libs: Import upstream code from gsm 1.0.19.

configure

@@ -709,6 +709,8 @@ LCMS2_PE_LIBS
 LCMS2_PE_CFLAGS
 JPEG_PE_LIBS
 JPEG_PE_CFLAGS
+GSM_PE_LIBS
+GSM_PE_CFLAGS
 EXCESS_PRECISION_CFLAGS
 CROSSDEBUG
 DELAYLOADFLAG
@@ -1781,6 +1783,7 @@ enable_dmoguids
 enable_dxerr8
 enable_dxerr9
 enable_dxguid
+enable_gsm
 enable_jpeg
 enable_lcms2
 enable_mfuuid
@@ -1924,6 +1927,8 @@ CPP
 OBJC
 OBJCFLAGS
 OBJCPP
+GSM_PE_CFLAGS
+GSM_PE_LIBS
 JPEG_PE_CFLAGS
 JPEG_PE_LIBS
 LCMS2_PE_CFLAGS
@@ -2707,6 +2712,9 @@ Some influential environment variables:
   OBJC        Objective C compiler command
   OBJCFLAGS   Objective C compiler flags
   OBJCPP      Objective C preprocessor
+  GSM_PE_CFLAGS
+              C compiler flags for the PE gsm, overriding the bundled version
+  GSM_PE_LIBS Linker flags for the PE gsm, overriding the bundled version
   JPEG_PE_CFLAGS
               C compiler flags for the PE jpeg, overriding the bundled version
   JPEG_PE_LIBS
@@ -10694,6 +10702,19 @@ esac
 fi
 
 
+if ${GSM_PE_CFLAGS:+false} :; then :
+  GSM_PE_CFLAGS="-I\$(top_srcdir)/libs/gsm/inc"
+else
+  enable_gsm=no
+fi
+if ${GSM_PE_LIBS:+false} :; then :
+  GSM_PE_LIBS=gsm
+else
+  enable_gsm=no
+fi
+$as_echo "$as_me:${as_lineno-$LINENO}: gsm cflags: $GSM_PE_CFLAGS" >&5
+$as_echo "$as_me:${as_lineno-$LINENO}: gsm libs: $GSM_PE_LIBS" >&5
+
 if ${JPEG_PE_CFLAGS:+false} :; then :
   JPEG_PE_CFLAGS="-I\$(top_srcdir)/libs/jpeg"
 else
@@ -18995,6 +19016,8 @@ QUICKTIME_LIBS = $QUICKTIME_LIBS
 CARBON_LIBS = $CARBON_LIBS
 METAL_LIBS = $METAL_LIBS
 EXCESS_PRECISION_CFLAGS = $EXCESS_PRECISION_CFLAGS
+GSM_PE_CFLAGS = $GSM_PE_CFLAGS
+GSM_PE_LIBS = $GSM_PE_LIBS
 JPEG_PE_CFLAGS = $JPEG_PE_CFLAGS
 JPEG_PE_LIBS = $JPEG_PE_LIBS
 LCMS2_PE_CFLAGS = $LCMS2_PE_CFLAGS
@@ -20291,6 +20314,7 @@ wine_fn_config_makefile libs/dmoguids enable_dmoguids
 wine_fn_config_makefile libs/dxerr8 enable_dxerr8
 wine_fn_config_makefile libs/dxerr9 enable_dxerr9
 wine_fn_config_makefile libs/dxguid enable_dxguid
+wine_fn_config_makefile libs/gsm enable_gsm
 wine_fn_config_makefile libs/jpeg enable_jpeg
 wine_fn_config_makefile libs/lcms2 enable_lcms2
 wine_fn_config_makefile libs/mfuuid enable_mfuuid

configure.ac

@@ -1058,6 +1058,7 @@ WINE_NOTICE_WITH(mingw,[test "x$CROSSTARGET" = "x"],
 
 dnl **** External libraries ****
 
+WINE_EXTLIB_FLAGS(GSM, gsm, gsm, "-I\$(top_srcdir)/libs/gsm/inc")
 WINE_EXTLIB_FLAGS(JPEG, jpeg, jpeg, "-I\$(top_srcdir)/libs/jpeg")
 WINE_EXTLIB_FLAGS(LCMS2, lcms2, lcms2, "-I\$(top_srcdir)/libs/lcms2/include")
 WINE_EXTLIB_FLAGS(PNG, png, "png \$(ZLIB_PE_LIBS)", "-I\$(top_srcdir)/libs/png")
@@ -3714,6 +3715,7 @@ WINE_CONFIG_MAKEFILE(libs/dmoguids)
 WINE_CONFIG_MAKEFILE(libs/dxerr8)
 WINE_CONFIG_MAKEFILE(libs/dxerr9)
 WINE_CONFIG_MAKEFILE(libs/dxguid)
+WINE_CONFIG_MAKEFILE(libs/gsm)
 WINE_CONFIG_MAKEFILE(libs/jpeg)
 WINE_CONFIG_MAKEFILE(libs/lcms2)
 WINE_CONFIG_MAKEFILE(libs/mfuuid)

