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751 lines
19 KiB
751 lines
19 KiB
/* |
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frame.c - compact version of famous library mpg123 |
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Copyright (C) 2017 Uncle Mike |
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This program is free software: you can redistribute it and/or modify |
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it under the terms of the GNU General Public License as published by |
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the Free Software Foundation, either version 3 of the License, or |
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(at your option) any later version. |
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This program is distributed in the hope that it will be useful, |
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but WITHOUT ANY WARRANTY; without even the implied warranty of |
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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GNU General Public License for more details. |
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*/ |
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#include "mpg123.h" |
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#include <math.h> |
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static void *aligned_pointer( void *base, uint alignment ) |
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{ |
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// work in unsigned integer realm, explicitly. |
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// tricking the compiler into integer operations like % by invoking base-NULL is dangerous: |
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// it results into ptrdiff_t, which gets negative on big addresses. Big screw up, that. |
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// i try to do it "properly" here: Casting only to size_t and no artihmethic with void*. |
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size_t baseval = (size_t)(char *)base; |
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size_t aoff = baseval % alignment; |
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if( aoff ) |
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return (char *)base + alignment - aoff; |
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return base; |
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} |
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static void frame_default_parm( mpg123_parm_t *mp ) |
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{ |
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mp->outscale = 1.0; |
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mp->flags = 0; |
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mp->flags |= MPG123_GAPLESS; |
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mp->flags |= MPG123_AUTO_RESAMPLE; |
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mp->down_sample = 0; |
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mp->rva = 0; |
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mp->halfspeed = 0; |
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mp->doublespeed = 0; |
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mp->verbose = 0; |
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mp->timeout = 0; |
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mp->resync_limit = 1024; |
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mp->index_size = INDEX_SIZE; |
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mp->preframes = 4; // that's good for layer 3 ISO compliance bitstream. |
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mpg123_fmt_all( mp ); |
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// default of keeping some 4K buffers at hand, should cover the "usual" use case |
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// (using 16K pipe buffers as role model). |
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mp->feedpool = 5; |
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mp->feedbuffer = 4096; |
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} |
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// reset everythign except dynamic memory. |
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static void frame_fixed_reset( mpg123_handle_t *fr ) |
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{ |
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open_bad( fr ); |
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fr->to_decode = FALSE; |
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fr->to_ignore = FALSE; |
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fr->metaflags = 0; |
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fr->outblock = 0; // this will be set before decoding! |
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fr->num = -1; |
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fr->input_offset = -1; |
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fr->playnum = -1; |
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fr->state_flags = FRAME_ACCURATE; |
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fr->silent_resync = 0; |
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fr->audio_start = 0; |
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fr->clip = 0; |
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fr->oldhead = 0; |
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fr->firsthead = 0; |
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fr->vbr = MPG123_CBR; |
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fr->abr_rate = 0; |
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fr->track_frames = 0; |
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fr->track_samples = -1; |
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fr->framesize=0; |
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fr->mean_frames = 0; |
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fr->mean_framesize = 0; |
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fr->freesize = 0; |
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fr->lastscale = -1; |
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fr->rva.level[0] = -1; |
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fr->rva.level[1] = -1; |
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fr->rva.gain[0] = 0; |
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fr->rva.gain[1] = 0; |
