kolibrios/programs/develop/libraries/libmpg123/mpg123lib_intern.h

/*
	mpg123lib_intern: Common non-public stuff for libmpg123

	copyright 1995-2008 by the mpg123 project - free software under the terms of the LGPL 2.1
	see COPYING and AUTHORS files in distribution or http://mpg123.org

	derived from the old mpg123.h
*/

#ifndef MPG123_H_INTERN
#define MPG123_H_INTERN

#define MPG123_RATES 9
#define MPG123_ENCODINGS 10

#include "config.h" /* Load this before _anything_ */

/* ABI conformance for other compilers.
   mpg123 needs 16byte-aligned stack for SSE and friends.
   gcc provides that, but others don't necessarily. */
#ifdef ABI_ALIGN_FUN
#ifndef attribute_align_arg
#if defined(__GNUC__) && (__GNUC__ > 4 || __GNUC__ == 4 && __GNUC_MINOR__>1)
#    define attribute_align_arg __attribute__((force_align_arg_pointer))
/* The gcc that can align the stack does not need the check... nor does it work with gcc 4.3+, anyway. */
#else
#    define attribute_align_arg
#    define NEED_ALIGNCHECK /* Other compilers get code to catch misaligned stack. */
#endif
#endif
#else
#define attribute_align_arg
/* We won't try the align check... */
#endif

/* export DLL symbols */
#if defined(WIN32) && defined(DYNAMIC_BUILD)
#define BUILD_MPG123_DLL
#endif
#include "compat.h"
#include "mpg123.h"

#define SKIP_JUNK 1

#ifndef M_PI
# define M_PI       3.14159265358979323846
#endif
#ifndef M_SQRT2
# define M_SQRT2	1.41421356237309504880
#endif

#ifdef SUNOS
#define memmove(dst,src,size) bcopy(src,dst,size)
#endif

/* some stuff has to go back to mpg123.h */
#ifdef REAL_IS_FLOAT
#  define real float
#  define REAL_SCANF "%f"
#  define REAL_PRINTF "%f"
#elif defined(REAL_IS_LONG_DOUBLE)
#  define real long double
#  define REAL_SCANF "%Lf"
#  define REAL_PRINTF "%Lf"
#elif defined(REAL_IS_FIXED)
/* Disable some output formats for fixed point decoder... */

# define real long

/*
  for fixed-point decoders, use pre-calculated tables to avoid expensive floating-point maths
  undef this macro for run-time calculation
*/
#define PRECALC_TABLES

# define REAL_RADIX				24
# define REAL_FACTOR			16777216.0

static inline long double_to_long_rounded(double x, double scalefac)
{
	x *= scalefac;
	x += (x > 0) ? 0.5 : -0.5;
	return (long)x;
}

static inline long scale_rounded(long x, int shift)
{
	x += (x >> 31);
	x >>= (shift - 1);
	x += (x & 1);
	return (x >> 1);
}

# ifdef __GNUC__
#  if defined(OPT_I386)
/* for i386_nofpu decoder */
#   define REAL_MUL_ASM(x, y, radix) \
({ \
	long _x=(x), _y=(y); \
	__asm__ ( \
		"imull %1 \n\t" \
		"shrdl %2, %%edx, %0 \n\t" \
		: "+&a" (_x) \
		: "mr" (_y), "I" (radix) \
		: "%edx", "cc" \
	); \
	_x; \
})

#   define REAL_MUL_SCALE_LAYER3_ASM(x, y, radix) \
({ \
	long _x=(x), _y=(y), _radix=(radix); \
	__asm__ ( \
		"imull %1 \n\t" \
		"shrdl %%cl, %%edx, %0 \n\t" \
		: "+&a" (_x) \
		: "mr" (_y), "c" (_radix) \
		: "%edx", "cc" \
	); \
	_x; \
})
#  elif defined(OPT_PPC)
/* for powerpc */
#   define REAL_MUL_ASM(x, y, radix) \
({ \
	long _x=(x), _y=(y), _mull, _mulh; \
	__asm__ ( \
		"mullw %0, %2, %3 \n\t" \
		"mulhw %1, %2, %3 \n\t" \
		"srwi %0, %0, %4 \n\t" \
		"rlwimi %0, %1, %5, 0, %6 \n\t" \
		: "=&r" (_mull), "=&r" (_mulh) \
		: "%r" (_x), "r" (_y), "i" (radix), "i" (32-(radix)), "i" ((radix)-1) \
	); \
	_mull; \
})

