ref: 220dc0a03d5d592da832c081e8027062d16baae5
dir: /libfaac/joint.c/
/* * FAAC - Freeware Advanced Audio Coder * Copyright (C) 2001 Menno Bakker * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * $Id: joint.c,v 1.4 2001/03/06 14:01:36 menno Exp $ */ #include "channels.h" #include "util.h" void MSEncode(CoderInfo *coderInfo, ChannelInfo *channelInfo, double *spectrum[MAX_CHANNELS], unsigned int numberOfChannels, unsigned int msenable) { unsigned int chanNum; int sfbNum; int lineNum; double sum,diff; /* Look for channel_pair_elements */ for (chanNum=0;chanNum<numberOfChannels;chanNum++) { if (channelInfo[chanNum].present) { if ((channelInfo[chanNum].cpe)&&(channelInfo[chanNum].ch_is_left)) { int leftChan=chanNum; int rightChan = channelInfo[chanNum].paired_ch; channelInfo[leftChan].msInfo.is_present = 0; channelInfo[rightChan].msInfo.is_present = 0; /* Perform MS if block_types are the same */ if ((coderInfo[leftChan].block_type==coderInfo[rightChan].block_type)&&(msenable)) { int numGroups; int maxSfb; int g,w,line_offset; int startWindow,stopWindow; MSInfo *msInfoL; MSInfo *msInfoR; channelInfo[leftChan].common_window = 1; /* Use common window */ channelInfo[leftChan].msInfo.is_present = 1; channelInfo[rightChan].msInfo.is_present = 1; numGroups = coderInfo[leftChan].num_window_groups; maxSfb = coderInfo[leftChan].max_sfb; w=0; /* Determine which bands should be enabled */ msInfoL = &(channelInfo[leftChan].msInfo); msInfoR = &(channelInfo[rightChan].msInfo); /* Perform sum and differencing on bands in which ms_used flag */ /* has been set. */ if (coderInfo[leftChan].block_type == ONLY_SHORT_WINDOW) { line_offset=0; startWindow = 0; for (g=0;g<numGroups;g++) { int numWindows = coderInfo[leftChan].window_group_length[g]; stopWindow = startWindow + numWindows; for (sfbNum=0;sfbNum<maxSfb;sfbNum++) { /* Enable MS mask */ int use_ms = 1; for (w=startWindow;w<stopWindow;w++) { use_ms = min(use_ms, msInfoL->ms_usedS[w][sfbNum]); } msInfoL->ms_used[g*maxSfb+sfbNum] = use_ms; /* write this to bitstream */ msInfoR->ms_used[g*maxSfb+sfbNum] = use_ms; for (w=startWindow;w<stopWindow;w++) { msInfoL->ms_usedS[w][sfbNum] = use_ms; msInfoR->ms_usedS[w][sfbNum] = use_ms; } for (w=startWindow;w<stopWindow;w++) { if (msInfoL->ms_usedS[w][sfbNum]) { for (lineNum = coderInfo[leftChan].sfb_offset[sfbNum]; lineNum < coderInfo[leftChan].sfb_offset[sfbNum+1]; lineNum++) { line_offset = w*BLOCK_LEN_SHORT; sum=spectrum[leftChan][line_offset+lineNum]+spectrum[rightChan][line_offset+lineNum]; diff=spectrum[leftChan][line_offset+lineNum]-spectrum[rightChan][line_offset+lineNum]; spectrum[leftChan][line_offset+lineNum] = 0.5 * sum; spectrum[rightChan][line_offset+lineNum] = 0.5 * diff; } } } } startWindow = stopWindow; } } else { for (sfbNum = 0;sfbNum < maxSfb; sfbNum++) { msInfoR->ms_used[sfbNum] = msInfoL->ms_used[sfbNum]; /* Enable MS mask */ if (msInfoL->ms_used[sfbNum]) { for (lineNum = coderInfo[leftChan].sfb_offset[sfbNum]; lineNum < coderInfo[leftChan].sfb_offset[sfbNum+1]; lineNum++) { sum=spectrum[leftChan][lineNum]+spectrum[rightChan][lineNum]; diff=spectrum[leftChan][lineNum]-spectrum[rightChan][lineNum]; spectrum[leftChan][lineNum] = 0.5 * sum; spectrum[rightChan][lineNum] = 0.5 * diff; } } } } } } } } } void MSReconstruct(CoderInfo *coderInfo, ChannelInfo *channelInfo, int numberOfChannels) { int chanNum; int sfbNum; int lineNum; double sum,diff; /* Look for channel_pair_elements */ for (chanNum=0;chanNum<numberOfChannels;chanNum++) { if (channelInfo[chanNum].present) { if ((channelInfo[chanNum].cpe)&&(channelInfo[chanNum].ch_is_left)) { int leftChan=chanNum; int rightChan=channelInfo[chanNum].paired_ch; MSInfo *msInfoL; msInfoL = &(channelInfo[leftChan].msInfo); if (msInfoL->is_present) { int numGroups = coderInfo[leftChan].num_window_groups; int maxSfb = coderInfo[leftChan].max_sfb; int w,line_offset; int startWindow; w=0; line_offset=0; startWindow = 0; if (coderInfo[leftChan].block_type != ONLY_SHORT_WINDOW) { for (sfbNum = 0;sfbNum < maxSfb; sfbNum++) { if (msInfoL->ms_used[sfbNum]) { for (lineNum = coderInfo[leftChan].sfb_offset[sfbNum]; lineNum < coderInfo[leftChan].sfb_offset[sfbNum+1]; lineNum++) { sum=coderInfo[leftChan].requantFreq[lineNum]; diff=coderInfo[rightChan].requantFreq[lineNum]; coderInfo[leftChan].requantFreq[lineNum] = (sum+diff); coderInfo[rightChan].requantFreq[lineNum] = (sum-diff); } } } } } } } } }