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fr->rva.peak[0] = 0; |
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fr->rva.peak[1] = 0; |
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fr->fsizeold = 0; |
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fr->firstframe = 0; |
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fr->ignoreframe = fr->firstframe - fr->p.preframes; |
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fr->header_change = 0; |
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fr->lastframe = -1; |
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fr->fresh = 1; |
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fr->new_format = 0; |
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frame_gapless_init( fr, -1, 0, 0 ); |
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fr->lastoff = 0; |
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fr->firstoff = 0; |
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fr->bo = 1; // the usual bo |
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fr->halfphase = 0; // here or indeed only on first-time init? |
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fr->error_protection = 0; |
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fr->freeformat_framesize = -1; |
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} |
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int frame_index_setup( mpg123_handle_t *fr ) |
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{ |
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int ret = MPG123_ERR; |
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if( fr->p.index_size >= 0 ) |
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{ |
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// simple fixed index. |
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fr->index.grow_size = 0; |
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ret = fi_resize( &fr->index, (size_t)fr->p.index_size ); |
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} |
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else |
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{ |
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// a growing index. we give it a start, though. |
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fr->index.grow_size = (size_t)(-fr->p.index_size ); |
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if( fr->index.size < fr->index.grow_size ) |
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ret = fi_resize( &fr->index, fr->index.grow_size ); |
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else ret = MPG123_OK; // we have minimal size already... and since growing is OK... |
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} |
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return ret; |
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} |
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void frame_init_par( mpg123_handle_t *fr, mpg123_parm_t *mp ) |
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{ |
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fr->own_buffer = TRUE; |
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fr->buffer.data = NULL; |
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fr->buffer.rdata = NULL; |
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fr->buffer.fill = 0; |
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fr->buffer.size = 0; |
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fr->rawbuffs = NULL; |
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fr->rawbuffss = 0; |
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fr->rawdecwin = NULL; |
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fr->rawdecwins = 0; |
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fr->layerscratch = NULL; |
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fr->xing_toc = NULL; |
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// unnecessary: fr->buffer.size = fr->buffer.fill = 0; |
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// frame_outbuffer is missing... |
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// frame_buffers is missing... that one needs cpu opt setting! |
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// after these... frame_reset is needed before starting full decode |
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invalidate_format( &fr->af ); |
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fr->rdat.r_read = NULL; |
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fr->rdat.r_lseek = NULL; |
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fr->rdat.iohandle = NULL; |
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fr->rdat.r_read_handle = NULL; |
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fr->rdat.r_lseek_handle = NULL; |
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fr->rdat.cleanup_handle = NULL; |
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fr->wrapperdata = NULL; |
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fr->wrapperclean = NULL; |
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fr->decoder_change = 1; |
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fr->err = MPG123_OK; |
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if( mp == NULL ) frame_default_parm( &fr->p ); |
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else memcpy( &fr->p, mp, sizeof( mpg123_parm_t )); |
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bc_prepare( &fr->rdat.buffer, fr->p.feedpool, fr->p.feedbuffer ); |
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fr->down_sample = 0; // initialize to silence harmless errors when debugging. |
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frame_fixed_reset( fr ); // reset only the fixed data, dynamic buffers are not there yet! |
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fr->synth = NULL; |
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fr->synth_mono = NULL; |
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fr->make_decode_tables = NULL; |
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fi_init( &fr->index ); |
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frame_index_setup( fr ); // apply the size setting. |
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} |
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static void frame_decode_buffers_reset( mpg123_handle_t *fr ) |
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{ |
