Lines Matching full:nchannels
320 const INT nChannels, const INT sampleRate, const INT advancedBitsToPe,
327 if (advancedBitsToPe && nChannels <= (2)) {
364 startPF = peTab[size - 1].bits2PeFactor[qualityIdx][nChannels - 1];
365 stopPF = peTab[size - 1].bits2PeFactor[qualityIdx][nChannels - 1];
372 startPF = peTab[i].bits2PeFactor[qualityIdx][nChannels - 1];
373 stopPF = peTab[i + 1].bits2PeFactor[qualityIdx][nChannels - 1];
413 if ((bitRate / nChannels > 32000) && (bitRate / nChannels <= 40000)) {
415 } else if (bitRate / nChannels > 20000) {
417 } else if (bitRate / nChannels >= 16000) {
446 const PSY_OUT_CHANNEL *const psyOutChannel[(2)], const INT nChannels) {
450 for (ch = 0; ch < nChannels; ch++) {
469 const MINSNR_ADAPT_PARAM *const msaParam, const INT nChannels) {
483 for (ch = 0; ch < nChannels; ch++) {
543 const INT nChannels, const AH_PARAM *const ahParam) {
551 for (ch = 0; ch < nChannels; ch++) {
570 for (ch = 0; ch < nChannels; ch++) {
624 if (nChannels == 2) {
684 } /* nChannels==2 */
687 for (ch = 0; ch < nChannels; ch++) {
712 * nChannels elements.
714 * nChannels elements.
715 * \param nChannels Number of channels in element.
724 const INT nChannels, const INT peOffset) {
727 for (ch = 0; ch < nChannels; ch++) {
746 * nChannels elements.
748 * nChannels elements.
752 * \param nChannels Number of channels in element.
762 ATS_ELEMENT *const adjThrStateElement, const INT nChannels,
767 for (ch = 0; ch < nChannels; ch++) {
779 for (ch = 0; ch < nChannels; ch++) {
889 PE_DATA *const peData, const INT nChannels) {
895 for (ch = 0; ch < nChannels; ch++) {
915 const INT nChannels) {
917 FDKaacEnc_preparePe(peData, psyOutChannel, qcOutChannel, nChannels,
922 adjThrStateElement, nChannels, 1);
927 for (ch = 0; ch < nChannels; ch++) {
945 FDKaacEnc_calcPe(psyOutChannel, qcOutChannel, peData, nChannels);
956 const PSY_OUT_CHANNEL *const psyOutChannel[(2)], const INT nChannels) {
962 for (ch = 0; ch < nChannels; ch++) {
994 const FIXP_DBL thrExp[(2)][MAX_GROUPED_SFB], const INT nChannels,
1000 for (ch = 0; ch < nChannels; ch++) {
1114 const FIXP_DBL thrExp[(2)][MAX_GROUPED_SFB], const INT nChannels,
1137 for (ch = 0; ch < nChannels; ch++) {
1204 for (ch = 0; ch < nChannels; ch++) {
1236 for (ch = 0; ch < nChannels; ch++) {
1636 const INT nChannels = cm->elInfo[elementId].nChannelsInEl;
1641 for (ch = 0; ch < nChannels; ch++) {
1656 if (nChannels == 2 && psyOutChannel[0]->lastWindowSequence ==
1865 UCHAR ahFlag[(2)][MAX_GROUPED_SFB], const INT nChannels,
1869 for (ch = 0; ch < nChannels; ch++) {
1938 INT nChannels = cm->elInfo[elementId].nChannelsInEl;
1944 psyOutElement[elementId]->psyOutChannel, nChannels);
1951 nChannels);
1957 &psyOutElement[elementId]->toolsInfo, nChannels,
1994 INT nChannels = cm->elInfo[elementId].nChannelsInEl;
2001 pThrExp[elementId], nChannels, reductionValue_m, reductionValue_e);
2005 qcElement[elementId]->qcOutChannel, peData, nChannels);
2026 INT nChannels = cm->elInfo[elementId].nChannelsInEl;
2033 nChannels);
2095 INT nChannels = cm->elInfo[elementId].nChannelsInEl;
2102 pThrExp[elementId], nChannels, reductionValue_m, reductionValue_e);
2106 qcElement[elementId]->qcOutChannel, peData, nChannels);
2143 INT nChannels = cm->elInfo[elementId].nChannelsInEl;
2148 qcElement[elementId]->qcOutChannel, peData, nChannels);
2174 const struct TOOLSINFO *const toolsInfo, const INT nChannels) {
2185 FDKaacEnc_calcThreshExp(pThrExp, qcOutChannel, psyOutChannel, nChannels);
2190 &AdjThrStateElement->minSnrAdaptParam, nChannels);
2194 nChannels, &AdjThrStateElement->ahParam);
2198 nChannels, AdjThrStateElement->vbrQualFactor,
2677 const INT nChannels, const FIXP_DBL bits2PeFactor_m,
2690 int headroom = (bitresLevel >= 50 * nChannels) ? 0 : (100 * nChannels);
2736 INT *grantedPeCorr, const INT nChannels, const INT commonWindow,
2745 if (nChannels == 2) {
2784 AdjThrStateElement->dynBitsLast, bitresBits, nChannels,