libs/gsm/COPYRIGHT

+Copyright 1992, 1993, 1994 by Jutta Degener and Carsten Bormann,
+Technische Universitaet Berlin
+
+Any use of this software is permitted provided that this notice is not
+removed and that neither the authors nor the Technische Universitaet Berlin
+are deemed to have made any representations as to the suitability of this
+software for any purpose nor are held responsible for any defects of
+this software.  THERE IS ABSOLUTELY NO WARRANTY FOR THIS SOFTWARE.
+
+As a matter of courtesy, the authors request to be informed about uses
+this software has found, about bugs in this software, and about any
+improvements that may be of general interest.
+
+Berlin, 28.11.1994
+Jutta Degener
+Carsten Bormann
+
+                                 oOo
+
+Since the original terms of 15 years ago maybe do not make our
+intentions completely clear given today's refined usage of the legal
+terms, we append this additional permission:
+
+      Permission to use, copy, modify, and distribute this software
+      for any purpose with or without fee is hereby granted,
+      provided that this notice is not removed and that neither
+      the authors nor the Technische Universitaet Berlin are
+      deemed to have made any representations as to the suitability
+      of this software for any purpose nor are held responsible
+      for any defects of this software.  THERE IS ABSOLUTELY NO
+      WARRANTY FOR THIS SOFTWARE.
+
+Berkeley/Bremen, 05.04.2009
+Jutta Degener
+Carsten Bormann

libs/gsm/Makefile.in

+EXTLIB    = libgsm.a
+EXTRAINCL = -I$(srcdir)/inc
+
+C_SRCS = \
+	src/add.c \
+	src/code.c \
+	src/decode.c \
+	src/gsm_create.c \
+	src/gsm_decode.c \
+	src/gsm_destroy.c \
+	src/gsm_encode.c \
+	src/gsm_option.c \
+	src/gsm_print.c \
+	src/long_term.c \
+	src/lpc.c \
+	src/preprocess.c \
+	src/rpe.c \
+	src/short_term.c \
+	src/table.c

libs/gsm/inc/gsm.h

+/*
+ * 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: /home/kbs/jutta/src/gsm/gsm-1.0/inc/RCS/gsm.h,v 1.11 1996/07/05 18:02:56 jutta Exp $*/
+
+#ifndef	GSM_H
+#define	GSM_H
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#ifdef __cplusplus
+#	define	NeedFunctionPrototypes	1
+#endif
+
+#if __STDC__
+#	define	NeedFunctionPrototypes	1
+#endif
+
+#ifdef _NO_PROTO
+#	undef	NeedFunctionPrototypes
+#endif
+
+#ifdef NeedFunctionPrototypes
+#   include	<stdio.h>		/* for FILE * 	*/
+#endif
+
+#undef GSM_P
+#if NeedFunctionPrototypes
+#	define	GSM_P( protos )	protos
+#else
+#	define  GSM_P( protos )	( /* protos */ )
+#endif
+
+/*
+ *	Interface
+ */
+
+typedef struct gsm_state * 	gsm;
+typedef short		   	gsm_signal;		/* signed 16 bit */
+typedef unsigned char		gsm_byte;
+typedef gsm_byte 		gsm_frame[33];		/* 33 * 8 bits	 */
+
+#define	GSM_MAGIC		0xD		  	/* 13 kbit/s RPE-LTP */
+
+#define	GSM_PATCHLEVEL		19
+#define	GSM_MINOR		0
+#define	GSM_MAJOR		1
+
+#define	GSM_OPT_VERBOSE		1
+#define	GSM_OPT_FAST		2
+#define	GSM_OPT_LTP_CUT		3
+#define	GSM_OPT_WAV49		4
+#define	GSM_OPT_FRAME_INDEX	5
+#define	GSM_OPT_FRAME_CHAIN	6
+
+extern gsm  gsm_create 	GSM_P((void));
+extern void gsm_destroy GSM_P((gsm));	
+
+extern int  gsm_print   GSM_P((FILE *, gsm, gsm_byte  *));
+extern int  gsm_option  GSM_P((gsm, int, int *));
+
+extern void gsm_encode  GSM_P((gsm, gsm_signal *, gsm_byte  *));
+extern int  gsm_decode  GSM_P((gsm, gsm_byte   *, gsm_signal *));
+
+extern int  gsm_explode GSM_P((gsm, gsm_byte   *, gsm_signal *));
+extern void gsm_implode GSM_P((gsm, gsm_signal *, gsm_byte   *));
+
+#undef	GSM_P
+
+#ifdef __cplusplus
+}  // extern "C"
+#endif
+
+#endif	/* GSM_H */