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if( fr->rawbuffs ) /* memset(NULL, 0, 0) not desired */ |
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memset( fr->rawbuffs, 0, fr->rawbuffss ); |
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} |
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int frame_buffers( mpg123_handle_t *fr ) |
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{ |
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int buffssize = 4352; |
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buffssize += 15; // for 16-byte alignment |
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if(fr->rawbuffs != NULL && fr->rawbuffss != buffssize) |
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{ |
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free(fr->rawbuffs); |
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fr->rawbuffs = NULL; |
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} |
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if( fr->rawbuffs == NULL ) |
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fr->rawbuffs = (byte *)malloc( buffssize ); |
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if( fr->rawbuffs == NULL ) |
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return -1; |
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fr->rawbuffss = buffssize; |
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fr->short_buffs[0][0] = aligned_pointer( fr->rawbuffs, 16 ); |
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fr->short_buffs[0][1] = fr->short_buffs[0][0] + 0x110; |
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fr->short_buffs[1][0] = fr->short_buffs[0][1] + 0x110; |
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fr->short_buffs[1][1] = fr->short_buffs[1][0] + 0x110; |
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fr->float_buffs[0][0] = aligned_pointer( fr->rawbuffs, 16 ); |
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fr->float_buffs[0][1] = fr->float_buffs[0][0] + 0x110; |
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fr->float_buffs[1][0] = fr->float_buffs[0][1] + 0x110; |
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fr->float_buffs[1][1] = fr->float_buffs[1][0] + 0x110; |
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// now the different decwins... all of the same size, actually |
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// the MMX ones want 32byte alignment, which I'll try to ensure manually |
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{ |
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int decwin_size = (512 + 32) * sizeof( float ); |
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// hm, that's basically realloc() ... |
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if( fr->rawdecwin != NULL && fr->rawdecwins != decwin_size ) |
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{ |
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free( fr->rawdecwin ); |
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fr->rawdecwin = NULL; |
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} |
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if( fr->rawdecwin == NULL ) |
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fr->rawdecwin = (byte *)malloc( decwin_size ); |
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if( fr->rawdecwin == NULL ) |
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return -1; |
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fr->rawdecwins = decwin_size; |
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fr->decwin = (float *)fr->rawdecwin; |
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} |
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// layer scratch buffers are of compile-time fixed size, so allocate only once. |
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if( fr->layerscratch == NULL ) |
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{ |
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// allocate specific layer3 buffers |
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size_t scratchsize = 0; |
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float *scratcher; |
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scratchsize += sizeof( float ) * 2 * SBLIMIT * SSLIMIT; // hybrid_in |
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scratchsize += sizeof( float ) * 2 * SSLIMIT * SBLIMIT; // hybrid_out |
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fr->layerscratch = malloc( scratchsize + 63 ); |
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if(fr->layerscratch == NULL) return -1; |
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// get aligned part of the memory, then divide it up. |
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scratcher = aligned_pointer( fr->layerscratch, 64 ); |
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// those funky pointer casts silence compilers... |
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// One might change the code at hand to really just use 1D arrays, |
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// but in practice, that would not make a (positive) difference. |
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fr->layer3.hybrid_in = (float(*)[SBLIMIT][SSLIMIT])scratcher; |
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scratcher += 2 * SBLIMIT * SSLIMIT; |
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fr->layer3.hybrid_out = (float(*)[SSLIMIT][SBLIMIT])scratcher; |
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scratcher += 2 * SSLIMIT * SBLIMIT; |
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// note: These buffers don't need resetting here. |
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} |
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// only reset the buffers we created just now. |
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frame_decode_buffers_reset( fr ); |
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return 0; |
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} |
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int frame_buffers_reset( mpg123_handle_t *fr ) |
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{ |
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fr->buffer.fill = 0; // hm, reset buffer fill... did we do a flush? |
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fr->bsnum = 0; |
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// wondering: could it be actually _wanted_ to retain buffer contents over different files? (special gapless / cut stuff) |
