/* ***** BEGIN LICENSE BLOCK ***** * Source last modified: $Id: coder.h,v 1.2 2005/06/27 21:06:00 gwright Exp $ * * Portions Copyright (c) 1995-2005 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 (the "RPSL") available at * http://www.helixcommunity.org/content/rpsl unless you have licensed * the file under the current version of the RealNetworks Community * Source License (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 HE-AAC decoder * Jon Recker (jrecker@real.com) * February 2005 * * coder.h - definitions of platform-specific data structures, functions, and tables **************************************************************************************/ #ifndef _CODER_H #define _CODER_H #include "aaccommon.h" #include "bitstream.h" #ifndef ASSERT #if defined(_WIN32) && defined(_M_IX86) && (defined (_DEBUG) || defined (REL_ENABLE_ASSERTS)) #define ASSERT(x) if (!(x)) __asm int 3; #else #define ASSERT(x) /* do nothing */ #endif #endif #ifndef MAX #define MAX(a,b) ((a) > (b) ? (a) : (b)) #endif #ifndef MIN #define MIN(a,b) ((a) < (b) ? (a) : (b)) #endif #define NWINDOWS_LONG 1 #define NWINDOWS_SHORT 8 #define DATA_BUF_SIZE 510 /* max count = 255 + 255 */ #define FILL_BUF_SIZE 269 /* max count = 15 + 255 - 1*/ #define ADIF_COPYID_SIZE 9 #define MAX_COMMENT_BYTES 255 #define MAX_NUM_FCE 15 #define MAX_NUM_SCE 15 #define MAX_NUM_BCE 15 #define MAX_NUM_LCE 3 #define MAX_NUM_ADE 7 #define MAX_NUM_CCE 15 #define CHAN_ELEM_IS_CPE(x) (((x) & 0x10) >> 4) /* bit 4 = SCE/CPE flag */ #define CHAN_ELEM_GET_TAG(x) (((x) & 0x0f) >> 0) /* bits 3-0 = instance tag */ #define CHAN_ELEM_SET_CPE(x) (((x) & 0x01) << 4) /* bit 4 = SCE/CPE flag */ #define CHAN_ELEM_SET_TAG(x) (((x) & 0x0f) << 0) /* bits 3-0 = instance tag */ #define MAX_HUFF_BITS 20 #define HUFFTAB_SPEC_OFFSET 1 /* do y <<= n, clipping to range [-2^30, 2^30 - 1] (i.e. output has one guard bit) */ /* #define CLIP_2N_SHIFT(y, n) { \ int sign = (y) >> 31; \ if (sign != (y) >> (30 - (n))) { \ (y) = sign ^ (0x3fffffff); \ } else { \ (y) = (y) << (n); \ } \ } */ /* clip to [-2^n, 2^n-1], valid range of n = [1, 30] */ /* #define CLIP_2N(val, n) { \ if ((val) >> 31 != (val) >> (n)) \ (val) = ((val) >> 31) ^ ((1 << (n)) - 1); \ } */ #define SF_DQ_OFFSET 15 #define FBITS_OUT_DQ 20 #define FBITS_OUT_DQ_OFF (FBITS_OUT_DQ - SF_DQ_OFFSET) /* number of fraction bits out of dequant, including 2^15 bias */ #define FBITS_IN_IMDCT FBITS_OUT_DQ_OFF /* number of fraction bits into IMDCT */ #define GBITS_IN_DCT4 4 /* min guard bits in for DCT4 */ #define FBITS_LOST_DCT4 1 /* number of fraction bits lost (>> out) in DCT-IV */ #define FBITS_LOST_WND 1 /* number of fraction bits lost (>> out) in synthesis window (neg = gain frac bits) */ #define FBITS_LOST_IMDCT (FBITS_LOST_DCT4 + FBITS_LOST_WND) #define FBITS_OUT_IMDCT (FBITS_IN_IMDCT - FBITS_LOST_IMDCT) #define NUM_IMDCT_SIZES 2 /* additional external symbols to name-mangle for static linking */ #define DecodeProgramConfigElement STATNAME(DecodeProgramConfigElement) #define DecodeHuffmanScalar STATNAME(DecodeHuffmanScalar) #define DecodeSpectrumLong STATNAME(DecodeSpectrumLong) #define DecodeSpectrumShort STATNAME(DecodeSpectrumShort) #define