mirror of
https://github.com/KolibriOS/kolibrios.git
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2217a37e5b
git-svn-id: svn://kolibrios.org@3960 a494cfbc-eb01-0410-851d-a64ba20cac60
269 lines
11 KiB
C
269 lines
11 KiB
C
/*
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decode.h: common definitions for decode functions
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This file is strongly tied with optimize.h concerning the synth functions.
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Perhaps one should restructure that a bit.
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copyright 2007-8 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, taking WRITE_SAMPLE from decode.c
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*/
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#ifndef MPG123_DECODE_H
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#define MPG123_DECODE_H
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/* Selection of class of output routines for basic format. */
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#ifndef REAL_IS_FIXED
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#define OUT_FORMATS 4 /* Basic output formats: 16bit, 8bit, real and s32 */
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#else
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#define OUT_FORMATS 2 /* Only up to 16bit */
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#endif
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#define OUT_16 0
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#define OUT_8 1
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/* Those are defined but not supported for fixed point decoding! */
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#define OUT_REAL 2 /* Write a floating point sample (that is, one matching the internal real type). */
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#define OUT_S32 3
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#ifdef NO_NTOM
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#define NTOM_MAX 1
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#else
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#define NTOM_MAX 8 /* maximum allowed factor for upsampling */
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#define NTOM_MAX_FREQ 96000 /* maximum frequency to upsample to / downsample from */
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#define NTOM_MUL (32768)
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void ntom_set_ntom(mpg123_handle *fr, off_t num);
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#endif
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/* Let's collect all possible synth functions here, for an overview.
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If they are actually defined and used depends on preprocessor machinery.
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See synth.c and optimize.h for that, also some special C and assembler files. */
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#ifndef NO_16BIT
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/* The signed-16bit-producing variants. */
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int synth_1to1 (real*, int, mpg123_handle*, int);
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int synth_1to1_dither (real*, int, mpg123_handle*, int);
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int synth_1to1_i386 (real*, int, mpg123_handle*, int);
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int synth_1to1_i586 (real*, int, mpg123_handle*, int);
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int synth_1to1_i586_dither(real*, int, mpg123_handle*, int);
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int synth_1to1_mmx (real*, int, mpg123_handle*, int);
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int synth_1to1_3dnow (real*, int, mpg123_handle*, int);
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int synth_1to1_sse (real*, int, mpg123_handle*, int);
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int synth_1to1_stereo_sse (real*, real*, mpg123_handle*);
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int synth_1to1_3dnowext (real*, int, mpg123_handle*, int);
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int synth_1to1_altivec (real*, int, mpg123_handle*, int);
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int synth_1to1_stereo_altivec(real*, real*, mpg123_handle*);
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int synth_1to1_x86_64 (real*, int, mpg123_handle*, int);
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int synth_1to1_stereo_x86_64(real*, real*, mpg123_handle*);
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int synth_1to1_arm (real*, int, mpg123_handle*, int);
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int synth_1to1_neon (real*, int, mpg123_handle*, int);
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int synth_1to1_stereo_neon(real*, real*, mpg123_handle*);
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/* This is different, special usage in layer3.c only.
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Hence, the name... and now forget about it.
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Never use it outside that special portion of code inside layer3.c! */
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int absynth_1to1_i486(real*, int, mpg123_handle*, int);
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/* These mono/stereo converters use one of the above for the grunt work. */
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int synth_1to1_mono (real*, mpg123_handle*);
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int synth_1to1_m2s(real*, mpg123_handle*);
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/* Sample rate decimation comes in less flavours. */
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#ifndef NO_DOWNSAMPLE
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int synth_2to1 (real*, int, mpg123_handle*, int);
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int synth_2to1_dither (real*, int, mpg123_handle*, int);
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int synth_2to1_i386 (real*, int, mpg123_handle*, int);
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int synth_2to1_mono (real*, mpg123_handle*);
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int synth_2to1_m2s(real*, mpg123_handle*);
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int synth_4to1 (real *,int, mpg123_handle*, int);
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int synth_4to1_dither (real *,int, mpg123_handle*, int);
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int synth_4to1_i386 (real*, int, mpg123_handle*, int);
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int synth_4to1_mono (real*, mpg123_handle*);
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int synth_4to1_m2s(real*, mpg123_handle*);
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#endif
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#ifndef NO_NTOM
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/* NtoM is really just one implementation. */
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int synth_ntom (real *,int, mpg123_handle*, int);
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int synth_ntom_mono (real *, mpg123_handle *);
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int synth_ntom_m2s (real *, mpg123_handle *);
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#endif
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#endif
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#ifndef NO_8BIT
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/* The 8bit-producing variants. */
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/* There are direct 8-bit synths and wrappers over a possibly optimized 16bit one. */
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int synth_1to1_8bit (real*, int, mpg123_handle*, int);
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int synth_1to1_8bit_i386 (real*, int, mpg123_handle*, int);
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#ifndef NO_16BIT
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int synth_1to1_8bit_wrap (real*, int, mpg123_handle*, int);