libs/gsm/inc/private.h

+/*
+ * 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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/private.h,v 1.6 1996/07/02 10:15:26 jutta Exp $*/
+
+#ifndef	PRIVATE_H
+#define	PRIVATE_H
+
+#ifdef __cplusplus
+ 	extern "C" {
+#endif
+
+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		e[ 50 ];	/* code.c 			*/
+
+	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)
+
+# 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)	\
+	((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)
+
+# 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"
+
+#ifdef __cplusplus
+	}  // extern "C"
+#endif
+
+#endif	/* PRIVATE_H */

libs/gsm/inc/proto.h

+/*
+ * 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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/proto.h,v 1.1 1992/10/28 00:11:08 jutta Exp $*/
+
+#ifndef	PROTO_H
+#define	PROTO_H
+
+#if __cplusplus
+#	define	NeedFunctionPrototypes	1
+#endif
+
+#if __STDC__
+#	define	NeedFunctionPrototypes	1
+#endif
+
+#ifdef	_NO_PROTO
+#	undef	NeedFunctionPrototypes
+#endif
+
+#undef	P	/* gnu stdio.h actually defines this... 	*/
+#undef	P0
+#undef	P1
+#undef	P2
+#undef	P3
+#undef	P4
+#undef	P5
+#undef	P6
+#undef	P7
+#undef	P8
+
+#if NeedFunctionPrototypes
+
+#	define	P( protos )	protos
+
+#	define	P0()				(void)
+#	define	P1(x, a)			(a)
+#	define	P2(x, a, b)			(a, b)
+#	define	P3(x, a, b, c)			(a, b, c)
+#	define	P4(x, a, b, c, d)		(a, b, c, d)	
+#	define	P5(x, a, b, c, d, e)		(a, b, c, d, e)
+#	define	P6(x, a, b, c, d, e, f)		(a, b, c, d, e, f)
+#	define	P7(x, a, b, c, d, e, f, g)	(a, b, c, d, e, f, g)
+#	define	P8(x, a, b, c, d, e, f, g, h)	(a, b, c, d, e, f, g, h)
+
+#else /* !NeedFunctionPrototypes */
+
+#	define	P( protos )	( /* protos */ )
+
+#	define	P0()				()
+#	define	P1(x, a)			x a;
+#	define	P2(x, a, b)			x a; b;
+#	define	P3(x, a, b, c)			x a; b; c;
+#	define	P4(x, a, b, c, d)		x a; b; c; d;
+#	define	P5(x, a, b, c, d, e)		x a; b; c; d; e;
+#	define	P6(x, a, b, c, d, e, f)		x a; b; c; d; e; f;
+#	define	P7(x, a, b, c, d, e, f, g)	x a; b; c; d; e; f; g;
+#	define	P8(x, a, b, c, d, e, f, g, h)	x a; b; c; d; e; f; g; h;
+
+#endif  /* !NeedFunctionPrototypes */
+
+#endif	/* PROTO_H */

libs/gsm/inc/unproto.h

+/*
+ * 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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/unproto.h,v 1.1 1992/10/28 00:11:08 jutta Exp $*/
+
+#ifdef	PROTO_H		/* sic */
+#undef	PROTO_H
+
+#undef	P
+#undef	P0
+#undef	P1
+#undef	P2
+#undef	P3
+#undef	P4
+#undef	P5
+#undef	P6
+#undef	P7
+#undef	P8
+
+#endif	/* PROTO_H */