#   define REAL_MUL_SCALE_LAYER3_ASM(x, y, radix) \
({ \
	long _x=(x), _y=(y), _radix=(radix), _mull, _mulh, _radix2; \
	__asm__ ( \
		"mullw %0, %3, %4 \n\t" \
		"mulhw %1, %3, %4 \n\t" \
		"subfic %2, %5, 32 \n\t" \
		"srw %0, %0, %5 \n\t" \
		"slw %1, %1, %2 \n\t" \
		"or %0, %0, %1 \n\t" \
		: "=&r" (_mull), "=&r" (_mulh), "=&r" (_radix2) \
		: "%r" (_x), "r" (_y), "r" (_radix) \
		: "cc" \
	); \
	_mull; \
})
#  elif defined(OPT_ARM)
/* for arm */
#   define REAL_MUL_ASM(x, y, radix) \
({ \
	long _x=(x), _y=(y), _mull, _mulh; \
	__asm__ ( \
		"smull %0, %1, %2, %3 \n\t" \
		"mov %0, %0, lsr %4 \n\t" \
		"orr %0, %0, %1, lsl %5 \n\t" \
		: "=&r" (_mull), "=&r" (_mulh) \
		: "%r" (_x), "r" (_y), "M" (radix), "M" (32-(radix)) \
	); \
	_mull; \
})

#   define REAL_MUL_SCALE_LAYER3_ASM(x, y, radix) \
({ \
	long _x=(x), _y=(y), _radix=(radix), _mull, _mulh, _radix2; \
	__asm__ ( \
		"smull %0, %1, %3, %4 \n\t" \
		"mov %0, %0, lsr %5 \n\t" \
		"rsb %2, %5, #32 \n\t" \
		"orr %0, %0, %1, lsl %2 \n\t" \
		: "=&r" (_mull), "=&r" (_mulh), "=&r" (_radix2) \
		: "%r" (_x), "r" (_y), "r" (_radix) \
	); \
	_mull; \
})
#  endif
# endif

/* I just changed the (int) to (long) there... seemed right. */
# define DOUBLE_TO_REAL(x)					(double_to_long_rounded(x, REAL_FACTOR))
# define DOUBLE_TO_REAL_15(x)				(double_to_long_rounded(x, 32768.0))
# define DOUBLE_TO_REAL_POW43(x)			(double_to_long_rounded(x, 8192.0))
# define DOUBLE_TO_REAL_SCALE_LAYER12(x)	(double_to_long_rounded(x, 1073741824.0))
# define DOUBLE_TO_REAL_SCALE_LAYER3(x, y)	(double_to_long_rounded(x, pow(2.0,gainpow2_scale[y])))
# define REAL_TO_DOUBLE(x)					((double)(x) / REAL_FACTOR)
# ifdef REAL_MUL_ASM
#  define REAL_MUL(x, y)					REAL_MUL_ASM(x, y, REAL_RADIX)
#  define REAL_MUL_15(x, y)					REAL_MUL_ASM(x, y, 15)
#  define REAL_MUL_SCALE_LAYER12(x, y)		REAL_MUL_ASM(x, y, 15 + 30 - REAL_RADIX)
# else
#  define REAL_MUL(x, y)					(((long long)(x) * (long long)(y)) >> REAL_RADIX)
#  define REAL_MUL_15(x, y)					(((long long)(x) * (long long)(y)) >> 15)
#  define REAL_MUL_SCALE_LAYER12(x, y)		(((long long)(x) * (long long)(y)) >> (15 + 30 - REAL_RADIX))
# endif
# ifdef REAL_MUL_SCALE_LAYER3_ASM
#  define REAL_MUL_SCALE_LAYER3(x, y, z)	REAL_MUL_SCALE_LAYER3_ASM(x, y, 13 + gainpow2_scale[z] - REAL_RADIX)
# else
#  define REAL_MUL_SCALE_LAYER3(x, y, z)	(((long long)(x) * (long long)(y)) >> (13 + gainpow2_scale[z] - REAL_RADIX))
# endif
# define REAL_SCALE_LAYER12(x)				((long)((x) >> (30 - REAL_RADIX)))
# define REAL_SCALE_LAYER3(x, y)			((long)((x) >> (gainpow2_scale[y] - REAL_RADIX)))
# ifdef ACCURATE_ROUNDING
#  define REAL_MUL_SYNTH(x, y)				REAL_MUL(x, y)
#  define REAL_SCALE_DCT64(x)				(x)
#  define REAL_SCALE_WINDOW(x)				(x)
# else
#  define REAL_MUL_SYNTH(x, y)				((x) * (y))
#  define REAL_SCALE_DCT64(x)				((x) >> 8)
#  define REAL_SCALE_WINDOW(x)				scale_rounded(x, 16)
# endif
#  define REAL_SCANF "%ld"
#  define REAL_PRINTF "%ld"