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int synth_1to1_8bit_mono (real*, mpg123_handle*);
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#endif
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int synth_1to1_8bit_m2s(real*, mpg123_handle*);
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#ifndef NO_16BIT
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int synth_1to1_8bit_wrap_mono (real*, mpg123_handle*);
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int synth_1to1_8bit_wrap_m2s(real*, mpg123_handle*);
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#endif
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#ifndef NO_DOWNSAMPLE
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int synth_2to1_8bit (real*, int, mpg123_handle*, int);
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int synth_2to1_8bit_i386 (real*, int, mpg123_handle*, int);
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int synth_2to1_8bit_mono (real*, mpg123_handle*);
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int synth_2to1_8bit_m2s(real*, mpg123_handle*);
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int synth_4to1_8bit (real*, int, mpg123_handle*, int);
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int synth_4to1_8bit_i386 (real*, int, mpg123_handle*, int);
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int synth_4to1_8bit_mono (real*, mpg123_handle*);
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int synth_4to1_8bit_m2s(real*, mpg123_handle*);
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#endif
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#ifndef NO_NTOM
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int synth_ntom_8bit (real*, int, mpg123_handle*, int);
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int synth_ntom_8bit_mono (real*, mpg123_handle*);
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int synth_ntom_8bit_m2s(real*, mpg123_handle*);
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#endif
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#endif
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#ifndef REAL_IS_FIXED
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#ifndef NO_REAL
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/* The real-producing variants. */
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int synth_1to1_real (real*, int, mpg123_handle*, int);
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int synth_1to1_real_i386 (real*, int, mpg123_handle*, int);
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int synth_1to1_real_sse (real*, int, mpg123_handle*, int);
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int synth_1to1_real_stereo_sse (real*, real*, mpg123_handle*);
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int synth_1to1_real_x86_64 (real*, int, mpg123_handle*, int);
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int synth_1to1_real_stereo_x86_64(real*, real*, mpg123_handle*);
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int synth_1to1_real_altivec (real*, int, mpg123_handle*, int);
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int synth_1to1_real_stereo_altivec(real*, real*, mpg123_handle*);
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int synth_1to1_real_neon (real*, int, mpg123_handle*, int);
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int synth_1to1_real_stereo_neon(real*, real*, mpg123_handle*);
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int synth_1to1_real_mono (real*, mpg123_handle*);
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int synth_1to1_real_m2s(real*, mpg123_handle*);
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#ifndef NO_DOWNSAMPLE
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int synth_2to1_real (real*, int, mpg123_handle*, int);
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int synth_2to1_real_i386 (real*, int, mpg123_handle*, int);
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int synth_2to1_real_mono (real*, mpg123_handle*);
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int synth_2to1_real_m2s(real*, mpg123_handle*);
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int synth_4to1_real (real*, int, mpg123_handle*, int);
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int synth_4to1_real_i386 (real*, int, mpg123_handle*, int);
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int synth_4to1_real_mono (real*, mpg123_handle*);
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int synth_4to1_real_m2s(real*, mpg123_handle*);
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#endif
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#ifndef NO_NTOM
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int synth_ntom_real (real*, int, mpg123_handle*, int);
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int synth_ntom_real_mono (real*, mpg123_handle*);
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int synth_ntom_real_m2s(real*, mpg123_handle*);
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#endif
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#endif
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#ifndef NO_32BIT
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/* 32bit integer */
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int synth_1to1_s32 (real*, int, mpg123_handle*, int);
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int synth_1to1_s32_i386 (real*, int, mpg123_handle*, int);
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int synth_1to1_s32_sse (real*, int, mpg123_handle*, int);
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int synth_1to1_s32_stereo_sse (real*, real*, mpg123_handle*);
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int synth_1to1_s32_x86_64 (real*, int, mpg123_handle*, int);
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int synth_1to1_s32_stereo_x86_64(real*, real*, mpg123_handle*);
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int synth_1to1_s32_altivec (real*, int, mpg123_handle*, int);
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int synth_1to1_s32_stereo_altivec(real*, real*, mpg123_handle*);
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int synth_1to1_s32_neon (real*, int, mpg123_handle*, int);
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int synth_1to1_s32_stereo_neon(real*, real*, mpg123_handle*);
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int synth_1to1_s32_mono (real*, mpg123_handle*);
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int synth_1to1_s32_m2s(real*, mpg123_handle*);
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#ifndef NO_DOWNSAMPLE
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int synth_2to1_s32 (real*, int, mpg123_handle*, int);
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int synth_2to1_s32_i386 (real*, int, mpg123_handle*, int);
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int synth_2to1_s32_mono (real*, mpg123_handle*);
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int synth_2to1_s32_m2s(real*, mpg123_handle*);
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int synth_4to1_s32 (real*, int, mpg123_handle*, int);
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int synth_4to1_s32_i386 (real*, int, mpg123_handle*, int);
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int synth_4to1_s32_mono (real*, mpg123_handle*);
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int synth_4to1_s32_m2s(real*, mpg123_handle*);
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#endif
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#ifndef NO_NTOM
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int synth_ntom_s32 (real*, int, mpg123_handle*, int);
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int synth_ntom_s32_mono (real*, mpg123_handle*);
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int synth_ntom_s32_m2s(real*, mpg123_handle*);
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#endif
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#endif
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#endif /* FIXED */
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/* Inside these synth functions, some dct64 variants may be used.