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fr->bsbuf = fr->bsspace[1]; |
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fr->bsbufold = fr->bsbuf; |
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fr->bitreservoir = 0; |
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frame_decode_buffers_reset( fr ); |
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memset( fr->bsspace, 0, 2 * ( MAXFRAMESIZE + 512 )); |
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memset( fr->ssave, 0, 34 ); |
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fr->hybrid_blc[0] = fr->hybrid_blc[1] = 0; |
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memset( fr->hybrid_block, 0, sizeof( float ) * 2 * 2 * SBLIMIT * SSLIMIT ); |
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return 0; |
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} |
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void frame_init( mpg123_handle_t *fr ) |
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{ |
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frame_init_par( fr, NULL ); |
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} |
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int frame_outbuffer( mpg123_handle_t *fr ) |
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{ |
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size_t size = fr->outblock; |
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if( !fr->own_buffer ) |
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{ |
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if( fr->buffer.size < size ) |
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{ |
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fr->err = MPG123_BAD_BUFFER; |
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return MPG123_ERR; |
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} |
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} |
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if( fr->buffer.rdata != NULL && fr->buffer.size != size ) |
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{ |
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free( fr->buffer.rdata ); |
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fr->buffer.rdata = NULL; |
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} |
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fr->buffer.size = size; |
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fr->buffer.data = NULL; |
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// be generous: use 16 byte alignment |
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if( fr->buffer.rdata == NULL ) |
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fr->buffer.rdata = (byte *)malloc( fr->buffer.size + 15 ); |
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if( fr->buffer.rdata == NULL ) |
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{ |
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fr->err = MPG123_OUT_OF_MEM; |
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return MPG123_ERR; |
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} |
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fr->buffer.data = aligned_pointer( fr->buffer.rdata, 16 ); |
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fr->own_buffer = TRUE; |
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fr->buffer.fill = 0; |
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return MPG123_OK; |
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} |
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static void frame_free_toc( mpg123_handle_t *fr ) |
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{ |
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if( fr->xing_toc != NULL ) |
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{ |
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free( fr->xing_toc ); |
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fr->xing_toc = NULL; |
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} |
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} |
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// Just copy the Xing TOC over... |
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int frame_fill_toc( mpg123_handle_t *fr, byte *in ) |
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{ |
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if( fr->xing_toc == NULL ) |
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fr->xing_toc = malloc( 100 ); |
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if( fr->xing_toc != NULL ) |
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{ |
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memcpy( fr->xing_toc, in, 100 ); |
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return TRUE; |
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} |
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return FALSE; |
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} |
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// prepare the handle for a new track. |
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// reset variables, buffers... |
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int frame_reset( mpg123_handle_t *fr ) |
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{ |
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frame_buffers_reset( fr ); |
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frame_fixed_reset( fr ); |
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frame_free_toc( fr ); |
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fi_reset( &fr->index ); |
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return 0; |
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} |
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static void frame_free_buffers( mpg123_handle_t *fr ) |
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{ |
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if( fr->rawbuffs != NULL ) |
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free( fr->rawbuffs ); |
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fr->rawbuffs = NULL; |
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fr->rawbuffss = 0; |
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if( fr->rawdecwin != NULL ) |
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free( fr->rawdecwin ); |
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fr->rawdecwin = NULL; |