#else
#  define real double
#  define REAL_SCANF "%lf"
#  define REAL_PRINTF "%f"
#endif

#ifndef REAL_IS_FIXED
# if (defined SIZEOF_INT32_T) && (SIZEOF_INT32_T != 4)
#  error "Bad 32bit types!!!"
# endif
#endif

#ifndef DOUBLE_TO_REAL
# define DOUBLE_TO_REAL(x)					(real)(x)
#endif
#ifndef DOUBLE_TO_REAL_15
# define DOUBLE_TO_REAL_15(x)				(real)(x)
#endif
#ifndef DOUBLE_TO_REAL_POW43
# define DOUBLE_TO_REAL_POW43(x)			(real)(x)
#endif
#ifndef DOUBLE_TO_REAL_SCALE_LAYER12
# define DOUBLE_TO_REAL_SCALE_LAYER12(x)	(real)(x)
#endif
#ifndef DOUBLE_TO_REAL_SCALE_LAYER3
# define DOUBLE_TO_REAL_SCALE_LAYER3(x, y)	(real)(x)
#endif
#ifndef REAL_TO_DOUBLE
# define REAL_TO_DOUBLE(x)					(x)
#endif

#ifndef REAL_MUL
# define REAL_MUL(x, y)						((x) * (y))
#endif
#ifndef REAL_MUL_SYNTH
# define REAL_MUL_SYNTH(x, y)				((x) * (y))
#endif
#ifndef REAL_MUL_15
# define REAL_MUL_15(x, y)					((x) * (y))
#endif
#ifndef REAL_MUL_SCALE_LAYER12
# define REAL_MUL_SCALE_LAYER12(x, y)		((x) * (y))
#endif
#ifndef REAL_MUL_SCALE_LAYER3
# define REAL_MUL_SCALE_LAYER3(x, y, z)		((x) * (y))
#endif
#ifndef REAL_SCALE_LAYER12
# define REAL_SCALE_LAYER12(x)				(x)
#endif
#ifndef REAL_SCALE_LAYER3
# define REAL_SCALE_LAYER3(x, y)			(x)
#endif
#ifndef REAL_SCALE_DCT64
# define REAL_SCALE_DCT64(x)				(x)
#endif

/* used to be: AUDIOBUFSIZE = n*64 with n=1,2,3 ...
   now: factor on minimum frame buffer size (which takes upsampling into account) */
#define		AUDIOBUFSIZE		2

#include "true.h"

#define         MAX_NAME_SIZE           81
#define         SBLIMIT                 32
#define         SCALE_BLOCK             12
#define         SSLIMIT                 18

/* Same as MPG_M_* */
#define         MPG_MD_STEREO           0
#define         MPG_MD_JOINT_STEREO     1
#define         MPG_MD_DUAL_CHANNEL     2
#define         MPG_MD_MONO             3

