/********************************************************************** Each of the companies; Lucent, Motorola, Nokia, and Qualcomm (hereinafter referred to individually as "Source" or collectively as "Sources") do hereby state: To the extent to which the Source(s) may legally and freely do so, the Source(s), upon submission of a Contribution, grant(s) a free, irrevocable, non-exclusive, license to the Third Generation Partnership Project 2 (3GPP2) and its Organizational Partners: ARIB, CCSA, TIA, TTA, and TTC, under the Source's copyright or copyright license rights in the Contribution, to, in whole or in part, copy, make derivative works, perform, display and distribute the Contribution and derivative works thereof consistent with 3GPP2's and each Organizational Partner's policies and procedures, with the right to (i) sublicense the foregoing rights consistent with 3GPP2's and each Organizational Partner's policies and procedures and (ii) copyright and sell, if applicable) in 3GPP2's name or each Organizational Partner's name any 3GPP2 or transposed Publication even though this Publication may contain the Contribution or a derivative work thereof. The Contribution shall disclose any known limitations on the Source's rights to license as herein provided. When a Contribution is submitted by the Source(s) to assist the formulating groups of 3GPP2 or any of its Organizational Partners, it is proposed to the Committee as a basis for discussion and is not to be construed as a binding proposal on the Source(s). The Source(s) specifically reserve(s) the right to amend or modify the material contained in the Contribution. Nothing contained in the Contribution shall, except as herein expressly provided, be construed as conferring by implication, estoppel or otherwise, any license or right under (i) any existing or later issuing patent, whether or not the use of information in the document necessarily employs an invention of any existing or later issued patent, (ii) any copyright, (iii) any trademark, or (iv) any other intellectual property right. With respect to the Software necessary for the practice of any or all Normative portions of the Enhanced Variable Rate Codec (EVRC) as it exists on the date of submittal of this form, should the EVRC be approved as a Specification or Report by 3GPP2, or as a transposed Standard by any of the 3GPP2's Organizational Partners, the Source(s) state(s) that a worldwide license to reproduce, use and distribute the Software, the license rights to which are held by the Source(s), will be made available to applicants under terms and conditions that are reasonable and non-discriminatory, which may include monetary compensation, and only to the extent necessary for the practice of any or all of the Normative portions of the EVRC or the field of use of practice of the EVRC Specification, Report, or Standard. The statement contained above is irrevocable and shall be binding upon the Source(s). In the event the rights of the Source(s) in and to copyright or copyright license rights subject to such commitment are assigned or transferred, the Source(s) shall notify the assignee or transferee of the existence of such commitments. *******************************************************************/ /*======================================================================*/ /* Enhanced Variable Rate Codec - Bit-Exact C Specification */ /* Copyright (C) 1997-1998 Telecommunications Industry Association. */ /* All rights reserved. */ /*----------------------------------------------------------------------*/ /* Note: Reproduction and use of this software for the design and */ /* development of North American Wideband CDMA Digital */ /* Cellular Telephony Standards is authorized by the TIA. */ /* The TIA does not authorize the use of this software for any */ /* other purpose. */ /* */ /* The availability of this software does not provide any license */ /* by implication, estoppel, or