2217a37e5b
git-svn-id: svn://kolibrios.org@3960 a494cfbc-eb01-0410-851d-a64ba20cac60
522 lines
14 KiB
C
522 lines
14 KiB
C
/*
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format:routines to deal with audio (output) format
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copyright 2008-9 by the mpg123 project - free software under the terms of the LGPL 2.1
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see COPYING and AUTHORS files in distribution or http://mpg123.org
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initially written by Thomas Orgis, starting with parts of the old audio.c, with only faintly manage to show now
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*/
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#include "mpg123lib_intern.h"
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#include "debug.h"
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/* static int chans[NUM_CHANNELS] = { 1 , 2 }; */
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static const long my_rates[MPG123_RATES] = /* only the standard rates */
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{
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8000, 11025, 12000,
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16000, 22050, 24000,
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32000, 44100, 48000,
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};
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static const int my_encodings[MPG123_ENCODINGS] =
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{
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MPG123_ENC_SIGNED_16,
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MPG123_ENC_UNSIGNED_16,
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MPG123_ENC_SIGNED_32,
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MPG123_ENC_UNSIGNED_32,
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MPG123_ENC_SIGNED_24,
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MPG123_ENC_UNSIGNED_24,
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/* Floating point range, see below. */
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MPG123_ENC_FLOAT_32,
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MPG123_ENC_FLOAT_64,
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/* 8 bit range, see below. */
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MPG123_ENC_SIGNED_8,
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MPG123_ENC_UNSIGNED_8,
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MPG123_ENC_ULAW_8,
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MPG123_ENC_ALAW_8
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};
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/* Make that match the above table.
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And yes, I still don't like this kludgy stuff. */
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/* range[0] <= i < range[1] for forced floating point */
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static const int enc_float_range[2] = { 6, 8 };
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/* same for 8 bit encodings */
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static const int enc_8bit_range[2] = { 8, 12 };
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/* Only one type of float is supported. */
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# ifdef REAL_IS_FLOAT
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# define MPG123_FLOAT_ENC MPG123_ENC_FLOAT_32
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# else
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# define MPG123_FLOAT_ENC MPG123_ENC_FLOAT_64
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# endif
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/* The list of actually possible encodings. */
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static const int good_encodings[] =
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{
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#ifndef NO_16BIT
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MPG123_ENC_SIGNED_16,
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MPG123_ENC_UNSIGNED_16,
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#endif
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#ifndef NO_32BIT
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MPG123_ENC_SIGNED_32,
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MPG123_ENC_UNSIGNED_32,
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MPG123_ENC_SIGNED_24,
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MPG123_ENC_UNSIGNED_24,
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#endif
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#ifndef NO_REAL
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MPG123_FLOAT_ENC,
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#endif
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#ifndef NO_8BIT
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MPG123_ENC_SIGNED_8,
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MPG123_ENC_UNSIGNED_8,
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MPG123_ENC_ULAW_8,
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MPG123_ENC_ALAW_8
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#endif
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};
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/* Check if encoding is a valid one in this build.