libs/gsm/src/add.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/add.c,v 1.6 1996/07/02 09:57:33 jutta Exp $ */
+
+/*
+ *  See private.h for the more commonly used macro versions.
+ */
+
+#include	<stdio.h>
+#include	<assert.h>
+
+#include	"private.h"
+#include	"gsm.h"
+#include	"proto.h"
+
+#define	saturate(x) 	\
+	((x) < MIN_WORD ? MIN_WORD : (x) > MAX_WORD ? MAX_WORD: (x))
+
+word gsm_add P2((a,b), word a, word b)
+{
+	longword sum = (longword)a + (longword)b;
+	return saturate(sum);
+}
+
+word gsm_sub P2((a,b), word a, word b)
+{
+	longword diff = (longword)a - (longword)b;
+	return saturate(diff);
+}
+
+word gsm_mult P2((a,b), word a, word b)
+{
+	if (a == MIN_WORD && b == MIN_WORD) return MAX_WORD;
+	else return SASR( (longword)a * (longword)b, 15 );
+}
+
+word gsm_mult_r P2((a,b), word a, word b)
+{
+	if (b == MIN_WORD && a == MIN_WORD) return MAX_WORD;
+	else {
+		longword prod = (longword)a * (longword)b + 16384;
+		prod >>= 15;
+		return prod & 0xFFFF;
+	}
+}
+
+word gsm_abs P1((a), word a)
+{
+	return a < 0 ? (a == MIN_WORD ? MAX_WORD : -a) : a;
+}
+
+longword gsm_L_mult P2((a,b),word a, word b)
+{
+	assert( a != MIN_WORD || b != MIN_WORD );
+	return ((longword)a * (longword)b) << 1;
+}
+
+longword gsm_L_add P2((a,b), longword a, longword b)
+{
+	if (a < 0) {
+		if (b >= 0) return a + b;
+		else {
+			ulongword A = (ulongword)-(a + 1) + (ulongword)-(b + 1);
+			return A >= MAX_LONGWORD ? MIN_LONGWORD :-(longword)A-2;
+		}
+	}
+	else if (b <= 0) return a + b;
+	else {
+		ulongword A = (ulongword)a + (ulongword)b;
+		return A > MAX_LONGWORD ? MAX_LONGWORD : A;
+	}
+}
+
+longword gsm_L_sub P2((a,b), longword a, longword b)
+{
+	if (a >= 0) {
+		if (b >= 0) return a - b;
+		else {
+			/* a>=0, b<0 */
+
+			ulongword A = (ulongword)a + -(b + 1);
+			return A >= MAX_LONGWORD ? MAX_LONGWORD : (A + 1);
+		}
+	}
+	else if (b <= 0) return a - b;
+	else {
+		/* a<0, b>0 */
+
+		ulongword A = (ulongword)-(a + 1) + b;
+		return A >= MAX_LONGWORD ? MIN_LONGWORD : -(longword)A - 1;
+	}
+}
+
+static unsigned char const bitoff[ 256 ] = {
+	 8, 7, 6, 6, 5, 5, 5, 5, 4, 4, 4, 4, 4, 4, 4, 4,
+	 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3,
+	 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+	 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2,
+	 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+	 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+	 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+	 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
+	 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
+};
+
+word gsm_norm P1((a), longword a )
+/*
+ * the number of left shifts needed to normalize the 32 bit
+ * variable L_var1 for positive values on the interval
+ *
+ * with minimum of
+ * minimum of 1073741824  (01000000000000000000000000000000) and
+ * maximum of 2147483647  (01111111111111111111111111111111)
+ *
+ *
+ * and for negative values on the interval with
+ * minimum of -2147483648 (-10000000000000000000000000000000) and
+ * maximum of -1073741824 ( -1000000000000000000000000000000).
+ *
+ * in order to normalize the result, the following
+ * operation must be done: L_norm_var1 = L_var1 << norm( L_var1 );
+ *
+ * (That's 'ffs', only from the left, not the right..)
+ */
+{
+	assert(a != 0);
+
+	if (a < 0) {
+		if (a <= -1073741824) return 0;
+		a = ~a;
+	}
+
+	return    a & 0xffff0000
+		? ( a & 0xff000000
+		  ?  -1 + bitoff[ 0xFF & (a >> 24) ]
+		  :   7 + bitoff[ 0xFF & (a >> 16) ] )
+		: ( a & 0xff00
+		  ?  15 + bitoff[ 0xFF & (a >> 8) ]
+		  :  23 + bitoff[ 0xFF & a ] );
+}
+
+longword gsm_L_asl P2((a,n), longword a, int n)
+{
+	if (n >= 32) return 0;
+	if (n <= -32) return -(a < 0);
+	if (n < 0) return gsm_L_asr(a, -n);
+	return a << n;
+}
+
+word gsm_asl P2((a,n), word a, int n)
+{
+	if (n >= 16) return 0;
+	if (n <= -16) return -(a < 0);
+	if (n < 0) return gsm_asr(a, -n);
+	return a << n;
+}
+
+longword gsm_L_asr P2((a,n), longword a, int n)
+{
+	if (n >= 32) return -(a < 0);
+	if (n <= -32) return 0;
+	if (n < 0) return a << -n;
+
+#	ifdef	SASR
+		return a >> n;
+#	else
+		if (a >= 0) return a >> n;
+		else return -(longword)( -(ulongword)a >> n );
+#	endif
+}
+
+word gsm_asr P2((a,n), word a, int n)
+{
+	if (n >= 16) return -(a < 0);
+	if (n <= -16) return 0;
+	if (n < 0) return a << -n;
+
+#	ifdef	SASR
+		return a >> n;
+#	else
+		if (a >= 0) return a >> n;
+		else return -(word)( -(uword)a >> n );
+#	endif
+}
+
+/*
+ *  (From p. 46, end of section 4.2.5)
+ *
+ *  NOTE: The following lines gives [sic] one correct implementation
+ *  	  of the div(num, denum) arithmetic operation.  Compute div
+ *        which is the integer division of num by denum: with denum
+ *	  >= num > 0
+ */
+
+word gsm_div P2((num,denum), word num, word denum)
+{
+	longword	L_num   = num;
+	longword	L_denum = denum;
+	word		div 	= 0;
+	int		k 	= 15;
+
+	/* The parameter num sometimes becomes zero.
+	 * Although this is explicitly guarded against in 4.2.5,
+	 * we assume that the result should then be zero as well.
+	 */
+
+	/* assert(num != 0); */
+
+	assert(num >= 0 && denum >= num);
+	if (num == 0)
+	    return 0;
+
+	while (k--) {
+		div   <<= 1;
+		L_num <<= 1;
+
+		if (L_num >= L_denum) {
+			L_num -= L_denum;
+			div++;
+		}
+	}
+
+	return div;
+}

