Files
third_party_lame/libmp3lame/encoder.c
T
2000-11-01 18:25:11 +00:00

419 lines
12 KiB
C

/*
* LAME MP3 encoding engine
*
* Copyright (c) 1999 Mark Taylor
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
/* $Id$ */
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <assert.h>
#include "lame.h"
#include "util.h"
#include "newmdct.h"
#include "psymodel.h"
#include "quantize.h"
#include "quantize_pvt.h"
#include "bitstream.h"
#include "VbrTag.h"
/************************************************************************
*
* encodeframe() Layer 3
*
* encode a single frame
*
************************************************************************
lame_encode_frame()
gr 0 gr 1
inbuf: |--------------|---------------|-------------|
MDCT output: |--------------|---------------|-------------|
FFT's <---------1024---------->
<---------1024-------->
inbuf = buffer of PCM data size=MP3 framesize
encoder acts on inbuf[ch][0], but output is delayed by MDCTDELAY
so the MDCT coefficints are from inbuf[ch][-MDCTDELAY]
psy-model FFT has a 1 granule delay, so we feed it data for the
next granule.
FFT is centered over granule: 224+576+224
So FFT starts at: 576-224-MDCTDELAY
MPEG2: FFT ends at: BLKSIZE+576-224-MDCTDELAY
MPEG1: FFT ends at: BLKSIZE+2*576-224-MDCTDELAY (1904)
FFT starts at 576-224-MDCTDELAY (304) = 576-FFTOFFSET
*/
typedef FLOAT8 pedata[2][2];
int lame_encode_mp3_frame(lame_global_flags *gfp,
sample_t inbuf_l[],
sample_t inbuf_r[],
char *mp3buf, int mp3buf_size)
{
#ifdef macintosh /* PLL 14/04/2000 */
static FLOAT8 xr[2][2][576];
static int l3_enc[2][2][576];
#else
FLOAT8 xr[2][2][576];
int l3_enc[2][2][576];
#endif
int mp3count;
III_psy_ratio masking_ratio[2][2]; /*LR ratios */
III_psy_ratio masking_MS_ratio[2][2]; /*MS ratios */
III_psy_ratio (*masking)[2][2]; /*LR ratios and MS ratios*/
III_scalefac_t scalefac[2][2];
sample_t *inbuf[2];
lame_internal_flags *gfc=gfp->internal_flags;
pedata pe,pe_MS;
pedata *pe_use;
int ch,gr,mean_bits;
int bitsPerFrame;
int check_ms_stereo;
FLOAT8 ms_ratio_next = 0.;
FLOAT8 ms_ratio_prev = 0.;
/* end of variable definition */
memset((char *) masking_ratio, 0, sizeof(masking_ratio));
memset((char *) masking_MS_ratio, 0, sizeof(masking_MS_ratio));
memset((char *) scalefac, 0, sizeof(scalefac));
inbuf[0]=inbuf_l;
inbuf[1]=inbuf_r;
if (gfp->scale != 0) {
int i;
for (i=0 ; i<gfp->framesize; ++i) {
inbuf_l[i] *= gfp->scale;
if (gfc->stereo==2) inbuf_r[i] *= gfp->scale;
}
}
gfc->mode_ext = MPG_MD_LR_LR;
if (gfc->lame_encode_frame_init==0 ) {
gfc->lame_encode_frame_init=1;
/* padding method as described in
* "MPEG-Layer3 / Bitstream Syntax and Decoding"
* by Martin Sieler, Ralph Sperschneider
*
* note: there is no padding for the very first frame
*
* Robert.Hegemann@gmx.de 2000-06-22
*/
gfc->frac_SpF = ((gfp->version+1)*72000L*gfp->brate) % gfp->out_samplerate;
gfc->slot_lag = gfc->frac_SpF;
/* check FFT will not use a negative starting offset */
assert(576>=FFTOFFSET);
/* check if we have enough data for FFT */
assert(gfc->mf_size>=(BLKSIZE+gfp->framesize-FFTOFFSET));
/* check if we have enough data for polyphase filterbank */
/* it needs 1152 samples + 286 samples ignored for one granule */
/* 1152+576+286 samples for two granules */
assert(gfc->mf_size>=(286+576*(1+gfc->mode_gr)));
/* prime the MDCT/polyphase filterbank with a short block */
{
int i,j;
sample_t primebuff0[286+1152+576];
sample_t primebuff1[286+1152+576];
for (i=0, j=0; i<286+576*(1+gfc->mode_gr); ++i) {
if (i<576*gfc->mode_gr) {
primebuff0[i]=0;
if (gfc->stereo==2)
primebuff1[i]=0;
}else{
primebuff0[i]=inbuf[0][j];
if (gfc->stereo==2)
primebuff1[i]=inbuf[1][j];
