/* The copyright in this software is being made available under the BSD * License, included below. This software may be subject to other third party * and contributor rights, including patent rights, and no such rights are * granted under this license. * * Copyright (c) 2010-2015, ITU/ISO/IEC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of the ITU/ISO/IEC nor the names of its contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ /** \file TComRom.cpp \brief global variables & functions */ #include "TComRom.h" #include #include #include #include #include #include "TComDataCU.h" #include "Debug.h" // ==================================================================================================================== // Initialize / destroy functions // ==================================================================================================================== //! \ingroup TLibCommon //! \{ class ScanGenerator { private: UInt m_line, m_column; const UInt m_blockWidth, m_blockHeight; const UInt m_stride; const COEFF_SCAN_TYPE m_scanType; public: ScanGenerator(UInt blockWidth, UInt blockHeight, UInt stride, COEFF_SCAN_TYPE scanType) : m_line(0), m_column(0), m_blockWidth(blockWidth), m_blockHeight(blockHeight), m_stride(stride), m_scanType(scanType) { } UInt GetCurrentX() const { return m_column; } UInt GetCurrentY() const { return m_line; } UInt GetNextIndex(UInt blockOffsetX, UInt blockOffsetY) { Int rtn=((m_line + blockOffsetY) * m_stride) + m_column + blockOffsetX; //advance line and column to the next position switch (m_scanType) { //------------------------------------------------ case SCAN_DIAG: { if ((m_column == (m_blockWidth - 1)) || (m_line == 0)) //if we reach the end of a rank, go diagonally down to the next one { m_line += m_column + 1; m_column = 0; if (m_line >= m_blockHeight) //if that takes us outside the block, adjust so that we are back on the bottom row { m_column += m_line - (m_blockHeight - 1); m_line = m_blockHeight - 1; } } else { m_column++; m_line--; } } break; //------------------------------------------------ case SCAN_HOR: { if (m_column == (m_blockWidth - 1)) { m_line++; m_column = 0; } else { m_column++; } } break; //------------------------------------------------ case SCAN_VER: { if (m_line == (m_blockHeight - 1)) { m_column++; m_line = 0; } else { m_line++; } } break; //------------------------------------------------ default: { std::cerr << "ERROR: Unknown scan type \"" << m_scanType << "\"in ScanGenerator::GetNextIndex" << std::endl; exit(1); } break; } return rtn; } }; // initialize ROM variables Void initROM() { Int i, c; // g_aucConvertToBit[ x ]: log2(x/4), if x=4 -> 0, x=8 -> 1, x=16 -> 2, ... ::memset( g_aucConvertToBit, -1, sizeof( g_aucConvertToBit ) ); c=0; for ( i=4; i<=MAX_CU_SIZE; i*=2 ) { g_aucConvertToBit[ i ] = c; c++; } // initialise scan orders for(UInt log2BlockHeight = 0; log2BlockHeight < MAX_CU_DEPTH; log2BlockHeight++) { for(UInt log2BlockWidth = 0; log2BlockWidth < MAX_CU_DEPTH; log2BlockWidth++) { const UInt blockWidth = 1 << log2BlockWidth; const UInt blockHeight = 1 << log2BlockHeight; const UInt totalValues = blockWidth * blockHeight; //-------------------------------------------------------------------------------------------------- //non-grouped scan orders for (UInt scanTypeIndex = 0; scanTypeIndex < SCAN_NUMBER_OF_TYPES; scanTypeIndex++) { const COEFF_SCAN_TYPE scanType = COEFF_SCAN_TYPE(scanTypeIndex); g_scanOrder[SCAN_UNGROUPED][scanType][log2BlockWidth][log2BlockHeight] = new UInt[totalValues]; ScanGenerator fullBlockScan(blockWidth, blockHeight, blockWidth, scanType); for (UInt scanPosition = 0; scanPosition < totalValues; scanPosition++) { g_scanOrder[SCAN_UNGROUPED][scanType][log2BlockWidth][log2BlockHeight][scanPosition] = fullBlockScan.GetNextIndex(0, 0); } } //-------------------------------------------------------------------------------------------------- //grouped scan orders const UInt groupWidth = 1 << MLS_CG_LOG2_WIDTH; const UInt groupHeight = 1 << MLS_CG_LOG2_HEIGHT; const UInt widthInGroups = blockWidth >> MLS_CG_LOG2_WIDTH; const UInt heightInGroups = blockHeight >> MLS_CG_LOG2_HEIGHT; const UInt groupSize = groupWidth * groupHeight; const UInt totalGroups = widthInGroups * heightInGroups; for (UInt scanTypeIndex = 0; scanTypeIndex < SCAN_NUMBER_OF_TYPES; scanTypeIndex++) { const COEFF_SCAN_TYPE scanType = COEFF_SCAN_TYPE(scanTypeIndex); g_scanOrder[SCAN_GROUPED_4x4][scanType][log2BlockWidth][log2BlockHeight] = new UInt[totalValues]; ScanGenerator fullBlockScan(widthInGroups, heightInGroups, groupWidth, scanType); for (UInt groupIndex = 0; groupIndex < totalGroups; groupIndex++) { const UInt groupPositionY = fullBlockScan.GetCurrentY(); const UInt groupPositionX = fullBlockScan.GetCurrentX(); const UInt groupOffsetX = groupPositionX * groupWidth; const UInt groupOffsetY = groupPositionY * groupHeight; const UInt groupOffsetScan = groupIndex * groupSize; ScanGenerator groupScan(groupWidth, groupHeight, blockWidth, scanType); for (UInt scanPosition = 0; scanPosition < groupSize; scanPosition++) { g_scanOrder[SCAN_GROUPED_4x4][scanType][log2BlockWidth][log2BlockHeight][groupOffsetScan + scanPosition] = groupScan.GetNextIndex(groupOffsetX, groupOffsetY); } fullBlockScan.GetNextIndex(0,0); } } //-------------------------------------------------------------------------------------------------- } } } Void destroyROM() { for(UInt groupTypeIndex = 0; groupTypeIndex < SCAN_NUMBER_OF_GROUP_TYPES; groupTypeIndex++) { for (UInt scanOrderIndex = 0; scanOrderIndex < SCAN_NUMBER_OF_TYPES; scanOrderIndex++) { for (UInt log2BlockWidth = 0; log2BlockWidth < MAX_CU_DEPTH; log2BlockWidth++) { for (UInt log2BlockHeight = 0; log2BlockHeight < MAX_CU_DEPTH; log2BlockHeight++) { delete [] g_scanOrder[groupTypeIndex][scanOrderIndex][log2BlockWidth][log2BlockHeight]; } } } } } // ==================================================================================================================== // Data