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flightgear/3rdparty/iaxclient/lib/gsm/inc/private.h
Clément de l'Hamaide c022bb8d51 Move IAXClient library into 3rdparty directory
Remove ENABLE_IAX option
Add an improved FGCom standalone as part of FG in utils directory
2013-09-27 16:05:45 +02:00

308 lines
8.2 KiB
C

/*
* Copyright 1992 by Jutta Degener and Carsten Bormann, Technische
* Universitaet Berlin. See the accompanying file "COPYRIGHT" for
* details. THERE IS ABSOLUTELY NO WARRANTY FOR THIS SOFTWARE.
*/
/*$Header$*/
#ifndef PRIVATE_H
#define PRIVATE_H
typedef short word; /* 16 bit signed int */
typedef long longword; /* 32 bit signed int */
typedef unsigned short uword; /* unsigned word */
typedef unsigned long ulongword; /* unsigned longword */
struct gsm_state {
word dp0[ 280 ];
word z1; /* preprocessing.c, Offset_com. */
longword L_z2; /* Offset_com. */
int mp; /* Preemphasis */
word u[8]; /* short_term_aly_filter.c */
word LARpp[2][8]; /* */
word j; /* */
word ltp_cut; /* long_term.c, LTP crosscorr. */
word nrp; /* 40 */ /* long_term.c, synthesis */
word v[9]; /* short_term.c, synthesis */
word msr; /* decoder.c, Postprocessing */
char verbose; /* only used if !NDEBUG */
char fast; /* only used if FAST */
char wav_fmt; /* only used if WAV49 defined */
unsigned char frame_index; /* odd/even chaining */
unsigned char frame_chain; /* half-byte to carry forward */
};
#define MIN_WORD (-32767 - 1)
#define MAX_WORD 32767
#define MIN_LONGWORD (-2147483647 - 1)
#define MAX_LONGWORD 2147483647
#ifdef SASR /* flag: >> is a signed arithmetic shift right */
#undef SASR
#define SASR(x, by) ((x) >> (by))
#else
#define SASR(x, by) ((x) >= 0 ? (x) >> (by) : (~(-((x) + 1) >> (by))))
#endif /* SASR */
#include "proto.h"
/*
* Prototypes from add.c
*/
extern word gsm_mult P((word a, word b));
extern longword gsm_L_mult P((word a, word b));
extern word gsm_mult_r P((word a, word b));
extern word gsm_div P((word num, word denum));
extern word gsm_add P(( word a, word b ));
extern longword gsm_L_add P(( longword a, longword b ));
extern word gsm_sub P((word a, word b));
extern longword gsm_L_sub P((longword a, longword b));
extern word gsm_abs P((word a));
extern word gsm_norm P(( longword a ));
extern longword gsm_L_asl P((longword a, int n));
extern word gsm_asl P((word a, int n));
extern longword gsm_L_asr P((longword a, int n));
extern word gsm_asr P((word a, int n));
/*
* Inlined functions from add.h
*/
/*
* #define GSM_MULT_R(a, b) (* word a, word b, !(a == b == MIN_WORD) *) \
* (0x0FFFF & SASR(((longword)(a) * (longword)(b) + 16384), 15))
*/
#define GSM_MULT_R(a, b) /* word a, word b, !(a == b == MIN_WORD) */ \
(SASR( ((longword)(a) * (longword)(b) + 16384), 15 ))
# define GSM_MULT(a,b) /* word a, word b, !(a == b == MIN_WORD) */ \
(SASR( ((longword)(a) * (longword)(b)), 15 ))
# define GSM_L_MULT(a, b) /* word a, word b */ \
(((longword)(a) * (longword)(b)) << 1)
#if defined(__GNUC__) && defined(__i386__)
static __inline__ int GSM_L_ADD(int a, int b)
{
__asm__ __volatile__(
"addl %2,%0; jno 0f; movl $0x7fffffff,%0; adcl $0,%0; 0:"
: "=r" (a)
: "0" (a), "ir" (b)
: "cc"
);
return(a);
}
static __inline__ short GSM_ADD(short a, short b)
{
__asm__ __volatile__(
"addw %2,%0; jno 0f; movw $0x7fff,%0; adcw $0,%0; 0:"
: "=r" (a)
: "0" (a), "ir" (b)
: "cc"
);
return(a);
}
static __inline__ short GSM_SUB(short a, short b)
{
__asm__ __volatile__(
"subw %2,%0; jno 0f; movw $0x7fff,%0; adcw $0,%0; 0:"
: "=r" (a)
: "0" (a), "ir" (b)
: "cc"
);
return(a);
}
#else
# define GSM_L_ADD(a, b) \
( (a) < 0 ? ( (b) >= 0 ? (a) + (b) \
: (utmp = (ulongword)-((a) + 1) + (ulongword)-((b) + 1)) \
>= MAX_LONGWORD ? MIN_LONGWORD : -(longword)utmp-2 ) \
: ((b) <= 0 ? (a) + (b) \
: (utmp = (ulongword)(a) + (ulongword)(b)) >= MAX_LONGWORD \
? MAX_LONGWORD : utmp))
/*
* # define GSM_ADD(a, b) \
* ((ltmp = (longword)(a) + (longword)(b)) >= MAX_WORD \
* ? MAX_WORD : ltmp <= MIN_WORD ? MIN_WORD : ltmp)
*/
/* Nonportable, but faster: */
#define GSM_ADD(a, b) \
(short) ((ulongword)((ltmp = (longword)(a) + (longword)(b)) - MIN_WORD) > \
MAX_WORD - MIN_WORD ? (ltmp > 0 ? MAX_WORD : MIN_WORD) : ltmp)
# define GSM_SUB(a, b) \
((ltmp = (longword)(a) - (longword)(b)) >= MAX_WORD \
? MAX_WORD : ltmp <= MIN_WORD ? MIN_WORD : ltmp)
#endif
# define GSM_ABS(a) ((a) < 0 ? ((a) == MIN_WORD ? MAX_WORD : -(a)) : (a))
/* Use these if necessary:
# define GSM_MULT_R(a, b) gsm_mult_r(a, b)
# define GSM_MULT(a, b) gsm_mult(a, b)
# define GSM_L_MULT(a, b) gsm_L_mult(a, b)
# define GSM_L_ADD(a, b) gsm_L_add(a, b)
# define GSM_ADD(a, b) gsm_add(a, b)
# define GSM_SUB(a, b) gsm_sub(a, b)
# define GSM_ABS(a) gsm_abs(a)
*/
/*
* More prototypes from implementations..