++j;
}
}
/* polyphase filtering / mdct */
for ( gr = 0; gr < gfc->mode_gr; gr++ ) {
for ( ch = 0; ch < gfc->stereo; ch++ ) {
gfc->l3_side.gr[gr].ch[ch].tt.block_type=SHORT_TYPE;
}
}
mdct_sub48(gfc, primebuff0, primebuff1, xr);
}
iteration_init(gfc);
}
/********************** padding *****************************/
switch (gfp->padding_type) {
case 0:
gfc->padding=0;
break;
case 1:
gfc->padding=1;
break;
case 2:
default:
if (gfp->VBR!=vbr_off) {
gfc->padding=0;
} else {
if (gfp->disable_reservoir) {
gfc->padding = 0;
/* if the user specified --nores, dont very gfc->padding either */
/* tiny changes in frac_SpF rounding will cause file differences */
}else{
/* padding method as described in
* "MPEG-Layer3 / Bitstream Syntax and Decoding"
* by Martin Sieler, Ralph Sperschneider
*
* note: there is no padding for the very first frame
*
* Robert.Hegemann@gmx.de 2000-06-22
*/
gfc->slot_lag -= gfc->frac_SpF;
if (gfc->slot_lag < 0) {
gfc->slot_lag += gfp->out_samplerate;
gfc->padding = 1;
} else {
gfc->padding = 0;
}
} /* reservoir enabled */
}
}
if (gfc->psymodel) {
/* psychoacoustic model
* psy model has a 1 granule (576) delay that we must compensate for
* (mt 6/99).
*/
int ret;
sample_t *bufp[2]; /* address of beginning of left & right granule */
int blocktype[2];
ms_ratio_prev=gfc->ms_ratio[gfc->mode_gr-1];
for (gr=0; gr < gfc->mode_gr ; gr++) {
for ( ch = 0; ch < gfc->stereo; ch++ )
bufp[ch] = &inbuf[ch][576 + gr*576-FFTOFFSET];
ret=L3psycho_anal( gfc, bufp, gr,
&gfc->ms_ratio[gr],&ms_ratio_next,&gfc->ms_ener_ratio[gr],
masking_ratio, masking_MS_ratio,
pe[gr],pe_MS[gr],blocktype);
if (ret!=0) return -4;
for ( ch = 0; ch < gfc->stereo; ch++ )
gfc->l3_side.gr[gr].ch[ch].tt.block_type=blocktype[ch];
}
/* at LSF there is no 2nd granule */
gfc->ms_ratio[1]=gfc->ms_ratio[gfc->mode_gr-1];
}else{
for (gr=0; gr < gfc->mode_gr ; gr++)
for ( ch = 0; ch < gfc->stereo; ch++ ) {
gfc->l3_side.gr[gr].ch[ch].tt.block_type=NORM_TYPE;
pe_MS[gr][ch]=pe[gr][ch]=700;
}
}
/* block type flags */
for( gr = 0; gr < gfc->mode_gr; gr++ ) {
for ( ch = 0; ch < gfc->stereo; ch++ ) {
gr_info *cod_info = &gfc->l3_side.gr[gr].ch[ch].tt;
cod_info->mixed_block_flag = 0; /* never used by this model */
if (cod_info->block_type == NORM_TYPE )
cod_info->window_switching_flag = 0;
else
cod_info->window_switching_flag = 1;
}
}
/* polyphase filtering / mdct */
mdct_sub48(gfc, inbuf[0], inbuf[1], xr);
/* re-order the short blocks, for more efficient encoding below */
for (gr = 0; gr < gfc->mode_gr; gr++) {
for (ch = 0; ch < gfc->stereo; ch++) {
gr_info *cod_info = &gfc->l3_side.gr[gr].ch[ch].tt;
if (cod_info->block_type==SHORT_TYPE) {
freorder(gfc->scalefac_band.s,xr[gr][ch]);
}
}
}
/* use m/s gfc->stereo? */
check_ms_stereo = (gfp->mode == MPG_MD_JOINT_STEREO);
if (check_ms_stereo) {
int gr0 = 0, gr1 = gfc->mode_gr-1;
/* make sure block type is the same in each channel */
check_ms_stereo =
(gfc->l3_side.gr[gr0].ch[0].tt.block_type==gfc->l3_side.gr[gr0].ch[1].tt.block_type) &&
(gfc->l3_side.gr[gr1].ch[0].tt.block_type==gfc->l3_side.gr[gr1].ch[1].tt.block_type);
}
/* Here will be selected MS or LR coding of the 2 stereo channels */
assert ( gfc->mode_ext == MPG_MD_LR_LR );
gfc->mode_ext = MPG_MD_LR_LR;
if (gfp->force_ms) {
gfc->mode_ext = MPG_MD_MS_LR;
} else if (check_ms_stereo) {
/* ms_ratio = is like the ratio of side_energy/total_energy */
/* ms_ratio_ave = .50 * (ms_ratio[0] + ms_ratio[1]);*/
/* [0] and [1] are the results for the two granules in MPEG-1,
* in MPEG-2 it's only a faked averaging of the same value
* _prev is the value of the last granule of the previous frame
* _next ????