/* We support short or float output samples...
   Short integer amplitude is scaled by this. */
#define SHORT_SCALE 32768
/* That scales a short-scaled value to a 32bit integer scaled one
   value = 2**31/2**15 */
#define S32_RESCALE 65536

/* Pre Shift fo 16 to 8 bit converter table */
#define AUSHIFT (3)

#include "optimize.h"
#include "decode.h"
#include "parse.h"
#include "frame.h"

/* fr is a mpg123_handle* by convention here... */
#define NOQUIET  0 /*(!(fr->p.flags & MPG123_QUIET))*/
#define VERBOSE  (NOQUIET && fr->p.verbose)
#define VERBOSE2 (NOQUIET && fr->p.verbose > 1)
#define VERBOSE3 (NOQUIET && fr->p.verbose > 2)
#define VERBOSE4 (NOQUIET && fr->p.verbose > 3)
#define PVERB(mp, level) 0 /*(!((mp)->flags & MPG123_QUIET) && (mp)->verbose >= (level)) */

int decode_update(mpg123_handle *mh);
/* residing in format.c  */
off_t samples_to_bytes(mpg123_handle *fr , off_t s);
off_t bytes_to_samples(mpg123_handle *fr , off_t b);

#endif
libmpg123 1.9.0 git-svn-id: svn://kolibrios.org@1905 a494cfbc-eb01-0410-851d-a64ba20cac60 2011-03-11 11:57:03 +01:00			`/*`
			`mpg123lib_intern: Common non-public stuff for libmpg123`

			`copyright 1995-2008 by the mpg123 project - free software under the terms of the LGPL 2.1`
			`see COPYING and AUTHORS files in distribution or http://mpg123.org`

			`derived from the old mpg123.h`
			`*/`

			`#ifndef MPG123_H_INTERN`
			`#define MPG123_H_INTERN`

			`#define MPG123_RATES 9`
			`#define MPG123_ENCODINGS 10`

			`#include "config.h" /* Load this before _anything_ */`

			`/* ABI conformance for other compilers.`
			`mpg123 needs 16byte-aligned stack for SSE and friends.`
			`gcc provides that, but others don't necessarily. */`
			`#ifdef ABI_ALIGN_FUN`
			`#ifndef attribute_align_arg`
			`#if defined(__GNUC__) && (__GNUC__ > 4 \|\| __GNUC__ == 4 && __GNUC_MINOR__>1)`
			`# define attribute_align_arg __attribute__((force_align_arg_pointer))`
			`/* The gcc that can align the stack does not need the check... nor does it work with gcc 4.3+, anyway. */`
			`#else`
			`# define attribute_align_arg`
			`# define NEED_ALIGNCHECK /* Other compilers get code to catch misaligned stack. */`
			`#endif`
			`#endif`
			`#else`
			`#define attribute_align_arg`
			`/* We won't try the align check... */`
			`#endif`

			`/* export DLL symbols */`
			`#if defined(WIN32) && defined(DYNAMIC_BUILD)`
			`#define BUILD_MPG123_DLL`
			`#endif`
			`#include "compat.h"`
			`#include "mpg123.h"`

			`#define SKIP_JUNK 1`

			`#ifndef M_PI`
			`# define M_PI 3.14159265358979323846`
			`#endif`
			`#ifndef M_SQRT2`
			`# define M_SQRT2 1.41421356237309504880`
			`#endif`

			`#ifdef SUNOS`
			`#define memmove(dst,src,size) bcopy(src,dst,size)`
			`#endif`

			`/* some stuff has to go back to mpg123.h */`
			`#ifdef REAL_IS_FLOAT`
			`# define real float`
			`# define REAL_SCANF "%f"`
			`# define REAL_PRINTF "%f"`
			`#elif defined(REAL_IS_LONG_DOUBLE)`
			`# define real long double`
			`# define REAL_SCANF "%Lf"`
			`# define REAL_PRINTF "%Lf"`
			`#elif defined(REAL_IS_FIXED)`
			`/* Disable some output formats for fixed point decoder... */`

			`# define real long`

			`/*`
			`for fixed-point decoders, use pre-calculated tables to avoid expensive floating-point maths`
			`undef this macro for run-time calculation`
			`*/`
			`#define PRECALC_TABLES`

