x % w == 0); assert(y % h == 0); if(x >= GetWidth() || y >= GetHeight()) return false; CMP_DWORD dwWidth = min(w, (GetWidth() - x)); for(CMP_DWORD j = 0; j < h && (y + j) < GetHeight(); j++) { CMP_DWORD* pData = (CMP_DWORD*) (GetData() + ((y + j) * m_dwPitch) + (x * nPixelSize)); for(CMP_DWORD i = 0; i < dwWidth; i++) { CMP_WORD wRed = block[(((j * w) + i) * 4) + 0]; CMP_WORD wGreen = block[(((j * w) + i) * 4) + 1]; CMP_WORD wBlue = block[(((j * w) + i) * 4) + 2]; CMP_WORD wAlpha = block[(((j * w) + i) * 4) + 3]; *pData++ = (CONVERT_WORD_TO_10BIT(wRed) << RGBA2101010_OFFSET_R) | (CONVERT_WORD_TO_10BIT(wGreen) << RGBA2101010_OFFSET_G) | (CONVERT_WORD_TO_10BIT(wBlue) << RGBA2101010_OFFSET_B) | (CONVERT_WORD_TO_10BIT(wAlpha) << RGBA2101010_OFFSET_A); } } return true; }