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...lazy programming: linear search. */
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static int good_enc(const int enc)
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{
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size_t i;
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for(i=0; i<sizeof(good_encodings)/sizeof(int); ++i)
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if(enc == good_encodings[i]) return TRUE;
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return FALSE;
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}
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void attribute_align_arg mpg123_rates(const long **list, size_t *number)
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{
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if(list != NULL) *list = my_rates;
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if(number != NULL) *number = sizeof(my_rates)/sizeof(long);
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}
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/* Now that's a bit tricky... One build of the library knows only a subset of the encodings. */
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void attribute_align_arg mpg123_encodings(const int **list, size_t *number)
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{
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if(list != NULL) *list = good_encodings;
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if(number != NULL) *number = sizeof(good_encodings)/sizeof(int);
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}
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int attribute_align_arg mpg123_encsize(int encoding)
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{
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if(encoding & MPG123_ENC_8)
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return 1;
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else if(encoding & MPG123_ENC_16)
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return 2;
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else if(encoding & MPG123_ENC_24)
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return 3;
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else if(encoding & MPG123_ENC_32 || encoding == MPG123_ENC_FLOAT_32)
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return 4;
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else if(encoding == MPG123_ENC_FLOAT_64)
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return 8;
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else
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return 0;
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}
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/* char audio_caps[NUM_CHANNELS][MPG123_RATES+1][MPG123_ENCODINGS]; */
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static int rate2num(mpg123_pars *mp, long r)
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{
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int i;
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for(i=0;i<MPG123_RATES;i++) if(my_rates[i] == r) return i;
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#ifndef NO_NTOM
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if(mp && mp->force_rate != 0 && mp->force_rate == r) return MPG123_RATES;
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#endif
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return -1;
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}
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static int enc2num(int encoding)
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{
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int i;
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for(i=0;i<MPG123_ENCODINGS;++i)
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if(my_encodings[i] == encoding) return i;
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return -1;
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}
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static int cap_fit(mpg123_handle *fr, struct audioformat *nf, int f0, int f2)
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{
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int i;
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int c = nf->channels-1;
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int rn = rate2num(&fr->p, nf->rate);
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if(rn >= 0) for(i=f0;i<f2;i++)
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{
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if(fr->p.audio_caps[c][rn][i])
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{
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nf->encoding = my_encodings[i];
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return 1;
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}
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}
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return 0;
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}
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static int freq_fit(mpg123_handle *fr, struct audioformat *nf, int f0, int f2)
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{
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nf->rate = frame_freq(fr)>>fr->p.down_sample;
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if(cap_fit(fr,nf,f0,f2)) return 1;
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if(fr->p.flags & MPG123_AUTO_RESAMPLE)
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{
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nf->rate>>=1;
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if(cap_fit(fr,nf,f0,f2)) return 1;
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nf->rate>>=1;
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if(cap_fit(fr,nf,f0,f2)) return 1;
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}
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#ifndef NO_NTOM
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/* If nothing worked, try the other rates, only without constrains from user.
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In case you didn't guess: We enable flexible resampling if we find a working rate. */
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if( fr->p.flags & MPG123_AUTO_RESAMPLE &&
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!fr->p.force_rate && fr->p.down_sample == 0)
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{
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int i;
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int c = nf->channels-1;
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int rn = rate2num(&fr->p, frame_freq(fr));
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int rrn;
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if(rn < 0) return 0;
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/* Try higher rates first. */
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for(i=f0;i<f2;i++) for(rrn=rn+1; rrn<MPG123_RATES; ++rrn)
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if(fr->p.audio_caps[c][rrn][i])
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{
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nf->rate = my_rates[rrn];
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nf->encoding = my_encodings[i];
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return 1;
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}
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/* Then lower rates. */
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for(i=f0;i<f2;i++) for(rrn=rn-1; rrn>=0; --rrn)
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if(fr->p.audio_caps[c][rrn][i])
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{
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nf->rate = my_rates[rrn];
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nf->encoding = my_encodings[i];
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return 1;
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}
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}
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#endif
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return 0;
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}