structure related table & variable // ==================================================================================================================== UInt g_uiMaxCUWidth = MAX_CU_SIZE; UInt g_uiMaxCUHeight = MAX_CU_SIZE; UInt g_uiMaxCUDepth = MAX_CU_DEPTH; UInt g_uiAddCUDepth = 0; UInt g_auiZscanToRaster [ MAX_NUM_SPU_W*MAX_NUM_SPU_W ] = { 0, }; UInt g_auiRasterToZscan [ MAX_NUM_SPU_W*MAX_NUM_SPU_W ] = { 0, }; UInt g_auiRasterToPelX [ MAX_NUM_SPU_W*MAX_NUM_SPU_W ] = { 0, }; UInt g_auiRasterToPelY [ MAX_NUM_SPU_W*MAX_NUM_SPU_W ] = { 0, }; UInt g_auiPUOffset[NUMBER_OF_PART_SIZES] = { 0, 8, 4, 4, 2, 10, 1, 5}; Void initZscanToRaster ( Int iMaxDepth, Int iDepth, UInt uiStartVal, UInt*& rpuiCurrIdx ) { Int iStride = 1 << ( iMaxDepth - 1 ); if ( iDepth == iMaxDepth ) { rpuiCurrIdx[0] = uiStartVal; rpuiCurrIdx++; } else { Int iStep = iStride >> iDepth; initZscanToRaster( iMaxDepth, iDepth+1, uiStartVal, rpuiCurrIdx ); initZscanToRaster( iMaxDepth, iDepth+1, uiStartVal+iStep, rpuiCurrIdx ); initZscanToRaster( iMaxDepth, iDepth+1, uiStartVal+iStep*iStride, rpuiCurrIdx ); initZscanToRaster( iMaxDepth, iDepth+1, uiStartVal+iStep*iStride+iStep, rpuiCurrIdx ); } } Void initRasterToZscan ( UInt uiMaxCUWidth, UInt uiMaxCUHeight, UInt uiMaxDepth ) { UInt uiMinCUWidth = uiMaxCUWidth >> ( uiMaxDepth - 1 ); UInt uiMinCUHeight = uiMaxCUHeight >> ( uiMaxDepth - 1 ); UInt uiNumPartInWidth = (UInt)uiMaxCUWidth / uiMinCUWidth; UInt uiNumPartInHeight = (UInt)uiMaxCUHeight / uiMinCUHeight; for ( UInt i = 0; i < uiNumPartInWidth*uiNumPartInHeight; i++ ) { g_auiRasterToZscan[ g_auiZscanToRaster[i] ] = i; } } Void initRasterToPelXY ( UInt uiMaxCUWidth, UInt uiMaxCUHeight, UInt uiMaxDepth ) { UInt i; UInt* uiTempX = &g_auiRasterToPelX[0]; UInt* uiTempY = &g_auiRasterToPelY[0]; UInt uiMinCUWidth = uiMaxCUWidth >> ( uiMaxDepth - 1 ); UInt uiMinCUHeight = uiMaxCUHeight >> ( uiMaxDepth - 1 ); UInt uiNumPartInWidth = uiMaxCUWidth / uiMinCUWidth; UInt uiNumPartInHeight = uiMaxCUHeight / uiMinCUHeight; uiTempX[0] = 0; uiTempX++; for ( i = 1; i < uiNumPartInWidth; i++ ) { uiTempX[0] = uiTempX[-1] + uiMinCUWidth; uiTempX++; } for ( i = 1; i < uiNumPartInHeight; i++ ) { memcpy(uiTempX, uiTempX-uiNumPartInWidth, sizeof(UInt)*uiNumPartInWidth); uiTempX += uiNumPartInWidth; } for ( i = 1; i < uiNumPartInWidth*uiNumPartInHeight; i++ ) { uiTempY[i] = ( i / uiNumPartInWidth ) * uiMinCUWidth; } } Int g_maxTrDynamicRange[MAX_NUM_CHANNEL_TYPE]; Int g_quantScales[SCALING_LIST_REM_NUM] = { 26214,23302,20560,18396,16384,14564 }; Int g_invQuantScales[SCALING_LIST_REM_NUM] = { 40,45,51,57,64,72 }; //-------------------------------------------------------------------------------------------------- //structures #define DEFINE_DST4x4_MATRIX(a,b,c,d) \ { \ { a, b, c, d }, \ { c, c, 0, -c }, \ { d, -a, -c, b }, \ { b, -d, c, -a }, \ } #define DEFINE_DCT4x4_MATRIX(a,b,c) \ { \ { a, a, a, a}, \ { b, c, -c, -b}, \ { a, -a, -a, a}, \ { c, -b, b, -c} \ } #define