/* ***** BEGIN LICENSE BLOCK ***** * Version: RCSL 1.0/RPSL 1.0 * * Portions Copyright (c) 1995-2002 RealNetworks, Inc. All Rights Reserved. * * The contents of this file, and the files included with this file, are * subject to the current version of the RealNetworks Public Source License * Version 1.0 (the "RPSL") available at * http://www.helixcommunity.org/content/rpsl unless you have licensed * the file under the RealNetworks Community Source License Version 1.0 * (the "RCSL") available at http://www.helixcommunity.org/content/rcsl, * in which case the RCSL will apply. You may also obtain the license terms * directly from RealNetworks. You may not use this file except in * compliance with the RPSL or, if you have a valid RCSL with RealNetworks * applicable to this file, the RCSL. Please see the applicable RPSL or * RCSL for the rights, obligations and limitations governing use of the * contents of the file. * * This file is part of the Helix DNA Technology. RealNetworks is the * developer of the Original Code and owns the copyrights in the portions * it created. * * This file, and the files included with this file, is distributed and made * available on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND REALNETWORKS HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, FITNESS * FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * * Technology Compatibility Kit Test Suite(s) Location: * http://www.helixcommunity.org/content/tck * * Contributor(s): * * ***** END LICENSE BLOCK ***** */ /************************************************************************************** * Fixed-point MP3 decoder * Jon Recker (jrecker@real.com), Ken Cooke (kenc@real.com) * June 2003 * * dequant.c - dequantization, stereo processing (intensity, mid-side), short-block * coefficient reordering **************************************************************************************/ #include "coder.h" #include "assembly.h" /************************************************************************************** * Function: Dequantize * * Description: dequantize coefficients, decode stereo, reorder short blocks * (one granule-worth) * * Inputs: MP3DecInfo structure filled by UnpackFrameHeader(), UnpackSideInfo(), * UnpackScaleFactors(), and DecodeHuffman() (for this granule) * index of current granule * * Outputs: dequantized and reordered coefficients in hi->huffDecBuf * (one granule-worth, all channels), format = Q26 * operates in-place on huffDecBuf but also needs di->workBuf * updated hi->nonZeroBound index for both channels * * Return: 0 on success, -1 if null input pointers * * Notes: In calling output Q(DQ_FRACBITS_OUT), we assume an implicit bias * of 2^15. Some (floating-point) reference implementations factor this * into the 2^(0.25 * gain) scaling explicitly. But to avoid precision * loss, we don't do that. Instead take it into account in the final * round to PCM (>> by 15 less than we otherwise would have). * Equivalently, we can think of the dequantized coefficients as * Q(DQ_FRACBITS_OUT - 15) with no implicit bias. **************************************************************************************/ int Dequantize(MP3DecInfo *mp3DecInfo, int gr) { int i, ch, nSamps, mOut[2]; FrameHeader *fh; SideInfo *si; ScaleFactorInfo *sfi; HuffmanInfo *hi; DequantInfo *di; CriticalBandInfo *cbi; /* validate pointers */ if (!mp3DecInfo || !mp3DecInfo->FrameHeaderPS || !mp3DecInfo->SideInfoPS || !mp3DecInfo->ScaleFactorInfoPS || !mp3DecInfo->HuffmanInfoPS || !mp3DecInfo->DequantInfoPS) return -1; fh = (FrameHeader *)(mp3DecInfo->FrameHeaderPS); /* si is an array of up to 4 structs, stored as gr0ch0, gr0ch1, gr1ch0, gr1ch1 */ si = (SideInfo *)(mp3DecInfo->SideInfoPS); sfi = (ScaleFactorInfo *)(mp3DecInfo->ScaleFactorInfoPS); hi = (HuffmanInfo *)mp3DecInfo->HuffmanInfoPS; di = (DequantInfo *)mp3DecInfo->DequantInfoPS; cbi = di->cbi; mOut[0] = mOut[1] = 0; /* dequantize all the samples in each channel */ for (ch = 0; ch < mp3DecInfo->nChans; ch++) { hi->gb[ch] = DequantChannel(hi->huffDecBuf[ch], di->workBuf, &hi->nonZeroBound[ch], fh, &si->sis[gr][ch], &sfi->sfis[gr][ch], &cbi[ch]); } /* joint stereo processing assumes one guard bit in input samples * it's extremely rare not to have at least one gb, so if this is the case * just make a pass over the data and clip to [-2^30+1, 2^30-1] * in practice this may never happen */ if (fh->modeExt && (hi->gb[0] < 1 || hi->gb[1] < 1)) { for (i = 0; i < hi->nonZeroBound[0]; i++) { if (hi->huffDecBuf[0][i] < -0x3fffffff) hi->huffDecBuf[0][i] = -0x3fffffff; if (hi->huffDecBuf[0][i] > 0x3fffffff) hi->huffDecBuf[0][i] = 0x3fffffff; } for (i = 0; i < hi->nonZeroBound[1]; i++) { if (hi->huffDecBuf[1][i] < -0x3fffffff) hi->huffDecBuf[1][i] = -0x3fffffff; if (hi->huffDecBuf[1][i] > 0x3fffffff) hi->huffDecBuf[1][i] = 0x3fffffff; } } /* do mid-side stereo processing, if enabled */ if (fh->modeExt >> 1) { if (fh->modeExt & 0x01) { /* intensity stereo enabled - run mid-side up to start of right zero region */ if (cbi[1].cbType == 0) nSamps = fh->sfBand->l[cbi[1].cbEndL + 1]; else nSamps = 3 * fh->sfBand->s[cbi[1].cbEndSMax + 1]; } else { /* intensity stereo disabled - run mid-side on whole spectrum */ nSamps = MAX(hi->nonZeroBound[0], hi->nonZeroBound[1]); } MidSideProc(hi->huffDecBuf, nSamps, mOut); } /* do intensity stereo processing, if enabled */ if (fh->modeExt & 0x01) { nSamps = hi->nonZeroBound[0]; if (fh->ver == MPEG1) { IntensityProcMPEG1(hi->huffDecBuf, nSamps, fh, &sfi->sfis[gr][1], di->cbi, fh->modeExt >> 1, si->sis[gr][1].mixedBlock, mOut); } else { IntensityProcMPEG2(hi->huffDecBuf, nSamps, fh, &sfi->sfis[gr][1], di->cbi, &sfi->sfjs, fh->modeExt >> 1, si->sis[gr][1].mixedBlock, mOut); } } /* adjust guard bit count and nonZeroBound if we did any stereo processing */ if (fh->modeExt) { hi->gb[0] = CLZ(mOut[0]) - 1; hi->gb[1] = CLZ(mOut[1]) - 1; nSamps = MAX(hi->nonZeroBound[0], hi->nonZeroBound[1]); hi->nonZeroBound[0] = nSamps; hi->nonZeroBound[1] = nSamps; } /* output format Q(DQ_FRACBITS_OUT) */ return 0; }