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/* match constraints against supported audio formats, store possible setup in frame
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return: -1: error; 0: no format change; 1: format change */
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int frame_output_format(mpg123_handle *fr)
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{
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struct audioformat nf;
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int f0=0;
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int f2=MPG123_ENCODINGS; /* Omit the 32bit and float encodings. */
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mpg123_pars *p = &fr->p;
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/* initialize new format, encoding comes later */
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nf.channels = fr->stereo;
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/* All this forcing should be removed in favour of the capabilities table... */
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if(p->flags & MPG123_FORCE_8BIT)
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{
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f0 = enc_8bit_range[0];
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f2 = enc_8bit_range[1];
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}
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if(p->flags & MPG123_FORCE_FLOAT)
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{
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f0 = enc_float_range[0];
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f2 = enc_float_range[1];
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}
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/* force stereo is stronger */
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if(p->flags & MPG123_FORCE_MONO) nf.channels = 1;
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if(p->flags & MPG123_FORCE_STEREO) nf.channels = 2;
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#ifndef NO_NTOM
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if(p->force_rate)
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{
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nf.rate = p->force_rate;
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if(cap_fit(fr,&nf,f0,2)) goto end; /* 16bit encodings */
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if(cap_fit(fr,&nf,f0<=2 ? 2 : f0,f2)) goto end; /* 8bit encodings */
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/* try again with different stereoness */
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if(nf.channels == 2 && !(p->flags & MPG123_FORCE_STEREO)) nf.channels = 1;
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else if(nf.channels == 1 && !(p->flags & MPG123_FORCE_MONO)) nf.channels = 2;
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if(cap_fit(fr,&nf,f0,2)) goto end; /* 16bit encodings */
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if(cap_fit(fr,&nf,f0<=2 ? 2 : f0,f2)) goto end; /* 8bit encodings */
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if(NOQUIET)
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error3( "Unable to set up output format! Constraints: %s%s%liHz.",
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( p->flags & MPG123_FORCE_STEREO ? "stereo, " :
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(p->flags & MPG123_FORCE_MONO ? "mono, " : "") ),
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(p->flags & MPG123_FORCE_8BIT ? "8bit, " : ""),
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p->force_rate );
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/* if(NOQUIET && p->verbose <= 1) print_capabilities(fr); */
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fr->err = MPG123_BAD_OUTFORMAT;
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return -1;
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}
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#endif
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if(freq_fit(fr, &nf, f0, 2)) goto end; /* try rates with 16bit */
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if(freq_fit(fr, &nf, f0<=2 ? 2 : f0, f2)) goto end; /* ... 8bit */
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/* try again with different stereoness */
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if(nf.channels == 2 && !(p->flags & MPG123_FORCE_STEREO)) nf.channels = 1;
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else if(nf.channels == 1 && !(p->flags & MPG123_FORCE_MONO)) nf.channels = 2;
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if(freq_fit(fr, &nf, f0, 2)) goto end; /* try rates with 16bit */
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if(freq_fit(fr, &nf, f0<=2 ? 2 : f0, f2)) goto end; /* ... 8bit */
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/* Here is the _bad_ end. */
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if(NOQUIET)
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{
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error5( "Unable to set up output format! Constraints: %s%s%li, %li or %liHz.",
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( p->flags & MPG123_FORCE_STEREO ? "stereo, " :
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(p->flags & MPG123_FORCE_MONO ? "mono, " : "") ),
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(p->flags & MPG123_FORCE_8BIT ? "8bit, " : ""),
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frame_freq(fr), frame_freq(fr)>>1, frame_freq(fr)>>2 );
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}
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/* if(NOQUIET && p->verbose <= 1) print_capabilities(fr); */
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fr->err = MPG123_BAD_OUTFORMAT;
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return -1;
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end: /* Here is the _good_ end. */
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/* we had a successful match, now see if there's a change */
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if(nf.rate == fr->af.rate && nf.channels == fr->af.channels && nf.encoding == fr->af.encoding)
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{
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debug2("Old format with %i channels, and FORCE_MONO=%li", nf.channels, p->flags & MPG123_FORCE_MONO);
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return 0; /* the same format as before */
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}
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else /* a new format */
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{
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debug1("New format with %i channels!", nf.channels);
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fr->af.rate = nf.rate;
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fr->af.channels = nf.channels;
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fr->af.encoding = nf.encoding;
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/* Cache the size of one sample in bytes, for ease of use. */
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fr->af.encsize = mpg123_encsize(fr->af.encoding);
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if(fr->af.encsize < 1)
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{
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if(NOQUIET) error1("Some unknown encoding??? (%i)", fr->af.encoding);
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fr->err = MPG123_BAD_OUTFORMAT;
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return -1;
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}
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return 1;
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}
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}
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int attribute_align_arg mpg123_format_none(mpg123_handle *mh)
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{
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int r;
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if(mh == NULL) return MPG123_ERR;
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r = mpg123_fmt_none(&mh->p);
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if(r != MPG123_OK){ mh->err = r; r = MPG123_ERR; }