libs/gsm/src/code.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/code.c,v 1.3 1996/07/02 09:59:05 jutta Exp $ */
+
+#include <string.h>
+
+#include	"private.h"
+#include	"gsm.h"
+#include	"proto.h"
+
+/*
+ *  4.2 FIXED POINT IMPLEMENTATION OF THE RPE-LTP CODER
+ */
+
+void Gsm_Coder P8((S,s,LARc,Nc,bc,Mc,xmaxc,xMc),
+
+	struct gsm_state	* S,
+
+	word	* s,	/* [0..159] samples		  	IN	*/
+
+/*
+ * The RPE-LTD coder works on a frame by frame basis.  The length of
+ * the frame is equal to 160 samples.  Some computations are done
+ * once per frame to produce at the output of the coder the
+ * LARc[1..8] parameters which are the coded LAR coefficients and
+ * also to realize the inverse filtering operation for the entire
+ * frame (160 samples of signal d[0..159]).  These parts produce at
+ * the output of the coder:
+ */
+
+	word	* LARc,	/* [0..7] LAR coefficients		OUT	*/
+
+/*
+ * Procedure 4.2.11 to 4.2.18 are to be executed four times per
+ * frame.  That means once for each sub-segment RPE-LTP analysis of
+ * 40 samples.  These parts produce at the output of the coder:
+ */
+
+	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	*/
+)
+{
+	int	k;
+	word	* dp  = S->dp0 + 120;	/* [ -120...-1 ] */
+	word	* dpp = dp;		/* [ 0...39 ]	 */
+
+	word	so[160];
+
+	Gsm_Preprocess			(S, s, so);
+	Gsm_LPC_Analysis		(S, so, LARc);
+	Gsm_Short_Term_Analysis_Filter	(S, LARc, so);
+
+	for (k = 0; k <= 3; k++, xMc += 13) {
+
+		Gsm_Long_Term_Predictor	( S,
+					 so+k*40, /* d      [0..39] IN	*/
+					 dp,	  /* dp  [-120..-1] IN	*/
+					S->e + 5, /* e      [0..39] OUT	*/
+					dpp,	  /* dpp    [0..39] OUT */
+					 Nc++,
+					 bc++);
+
+		Gsm_RPE_Encoding	( S,
+					S->e + 5,/* e	  ][0..39][ IN/OUT */
+					  xmaxc++, Mc++, xMc );
+		/*
+		 * Gsm_Update_of_reconstructed_short_time_residual_signal
+		 *			( dpp, S->e + 5, dp );
+		 */
+
+		{ register int i;
+		  register longword ltmp;
+		  for (i = 0; i <= 39; i++)
+			dp[ i ] = GSM_ADD( S->e[5 + i], dpp[i] );
+		}
+		dp  += 40;
+		dpp += 40;
+
+	}
+	(void)memcpy( (char *)S->dp0, (char *)(S->dp0 + 160),
+		120 * sizeof(*S->dp0) );
+}