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fr->rawdecwins = 0; |
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if( fr->layerscratch != NULL ) |
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free( fr->layerscratch ); |
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} |
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void frame_exit( mpg123_handle_t *fr ) |
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{ |
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if( fr->buffer.rdata != NULL ) |
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free( fr->buffer.rdata ); |
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fr->buffer.rdata = NULL; |
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frame_free_buffers( fr ); |
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frame_free_toc( fr ); |
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fi_exit( &fr->index ); |
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// clean up possible mess from LFS wrapper. |
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if( fr->wrapperclean != NULL ) |
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{ |
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fr->wrapperclean( fr->wrapperdata ); |
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fr->wrapperdata = NULL; |
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} |
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bc_cleanup( &fr->rdat.buffer ); |
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} |
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int mpg123_framedata( mpg123_handle_t *mh, ulong *header, byte **bodydata, size_t *bodybytes ) |
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{ |
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if( mh == NULL ) |
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return MPG123_BAD_HANDLE; |
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if( !mh->to_decode ) |
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return MPG123_ERR; |
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if( header != NULL ) |
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*header = mh->oldhead; |
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if( bodydata != NULL ) |
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*bodydata = mh->bsbuf; |
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if( bodybytes != NULL ) |
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*bodybytes = mh->framesize; |
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return MPG123_OK; |
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} |
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// Fuzzy frame offset searching (guessing). |
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// When we don't have an accurate position, we may use an inaccurate one. |
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// Possibilities: |
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// - use approximate positions from Xing TOC (not yet parsed) |
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// - guess wildly from mean framesize and offset of first frame / beginning of file. |
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static mpg_off_t frame_fuzzy_find( mpg123_handle_t *fr, mpg_off_t want_frame, mpg_off_t *get_frame ) |
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{ |
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mpg_off_t ret = fr->audio_start; // default is to go to the beginning. |
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*get_frame = 0; |
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// but we try to find something better. |
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// Xing VBR TOC works with relative positions, both in terms of audio frames and stream bytes. |
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// thus, it only works when whe know the length of things. |
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// oh... I assume the offsets are relative to the _total_ file length. |
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if( fr->xing_toc != NULL && fr->track_frames > 0 && fr->rdat.filelen > 0 ) |
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{ |
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// one could round... |
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int toc_entry = (int)((double)want_frame * 100.0 / fr->track_frames ); |
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// it is an index in the 100-entry table. |
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if( toc_entry < 0 ) toc_entry = 0; |
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if( toc_entry > 99 ) toc_entry = 99; |
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// now estimate back what frame we get. |
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*get_frame = (mpg_off_t)((double)toc_entry / 100.0 * fr->track_frames ); |
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fr->state_flags &= ~FRAME_ACCURATE; |
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fr->silent_resync = 1; |
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// question: Is the TOC for whole file size (with/without ID3) or the "real" audio data only? |
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// ID3v1 info could also matter. |
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ret = (mpg_off_t)((double)fr->xing_toc[toc_entry] / 256.0 * fr->rdat.filelen); |
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} |
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else if( fr->mean_framesize > 0 ) |
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{ |
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// just guess with mean framesize (may be exact with CBR files). |
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// query filelen here or not? |
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fr->state_flags &= ~FRAME_ACCURATE; // fuzzy! |
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fr->silent_resync = 1; |
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*get_frame = want_frame; |
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ret = (mpg_off_t)(fr->audio_start + fr->mean_framesize * want_frame); |
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} |
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return ret; |
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} |
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// find the best frame in index just before the wanted one, seek to there |