			`# define REAL_RADIX 24`
			`# define REAL_FACTOR 16777216.0`

			`static inline long double_to_long_rounded(double x, double scalefac)`
			`{`
			`x *= scalefac;`
			`x += (x > 0) ? 0.5 : -0.5;`
			`return (long)x;`
			`}`

			`static inline long scale_rounded(long x, int shift)`
			`{`
			`x += (x >> 31);`
			`x >>= (shift - 1);`
			`x += (x & 1);`
			`return (x >> 1);`
			`}`

			`# ifdef __GNUC__`
			`# if defined(OPT_I386)`
			`/* for i386_nofpu decoder */`
			`# define REAL_MUL_ASM(x, y, radix) \`
			`({ \`
			`long _x=(x), _y=(y); \`
			`__asm__ ( \`
			`"imull %1 \n\t" \`
			`"shrdl %2, %%edx, %0 \n\t" \`
			`: "+&a" (_x) \`
			`: "mr" (_y), "I" (radix) \`
			`: "%edx", "cc" \`
			`); \`
			`_x; \`
			`})`

			`# define REAL_MUL_SCALE_LAYER3_ASM(x, y, radix) \`
			`({ \`
			`long _x=(x), _y=(y), _radix=(radix); \`
			`__asm__ ( \`
			`"imull %1 \n\t" \`
			`"shrdl %%cl, %%edx, %0 \n\t" \`
			`: "+&a" (_x) \`
			`: "mr" (_y), "c" (_radix) \`
			`: "%edx", "cc" \`
			`); \`
			`_x; \`
			`})`
			`# elif defined(OPT_PPC)`
			`/* for powerpc */`
			`# define REAL_MUL_ASM(x, y, radix) \`
			`({ \`
			`long _x=(x), _y=(y), _mull, _mulh; \`
			`__asm__ ( \`
			`"mullw %0, %2, %3 \n\t" \`
			`"mulhw %1, %2, %3 \n\t" \`
			`"srwi %0, %0, %4 \n\t" \`
			`"rlwimi %0, %1, %5, 0, %6 \n\t" \`
			`: "=&r" (_mull), "=&r" (_mulh) \`
			`: "%r" (_x), "r" (_y), "i" (radix), "i" (32-(radix)), "i" ((radix)-1) \`
			`); \`
			`_mull; \`
			`})`

			`# define REAL_MUL_SCALE_LAYER3_ASM(x, y, radix) \`
			`({ \`
			`long _x=(x), _y=(y), _radix=(radix), _mull, _mulh, _radix2; \`
			`__asm__ ( \`
			`"mullw %0, %3, %4 \n\t" \`
			`"mulhw %1, %3, %4 \n\t" \`
			`"subfic %2, %5, 32 \n\t" \`
			`"srw %0, %0, %5 \n\t" \`
			`"slw %1, %1, %2 \n\t" \`
			`"or %0, %0, %1 \n\t" \`
			`: "=&r" (_mull), "=&r" (_mulh), "=&r" (_radix2) \`
			`: "%r" (_x), "r" (_y), "r" (_radix) \`
			`: "cc" \`
			`); \`
			`_mull; \`
			`})`
			`# elif defined(OPT_ARM)`
			`/* for arm */`
			`# define REAL_MUL_ASM(x, y, radix) \`
			`({ \`
			`long _x=(x), _y=(y), _mull, _mulh; \`
			`__asm__ ( \`
			`"smull %0, %1, %2, %3 \n\t" \`
			`"mov %0, %0, lsr %4 \n\t" \`
			`"orr %0, %0, %1, lsl %5 \n\t" \`
			`: "=&r" (_mull), "=&r" (_mulh) \`
			`: "%r" (_x), "r" (_y), "M" (radix), "M" (32-(radix)) \`
			`); \`
			`_mull; \`
			`})`