libs/gsm/src/decode.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/decode.c,v 1.1 1992/10/28 00:15:50 jutta Exp $ */
+
+#include <stdio.h>
+
+#include	"private.h"
+#include	"gsm.h"
+#include	"proto.h"
+
+/*
+ *  4.3 FIXED POINT IMPLEMENTATION OF THE RPE-LTP DECODER
+ */
+
+static void Postprocessing P2((S,s),
+	struct gsm_state	* S,
+	register word 		* s)
+{
+	register int		k;
+	register word		msr = S->msr;
+	register longword	ltmp;	/* for GSM_ADD */
+	register word		tmp;
+
+	for (k = 160; k--; s++) {
+		tmp = GSM_MULT_R( msr, 28180 );
+		msr = GSM_ADD(*s, tmp);  	   /* Deemphasis 	     */
+		*s  = GSM_ADD(msr, msr) & 0xFFF8;  /* Truncation & Upscaling */
+	}
+	S->msr = msr;
+}
+
+void Gsm_Decoder P8((S,LARcr, Ncr,bcr,Mcr,xmaxcr,xMcr,s),
+	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 	*/
+{
+	int		j, k;
+	word		erp[40], wt[160];
+	word		* drp = S->dp0 + 120;
+
+	for (j=0; j <= 3; j++, xmaxcr++, bcr++, Ncr++, Mcr++, xMcr += 13) {
+
+		Gsm_RPE_Decoding( S, *xmaxcr, *Mcr, xMcr, erp );
+		Gsm_Long_Term_Synthesis_Filtering( S, *Ncr, *bcr, erp, drp );
+
+		for (k = 0; k <= 39; k++) wt[ j * 40 + k ] =  drp[ k ];
+	}
+
+	Gsm_Short_Term_Synthesis_Filter( S, LARcr, wt, s );
+	Postprocessing(S, s);
+}

libs/gsm/src/gsm_create.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.
+ */
+
+static char const	ident[] = "$Header: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/gsm_create.c,v 1.4 1996/07/02 09:59:05 jutta Exp $";
+
+#include <string.h>
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "gsm.h"
+#include "private.h"
+#include "proto.h"
+
+gsm gsm_create P0()
+{
+	gsm  r;
+
+	r = (gsm)malloc(sizeof(struct gsm_state));
+	if (!r) return r;
+
+	memset((char *)r, 0, sizeof(*r));
+	r->nrp = 40;
+
+	return r;
+}

libs/gsm/src/gsm_destroy.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/gsm_destroy.c,v 1.3 1994/11/28 19:52:25 jutta Exp $ */
+
+#include "gsm.h"
+#include "proto.h"
+#include <stdlib.h>
+
+void gsm_destroy P1((S), gsm S)
+{
+	if (S) free((char *)S);
+}

libs/gsm/src/gsm_option.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/gsm_option.c,v 1.3 1996/07/02 09:59:05 jutta Exp $ */
+
+#include "private.h"
+
+#include "gsm.h"
+#include "proto.h"
+
+int gsm_option P3((r, opt, val), gsm r, int opt, int * val)
+{
+	int 	result = -1;
+
+	switch (opt) {
+	case GSM_OPT_LTP_CUT:
+#ifdef 	LTP_CUT
+		result = r->ltp_cut;
+		if (val) r->ltp_cut = *val;
+#endif
+		break;
+
+	case GSM_OPT_VERBOSE:
+#ifndef	NDEBUG
+		result = r->verbose;
+		if (val) r->verbose = *val;
+#endif
+		break;
+
+	case GSM_OPT_FAST:
+
+#if	defined(FAST) && defined(USE_FLOAT_MUL)
+		result = r->fast;
+		if (val) r->fast = !!*val;
+#endif
+		break;
+
+	case GSM_OPT_FRAME_CHAIN:
+
+#ifdef WAV49
+		result = r->frame_chain;
+		if (val) r->frame_chain = *val;
+#endif
+		break;
+
+	case GSM_OPT_FRAME_INDEX:
+
+#ifdef WAV49
+		result = r->frame_index;
+		if (val) r->frame_index = *val;
+#endif
+		break;
+
+	case GSM_OPT_WAV49:
+
+#ifdef WAV49
+		result = r->wav_fmt;
+		if (val) r->wav_fmt = !!*val;
+#endif
+		break;
+
+	default:
+		break;
+	}
+	return result;
+}