DecodeICSInfo STATNAME(DecodeICSInfo) #define DCT4 STATNAME(DCT4) #define R4FFT STATNAME(R4FFT) #define DecWindowOverlapNoClip STATNAME(DecWindowOverlapNoClip) #define DecWindowOverlapLongStartNoClip STATNAME(DecWindowOverlapLongStartNoClip) #define DecWindowOverlapLongStopNoClip STATNAME(DecWindowOverlapLongStopNoClip) #define DecWindowOverlapShortNoClip STATNAME(DecWindowOverlapShortNoClip) #define huffTabSpecInfo STATNAME(huffTabSpecInfo) #define huffTabSpec STATNAME(huffTabSpec) #define huffTabScaleFactInfo STATNAME(huffTabScaleFactInfo) #define huffTabScaleFact STATNAME(huffTabScaleFact) #define cos4sin4tab STATNAME(cos4sin4tab) #define cos4sin4tabOffset STATNAME(cos4sin4tabOffset) #define cos1sin1tab STATNAME(cos1sin1tab) #define sinWindow STATNAME(sinWindow) #define sinWindowOffset STATNAME(sinWindowOffset) #define kbdWindow STATNAME(kbdWindow) #define kbdWindowOffset STATNAME(kbdWindowOffset) #define bitrevtab STATNAME(bitrevtab) #define bitrevtabOffset STATNAME(bitrevtabOffset) #define uniqueIDTab STATNAME(uniqueIDTab) #define twidTabEven STATNAME(twidTabEven) #define twidTabOdd STATNAME(twidTabOdd) typedef struct _HuffInfo { int maxBits; /* number of bits in longest codeword */ unsigned /*char*/ int count[MAX_HUFF_BITS]; /* count[i] = number of codes with length i+1 bits */ int offset; /* offset into symbol table */ } HuffInfo; typedef struct _PulseInfo { unsigned char pulseDataPresent; unsigned char numPulse; unsigned char startSFB; unsigned char offset[MAX_PULSES]; unsigned char amp[MAX_PULSES]; } PulseInfo; typedef struct _TNSInfo { unsigned char tnsDataPresent; unsigned char numFilt[MAX_TNS_FILTERS]; /* max 1 filter each for 8 short windows, or 3 filters for 1 long window */ unsigned char coefRes[MAX_TNS_FILTERS]; unsigned char length[MAX_TNS_FILTERS]; unsigned char order[MAX_TNS_FILTERS]; unsigned char dir[MAX_TNS_FILTERS]; signed char coef[MAX_TNS_COEFS]; /* max 3 filters * 20 coefs for 1 long window, or 1 filter * 7 coefs for each of 8 short windows */ } TNSInfo; typedef struct _GainControlInfo { unsigned char gainControlDataPresent; unsigned char maxBand; unsigned char adjNum[MAX_GAIN_BANDS][MAX_GAIN_WIN]; unsigned char alevCode[MAX_GAIN_BANDS][MAX_GAIN_WIN][MAX_GAIN_ADJUST]; unsigned char alocCode[MAX_GAIN_BANDS][MAX_GAIN_WIN][MAX_GAIN_ADJUST]; } GainControlInfo; typedef struct _ICSInfo { unsigned char icsResBit; unsigned char winSequence; unsigned char winShape; unsigned char maxSFB; unsigned char sfGroup; unsigned char predictorDataPresent; unsigned char predictorReset; unsigned char predictorResetGroupNum; unsigned char predictionUsed[MAX_PRED_SFB]; unsigned char numWinGroup; unsigned char winGroupLen[MAX_WIN_GROUPS]; } ICSInfo; typedef struct _ADTSHeader { /* fixed */ unsigned char id; /* MPEG bit - should be 1 */ unsigned char layer; /* MPEG layer - should be 0 */ unsigned char protectBit; /* 0 = CRC word follows, 1 = no CRC word */ unsigned char profile; /* 0 = main, 1 = LC, 2 = SSR, 3 = reserved */ unsigned char sampRateIdx; /* sample rate index range = [0, 11] */ unsigned char privateBit; /* ignore */ unsigned char channelConfig; /* 0 = implicit, >0 = use default table */ unsigned char origCopy; /* 