			`# define REAL_MUL_SCALE_LAYER3_ASM(x, y, radix) \`
			`({ \`
			`long _x=(x), _y=(y), _radix=(radix), _mull, _mulh, _radix2; \`
			`__asm__ ( \`
			`"smull %0, %1, %3, %4 \n\t" \`
			`"mov %0, %0, lsr %5 \n\t" \`
			`"rsb %2, %5, #32 \n\t" \`
			`"orr %0, %0, %1, lsl %2 \n\t" \`
			`: "=&r" (_mull), "=&r" (_mulh), "=&r" (_radix2) \`
			`: "%r" (_x), "r" (_y), "r" (_radix) \`
			`); \`
			`_mull; \`
			`})`
			`# endif`
			`# endif`

			`/* I just changed the (int) to (long) there... seemed right. */`
			`# define DOUBLE_TO_REAL(x) (double_to_long_rounded(x, REAL_FACTOR))`
			`# define DOUBLE_TO_REAL_15(x) (double_to_long_rounded(x, 32768.0))`
			`# define DOUBLE_TO_REAL_POW43(x) (double_to_long_rounded(x, 8192.0))`
			`# define DOUBLE_TO_REAL_SCALE_LAYER12(x) (double_to_long_rounded(x, 1073741824.0))`
			`# define DOUBLE_TO_REAL_SCALE_LAYER3(x, y) (double_to_long_rounded(x, pow(2.0,gainpow2_scale[y])))`
			`# define REAL_TO_DOUBLE(x) ((double)(x) / REAL_FACTOR)`
			`# ifdef REAL_MUL_ASM`
			`# define REAL_MUL(x, y) REAL_MUL_ASM(x, y, REAL_RADIX)`
			`# define REAL_MUL_15(x, y) REAL_MUL_ASM(x, y, 15)`
			`# define REAL_MUL_SCALE_LAYER12(x, y) REAL_MUL_ASM(x, y, 15 + 30 - REAL_RADIX)`
			`# else`
			`# define REAL_MUL(x, y) (((long long)(x) * (long long)(y)) >> REAL_RADIX)`
			`# define REAL_MUL_15(x, y) (((long long)(x) * (long long)(y)) >> 15)`
			`# define REAL_MUL_SCALE_LAYER12(x, y) (((long long)(x) * (long long)(y)) >> (15 + 30 - REAL_RADIX))`
			`# endif`
			`# ifdef REAL_MUL_SCALE_LAYER3_ASM`
			`# define REAL_MUL_SCALE_LAYER3(x, y, z) REAL_MUL_SCALE_LAYER3_ASM(x, y, 13 + gainpow2_scale[z] - REAL_RADIX)`
			`# else`
			`# define REAL_MUL_SCALE_LAYER3(x, y, z) (((long long)(x) * (long long)(y)) >> (13 + gainpow2_scale[z] - REAL_RADIX))`
			`# endif`
			`# define REAL_SCALE_LAYER12(x) ((long)((x) >> (30 - REAL_RADIX)))`
			`# define REAL_SCALE_LAYER3(x, y) ((long)((x) >> (gainpow2_scale[y] - REAL_RADIX)))`
			`# ifdef ACCURATE_ROUNDING`
			`# define REAL_MUL_SYNTH(x, y) REAL_MUL(x, y)`
			`# define REAL_SCALE_DCT64(x) (x)`
			`# define REAL_SCALE_WINDOW(x) (x)`
			`# else`
			`# define REAL_MUL_SYNTH(x, y) ((x) * (y))`
			`# define REAL_SCALE_DCT64(x) ((x) >> 8)`
			`# define REAL_SCALE_WINDOW(x) scale_rounded(x, 16)`
			`# endif`
			`# define REAL_SCANF "%ld"`
			`# define REAL_PRINTF "%ld"`

			`#else`
			`# define real double`
			`# define REAL_SCANF "%lf"`
			`# define REAL_PRINTF "%f"`
			`#endif`

			`#ifndef REAL_IS_FIXED`
			`# if (defined SIZEOF_INT32_T) && (SIZEOF_INT32_T != 4)`
			`# error "Bad 32bit types!!!"`
			`# endif`
			`#endif`