libs/gsm/src/gsm_print.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/gsm_print.c,v 1.1 1992/10/28 00:15:50 jutta Exp $ */
+
+#include	<stdio.h>
+
+#include "private.h"
+
+#include "gsm.h"
+#include "proto.h"
+
+int gsm_print P3((f, s, c), FILE * f, gsm s, gsm_byte * c)
+{
+	word  	LARc[8], Nc[4], Mc[4], bc[4], xmaxc[4], xmc[13*4];
+
+	/* GSM_MAGIC  = (*c >> 4) & 0xF; */
+
+	if (((*c >> 4) & 0x0F) != GSM_MAGIC) return -1;
+
+	LARc[0]  = (*c++ & 0xF) << 2;		/* 1 */
+	LARc[0] |= (*c >> 6) & 0x3;
+	LARc[1]  = *c++ & 0x3F;
+	LARc[2]  = (*c >> 3) & 0x1F;
+	LARc[3]  = (*c++ & 0x7) << 2;
+	LARc[3] |= (*c >> 6) & 0x3;
+	LARc[4]  = (*c >> 2) & 0xF;
+	LARc[5]  = (*c++ & 0x3) << 2;
+	LARc[5] |= (*c >> 6) & 0x3;
+	LARc[6]  = (*c >> 3) & 0x7;
+	LARc[7]  = *c++ & 0x7;
+
+
+	Nc[0]  = (*c >> 1) & 0x7F;
+	bc[0]  = (*c++ & 0x1) << 1;
+	bc[0] |= (*c >> 7) & 0x1;
+	Mc[0]  = (*c >> 5) & 0x3;
+	xmaxc[0]  = (*c++ & 0x1F) << 1;
+	xmaxc[0] |= (*c >> 7) & 0x1;
+	xmc[0]  = (*c >> 4) & 0x7;
+	xmc[1]  = (*c >> 1) & 0x7;
+	xmc[2]  = (*c++ & 0x1) << 2;
+	xmc[2] |= (*c >> 6) & 0x3;
+	xmc[3]  = (*c >> 3) & 0x7;
+	xmc[4]  = *c++ & 0x7;
+	xmc[5]  = (*c >> 5) & 0x7;
+	xmc[6]  = (*c >> 2) & 0x7;
+	xmc[7]  = (*c++ & 0x3) << 1;		/* 10 */
+	xmc[7] |= (*c >> 7) & 0x1;
+	xmc[8]  = (*c >> 4) & 0x7;
+	xmc[9]  = (*c >> 1) & 0x7;
+	xmc[10]  = (*c++ & 0x1) << 2;
+	xmc[10] |= (*c >> 6) & 0x3;
+	xmc[11]  = (*c >> 3) & 0x7;
+	xmc[12]  = *c++ & 0x7;
+
+	Nc[1]  = (*c >> 1) & 0x7F;
+	bc[1]  = (*c++ & 0x1) << 1;
+	bc[1] |= (*c >> 7) & 0x1;
+	Mc[1]  = (*c >> 5) & 0x3;
+	xmaxc[1]  = (*c++ & 0x1F) << 1;
+	xmaxc[1] |= (*c >> 7) & 0x1;
+	xmc[13]  = (*c >> 4) & 0x7;
+	xmc[14]  = (*c >> 1) & 0x7;
+	xmc[15]  = (*c++ & 0x1) << 2;
+	xmc[15] |= (*c >> 6) & 0x3;
+	xmc[16]  = (*c >> 3) & 0x7;
+	xmc[17]  = *c++ & 0x7;
+	xmc[18]  = (*c >> 5) & 0x7;
+	xmc[19]  = (*c >> 2) & 0x7;
+	xmc[20]  = (*c++ & 0x3) << 1;
+	xmc[20] |= (*c >> 7) & 0x1;
+	xmc[21]  = (*c >> 4) & 0x7;
+	xmc[22]  = (*c >> 1) & 0x7;
+	xmc[23]  = (*c++ & 0x1) << 2;
+	xmc[23] |= (*c >> 6) & 0x3;
+	xmc[24]  = (*c >> 3) & 0x7;
+	xmc[25]  = *c++ & 0x7;
+
+
+	Nc[2]  = (*c >> 1) & 0x7F;
+	bc[2]  = (*c++ & 0x1) << 1;		/* 20 */
+	bc[2] |= (*c >> 7) & 0x1;
+	Mc[2]  = (*c >> 5) & 0x3;
+	xmaxc[2]  = (*c++ & 0x1F) << 1;
+	xmaxc[2] |= (*c >> 7) & 0x1;
+	xmc[26]  = (*c >> 4) & 0x7;
+	xmc[27]  = (*c >> 1) & 0x7;
+	xmc[28]  = (*c++ & 0x1) << 2;
+	xmc[28] |= (*c >> 6) & 0x3;
+	xmc[29]  = (*c >> 3) & 0x7;
+	xmc[30]  = *c++ & 0x7;
+	xmc[31]  = (*c >> 5) & 0x7;
+	xmc[32]  = (*c >> 2) & 0x7;
+	xmc[33]  = (*c++ & 0x3) << 1;
+	xmc[33] |= (*c >> 7) & 0x1;
+	xmc[34]  = (*c >> 4) & 0x7;
+	xmc[35]  = (*c >> 1) & 0x7;
+	xmc[36]  = (*c++ & 0x1) << 2;
+	xmc[36] |= (*c >> 6) & 0x3;
+	xmc[37]  = (*c >> 3) & 0x7;