DEFINE_DCT8x8_MATRIX(a,b,c,d,e,f,g) \ { \ { a, a, a, a, a, a, a, a}, \ { d, e, f, g, -g, -f, -e, -d}, \ { b, c, -c, -b, -b, -c, c, b}, \ { e, -g, -d, -f, f, d, g, -e}, \ { a, -a, -a, a, a, -a, -a, a}, \ { f, -d, g, e, -e, -g, d, -f}, \ { c, -b, b, -c, -c, b, -b, c}, \ { g, -f, e, -d, d, -e, f, -g} \ } #define DEFINE_DCT16x16_MATRIX(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o) \ { \ { a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a}, \ { h, i, j, k, l, m, n, o, -o, -n, -m, -l, -k, -j, -i, -h}, \ { d, e, f, g, -g, -f, -e, -d, -d, -e, -f, -g, g, f, e, d}, \ { i, l, o, -m, -j, -h, -k, -n, n, k, h, j, m, -o, -l, -i}, \ { b, c, -c, -b, -b, -c, c, b, b, c, -c, -b, -b, -c, c, b}, \ { j, o, -k, -i, -n, l, h, m, -m, -h, -l, n, i, k, -o, -j}, \ { e, -g, -d, -f, f, d, g, -e, -e, g, d, f, -f, -d, -g, e}, \ { k, -m, -i, o, h, n, -j, -l, l, j, -n, -h, -o, i, m, -k}, \ { a, -a, -a, a, a, -a, -a, a, a, -a, -a, a, a, -a, -a, a}, \ { l, -j, -n, h, -o, -i, m, k, -k, -m, i, o, -h, n, j, -l}, \ { f, -d, g, e, -e, -g, d, -f, -f, d, -g, -e, e, g, -d, f}, \ { m, -h, l, n, -i, k, o, -j, j, -o, -k, i, -n, -l, h, -m}, \ { c, -b, b, -c, -c, b, -b, c, c, -b, b, -c, -c, b, -b, c}, \ { n, -k, h, -j, m, o, -l, i, -i, l, -o, -m, j, -h, k, -n}, \ { g, -f, e, -d, d, -e, f, -g, -g, f, -e, d, -d, e, -f, g}, \ { o, -n, m, -l, k, -j, i, -h, h, -i, j, -k, l, -m, n, -o} \ } #define DEFINE_DCT32x32_MATRIX(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z,A,B,C,D,E) \ { \ { a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a, a}, \ { p, q, r, s, t, u, v, w, x, y, z, A, B, C, D, E, -E, -D, -C, -B, -A, -z, -y, -x, -w, -v, -u, -t, -s, -r, -q, -p}, \ { h, i, j, k, l, m, n, o, -o, -n, -m, -l, -k, -j, -i, -h, -h, -i, -j, -k, -l, -m, -n, -o, o, n, m, l, k, j, i, h}, \ { q, t, w, z, C, -E, -B, -y, -v, -s, -p, -r, -u, -x, -A, -D, D, A, x, u, r, p, s, v, y, B, E, -C, -z, -w, -t, -q}, \ { d, e, f, g, -g, -f, -e, -d, -d, -e, -f, -g, g, f, e, d, d, e, f, g, -g, -f, -e, -d, -d, -e, -f, -g, g, f, e, d}, \ { r, w, B, -D, -y, -t, -p, -u, -z, -E, A, v, q, s, x, C, -C, -x, -s, -q, -v, -A, E, z, u, p, t, y, D, -B, -w, -r}, \ { i, l, o, -m, -j, -h, -k, -n, n, k, h, j, m, -o, -l, -i, -i, -l, -o, m, j, h, k, n, -n, -k, -h, -j, -m, o, l, i}, \ { s, z, -D, -w, -p, -v, -C, A, t, r, y, -E, -x, -q, -u, -B, B, u, q, x, E, -y, -r, -t, -A, C, v, p, w, D, -z, -s}, \ { b, c, -c, -b, -b, -c, c, b, b, c, -c, -b, -b, -c, c, b, b, c, -c, -b, -b, -c, c, b, b, c, -c, -b, -b, -c, c, b}, \ { t, C, -y, -p, -x, D, u, s, B, -z, -q, -w, E, v, r, A, -A, -r, -v, -E, w, q, z, -B, -s, -u, -D, x, p, y, -C, -t}, \ { j, o, -k, -i, -n, l, h, m, -m, -h, -l, n, i, k, -o, -j, -j, -o, k, i, n, -l, -h, -m, m, h, l, -n, -i, -k, o, j}, \ { u, -E, -t, -v, D, s, w, -C, -r, -x, B, q, y, -A, -p, -z, z, p, A, -y, -q, -B, x, r, C, -w, -s, -D, v, t, E, -u}, \ { e, -g, -d, -f, f, d, g, -e, -e, g, d, f, -f, -d, -g, e, e, -g, -d, -f, f, d, g, -e, -e, g, d, f, -f, -d, -g, e}, \ { v, -B, -p, -C, u, w, -A, -q, -D, t, x, -z, -r, -E, s, y, -y, -s, E, r, z, -x, -t, D, q, A, -w, -u, C, p, B, -v}, \ { k, -m, -i, o, h, n, -j, -l, l, j, -n, -h, -o, i, m, -k, -k, m, i, -o, -h, -n, j, l, -l, -j, n, h, o, -i, -m, k}, \ { w, -y, -u, A, s, -C, -q, E, p, D, -r, -B, t, z, -v, -x, x, v, -z, -t, B, r, -D, -p, -E, q, C, -s, -A, u, y, -w}, \ { a, -a, -a, a, a, -a, -a, a, a, -a, -a, a, a, -a, -a, a, a, -a, -a, a, a, -a, -a, a, a, -a, -a, a, a, -a, -a, a}, \ { x, -v, -z, t, B, -r, -D, p, -E, -q, C, s, -A, -u, y, w, -w, -y, u, A, -s, -C, q, E, -p, D, r, -B, -t, z, v, -x}, \ { l, -j, -n, h, -o, -i, m, k, -k, -m, i, o, -h, n, j, -l, -l, j, n, -h, o, i, -m, -k, k, m, -i, -o, h, -n, -j, l}, \ { y, -s, -E, r, -z, -x, t, D, -q, A, w, -u, -C, p, -B, -v, v, B, -p, C, u, -w, -A, q, -D, -t, x, z, -r, E, s, -y}, \ { f, -d, g, e, -e, -g, d, -f, -f, d, -g, -e, e, g, -d, f, f, -d, g, e, -e, -g, d, -f, -f, d, -g, -e, e, g, -d, f}, \ { z, -p, A, y, -q, B, x, -r, C, w, -s, D, v, -t, E, u, -u, -E, t, -v, -D, s, -w, -C, r, -x, -B, q, -y, -A, p, -z}, \ { m, -h, l, n, -i, k, o, -j, j, -o, -k, i, -n, -l, h, -m, -m, h, -l, -n, i, -k, -o, j, -j, o, k, -i, n, l, -h, m}, \ { A, -r, v, -E, -w, q, -z, -B, s, -u, D, x, -p, y, C, -t, t, -C, -y, p, -x, -D, u, -s, B, z, -q, w, E, -v, r, -A}, \ { c, -b, b, -c, -c, b, -b, c, c, -b, b, -c, -c, b, -b, c, c, -b, b, -c, -c, b, -b, c, c, -b, b, -c, -c, b, -b, c}, \ { B, -u, q, -x, E, y, -r, t, -A, -C, v, -p, w, -D, -z, s, -s, z, D, -w, p, -v, C, A, -t, r, -y, -E, x, -q, u, -B}, \ { n, -k, h, -j, m, o, -l, i, -i, l, -o, -m, j, -h, k, -n, -n, k, -h, j, -m, -o, l, -i, i, -l, o, m, -j, h, -k, n}, \ { C, -x, s, -q, v, -A, -E, z, -u, p, -t, y, -D, -B, w, -r, r, -w, B, D, -y, t, -p, u, -z, E, A, -v, q, -s, x, -C}, \ { g, -f, e, -d, d, -e, f, -g, -g, f, -e, d, -d, e, -f, g, g, -f, e, -d, d, -e, f, -g, -g, f, -e, d, -d, e, -f, g}, \ { D, -A, x, -u, r, -p, s, -v, y, -B, E, C, -z, w, -t, q, -q, t, -w, z, -C, -E, B, -y, v, -s, p, -r, u, -x, A, -D}, \ { o, -n, m, -l, k, -j, i, -h, h, -i, j, -k, l, -m, n, -o, -o, n, -m, l, -k, j, -i, h, -h, i, -j, k, -l, m, -n, o}, \ { E, -D, C, -B, A, -z, y, -x, w, -v, u, -t, s, -r, q, -p, p, -q, r, -s, t, -u, v, -w, x, -y, z, -A, B, -C, D, -E} \ } //-------------------------------------------------------------------------------------------------- //coefficients #if RExt__HIGH_PRECISION_FORWARD_TRANSFORM const TMatrixCoeff g_aiT4 [TRANSFORM_NUMBER_OF_DIRECTIONS][4][4] = { DEFINE_DCT4x4_MATRIX (16384, 21266, 9224), DEFINE_DCT4x4_MATRIX ( 64, 83, 36) }; const TMatrixCoeff g_aiT8 [TRANSFORM_NUMBER_OF_DIRECTIONS][8][8] = { DEFINE_DCT8x8_MATRIX (16384, 21266, 9224, 22813, 19244, 12769, 4563), DEFINE_DCT8x8_MATRIX ( 64, 83, 36, 89, 75, 50, 18) }; const TMatrixCoeff g_aiT16[TRANSFORM_NUMBER_OF_DIRECTIONS][16][16] = { DEFINE_DCT16x16_MATRIX(16384, 21266, 9224, 22813, 19244, 12769, 4563, 23120, 22063, 20450, 17972, 14642, 11109, 6446, 2316), DEFINE_DCT16x16_MATRIX( 64, 83, 36, 89, 75, 50, 18, 90, 87, 80, 70, 57, 43, 25, 9) }; const TMatrixCoeff