			`#ifndef DOUBLE_TO_REAL`
			`# define DOUBLE_TO_REAL(x) (real)(x)`
			`#endif`
			`#ifndef DOUBLE_TO_REAL_15`
			`# define DOUBLE_TO_REAL_15(x) (real)(x)`
			`#endif`
			`#ifndef DOUBLE_TO_REAL_POW43`
			`# define DOUBLE_TO_REAL_POW43(x) (real)(x)`
			`#endif`
			`#ifndef DOUBLE_TO_REAL_SCALE_LAYER12`
			`# define DOUBLE_TO_REAL_SCALE_LAYER12(x) (real)(x)`
			`#endif`
			`#ifndef DOUBLE_TO_REAL_SCALE_LAYER3`
			`# define DOUBLE_TO_REAL_SCALE_LAYER3(x, y) (real)(x)`
			`#endif`
			`#ifndef REAL_TO_DOUBLE`
			`# define REAL_TO_DOUBLE(x) (x)`
			`#endif`

			`#ifndef REAL_MUL`
			`# define REAL_MUL(x, y) ((x) * (y))`
			`#endif`
			`#ifndef REAL_MUL_SYNTH`
			`# define REAL_MUL_SYNTH(x, y) ((x) * (y))`
			`#endif`
			`#ifndef REAL_MUL_15`
			`# define REAL_MUL_15(x, y) ((x) * (y))`
			`#endif`
			`#ifndef REAL_MUL_SCALE_LAYER12`
			`# define REAL_MUL_SCALE_LAYER12(x, y) ((x) * (y))`
			`#endif`
			`#ifndef REAL_MUL_SCALE_LAYER3`
			`# define REAL_MUL_SCALE_LAYER3(x, y, z) ((x) * (y))`
			`#endif`
			`#ifndef REAL_SCALE_LAYER12`
			`# define REAL_SCALE_LAYER12(x) (x)`
			`#endif`
			`#ifndef REAL_SCALE_LAYER3`
			`# define REAL_SCALE_LAYER3(x, y) (x)`
			`#endif`
			`#ifndef REAL_SCALE_DCT64`
			`# define REAL_SCALE_DCT64(x) (x)`
			`#endif`

			`/* used to be: AUDIOBUFSIZE = n*64 with n=1,2,3 ...`
			`now: factor on minimum frame buffer size (which takes upsampling into account) */`
			`#define AUDIOBUFSIZE 2`

			`#include "true.h"`

			`#define MAX_NAME_SIZE 81`
			`#define SBLIMIT 32`
			`#define SCALE_BLOCK 12`
			`#define SSLIMIT 18`

			`/* Same as MPG_M_* */`
			`#define MPG_MD_STEREO 0`
			`#define MPG_MD_JOINT_STEREO 1`
			`#define MPG_MD_DUAL_CHANNEL 2`
			`#define MPG_MD_MONO 3`

			`/* We support short or float output samples...`
			`Short integer amplitude is scaled by this. */`
			`#define SHORT_SCALE 32768`
			`/* That scales a short-scaled value to a 32bit integer scaled one`
			`value = 231/215 */`
			`#define S32_RESCALE 65536`

			`/* Pre Shift fo 16 to 8 bit converter table */`
			`#define AUSHIFT (3)`

			`#include "optimize.h"`
			`#include "decode.h"`
			`#include "parse.h"`
			`#include "frame.h"`

			`/* fr is a mpg123_handle* by convention here... */`
			`#define NOQUIET 0 /(!(fr->p.flags & MPG123_QUIET))/`
			`#define VERBOSE (NOQUIET && fr->p.verbose)`
			`#define VERBOSE2 (NOQUIET && fr->p.verbose > 1)`
			`#define VERBOSE3 (NOQUIET && fr->p.verbose > 2)`
			`#define VERBOSE4 (NOQUIET && fr->p.verbose > 3)`
			`#define PVERB(mp, level) 0 /(!((mp)->flags & MPG123_QUIET) && (mp)->verbose >= (level)) /`

			`int decode_update(mpg123_handle *mh);`
			`/* residing in format.c */`
			`off_t samples_to_bytes(mpg123_handle *fr , off_t s);`
			`off_t bytes_to_samples(mpg123_handle *fr , off_t b);`

			`#endif`