/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * 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 */ /* * Based on implementation found in Carnegie Mellon Speech Group Software * depository (ftp://ftp.cs.cmu.edu/project/fgdata/index.html). No copyright * was claimed in the original source codes. */ #include #include #include #include "g722_enc.h" #if defined(PJMEDIA_HAS_G722_CODEC) && (PJMEDIA_HAS_G722_CODEC != 0) #define SATURATE(v, max, min) \ if (v>max) v = max; \ else if (v> 15 ; if (sil == 0 ) wd = el ; else wd = (32767 - el) & 32767 ; mil = 1 ; for (i = 1; i < 30; i++) { hdu = (q6[i] << 3) * detl; wd1 = (hdu >> 15) ; if (wd >= wd1) mil = (i + 1) ; else break ; } if (sil == -1 ) il = iln[mil] ; else il = ilp[mil] ; return (il) ; } static int block2l (int il, int detl) { int dlt; int ril, wd2 ; static const int qm4[16] = { 0, -20456, -12896, -8968, -6288, -4240, -2584, -1200, 20456, 12896, 8968, 6288, 4240, 2584, 1200, 0 }; /* INVQAL */ ril = il >> 2 ; wd2 = qm4[ril] ; dlt = (detl * wd2) >> 15 ; return (dlt) ; } static int block3l (g722_enc_t *enc, int il) { int detl; int ril, il4, wd, wd1, wd2, wd3, nbpl, depl ; static int const wl[8] = { -60, -30, 58, 172, 334, 538, 1198, 3042 } ; static int const rl42[16] = { 0, 7, 6, 5, 4, 3, 2, 1, 7, 6, 5, 4, 3, 2, 1, 0 }; static const int ilb[32] = { 2048, 2093, 2139, 2186, 2233, 2282, 2332, 2383, 2435, 2489, 2543, 2599, 2656, 2714, 2774, 2834, 2896, 2960, 3025, 3091, 3158, 3228, 3298, 3371, 3444, 3520, 3597, 3676, 3756, 3838, 3922, 4008 }; /* LOGSCL */ ril = il >> 2 ; il4 = rl42[ril] ; wd = (enc->nbl * 32512) >> 15 ; nbpl = wd + wl[il4] ; if (nbpl < 0) nbpl = 0 ; if (nbpl > 18432) nbpl = 18432 ; /* SCALEL */ wd1 = (nbpl >> 6) & 31 ; wd2 = nbpl >> 11 ; if ((8 - wd2) < 0) wd3 = ilb[wd1] << (wd2 - 8) ; else wd3 = ilb[wd1] >> (8 - wd2) ; depl = wd3 << 2 ; /* DELAYA */ enc->nbl = nbpl ; /* DELAYL */ detl = depl ; #ifdef DEBUG_VERBOSE printf ("BLOCK3L il=%4d, ril=%4d, il4=%4d, nbl=%4d, wd=%4d, nbpl=%4d\n", il, ril, il4, enc->nbl, wd, nbpl) ; printf ("wd1=%4d, wd2=%4d, wd3=%4d, depl=%4d, detl=%4d\n", wd1, wd2, wd3, depl, detl) ; #endif return (detl) ; } static int block4l (g722_enc_t *enc, int dl) { int sl = enc->slow; int i ; int wd, wd1, wd2, wd3, wd4, wd5 /*, wd6 */; enc->dlt[0] = dl; /* RECONS */ enc->rlt[0] = sl + enc->dlt[0] ; SATURATE(enc->rlt[0], 32767, -32768); /* PARREC */ enc->plt[0] = enc->dlt[0] + enc->szl ; SATURATE(enc->plt[0], 32767, -32768); /* UPPOL2 */ enc->sgl[0] = enc->plt[0] >> 15 ; enc->sgl[1] = enc->plt[1] >> 15 ; enc->sgl[2] = enc->plt[2] >> 15 ; wd1 = enc->al[1] << 2; SATURATE(wd1, 32767, -32768); if ( enc->sgl[0] == enc->sgl[1] ) wd2 = - wd1 ; else wd2 = wd1 ; if ( wd2 > 32767 ) wd2 = 32767; wd2 = wd2 >> 7 ; if ( enc->sgl[0] == enc->sgl[2] ) wd3 = 128 ; else wd3 = - 128 ; wd4 = wd2 + wd3 ; wd5 = (enc->al[2] * 32512) >> 15 ; enc->apl[2] = wd4 + wd5 ; SATURATE(enc->apl[2], 12288, -12288); /* UPPOL1 */ enc->sgl[0] = enc->plt[0] >> 15 ; enc->sgl[1] = enc->plt[1] >> 15 ; if ( enc->sgl[0] == enc->sgl[1] ) wd1 = 192 ; else wd1 = - 192 ; wd2 = (enc->al[1] * 32640) >> 15 ; enc->apl[1] = wd1 + wd2 ; SATURATE(enc->apl[1], 32767, -32768); wd3 = (15360 - enc->apl[2]) ; SATURATE(wd3, 32767, -32768); if ( enc->apl[1] > wd3) enc->apl[1] = wd3 ; if ( enc->apl[1] < -wd3) enc->apl[1] = -wd3 ; /* UPZERO */ if ( enc->dlt[0] == 0 ) wd1 = 0 ; else wd1 = 128 ; enc->sgl[0] = enc->dlt[0] >> 15 ; for ( i = 1; i < 7; i++ ) { enc->sgl[i] = enc->dlt[i] >> 15 ; if ( enc->sgl[i] == enc->sgl[0] ) wd2 = wd1 ; else wd2 = - wd1 ; wd3 = (enc->bl[i] * 32640) >> 15 ; enc->bpl[i] = wd2 + wd3 ; SATURATE(enc->bpl[i], 32767, -32768); } /* DELAYA */ for ( i = 6; i > 0; i-- ) { enc->dlt[i] = enc->dlt[i-1] ; enc->bl[i] = enc->bpl[i] ; } for ( i = 2; i > 0; i-- ) { enc->rlt[i] = enc->rlt[i-1] ; enc->plt[i] = enc->plt[i-1] ; enc->al[i] = enc->apl[i] ; } /* FILTEP */ wd1 = enc->rlt[1] + enc->rlt[1]; SATURATE(wd1, 32767, -32768); wd1 = ( enc->al[1] * wd1 ) >> 15 ; wd2 = enc->rlt[2] + enc->rlt[2]; SATURATE(wd2, 32767, -32768); wd2 = ( enc->al[2] * wd2 ) >> 15 ; enc->spl = wd1 + wd2 ; SATURATE(enc->spl, 32767, -32768); /* FILTEZ */ enc->szl = 0 ; for (i=6; i>0; i--) { wd = enc->dlt[i] + enc->dlt[i]; SATURATE(wd, 32767, -32768); enc->szl += (enc->bl[i] * wd) >> 15 ; SATURATE(enc->szl, 32767, -32768); } /* PREDIC */ sl = enc->spl + enc->szl ; SATURATE(sl, 32767, -32768); return (sl) ; } static int block1h (int xh, int sh, int deth) { int ih ; int eh, sih, mih, wd, wd1, hdu ; static const int ihn[3] = { 0, 1, 0 } ; static const int ihp[3] = { 0, 3, 2 } ; /* SUBTRA */ eh = xh - sh ; SATURATE(eh, 32767, -32768); /* QUANTH */ sih = eh >> 15 ; if (sih == 0 ) wd = eh ; else wd = (32767 - eh) & 32767 ; hdu = (564 << 3) * deth; wd1 = (hdu >> 15) ; if (wd >= wd1) mih = 2 ; else mih = 1 ; if (sih == -1 ) ih = ihn[mih] ; else ih = ihp[mih] ; return (ih) ; } static int block2h (int ih, int deth) { int dh ; int wd2 ; static