g_aiT32[TRANSFORM_NUMBER_OF_DIRECTIONS][32][32] = { DEFINE_DCT32x32_MATRIX(16384, 21266, 9224, 22813, 19244, 12769, 4563, 23120, 22063, 20450, 17972, 14642, 11109, 6446, 2316, 23106, 22852, 22445, 21848, 20995, 19810, 18601, 17143, 15718, 13853, 11749, 9846, 7908, 5573, 3281, 946), DEFINE_DCT32x32_MATRIX( 64, 83, 36, 89, 75, 50, 18, 90, 87, 80, 70, 57, 43, 25, 9, 90, 90, 88, 85, 82, 78, 73, 67, 61, 54, 46, 38, 31, 22, 13, 4) }; const TMatrixCoeff g_as_DST_MAT_4[TRANSFORM_NUMBER_OF_DIRECTIONS][4][4] = { DEFINE_DST4x4_MATRIX( 7424, 14081, 18893, 21505), DEFINE_DST4x4_MATRIX( 29, 55, 74, 84) }; #else const TMatrixCoeff g_aiT4 [TRANSFORM_NUMBER_OF_DIRECTIONS][4][4] = { DEFINE_DCT4x4_MATRIX ( 64, 83, 36), DEFINE_DCT4x4_MATRIX ( 64, 83, 36) }; const TMatrixCoeff g_aiT8 [TRANSFORM_NUMBER_OF_DIRECTIONS][8][8] = { DEFINE_DCT8x8_MATRIX ( 64, 83, 36, 89, 75, 50, 18), DEFINE_DCT8x8_MATRIX ( 64, 83, 36, 89, 75, 50, 18) }; const TMatrixCoeff g_aiT16[TRANSFORM_NUMBER_OF_DIRECTIONS][16][16] = { DEFINE_DCT16x16_MATRIX( 64, 83, 36, 89, 75, 50, 18, 90, 87, 80, 70, 57, 43, 25, 9), DEFINE_DCT16x16_MATRIX( 64, 83, 36, 89, 75, 50, 18, 90, 87, 80, 70, 57, 43, 25, 9) }; const TMatrixCoeff g_aiT32[TRANSFORM_NUMBER_OF_DIRECTIONS][32][32] = { DEFINE_DCT32x32_MATRIX( 64, 83, 36, 89, 75, 50, 18, 90, 87, 80, 70, 57, 43, 25, 9, 90, 90, 88, 85, 82, 78, 73, 67, 61, 54, 46, 38, 31, 22, 13, 4), DEFINE_DCT32x32_MATRIX( 64, 83, 36, 89, 75, 50, 18, 90, 87, 80, 70, 57, 43, 25, 9, 90, 90, 88, 85, 82, 78, 73, 67, 61, 54, 46, 38, 31, 22, 13, 4) }; const TMatrixCoeff g_as_DST_MAT_4[TRANSFORM_NUMBER_OF_DIRECTIONS][4][4] = { DEFINE_DST4x4_MATRIX( 29, 55, 74, 84), DEFINE_DST4x4_MATRIX( 29, 55, 74, 84) }; #endif //-------------------------------------------------------------------------------------------------- #undef DEFINE_DST4x4_MATRIX #undef DEFINE_DCT4x4_MATRIX #undef DEFINE_DCT8x8_MATRIX #undef DEFINE_DCT16x16_MATRIX #undef DEFINE_DCT32x32_MATRIX //-------------------------------------------------------------------------------------------------- const UChar g_aucChromaScale[NUM_CHROMA_FORMAT][chromaQPMappingTableSize]= { //0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57 { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }, { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,29,30,31,32,33,33,34,34,35,35,36,36,37,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51 }, { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,51,51,51,51,51,51 }, { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,51,51,51,51,51,51 } }; // ==================================================================================================================== // ADI // ==================================================================================================================== #if FAST_UDI_USE_MPM const UChar g_aucIntraModeNumFast[MAX_CU_DEPTH] = { 3, // 2x2 8, // 4x4 8, // 8x8 3, // 16x16 3, // 32x32 3 // 64x64 }; #else // FAST_UDI_USE_MPM const UChar