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// then step to just before wanted one with read_frame |
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// do not care tabout the stuff that was in buffer but not played back |
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// everything that left the decoder is counted as played |
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// decide if you want low latency reaction and accurate timing info or stable long-time playback with buffer! |
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mpg_off_t frame_index_find( mpg123_handle_t *fr, mpg_off_t want_frame, mpg_off_t* get_frame ) |
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{ |
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mpg_off_t gopos = 0; // default is file start if no index position |
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*get_frame = 0; |
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// possibly use VBRI index, too? I'd need an example for this... |
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if( fr->index.fill ) |
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{ |
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size_t fi; // find in index |
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// at index fi there is frame step*fi... |
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fi = want_frame / fr->index.step; |
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if( fi >= fr->index.fill ) |
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{ |
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// if we are beyond the end of frame index... |
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// when fuzzy seek is allowed, we have some limited tolerance for the frames we want to read rather then jump over. |
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if( fr->p.flags & MPG123_FUZZY && want_frame - (fr->index.fill- 1) * fr->index.step > 10 ) |
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{ |
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gopos = frame_fuzzy_find( fr, want_frame, get_frame ); |
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if( gopos > fr->audio_start ) |
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return gopos; // only in that case, we have a useful guess. |
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// else... just continue, fuzzyness didn't help. |
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} |
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// use the last available position, slowly advancing from that one. |
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fi = fr->index.fill - 1; |
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} |
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// we have index position, that yields frame and byte offsets. |
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*get_frame = fi * fr->index.step; |
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gopos = fr->index.data[fi]; |
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fr->state_flags |= FRAME_ACCURATE; // when using the frame index, we are accurate. |
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} |
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else |
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{ |
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if( fr->p.flags & MPG123_FUZZY ) |
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return frame_fuzzy_find( fr, want_frame, get_frame ); |
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// a bit hackish here... but we need to be fresh when looking for the first header again. |
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fr->firsthead = 0; |
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fr->oldhead = 0; |
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} |
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return gopos; |
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} |
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mpg_off_t frame_ins2outs( mpg123_handle_t *fr, mpg_off_t ins ) |
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{ |
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mpg_off_t outs = 0; |
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switch( fr->down_sample ) |
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{ |
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case 0: |
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outs = ins >> fr->down_sample; |
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break; |
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default: break; |
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} |
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return outs; |
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} |
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mpg_off_t frame_outs( mpg123_handle_t *fr, mpg_off_t num ) |
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{ |
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mpg_off_t outs = 0; |
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switch( fr->down_sample ) |
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{ |
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case 0: |
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outs = (fr->spf >> fr->down_sample) * num; |
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break; |
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default: break; |
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} |
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return outs; |
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} |
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// compute the number of output samples we expect from this frame. |
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// this is either simple spf() or a tad more elaborate for ntom. |
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mpg_off_t frame_expect_outsamples( mpg123_handle_t *fr ) |
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{ |
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mpg_off_t outs = 0; |
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switch( fr->down_sample ) |
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{ |
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case 0: |
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outs = fr->spf >> fr->down_sample; |
