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/*

	sample.h: The conversion from internal data to output samples of differing formats.

	copyright 2007-9 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

	initially written by Thomas Orgis, taking WRITE_SAMPLE from decode.c

	Later added the end-conversion specific macros here, too.

*/

#ifndef SAMPLE_H

#define SAMPLE_H

/* mpg123lib_intern.h is included already, right? */

/* Special case is fixed point math... which does work, but not that nice yet.  */

#ifdef REAL_IS_FIXED

static inline short idiv_signed_rounded(long x, int shift)

{

	x >>= (shift - 1);

	x += (x & 1);

	return (short)(x >> 1);

}

#  define REAL_PLUS_32767       ( 32767 << 15 )

#  define REAL_MINUS_32768      ( -32768 << 15 )

#  define REAL_TO_SHORT(x)      (idiv_signed_rounded(x, 15))

/* No better code (yet).  */

#  define REAL_TO_SHORT_ACCURATE(x) REAL_TO_SHORT(x)

/* This is just here for completeness, it is not used! */

# define REAL_TO_S32(x)        (x)

#endif

/* From now on for single precision float... double precision is a possible option once we added some bits. But, it would be rather insane. */

#ifndef REAL_TO_SHORT

/* Define the accurate rounding function. */

# if (defined REAL_IS_FLOAT) && (defined IEEE_FLOAT)

/* This function is only available for IEEE754 single-precision values

   This is nearly identical to proper rounding, just -+0.5 is rounded to 0 */

static inline short ftoi16(float x)

{

	union

	{

		float f;

		int32_t i;

	} u_fi;

	u_fi.f = x + 12582912.0f; /* Magic Number: 2^23 + 2^22 */

	return (short)u_fi.i;

}

#  define REAL_TO_SHORT_ACCURATE(x)      ftoi16(x)

# else

/* The "proper" rounding, plain C, a bit slow. */

#  define REAL_TO_SHORT_ACCURATE(x)      (short)((x)>0.0?(x)+0.5:(x)-0.5)

# endif

/* Now define the normal rounding. */

# ifdef ACCURATE_ROUNDING

#  define REAL_TO_SHORT(x)      REAL_TO_SHORT_ACCURATE(x)

# else

/* Non-accurate rounding... simple truncation. Fastest, most LSB errors. */

#  define REAL_TO_SHORT(x)      (short)(x)

# endif

#endif /* REAL_TO_SHORT */

/* We should add dithering for S32, too? */

#ifndef REAL_TO_S32

# ifdef ACCURATE_ROUNDING

#  define REAL_TO_S32(x) (int32_t)((x)>0.0?(x)+0.5:(x)-0.5)

# else

#  define REAL_TO_S32(x) (int32_t)(x)

# endif

#endif

#ifndef REAL_PLUS_32767

# define REAL_PLUS_32767 32767.0

#endif

#ifndef REAL_MINUS_32768

# define REAL_MINUS_32768 -32768.0

#endif

#ifndef REAL_PLUS_S32

# define REAL_PLUS_S32 2147483647.0

#endif

#ifndef REAL_MINUS_S32

# define REAL_MINUS_S32 -2147483648.0

#endif

/* The actual storage of a decoded sample is separated in the following macros.

   We can handle different types, we could also handle dithering here. */

#ifdef NEWOLD_WRITE_SAMPLE

/* This is the old new mpg123 WRITE_SAMPLE, fixed for newer GCC by MPlayer folks.

   Makes a huge difference on old machines. */

#if WORDS_BIGENDIAN

#define MANTISSA_OFFSET 1

#else

#define MANTISSA_OFFSET 0

#endif

#define WRITE_SHORT_SAMPLE(samples,sum,clip) { \

  union { double dtemp; int itemp[2]; } u; int v; \

  u.dtemp = ((((65536.0 * 65536.0 * 16)+(65536.0 * 0.5))* 65536.0)) + (sum);\

  v = u.itemp[MANTISSA_OFFSET] - 0x80000000; \

  if( v > 32767) { *(samples) = 0x7fff; (clip)++; } \

  else if( v < -32768) { *(samples) = -0x8000; (clip)++; } \

  else { *(samples) = v; }  \

}

#else

/* Macro to produce a short (signed 16bit) output sample from internal representation,

   which may be float, double or indeed some integer for fixed point handling. */

#define WRITE_SHORT_SAMPLE(samples,sum,clip) \

  if( (sum) > REAL_PLUS_32767) { *(samples) = 0x7fff; (clip)++; } \

  else if( (sum) < REAL_MINUS_32768) { *(samples) = -0x8000; (clip)++; } \

  else { *(samples) = REAL_TO_SHORT(sum); }

#endif

/* Same as above, but always using accurate rounding. Would we want softer clipping here, too? */

#define WRITE_SHORT_SAMPLE_ACCURATE(samples,sum,clip) \

  if( (sum) > REAL_PLUS_32767) { *(samples) = 0x7fff; (clip)++; } \

  else if( (sum) < REAL_MINUS_32768) { *(samples) = -0x8000; (clip)++; } \

  else { *(samples) = REAL_TO_SHORT_ACCURATE(sum); }

/*

	32bit signed

	We do clipping with the same old borders... but different conversion.

	We see here that we need extra work for non-16bit output... we optimized for 16bit.

	-0x7fffffff-1 is the minimum 32 bit signed integer value expressed so that MSVC

	does not give a compile time warning.

*/

#define WRITE_S32_SAMPLE(samples,sum,clip) \

	{ \

		real tmpsum = REAL_MUL((sum),S32_RESCALE); \

		if( tmpsum > REAL_PLUS_S32 ){ *(samples) = 0x7fffffff; (clip)++; } \

		else if( tmpsum < REAL_MINUS_S32 ) { *(samples) = -0x7fffffff-1; (clip)++; } \

		else { *(samples) = REAL_TO_S32(tmpsum); } \

	}

/* Produce an 8bit sample, via 16bit intermediate. */

#define WRITE_8BIT_SAMPLE(samples,sum,clip) \

{ \

	short write_8bit_tmp; \

	if( (sum) > REAL_PLUS_32767) { write_8bit_tmp = 0x7fff; (clip)++; } \

	else if( (sum) < REAL_MINUS_32768) { write_8bit_tmp = -0x8000; (clip)++; } \

	else { write_8bit_tmp = REAL_TO_SHORT(sum); } \

	*(samples) = fr->conv16to8[write_8bit_tmp>>AUSHIFT]; \

}

#ifndef REAL_IS_FIXED

#define WRITE_REAL_SAMPLE(samples,sum,clip) *(samples) = ((real)1./SHORT_SCALE)*(sum)

#endif

#endif