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The special optimized ones that only appear in assembler code are not mentioned here.
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And, generally, these functions are only employed in a matching synth function. */
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void dct64 (real *,real *,real *);
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void dct64_i386 (real *,real *,real *);
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void dct64_altivec(real *,real *,real *);
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void dct64_i486(int*, int* , real*); /* Yeah, of no use outside of synth_i486.c .*/
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/* This is used by the layer 3 decoder, one generic function and 3DNow variants. */
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void dct36 (real *,real *,real *,real *,real *);
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void dct36_3dnow (real *,real *,real *,real *,real *);
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void dct36_3dnowext(real *,real *,real *,real *,real *);
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/* Tools for NtoM resampling synth, defined in ntom.c . */
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int synth_ntom_set_step(mpg123_handle *fr); /* prepare ntom decoding */
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unsigned long ntom_val(mpg123_handle *fr, off_t frame); /* compute ntom_val for frame offset */
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/* Frame and sample offsets. */
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#ifndef NO_NTOM
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/*
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Outsamples of _this_ frame.
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To be exact: The samples to be expected from the next frame decode (using the current ntom_val). When you already decoded _this_ frame, this is the number of samples to be expected from the next one.
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*/
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off_t ntom_frame_outsamples(mpg123_handle *fr);
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/* Total out/insample offset. */
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off_t ntom_frmouts(mpg123_handle *fr, off_t frame);
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off_t ntom_ins2outs(mpg123_handle *fr, off_t ins);
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off_t ntom_frameoff(mpg123_handle *fr, off_t soff);
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#endif
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/* Initialization of any static data that majy be needed at runtime.
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Make sure you call these once before it is too late. */
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#ifndef NO_LAYER3
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void init_layer3(void);
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real init_layer3_gainpow2(mpg123_handle *fr, int i);
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void init_layer3_stuff(mpg123_handle *fr, real (*gainpow2)(mpg123_handle *fr, int i));
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#endif
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#ifndef NO_LAYER12
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void init_layer12(void);
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real* init_layer12_table(mpg123_handle *fr, real *table, int m);
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void init_layer12_stuff(mpg123_handle *fr, real* (*init_table)(mpg123_handle *fr, real *table, int m));
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#endif
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void prepare_decode_tables(void);
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extern real *pnts[5]; /* tabinit provides, dct64 needs */
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/* Runtime (re)init functions; needed more often. */
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void make_decode_tables(mpg123_handle *fr); /* For every volume change. */
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/* Stuff needed after updating synth setup (see set_synth_functions()). */
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#ifdef OPT_MMXORSSE
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/* Special treatment for mmx-like decoders, these functions go into the slots below. */
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void make_decode_tables_mmx(mpg123_handle *fr);
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#ifndef NO_LAYER3
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real init_layer3_gainpow2_mmx(mpg123_handle *fr, int i);
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#endif
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#ifndef NO_LAYER12
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real* init_layer12_table_mmx(mpg123_handle *fr, real *table, int m);
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#endif
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#endif
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#ifndef NO_8BIT
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/* Needed when switching to 8bit output. */
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int make_conv16to8_table(mpg123_handle *fr);
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#endif
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/* These are the actual workers.
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They operate on the parsed frame data and handle decompression to audio samples.
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The synth functions defined above are called from inside the layer handlers. */
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#ifndef NO_LAYER3
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int do_layer3(mpg123_handle *fr);
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#endif
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#ifndef NO_LAYER2
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int do_layer2(mpg123_handle *fr);
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#endif
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#ifndef NO_LAYER1
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int do_layer1(mpg123_handle *fr);
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#endif
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/* There's an 3DNow counterpart in asm. */
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void do_equalizer(real *bandPtr,int channel, real equalizer[2][32]);
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#endif
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