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break; |
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default: break; |
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} |
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return outs; |
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} |
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mpg_off_t frame_offset( mpg123_handle_t *fr, mpg_off_t outs ) |
|
{ |
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mpg_off_t num = 0; |
|
|
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switch( fr->down_sample ) |
|
{ |
|
case 0: |
|
num = outs / (fr->spf >> fr->down_sample); |
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break; |
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default: break; |
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} |
|
|
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return num; |
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} |
|
|
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// input in _input_ samples |
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void frame_gapless_init( mpg123_handle_t *fr, mpg_off_t framecount, mpg_off_t bskip, mpg_off_t eskip ) |
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{ |
|
fr->gapless_frames = framecount; |
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|
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if( fr->gapless_frames > 0 && bskip >= 0 && eskip >= 0 ) |
|
{ |
|
fr->begin_s = bskip + GAPLESS_DELAY; |
|
fr->end_s = framecount * fr->spf - eskip + GAPLESS_DELAY; |
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} |
|
else fr->begin_s = fr->end_s = 0; |
|
|
|
// these will get proper values later, from above plus resampling info. |
|
fr->begin_os = 0; |
|
fr->end_os = 0; |
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fr->fullend_os = 0; |
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} |
|
|
|
void frame_gapless_realinit( mpg123_handle_t *fr ) |
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{ |
|
fr->begin_os = frame_ins2outs( fr, fr->begin_s ); |
|
fr->end_os = frame_ins2outs( fr, fr->end_s ); |
|
|
|
if( fr->gapless_frames > 0 ) |
|
fr->fullend_os = frame_ins2outs( fr, fr->gapless_frames * fr->spf ); |
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else fr->fullend_os = 0; |
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} |
|
|
|
// at least note when there is trouble... |
|
void frame_gapless_update( mpg123_handle_t *fr, mpg_off_t total_samples ) |
|
{ |
|
mpg_off_t gapless_samples = fr->gapless_frames * fr->spf; |
|
|
|
if( fr->gapless_frames < 1 ) |
|
return; |
|
|
|
if( gapless_samples > total_samples ) |
|
{ |
|
// This invalidates the current position... but what should I do? |
|
frame_gapless_init( fr, -1, 0, 0 ); |
|
frame_gapless_realinit( fr ); |
|
fr->lastframe = -1; |
|
fr->lastoff = 0; |
|
} |
|
} |
|
|
|
// compute the needed frame to ignore from, for getting accurate/consistent output for intended firstframe. |
|
static mpg_off_t ignoreframe( mpg123_handle_t *fr ) |
|
{ |
|
mpg_off_t preshift = fr->p.preframes; |
|
|
|
// layer 3 _really_ needs at least one frame before. |
|
if( fr->lay == 3 && preshift < 1 ) |
|
preshift = 1; |
|
|
|
// layer 1 & 2 really do not need more than 2. |
|
if(fr->lay != 3 && preshift > 2 ) |
|
preshift = 2; |
|
|
|
return fr->firstframe - preshift; |
|
} |
|
|
|
// the frame seek... this is not simply the seek to fe * fr->spf samples in output because we think of _input_ frames here. |
|
// seek to frame offset 1 may be just seek to 200 samples offset in output since the beginning of first frame is delay/padding. |
|
// hm, is that right? OK for the padding stuff, but actually, should the decoder delay be better totally hidden or not? |
|
// with gapless, even the whole frame position could be advanced further than requested (since Homey don't play dat). |
|
void frame_set_frameseek( mpg123_handle_t *fr, mpg_off_t fe ) |
|
{ |
|
fr->firstframe = fe; |
|
|
|
if( fr->p.flags & MPG123_GAPLESS && fr->gapless_frames > 0 ) |
|
{ |
|
// take care of the beginning... |
|
mpg_off_t beg_f = frame_offset( fr, fr->begin_os ); |
|
|
|
if( fe <= beg_f ) |
|
{ |
|
fr->firstframe = beg_f; |
|
fr->firstoff = fr->begin_os - frame_outs( fr, beg_f ); |
|
} |
|
else |
|
{ |
|
fr->firstoff = 0; |
|
} |
|
|
|
// the end is set once for a track at least, on the frame_set_frameseek called in get_next_frame() |
|
if( fr->end_os > 0 ) |
|
{ |
|
fr->lastframe = frame_offset( fr, fr->end_os ); |
|
fr->lastoff = fr->end_os - frame_outs( fr, fr->lastframe ); |
|
} |
|
else |
|
{ |
|
fr->lastframe = -1; |
|
fr->lastoff = 0; |
|
} |
|
} |
|
else |
|
{ |
|
fr->firstoff = fr->lastoff = 0; |
|
fr->lastframe = -1; |
|
} |
|
|
|
fr->ignoreframe = ignoreframe( fr ); |
|
} |
|
|
|
void frame_skip( mpg123_handle_t *fr ) |
|
{ |
|
if( fr->lay == 3 ) |
|
set_pointer( fr, 512 ); |
|
} |
|
|
|
// sample accurate seek prepare for decoder. |
|
// this gets unadjusted output samples and takes resampling into account |
|
void frame_set_seek( mpg123_handle_t *fr, mpg_off_t sp ) |
|
{ |
|
fr->firstframe = frame_offset( fr, sp ); |
|
fr->ignoreframe = ignoreframe( fr ); |
|
fr->firstoff = sp - frame_outs( fr, fr->firstframe ); |
|
} |
|
|
|
static int get_rva( mpg123_handle_t *fr, double *peak, double *gain ) |
|
{ |
|
double p = -1; |
|
double g = 0; |
|
int ret = 0; |
|
|
|
if( fr->p.rva ) |
|
{ |
|
int rt = 0; |
|
|
|
// should one assume a zero RVA as no RVA? |
|
if( fr->p.rva == 2 && fr->rva.level[1] != -1 ) |
|
rt = 1; |
|
|
|
if( fr->rva.level[rt] != -1 ) |
|
{ |
|
p = fr->rva.peak[rt]; |
|
g = fr->rva.gain[rt]; |
|
ret = 1; // success. |
|
} |
|
} |
|
|
|
if( peak != NULL ) *peak = p; |
|
if( gain != NULL ) *gain = g; |
|
|
|
return ret; |
|
} |
|
|
|
// adjust the volume, taking both fr->outscale and rva values into account |
|
void do_rva( mpg123_handle_t *fr ) |
|
{ |
|
double peak = 0; |
|
double gain = 0; |
|
double newscale; |
|
double rvafact = 1; |
|
|
|
if( get_rva( fr, &peak, &gain )) |
|
rvafact = pow( 10, gain / 20 ); |
|
|
|
newscale = fr->p.outscale * rvafact; |
|
|
|
// if peak is unknown (== 0) this check won't hurt |
|
if(( peak * newscale ) > 1.0 ) |
|
newscale = 1.0 / peak; |
|
|
|
// first rva setting is forced with fr->lastscale < 0 |
|
if( newscale != fr->lastscale || fr->decoder_change ) |
|
{ |
|
fr->lastscale = newscale; |
|
// it may be too early, actually. |
|
if( fr->make_decode_tables != NULL ) |
|
fr->make_decode_tables( fr ); // the actual work |
|
} |
|
}
|
|
|