0 = copy, 1 = original */ unsigned char home; /* ignore */ /* variable */ unsigned char copyBit; /* 1 bit of the 72-bit copyright ID (transmitted as 1 bit per frame) */ unsigned char copyStart; /* 1 = this bit starts the 72-bit ID, 0 = it does not */ int frameLength; /* length of frame */ int bufferFull; /* number of 32-bit words left in enc buffer, 0x7FF = VBR */ unsigned char numRawDataBlocks; /* number of raw data blocks in frame */ /* CRC */ int crcCheckWord; /* 16-bit CRC check word (present if protectBit == 0) */ } ADTSHeader; typedef struct _ADIFHeader { unsigned char copyBit; /* 0 = no copyright ID, 1 = 72-bit copyright ID follows immediately */ unsigned char origCopy; /* 0 = copy, 1 = original */ unsigned char home; /* ignore */ unsigned char bsType; /* bitstream type: 0 = CBR, 1 = VBR */ int bitRate; /* bitRate: CBR = bits/sec, VBR = peak bits/frame, 0 = unknown */ unsigned char numPCE; /* number of program config elements (max = 16) */ int bufferFull; /* bits left in bit reservoir */ unsigned char copyID[ADIF_COPYID_SIZE]; /* optional 72-bit copyright ID */ } ADIFHeader; /* sizeof(ProgConfigElement) = 82 bytes (if KEEP_PCE_COMMENTS not defined) */ typedef struct _ProgConfigElement { unsigned char elemInstTag; /* element instance tag */ unsigned char profile; /* 0 = main, 1 = LC, 2 = SSR, 3 = reserved */ unsigned char sampRateIdx; /* sample rate index range = [0, 11] */ unsigned char numFCE; /* number of front channel elements (max = 15) */ unsigned char numSCE; /* number of side channel elements (max = 15) */ unsigned char numBCE; /* number of back channel elements (max = 15) */ unsigned char numLCE; /* number of LFE channel elements (max = 3) */ unsigned char numADE; /* number of associated data elements (max = 7) */ unsigned char numCCE; /* number of valid channel coupling elements (max = 15) */ unsigned char monoMixdown; /* mono mixdown: bit 4 = present flag, bits 3-0 = element number */ unsigned char stereoMixdown; /* stereo mixdown: bit 4 = present flag, bits 3-0 = element number */ unsigned char matrixMixdown; /* matrix mixdown: bit 4 = present flag, bit 3 = unused, bits 2-1 = index, bit 0 = pseudo-surround enable */ unsigned char fce[MAX_NUM_FCE]; /* front element channel pair: bit 4 = SCE/CPE flag, bits 3-0 = inst tag */ unsigned char sce[MAX_NUM_SCE]; /* side element channel pair: bit 4 = SCE/CPE flag, bits 3-0 = inst tag */ unsigned char bce[MAX_NUM_BCE]; /* back element channel pair: bit 4 = SCE/CPE flag, bits 3-0 = inst tag */ unsigned char lce[MAX_NUM_LCE]; /* instance tag for LFE elements */ unsigned char ade[MAX_NUM_ADE]; /* instance tag for ADE elements */ unsigned char cce[MAX_NUM_BCE]; /* channel coupling elements: bit 4 = switching flag, bits 3-0 = inst tag */ #ifdef KEEP_PCE_COMMENTS /* make this optional - if not enabled, decoder will just skip comments */ unsigned char commentBytes; unsigned char commentField[MAX_COMMENT_BYTES]; #endif } ProgConfigElement; /* state info struct for baseline (MPEG-4 LC) decoding */ typedef struct _PSInfoBase { /* header information */ ADTSHeader fhADTS; ADIFHeader fhADIF; ProgConfigElement pce[MAX_NUM_PCE_ADIF]; int dataCount; unsigned char dataBuf[DATA_BUF_SIZE]; int