*/
extern void Gsm_Coder P((
struct gsm_state * S,
word * s, /* [0..159] samples IN */
word * LARc, /* [0..7] LAR coefficients OUT */
word * Nc, /* [0..3] LTP lag OUT */
word * bc, /* [0..3] coded LTP gain OUT */
word * Mc, /* [0..3] RPE grid selection OUT */
word * xmaxc,/* [0..3] Coded maximum amplitude OUT */
word * xMc /* [13*4] normalized RPE samples OUT */));
extern void Gsm_Long_Term_Predictor P(( /* 4x for 160 samples */
struct gsm_state * S,
word * d, /* [0..39] residual signal IN */
word * dp, /* [-120..-1] d' IN */
word * e, /* [0..40] OUT */
word * dpp, /* [0..40] OUT */
word * Nc, /* correlation lag OUT */
word * bc /* gain factor OUT */));
extern void Gsm_LPC_Analysis P((
struct gsm_state * S,
word * s, /* 0..159 signals IN/OUT */
word * LARc)); /* 0..7 LARc's OUT */
extern void Gsm_Preprocess P((
struct gsm_state * S,
word * s, word * so));
extern void Gsm_Encoding P((
struct gsm_state * S,
word * e,
word * ep,
word * xmaxc,
word * Mc,
word * xMc));
extern void Gsm_Short_Term_Analysis_Filter P((
struct gsm_state * S,
word * LARc, /* coded log area ratio [0..7] IN */
word * d /* st res. signal [0..159] IN/OUT */));
extern void Gsm_Decoder P((
struct gsm_state * S,
word * LARcr, /* [0..7] IN */
word * Ncr, /* [0..3] IN */
word * bcr, /* [0..3] IN */
word * Mcr, /* [0..3] IN */
word * xmaxcr, /* [0..3] IN */
word * xMcr, /* [0..13*4] IN */
word * s)); /* [0..159] OUT */
extern void Gsm_Decoding P((
struct gsm_state * S,
word xmaxcr,
word Mcr,
word * xMcr, /* [0..12] IN */
word * erp)); /* [0..39] OUT */
extern void Gsm_Long_Term_Synthesis_Filtering P((
struct gsm_state* S,
word Ncr,
word bcr,
word * erp, /* [0..39] IN */
word * drp)); /* [-120..-1] IN, [0..40] OUT */
void Gsm_RPE_Decoding P((
struct gsm_state *S,
word xmaxcr,
word Mcr,
word * xMcr, /* [0..12], 3 bits IN */
word * erp)); /* [0..39] OUT */
void Gsm_RPE_Encoding P((
struct gsm_state * S,
word * e, /* -5..-1][0..39][40..44 IN/OUT */
word * xmaxc, /* OUT */
word * Mc, /* OUT */
word * xMc)); /* [0..12] OUT */
extern void Gsm_Short_Term_Synthesis_Filter P((
struct gsm_state * S,
word * LARcr, /* log area ratios [0..7] IN */
word * drp, /* received d [0...39] IN */
word * s)); /* signal s [0..159] OUT */
extern void Gsm_Update_of_reconstructed_short_time_residual_signal P((
word * dpp, /* [0...39] IN */
word * ep, /* [0...39] IN */
word * dp)); /* [-120...-1] IN/OUT */
/*
* Tables from table.c
*/
#ifndef GSM_TABLE_C
extern word gsm_A[8], gsm_B[8], gsm_MIC[8], gsm_MAC[8];
extern word gsm_INVA[8];
extern word gsm_DLB[4], gsm_QLB[4];
extern word gsm_H[11];
extern word gsm_NRFAC[8];
extern word gsm_FAC[8];
#endif /* GSM_TABLE_C */
/*
* Debugging
*/
#ifdef NDEBUG
# define gsm_debug_words(a, b, c, d) /* nil */
# define gsm_debug_longwords(a, b, c, d) /* nil */
# define gsm_debug_word(a, b) /* nil */
# define gsm_debug_longword(a, b) /* nil */
#else /* !NDEBUG => DEBUG */
extern void gsm_debug_words P((char * name, int, int, word *));
extern void gsm_debug_longwords P((char * name, int, int, longword *));
extern void gsm_debug_longword P((char * name, longword));
extern void gsm_debug_word P((char * name, word));
#endif /* !NDEBUG */
#include "unproto.h"
#endif /* PRIVATE_H */