*/
FLOAT8 ms_ratio_ave1 = 0.25 * ( gfc->ms_ratio[0] + gfc->ms_ratio[1] + ms_ratio_prev + ms_ratio_next );
FLOAT8 ms_ratio_ave2 = 0.50 * ( gfc->ms_ratio[0] + gfc->ms_ratio[1] );
FLOAT8 threshold1 = 0.35;
FLOAT8 threshold2 = 0.45;
#ifdef KLEMM_12
if ( gfp->compression_ratio < 11.025 ) {
/* 11.025 => 1, 6.3 => 0 */
double klemm = (gfp->compression_ratio - 6.3) / (11.025 - 6.3);
threshold1 *= klemm;
threshold2 *= klemm;
}
#endif
if ( ms_ratio_ave1 < threshold1 && ms_ratio_ave2 < threshold2 ) {
#ifdef RH_VALIDATE_MS
int sum_pe_MS = pe_MS[0][0] + pe_MS[0][1] + pe_MS[1][0] + pe_MS[1][1];
int sum_pe_LR = pe [0][0] + pe [0][1] + pe [1][0] + pe [1][1];
/* based on PE: M/S coding would not use much more bits than L/R coding */
if (sum_pe_MS <= 1.07 * sum_pe_LR)
gfc->mode_ext = MPG_MD_MS_LR;
#else
gfc->mode_ext = MPG_MD_MS_LR;
#endif
}
}
if (gfp->analysis && gfc->pinfo != NULL) {
for ( gr = 0; gr < gfc->mode_gr; gr++ ) {
for ( ch = 0; ch < gfc->stereo; ch++ ) {
gfc->pinfo->ms_ratio[gr]=gfc->ms_ratio[gr];
gfc->pinfo->ms_ener_ratio[gr]=gfc->ms_ener_ratio[gr];
gfc->pinfo->blocktype[gr][ch]=
gfc->l3_side.gr[gr].ch[ch].tt.block_type;
memcpy(gfc->pinfo->xr[gr][ch],xr[gr][ch],sizeof(xr[gr][ch]));
/* if MS stereo, switch to MS psy data */
if (gfc->mode_ext==MPG_MD_MS_LR) {
gfc->pinfo->pe[gr][ch]=gfc->pinfo->pe[gr][ch+2];
gfc->pinfo->ers[gr][ch]=gfc->pinfo->ers[gr][ch+2];
memcpy(gfc->pinfo->energy[gr][ch],gfc->pinfo->energy[gr][ch+2],
sizeof(gfc->pinfo->energy[gr][ch]));
}
}
}
}
/* bit and noise allocation */
if (MPG_MD_MS_LR == gfc->mode_ext) {
masking = &masking_MS_ratio; /* use MS masking */
pe_use = &pe_MS;
} else {
masking = &masking_ratio; /* use LR masking */
pe_use = &pe;
}
switch (gfp->VBR){
default:
case vbr_off:
iteration_loop( gfc,*pe_use, gfc->ms_ener_ratio, xr, *masking, l3_enc, scalefac);
break;
case vbr_mt:
VBR_quantize( gfc,*pe_use, gfc->ms_ener_ratio, xr, *masking, l3_enc, scalefac);
break;
case vbr_rh:
case vbr_mtrh:
VBR_iteration_loop( gfc,*pe_use, gfc->ms_ener_ratio, xr, *masking, l3_enc, scalefac);
break;
case vbr_abr:
ABR_iteration_loop( gfc,*pe_use, gfc->ms_ener_ratio, xr, *masking, l3_enc, scalefac);
break;
}
/* write the frame to the bitstream */
getframebits(gfc, &bitsPerFrame, &mean_bits);
format_bitstream( gfp, bitsPerFrame, l3_enc, scalefac);
/* copy mp3 bit buffer into array */
mp3count = copy_buffer(mp3buf,mp3buf_size,&gfc->bs);
if (gfp->bWriteVbrTag) AddVbrFrame(gfp);
if (gfp->analysis && gfc->pinfo != NULL) {
int j;
for ( ch = 0; ch < gfc->stereo; ch++ ) {
for ( j = 0; j < FFTOFFSET; j++ )
gfc->pinfo->pcmdata[ch][j] = gfc->pinfo->pcmdata[ch][j+gfp->framesize];
for ( j = FFTOFFSET; j < 1600; j++ ) {
gfc->pinfo->pcmdata[ch][j] = inbuf[ch][j-FFTOFFSET];
}
}
set_frame_pinfo (gfc, xr, *masking, l3_enc, scalefac);
}
updateStats( gfc );
return mp3count;
}