fillCount; unsigned char fillBuf[FILL_BUF_SIZE]; /* state information which is the same throughout whole frame */ int nChans; int useImpChanMap; int sampRateIdx; /* state information which can be overwritten by subsequent elements within frame */ ICSInfo icsInfo[MAX_NCHANS_ELEM]; int commonWin; short scaleFactors[MAX_NCHANS_ELEM][MAX_SF_BANDS]; unsigned char sfbCodeBook[MAX_NCHANS_ELEM][MAX_SF_BANDS]; int msMaskPresent; unsigned char msMaskBits[MAX_MS_MASK_BYTES]; int pnsUsed[MAX_NCHANS_ELEM]; int pnsLastVal; int intensityUsed[MAX_NCHANS_ELEM]; PulseInfo pulseInfo[MAX_NCHANS_ELEM]; TNSInfo tnsInfo[MAX_NCHANS_ELEM]; int tnsLPCBuf[MAX_TNS_ORDER]; int tnsWorkBuf[MAX_TNS_ORDER]; GainControlInfo gainControlInfo[MAX_NCHANS_ELEM]; int gbCurrent[MAX_NCHANS_ELEM]; int coef[MAX_NCHANS_ELEM][AAC_MAX_NSAMPS]; #ifdef AAC_ENABLE_SBR int sbrWorkBuf[MAX_NCHANS_ELEM][AAC_MAX_NSAMPS]; #endif /* state information which must be saved for each element and used in next frame */ int overlap[AAC_MAX_NCHANS][AAC_MAX_NSAMPS]; int prevWinShape[AAC_MAX_NCHANS]; } PSInfoBase; /* private implementation-specific functions */ /* decelmnt.c */ int DecodeProgramConfigElement(ProgConfigElement *pce, BitStreamInfo *bsi); /* huffman.c */ int DecodeHuffmanScalar(const signed short *huffTab, const HuffInfo *huffTabInfo, unsigned int bitBuf, signed int *val); void DecodeSpectrumLong(PSInfoBase *psi, BitStreamInfo *bsi, int ch); void DecodeSpectrumShort(PSInfoBase *psi, BitStreamInfo *bsi, int ch); /* noiseless.c */ void DecodeICSInfo(BitStreamInfo *bsi, ICSInfo *icsInfo, int sampRateIdx); /* dct4.c */ void DCT4(int tabidx, int *coef, int gb); /* fft.c */ void R4FFT(int tabidx, int *x); /* sbrimdct.c */ void DecWindowOverlapNoClip(int *buf0, int *over0, int *out0, int winTypeCurr, int winTypePrev); void DecWindowOverlapLongStartNoClip(int *buf0, int *over0, int *out0, int winTypeCurr, int winTypePrev); void DecWindowOverlapLongStopNoClip(int *buf0, int *over0, int *out0, int winTypeCurr, int winTypePrev); void DecWindowOverlapShortNoClip(int *buf0, int *over0, int *out0, int winTypeCurr, int winTypePrev); /* hufftabs.c */ extern const HuffInfo huffTabSpecInfo[11]; extern const signed short huffTabSpec[1241]; extern const HuffInfo huffTabScaleFactInfo; extern const signed short huffTabScaleFact[121]; /* trigtabs.c */ extern const int cos4sin4tabOffset[NUM_IMDCT_SIZES]; extern const int sinWindowOffset[NUM_IMDCT_SIZES]; extern const int kbdWindowOffset[NUM_IMDCT_SIZES]; extern const unsigned char bitrevtab[17 + 129]; extern const int bitrevtabOffset[NUM_IMDCT_SIZES]; #ifdef HELIX_CONFIG_AAC_GENERATE_TRIGTABS_FLOAT /* trigtabs_fltgen.c */ extern int cos4sin4tab[128 + 1024]; extern int cos1sin1tab[514]; extern int sinWindow[128 + 1024]; extern int kbdWindow[128 + 1024]; extern int twidTabEven[4*6 + 16*6 + 64*6]; extern int twidTabOdd[8*6 + 32*6 + 128*6]; #else /* trigtabs.c */ extern const int cos4sin4tab[128 + 1024]; extern const int cos1sin1tab[514]; extern const int sinWindow[128 + 1024]; extern const int kbdWindow[128 + 1024]; extern const int twidTabEven[4*6 + 16*6 + 64*6]; extern const int twidTabOdd[8*6 + 32*6 + 128*6]; #endif #endif /* _CODER_H */