otherwise under any patent rights */ /* of TIA member companies or others covering any use of the */ /* contents herein. */ /* */ /* Any copies of this software or derivative works must include */ /* this and all other proprietary notices. */ /*======================================================================*/ /* Memory Usage: */ /* ROM: */ /* Static/Global RAM: */ /* Stack/Local RAM: */ /*----------------------------------------------------------------------*/ /*----------------------------------------------------------------------*/ /* EVRC Decoder -- (called when no frame errors have occured.) */ /*======================================================================*/ /* ..Includes. */ /*----------------------------------------------------------------------*/ #include #include #include #include "mathadv.h" //#include "mathevrc.h" #include "dsp_math.h" #include "mathdp31.h" #include "d_globs.h" #include "globs.h" #include "macro.h" #include "proto.h" #include "rom.h" #include "acelp_pf.h" /* for ACELP */ extern void decode_rate_1(INT16*, INT16, INT16*); void pit_shrp(INT16 *, INT16, INT16, INT16); void Fix_delay_contour(INT32 *); /*======================================================================*/ /* ..Decode bitstream data. */ /*----------------------------------------------------------------------*/ void decode_no_fer( INT16 *codeBuf, INT16 post_filter, INT16 *outFbuf ) { /*....(local) variables.... */ register INT16 i, j, n; register INT16 *foutP; INT32 delayi[3]; INT16 subframesize; INT16 sum1; INT16 sum_acb; #define P75 24576 #define P20 6554 /*....execute.... */ for (i = 0; i < PACKWDSNUM; i++){ PackedWords[i] = codeBuf[i]; } /* Re-initialize PackWdsPtr */ PackWdsPtr[0] = 16; PackWdsPtr[1] = 0; { fer_counter -= 1; if (fer_counter < 0) fer_counter = 0; } if (bit_rate == 1) { decode_rate_1(codeBuf, post_filter, outFbuf); } else { /* If rate is 4kbps or 8kbps */ if (bit_rate == 4) BitUnpack(&LPCflag, (UINT16 *) PackedWords, 1, PackWdsPtr); else LPCflag = 0; /* Bit-unpack the quantization indices */ for (i = 0; i < knum; i++) BitUnpack(&SScratch[i], (UINT16 *) PackedWords, lognsize[i], PackWdsPtr); { lspmaq_dec(ORDER, 1, knum, nsub, nsize, lsp_ex, SScratch, bit_rate, lsptab); /* Check for monotonic LSP */ for (j = 1; j < ORDER; j++) if (lsp_ex[j] <= lsp_ex[j - 1]) { errorFlag = 1; return; } /* Check for minimum separation of LSPs at the splits */ if( bit_rate == 3 ) /* Check Half Rate splits */ { if( (lsp_ex[3] <= add(lsp_ex[2],MIN_LSP_SEP)) || (lsp_ex[6] <= add(lsp_ex[5],MIN_LSP_SEP))) { errorFlag = 1; return; } } else { /* Check Full Rate splits */ if( (lsp_ex[2] <= add(lsp_ex[1],MIN_LSP_SEP)) || (lsp_ex[4] <= add(lsp_ex[3],MIN_LSP_SEP)) || (lsp_ex[7] <= add(lsp_ex[6],MIN_LSP_SEP))) { errorFlag = 1; return; } } } BitUnpack(&idxppg, (UINT16 *) PackedWords, 7, PackWdsPtr); idxppg += DMIN; /* Check in delay is possible */ if (idxppg > DMAX) { errorFlag = 1; return; } delay = idxppg; if (bit_rate == 4) { /* check for full-rate */ /* unpack delta_delay */ BitUnpack(&idxppg, (UINT16 *) PackedWords, 5, PackWdsPtr); #if ANSI_EVRC_DDELAY_CHECK /* check for out-of-range previous delay before Fix_delay_contour */ if (idxppg != 0) { /* prev_delay = delay - delta_delta + 16 */ n = sub(delay, sub(idxppg, 16)); if (n < DMIN) { errorFlag = 1; return; } if (n > DMAX) { errorFlag = 1; return; } } #endif /* Fix delay contour */ if (fer_counter == 2 && idxppg != 0) { Fix_delay_contour(delayi); } } /* Smooth interpolation if the difference between delays is too big */ if (abs(sub(delay, pdelayD)) > 15) pdelayD = delay; /* Update fer coefficients */ ave_acb_gain = ave_fcb_gain = 0; foutP = outFbuf; for (i = 0; i < NoOfSubFrames; i++) { if (i < 2) subframesize = SubFrameSize - 1; else subframesize = SubFrameSize; Interpol(lspi, OldlspD, lsp_ex, i, ORDER); /* Convert lsp to PC */ lsp2a(pci, lspi); /* Bandwidth expansion after frame erasure only if LPCflag is set */ if (bit_rate == 4) { if (LPCflag && fer_counter == 2) weight(pci, pci, P75, ORDER); } Interpol_delay(delayi, &pdelayD, &delay, i); /* Un-Pack bits */ /* ACB delay gain */ BitUnpack(&idxppg, (UINT16 *) PackedWords, 3, PackWdsPtr); /* FCB shape index 1 */ if (bit_rate == 4) { BitUnpack(SScratch, (UINT16 *) PackedWords, 8, PackWdsPtr); fcbIndexVector[0] = *SScratch; BitUnpack(SScratch, (UINT16 *) PackedWords, 8, PackWdsPtr); fcbIndexVector[1] = *SScratch; BitUnpack(SScratch, (UINT16 *) PackedWords, 8, PackWdsPtr); fcbIndexVector[2] = *SScratch; BitUnpack(SScratch, (UINT16 *) PackedWords, 11, PackWdsPtr); fcbIndexVector[3] = *SScratch; /* FCB gain index */ BitUnpack(&idxcbg, (UINT16 *) PackedWords, 5, PackWdsPtr); } else { BitUnpack(&idxcb, (UINT16 *) PackedWords, 10, PackWdsPtr); /* FCB gain index */ BitUnpack(&idxcbg, (UINT16 *) PackedWords, 4, PackWdsPtr); } /* Compute adaptive codebook contribution */ { sum_acb = ppvq[idxppg]; ave_acb_gain = add(ave_acb_gain, mult_r(sum_acb, 10923)); /* (10923=1/NoOfSubFrames) */ } acb_excitation(PitchMemoryD + ACBMemSize, sum_acb, delayi, PitchMemoryD, subframesize); /* Compute fixed codebook contribution */ ave_fcb_gain = add(ave_fcb_gain, mult_r(gnvq[idxcbg], 1365)); /* (1365=(1/3)/8) */ /* Compute fixed codebook contribution */ if ((bit_rate == 4)) /* full rate */ dec8_35(fcbIndexVector, Scratch, subframesize); if ((bit_rate == 3)) /* half rate */ dec3_10(idxcb, Scratch, subframesize); { if (sum_acb > 14744) sum_acb = 14744; if (sum_acb < 3276) sum_acb = 3276; sum_acb = shl(sum_acb, 1); /* get intrpolated delay for this subframe */ /* n = extract_h(L_add(L_shr(L_add(delayi[1], delayi[0]), 1), 32768)); */ /* n = extract_h(L_add(L_shr(L_add(delayi[1], delayi[0]), 1), 0x00008000L)); */ n = round32(L_shr(L_add(delayi[1], delayi[0]), 1)); if (n > subframesize) n = 200; /* To scale down by 8 to offset (sum1=gnvq[]), * which has been scaled up by 8 */ for (j = 0; j < SubFrameSize + 6; j++) Scratch[j] = shl(Scratch[j], 11); pit_shrp(Scratch, n, sum_acb, subframesize); sum1 = gnvq[idxcbg]; for (j = 0; j < subframesize; j++) PitchMemoryD[j + ACBMemSize] = add(PitchMemoryD[j + ACBMemSize], mult_r(sum1, Scratch[j])); } { FadeScale = add(FadeScale, P20); } for (j = 0; j < ACBMemSize; j++) PitchMemoryD[j] = PitchMemoryD[j + subframesize]; /* Synthesis of decoder output signal and postfilter output signal */ iir(DECspeech, PitchMemoryD + ACBMemSize, pci, SynMemory, ORDER, subframesize); /* Postfilter */ if (post_filter) { if (bit_rate == 4) apf(DECspeech, pci, DECspeechPF, L_shr(L_add(delayi[0], delayi[1]), 1), ALPHA, BETA, U, AGC, LTGAIN, ORDER, subframesize, bit_rate); else apf(DECspeech, pci, DECspeechPF, L_shr(L_add(delayi[0], delayi[1]), 1), HALF_ALPHA, BETA, HALF_U, AGC, LTGAIN, ORDER, subframesize, bit_rate); } else { for (j = 0; j < subframesize; j++) DECspeechPF[j] = DECspeech[j]; } /* Write p.f. decoder output and variables to files */ for (j = 0; j < subframesize; j++){ *foutP++ = shl(DECspeechPF[j],1); /* adjust scaling */ } } pdelayD = delay; } /* Ends case for rate=4kbps or 8kbps */ /* update decoder varaibles */ for (i = 0; i < ORDER; i++) OldlspD[i] = lsp_ex[i]; lastrateD = bit_rate; decode_fcnt++; last_fer_flag = fer_flag; } void Fix_delay_contour(INT32 *delayi) { register int i, j; INT16 subframesize; /* Fix delay countour of previous erased frame */ j = sub(idxppg, 16); pdelayD_back = pdelayD; pdelayD = sub(delay, j); if (abs(sub(pdelayD, pdelayD_back)) > 15) pdelayD_back = pdelayD; for (i = 0; i < ACBMemSize; i++) PitchMemoryD[i] = PitchMemoryD_back[i]; #if 1 for (i = 0; i < NoOfSubFrames; i++) { if (i < 2) subframesize = SubFrameSize - 1; else subframesize = SubFrameSize; /* Interpolate delay */ Interpol_delay(delayi, &pdelayD_back, &pdelayD, i); /* Compute adaptive codebook contribution */ acb_excitation(PitchMemoryD + ACBMemSize, ave_acb_gain, delayi, PitchMemoryD, subframesize); for (j = 0; j < ACBMemSize; j++) PitchMemoryD[j] = PitchMemoryD[j + subframesize]; } #endif }