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return r;
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}
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int attribute_align_arg mpg123_fmt_none(mpg123_pars *mp)
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{
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if(mp == NULL) return MPG123_BAD_PARS;
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if(PVERB(mp,3)) fprintf(stderr, "Note: Disabling all formats.\n");
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memset(mp->audio_caps,0,sizeof(mp->audio_caps));
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return MPG123_OK;
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}
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int attribute_align_arg mpg123_format_all(mpg123_handle *mh)
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{
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int r;
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if(mh == NULL) return MPG123_ERR;
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r = mpg123_fmt_all(&mh->p);
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if(r != MPG123_OK){ mh->err = r; r = MPG123_ERR; }
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return r;
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}
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int attribute_align_arg mpg123_fmt_all(mpg123_pars *mp)
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{
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size_t rate, ch, enc;
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if(mp == NULL) return MPG123_BAD_PARS;
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if(PVERB(mp,3)) fprintf(stderr, "Note: Enabling all formats.\n");
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for(ch=0; ch < NUM_CHANNELS; ++ch)
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for(rate=0; rate < MPG123_RATES+1; ++rate)
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for(enc=0; enc < MPG123_ENCODINGS; ++enc)
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mp->audio_caps[ch][rate][enc] = good_enc(my_encodings[enc]) ? 1 : 0;
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return MPG123_OK;
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}
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int attribute_align_arg mpg123_format(mpg123_handle *mh, long rate, int channels, int encodings)
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{
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int r;
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if(mh == NULL) return MPG123_ERR;
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r = mpg123_fmt(&mh->p, rate, channels, encodings);
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if(r != MPG123_OK){ mh->err = r; r = MPG123_ERR; }
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return r;
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}
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int attribute_align_arg mpg123_fmt(mpg123_pars *mp, long rate, int channels, int encodings)
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{
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int ie, ic, ratei;
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int ch[2] = {0, 1};
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if(mp == NULL) return MPG123_BAD_PARS;
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if(!(channels & (MPG123_MONO|MPG123_STEREO))) return MPG123_BAD_CHANNEL;
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if(PVERB(mp,3)) fprintf(stderr, "Note: Want to enable format %li/%i for encodings 0x%x.\n", rate, channels, encodings);
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if(!(channels & MPG123_STEREO)) ch[1] = 0; /* {0,0} */
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else if(!(channels & MPG123_MONO)) ch[0] = 1; /* {1,1} */
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ratei = rate2num(mp, rate);
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if(ratei < 0) return MPG123_BAD_RATE;
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/* now match the encodings */
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for(ic = 0; ic < 2; ++ic)
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{
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for(ie = 0; ie < MPG123_ENCODINGS; ++ie)
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if(good_enc(my_encodings[ie]) && ((my_encodings[ie] & encodings) == my_encodings[ie]))
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mp->audio_caps[ch[ic]][ratei][ie] = 1;
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if(ch[0] == ch[1]) break; /* no need to do it again */
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}
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return MPG123_OK;
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}
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int attribute_align_arg mpg123_format_support(mpg123_handle *mh, long rate, int encoding)
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{
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if(mh == NULL) return 0;
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else return mpg123_fmt_support(&mh->p, rate, encoding);
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}
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int attribute_align_arg mpg123_fmt_support(mpg123_pars *mp, long rate, int encoding)
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{
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int ch = 0;
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int ratei, enci;
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ratei = rate2num(mp, rate);
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enci = enc2num(encoding);
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if(mp == NULL || ratei < 0 || enci < 0) return 0;
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if(mp->audio_caps[0][ratei][enci]) ch |= MPG123_MONO;
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if(mp->audio_caps[1][ratei][enci]) ch |= MPG123_STEREO;
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return ch;
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}
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/* Call this one to ensure that any valid format will be something different than this. */
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void invalidate_format(struct audioformat *af)
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{
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af->encoding = 0;
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af->rate = 0;
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af->channels = 0;
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}
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/* Consider 24bit output needing 32bit output as temporary storage. */
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off_t samples_to_storage(mpg123_handle *fr, off_t s)
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{
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if(fr->af.encoding & MPG123_ENC_24)
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return s*4*fr->af.channels; /* 4 bytes per sample */
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else
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return samples_to_bytes(fr, s);
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}
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/* take into account: channels, bytes per sample -- NOT resampling!*/
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off_t samples_to_bytes(mpg123_handle *fr , off_t s)
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{
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return s * fr->af.encsize * fr->af.channels;
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}
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off_t bytes_to_samples(mpg123_handle *fr , off_t b)
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{
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return b / fr->af.encsize / fr->af.channels;
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}
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#ifndef NO_32BIT
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/* Remove every fourth byte, facilitating conversion from 32 bit to 24 bit integers.