const int qm2[4] = {-7408, -1616, 7408, 1616}; /* INVQAH */ wd2 = qm2[ih] ; dh = (deth * wd2) >> 15 ; return (dh) ; } static int block3h (g722_enc_t *enc, int ih) { int deth ; int ih2, wd, wd1, wd2, wd3, nbph, deph ; static const int wh[3] = {0, -214, 798} ; static const int rh2[4] = {2, 1, 2, 1} ; static const int ilb[32] = { 2048, 2093, 2139, 2186, 2233, 2282, 2332, 2383, 2435, 2489, 2543, 2599, 2656, 2714, 2774, 2834, 2896, 2960, 3025, 3091, 3158, 3228, 3298, 3371, 3444, 3520, 3597, 3676, 3756, 3838, 3922, 4008 }; /* LOGSCH */ ih2 = rh2[ih] ; wd = (enc->nbh * 32512) >> 15 ; nbph = wd + wh[ih2] ; if (nbph < 0) nbph = 0 ; if (nbph > 22528) nbph = 22528 ; /* SCALEH */ wd1 = (nbph >> 6) & 31 ; wd2 = nbph >> 11 ; if ((10-wd2) < 0) wd3 = ilb[wd1] << (wd2-10) ; else wd3 = ilb[wd1] >> (10-wd2) ; deph = wd3 << 2 ; /* DELAYA */ enc->nbh = nbph ; /* DELAYH */ deth = deph ; return (deth) ; } static int block4h (g722_enc_t *enc, int d) { int sh = enc->shigh; int i ; int wd, wd1, wd2, wd3, wd4, wd5 /*, wd6 */; enc->dh[0] = d; /* RECONS */ enc->rh[0] = sh + enc->dh[0] ; SATURATE(enc->rh[0], 32767, -32768); /* PARREC */ enc->ph[0] = enc->dh[0] + enc->szh ; SATURATE(enc->ph[0], 32767, -32768); /* UPPOL2 */ enc->sgh[0] = enc->ph[0] >> 15 ; enc->sgh[1] = enc->ph[1] >> 15 ; enc->sgh[2] = enc->ph[2] >> 15 ; wd1 = enc->ah[1] << 2; SATURATE(wd1, 32767, -32768); if ( enc->sgh[0] == enc->sgh[1] ) wd2 = - wd1 ; else wd2 = wd1 ; if ( wd2 > 32767 ) wd2 = 32767; wd2 = wd2 >> 7 ; if ( enc->sgh[0] == enc->sgh[2] ) wd3 = 128 ; else wd3 = - 128 ; wd4 = wd2 + wd3 ; wd5 = (enc->ah[2] * 32512) >> 15 ; enc->aph[2] = wd4 + wd5 ; SATURATE(enc->aph[2], 12288, -12288); /* UPPOL1 */ enc->sgh[0] = enc->ph[0] >> 15 ; enc->sgh[1] = enc->ph[1] >> 15 ; if ( enc->sgh[0] == enc->sgh[1] ) wd1 = 192 ; else wd1 = - 192 ; wd2 = (enc->ah[1] * 32640) >> 15 ; enc->aph[1] = wd1 + wd2 ; SATURATE(enc->aph[1], 32767, -32768); wd3 = (15360 - enc->aph[2]) ; SATURATE(wd3, 32767, -32768); if ( enc->aph[1] > wd3) enc->aph[1] = wd3 ; else if ( enc->aph[1] < -wd3) enc->aph[1] = -wd3 ; /* UPZERO */ if ( enc->dh[0] == 0 ) wd1 = 0 ; else wd1 = 128 ; enc->sgh[0] = enc->dh[0] >> 15 ; for ( i = 1; i < 7; i++ ) { enc->sgh[i] = enc->dh[i] >> 15 ; if ( enc->sgh[i] == enc->sgh[0] ) wd2 = wd1 ; else wd2 = - wd1 ; wd3 = (enc->bh[i] * 32640) >> 15 ; enc->bph[i] = wd2 + wd3 ; SATURATE(enc->bph[i], 32767, -32768); } /* DELAYA */ for ( i = 6; i > 0; i-- ) { enc->dh[i] = enc->dh[i-1] ; enc->bh[i] = enc->bph[i] ; } for ( i = 2; i > 0; i-- ) { enc->rh[i] = enc->rh[i-1] ; enc->ph[i] = enc->ph[i-1] ; enc->ah[i] = enc->aph[i] ; } /* FILTEP */ wd1 = enc->rh[1] + enc->rh[1]; SATURATE(wd1, 32767, -32768); wd1 = ( enc->ah[1] * wd1 ) >> 15 ; wd2 = enc->rh[2] + enc->rh[2]; SATURATE(wd2, 32767, -32768); wd2 = ( enc->ah[2] * wd2 ) >> 15 ; enc->sph = wd1 + wd2 ; SATURATE(enc->sph, 32767, -32768); /* FILTEZ */ enc->szh = 0 ; for (i=6; i>0; i--) { wd = enc->dh[i] + enc->dh[i]; SATURATE(wd, 32767, -32768); enc->szh += (enc->bh[i] * wd) >> 15 ; SATURATE(enc->szh, 32767, -32768); } /* PREDIC */ sh = enc->sph + enc->szh ; SATURATE(sh, 32767, -32768); return (sh) ; } /* PROCESS PCM THROUGH THE QMF FILTER */ static void tx_qmf(g722_enc_t *enc, int pcm1, int pcm2, int *lo, int *hi) { int sumodd, sumeven; int i; pj_memmove(&enc->x[2], enc->x, 22 * sizeof(enc->x[0])); enc->x[1] = pcm1; enc->x[0] = pcm2; sumodd = 0; for (i=1; i<24; i+=2) sumodd += enc->x[i] * g722_qmf_coeff[i]; sumeven = 0; for (i=0; i<24; i+=2) sumeven += enc->x[i] * g722_qmf_coeff[i]; *lo = (sumeven + sumodd) >> 13 ; *hi = (sumeven - sumodd) >> 13 ; SATURATE(*lo, 16383, -16384); SATURATE(*hi, 16383, -16383); } PJ_DEF(pj_status_t) g722_enc_init(g722_enc_t *enc) { PJ_ASSERT_RETURN(enc, PJ_EINVAL); pj_bzero(enc, sizeof(g722_enc_t)); enc->detlow = 32; enc->dethigh = 8; return PJ_SUCCESS; } PJ_DEF(pj_status_t) g722_enc_encode( g722_enc_t *enc, pj_int16_t in[], pj_size_t nsamples, void *out, pj_size_t *out_size) { unsigned i; int xlow, ilow, dlowt; int xhigh, ihigh, dhigh; pj_uint8_t *out_ = (pj_uint8_t*) out; PJ_ASSERT_RETURN(enc && in && nsamples && out && out_size, PJ_EINVAL); PJ_ASSERT_RETURN(nsamples % 2 == 0, PJ_EINVAL); PJ_ASSERT_RETURN(*out_size >= (nsamples >> 1), PJ_ETOOSMALL); for(i = 0; i < nsamples; i += 2) { tx_qmf(enc, in[i], in[i+1], &xlow, &xhigh); /* low band encoder */ ilow = block1l (xlow, enc->slow, enc->detlow) ; dlowt = block2l (ilow, enc->detlow) ; enc->detlow = block3l (enc, ilow) ; enc->slow = block4l (enc, dlowt) ; /* high band encoder */ ihigh = block1h (xhigh, enc->shigh, enc->dethigh) ; dhigh = block2h (ihigh, enc->dethigh) ; enc->dethigh = block3h (enc, ihigh) ; enc->shigh = block4h (enc, dhigh) ; /* bits mix low & high adpcm */ out_[i/2] = (pj_uint8_t)((ihigh << 6) | ilow); } *out_size = nsamples >> 1; return PJ_SUCCESS; } PJ_DEF(pj_status_t) g722_enc_deinit(g722_enc_t *enc) { pj_bzero(enc, sizeof(g722_enc_t)); return PJ_SUCCESS; } #endif