g_aucIntraModeNumFast[MAX_CU_DEPTH] = { 3, // 2x2 9, // 4x4 9, // 8x8 4, // 16x16 33 4, // 32x32 33 5 // 64x64 33 }; #endif // FAST_UDI_USE_MPM const UChar g_chroma422IntraAngleMappingTable[NUM_INTRA_MODE] = //0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, DM { 0, 1, 2, 2, 2, 2, 3, 5, 7, 8, 10, 12, 13, 15, 17, 18, 19, 20, 21, 22, 23, 23, 24, 24, 25, 25, 26, 27, 27, 28, 28, 29, 29, 30, 31, DM_CHROMA_IDX}; // ==================================================================================================================== // Bit-depth // ==================================================================================================================== Int g_bitDepth [MAX_NUM_CHANNEL_TYPE] = {8, 8}; #if O0043_BEST_EFFORT_DECODING Int g_bitDepthInStream [MAX_NUM_CHANNEL_TYPE] = {8, 8}; // In the encoder, this is the same as g_bitDepth. In the decoder, this can vary from g_bitDepth if the decoder is forced to use 'best-effort decoding' at a particular bit-depth. #endif Int g_PCMBitDepth[MAX_NUM_CHANNEL_TYPE] = {8, 8}; // PCM bit-depth // ==================================================================================================================== // Misc. // ==================================================================================================================== Char g_aucConvertToBit [ MAX_CU_SIZE+1 ]; #if ENC_DEC_TRACE FILE* g_hTrace = NULL; // Set to NULL to open up a file. Set to stdout to use the current output const Bool g_bEncDecTraceEnable = true; const Bool g_bEncDecTraceDisable = false; Bool g_HLSTraceEnable = true; Bool g_bJustDoIt = false; UInt64 g_nSymbolCounter = 0; #endif // ==================================================================================================================== // Scanning order & context model mapping // ==================================================================================================================== // scanning order table UInt* g_scanOrder[SCAN_NUMBER_OF_GROUP_TYPES][SCAN_NUMBER_OF_TYPES][ MAX_CU_DEPTH ][ MAX_CU_DEPTH ]; const UInt ctxIndMap4x4[4*4] = { 0, 1, 4, 5, 2, 3, 4, 5, 6, 6, 8, 8, 7, 7, 8, 8 }; const UInt g_uiMinInGroup[ LAST_SIGNIFICANT_GROUPS ] = {0,1,2,3,4,6,8,12,16,24}; const UInt g_uiGroupIdx[ MAX_TU_SIZE ] = {0,1,2,3,4,4,5,5,6,6,6,6,7,7,7,7,8,8,8,8,8,8,8,8,9,9,9,9,9,9,9,9}; const Char *MatrixType[SCALING_LIST_SIZE_NUM][SCALING_LIST_NUM] = { { "INTRA4X4_LUMA", "INTRA4X4_CHROMAU", "INTRA4X4_CHROMAV", "INTER4X4_LUMA", "INTER4X4_CHROMAU", "INTER4X4_CHROMAV" }, { "INTRA8X8_LUMA", "INTRA8X8_CHROMAU", "INTRA8X8_CHROMAV", "INTER8X8_LUMA", "INTER8X8_CHROMAU", "INTER8X8_CHROMAV" }, { "INTRA16X16_LUMA", "INTRA16X16_CHROMAU", "INTRA16X16_CHROMAV", "INTER16X16_LUMA", "INTER16X16_CHROMAU", "INTER16X16_CHROMAV" }, { "INTRA32X32_LUMA", "INTRA32X32_CHROMAU_FROM16x16_CHROMAU", "INTRA32X32_CHROMAV_FROM16x16_CHROMAV", "INTER32X32_LUMA", "INTER32X32_CHROMAU_FROM16x16_CHROMAU", "INTER32X32_CHROMAV_FROM16x16_CHROMAV" }, }; const Char *MatrixType_DC[SCALING_LIST_SIZE_NUM][SCALING_LIST_NUM] = { { }, { }, { "INTRA16X16_LUMA_DC", "INTRA16X16_CHROMAU_DC", "INTRA16X16_CHROMAV_DC", "INTER16X16_LUMA_DC", "INTER16X16_CHROMAU_DC", "INTER16X16_CHROMAV_DC" }, { "INTRA32X32_LUMA_DC", "INTRA32X32_CHROMAU_DC_FROM16x16_CHROMAU", "INTRA32X32_CHROMAV_DC_FROM16x16_CHROMAV", "INTER32X32_LUMA_DC", "INTER32X32_CHROMAU_DC_FROM16x16_CHROMAU", "INTER32X32_CHROMAV_DC_FROM16x16_CHROMAV" }, }; Int g_quantTSDefault4x4[4*4] = { 16,16,16,16, 16,16,16,16, 16,16,16,16, 16,16,16,16 }; Int g_quantIntraDefault8x8[8*8] = { 16,16,16,16,17,18,21,24, 16,16,16,16,17,19,22,25, 16,16,17,18,20,22,25,29, 16,16,18,21,24,27,31,36, 17,17,20,24,30,35,41,47, 18,19,22,27,35,44,54,65, 21,22,25,31,41,54,70,88, 24,25,29,36,47,65,88,115 }; Int g_quantInterDefault8x8[8*8] = { 16,16,16,16,17,18,20,24, 16,16,16,17,18,20,24,25, 16,16,17,18,20,24,25,28, 16,17,18,20,24,25,28,33, 17,18,20,24,25,28,33,41, 18,20,24,25,28,33,41,54, 20,24,25,28,33,41,54,71, 24,25,28,33,41,54,71,91 }; UInt g_scalingListSize [SCALING_LIST_SIZE_NUM] = {16,64,256,1024}; UInt g_scalingListSizeX [SCALING_LIST_SIZE_NUM] = { 4, 8, 16, 32}; #if SVC_EXTENSION #if FAST_INTRA_SHVC UInt g_reducedSetIntraModes[NUM_INTRA_MODE-1] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 }; UInt g_predefSetIntraModes[NUM_INTRA_MODE-1] = {26,10,18,34,2,22,14,30,6,24,12,28,8,20,16,32,4,17,19,15,21,13,23,11,25,9,27,7,29,5,31,3,33,0,2}; #endif Int g_bitDepthLayer[MAX_NUM_CHANNEL_TYPE][MAX_LAYERS]; void * g_refWeightACDCParam; // type=wpACDCParam Int g_mvScalingFactor [MAX_LAYERS][2] = {{0,0}, {0,0}}; Int g_posScalingFactor [MAX_LAYERS][2] = {{0,0}, {0,0}}; std::string NaluToStr( NalUnitType nalu ) { switch( nalu ) { case NAL_UNIT_CODED_SLICE_TRAIL_N: return "TRAIL_N"; case NAL_UNIT_CODED_SLICE_TRAIL_R: return "TRAIL_R"; case NAL_UNIT_CODED_SLICE_TSA_N: return " TSA_N"; case NAL_UNIT_CODED_SLICE_TSA_R: return " TSA_R"; case NAL_UNIT_CODED_SLICE_STSA_N: return " STSA_N"; case NAL_UNIT_CODED_SLICE_STSA_R: return " STSA_R"; case NAL_UNIT_CODED_SLICE_RADL_N: return " RADL_N"; case NAL_UNIT_CODED_SLICE_RADL_R: return " RADL_R"; case NAL_UNIT_CODED_SLICE_RASL_N: return " RASL_N"; case NAL_UNIT_CODED_SLICE_RASL_R: return " RASL_R"; case NAL_UNIT_CODED_SLICE_BLA_W_LP: case NAL_UNIT_CODED_SLICE_BLA_W_RADL: case NAL_UNIT_CODED_SLICE_BLA_N_LP: return " BLA"; case NAL_UNIT_CODED_SLICE_IDR_W_RADL: case NAL_UNIT_CODED_SLICE_IDR_N_LP: return " IDR"; case NAL_UNIT_CODED_SLICE_CRA: return " CRA"; default: return " "; }; } #if LAYER_CTB UInt g_auiLayerMaxCUWidth[MAX_LAYERS]; UInt g_auiLayerMaxCUHeight[MAX_LAYERS]; UInt g_auiLayerMaxCUDepth[MAX_LAYERS]; UInt g_auiLayerAddCUDepth[MAX_LAYERS]; UInt g_auiLayerZscanToRaster[MAX_LAYERS][ MAX_NUM_SPU_W*MAX_NUM_SPU_W ]; UInt g_auiLayerRasterToZscan[MAX_LAYERS][ MAX_NUM_SPU_W*MAX_NUM_SPU_W ]; UInt g_auiLayerRasterToPelX[MAX_LAYERS][ MAX_NUM_SPU_W*MAX_NUM_SPU_W ]; UInt g_auiLayerRasterToPelY[MAX_LAYERS][ MAX_NUM_SPU_W*MAX_NUM_SPU_W ]; #endif #endif //SVC_EXTENSION //! \}