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This has to be aware of endianness, of course. */
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static void chop_fourth_byte(struct outbuffer *buf)
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{
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unsigned char *wpos = buf->data;
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unsigned char *rpos = buf->data;
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#ifdef WORDS_BIGENDIAN
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while((size_t) (rpos - buf->data + 4) <= buf->fill)
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{
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/* Really stupid: Copy, increment. Byte per byte. */
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*wpos = *rpos;
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wpos++; rpos++;
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*wpos = *rpos;
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wpos++; rpos++;
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*wpos = *rpos;
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wpos++; rpos++;
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rpos++; /* Skip the lowest byte (last). */
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}
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#else
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while((size_t) (rpos - buf->data + 4) <= buf->fill)
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{
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/* Really stupid: Copy, increment. Byte per byte. */
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rpos++; /* Skip the lowest byte (first). */
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*wpos = *rpos;
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wpos++; rpos++;
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*wpos = *rpos;
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wpos++; rpos++;
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*wpos = *rpos;
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wpos++; rpos++;
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}
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#endif
|
|
buf->fill = wpos-buf->data;
|
|
}
|
|
#endif
|
|
|
|
void postprocess_buffer(mpg123_handle *fr)
|
|
{
|
|
/* Handle unsigned output formats via reshifting after decode here.
|
|
Also handle conversion to 24 bit. */
|
|
#ifndef NO_32BIT
|
|
if(fr->af.encoding == MPG123_ENC_UNSIGNED_32 || fr->af.encoding == MPG123_ENC_UNSIGNED_24)
|
|
{ /* 32bit signed -> unsigned */
|
|
size_t i;
|
|
int32_t *ssamples;
|
|
uint32_t *usamples;
|
|
ssamples = (int32_t*)fr->buffer.data;
|
|
usamples = (uint32_t*)fr->buffer.data;
|
|
debug("converting output to unsigned 32 bit integer");
|
|
for(i=0; i<fr->buffer.fill/sizeof(int32_t); ++i)
|
|
{
|
|
/* Different strategy since we don't have a larger type at hand.
|
|
Also watch out for silly +-1 fun because integer constants are signed in C90! */
|
|
if(ssamples[i] >= 0)
|
|
usamples[i] = (uint32_t)ssamples[i] + 2147483647+1;
|
|
/* The smalles value goes zero. */
|
|
else if(ssamples[i] == ((int32_t)-2147483647-1))
|
|
usamples[i] = 0;
|
|
/* Now -value is in the positive range of signed int ... so it's a possible value at all. */
|
|
else
|
|
usamples[i] = (uint32_t)2147483647+1 - (uint32_t)(-ssamples[i]);
|
|
}
|
|
/* Dumb brute force: A second pass for hacking off the last byte. */
|
|
if(fr->af.encoding == MPG123_ENC_UNSIGNED_24)
|
|
chop_fourth_byte(&fr->buffer);
|
|
}
|
|
else if(fr->af.encoding == MPG123_ENC_SIGNED_24)
|
|
{
|
|
/* We got 32 bit signed ... chop off for 24 bit signed. */
|
|
chop_fourth_byte(&fr->buffer);
|
|
}
|
|
#endif
|
|
#ifndef NO_16BIT
|
|
if(fr->af.encoding == MPG123_ENC_UNSIGNED_16)
|
|
{
|
|
size_t i;
|
|
short *ssamples;
|
|
unsigned short *usamples;
|
|
ssamples = (short*)fr->buffer.data;
|
|
usamples = (unsigned short*)fr->buffer.data;
|
|
debug("converting output to unsigned 16 bit integer");
|
|
for(i=0; i<fr->buffer.fill/sizeof(short); ++i)
|
|
{
|
|
long tmp = (long)ssamples[i]+32768;
|
|
usamples[i] = (unsigned short)tmp;
|
|
}
|
|
}
|
|
#endif
|
|
}
|