+	xmc[38]  = *c++ & 0x7;
+
+	Nc[3]  = (*c >> 1) & 0x7F;
+	bc[3]  = (*c++ & 0x1) << 1;
+	bc[3] |= (*c >> 7) & 0x1;
+	Mc[3]  = (*c >> 5) & 0x3;
+	xmaxc[3]  = (*c++ & 0x1F) << 1;
+	xmaxc[3] |= (*c >> 7) & 0x1;
+
+	xmc[39]  = (*c >> 4) & 0x7;
+	xmc[40]  = (*c >> 1) & 0x7;
+	xmc[41]  = (*c++ & 0x1) << 2;
+	xmc[41] |= (*c >> 6) & 0x3;
+	xmc[42]  = (*c >> 3) & 0x7;
+	xmc[43]  = *c++ & 0x7;			/* 30  */
+	xmc[44]  = (*c >> 5) & 0x7;
+	xmc[45]  = (*c >> 2) & 0x7;
+	xmc[46]  = (*c++ & 0x3) << 1;
+	xmc[46] |= (*c >> 7) & 0x1;
+	xmc[47]  = (*c >> 4) & 0x7;
+	xmc[48]  = (*c >> 1) & 0x7;
+	xmc[49]  = (*c++ & 0x1) << 2;
+	xmc[49] |= (*c >> 6) & 0x3;
+	xmc[50]  = (*c >> 3) & 0x7;
+	xmc[51]  = *c & 0x7;			/* 33 */
+
+	fprintf(f,
+	      "LARc:\t%2.2d  %2.2d  %2.2d  %2.2d  %2.2d  %2.2d  %2.2d  %2.2d\n",
+	       LARc[0],LARc[1],LARc[2],LARc[3],LARc[4],LARc[5],LARc[6],LARc[7]);
+
+	fprintf(f, "#1: 	Nc %4.4d    bc %d    Mc %d    xmaxc %d\n",
+		Nc[0], bc[0], Mc[0], xmaxc[0]);
+	fprintf(f,
+"\t%.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d\n",
+		xmc[0],xmc[1],xmc[2],xmc[3],xmc[4],xmc[5],xmc[6],
+		xmc[7],xmc[8],xmc[9],xmc[10],xmc[11],xmc[12] );
+
+	fprintf(f, "#2: 	Nc %4.4d    bc %d    Mc %d    xmaxc %d\n",
+		Nc[1], bc[1], Mc[1], xmaxc[1]);
+	fprintf(f,
+"\t%.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d\n",
+		xmc[13+0],xmc[13+1],xmc[13+2],xmc[13+3],xmc[13+4],xmc[13+5],
+		xmc[13+6], xmc[13+7],xmc[13+8],xmc[13+9],xmc[13+10],xmc[13+11],
+		xmc[13+12] );
+
+	fprintf(f, "#3: 	Nc %4.4d    bc %d    Mc %d    xmaxc %d\n",
+		Nc[2], bc[2], Mc[2], xmaxc[2]);
+	fprintf(f,
+"\t%.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d\n",
+		xmc[26+0],xmc[26+1],xmc[26+2],xmc[26+3],xmc[26+4],xmc[26+5],
+		xmc[26+6], xmc[26+7],xmc[26+8],xmc[26+9],xmc[26+10],xmc[26+11],
+		xmc[26+12] );
+
+	fprintf(f, "#4: 	Nc %4.4d    bc %d    Mc %d    xmaxc %d\n",
+		Nc[3], bc[3], Mc[3], xmaxc[3]);
+	fprintf(f,
+"\t%.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d %.2d\n",
+		xmc[39+0],xmc[39+1],xmc[39+2],xmc[39+3],xmc[39+4],xmc[39+5],
+		xmc[39+6], xmc[39+7],xmc[39+8],xmc[39+9],xmc[39+10],xmc[39+11],
+		xmc[39+12] );
+
+	return 0;
+}

libs/gsm/src/lpc.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/lpc.c,v 1.5 1994/12/30 23:14:54 jutta Exp $ */
+
+#include <stdio.h>
+#include <assert.h>
+
+#include "private.h"
+
+#include "gsm.h"
+#include "proto.h"
+
+#undef	P
+
+/*
+ *  4.2.4 .. 4.2.7 LPC ANALYSIS SECTION
+ */
+
+/* 4.2.4 */
+
+
+static void Autocorrelation P2((s, L_ACF),
+	word     * s,		/* [0..159]	IN/OUT  */
+ 	longword * L_ACF)	/* [0..8]	OUT     */
+/*
+ *  The goal is to compute the array L_ACF[k].  The signal s[i] must
+ *  be scaled in order to avoid an overflow situation.
+ */
+{
+	register int	k, i;
+
+	word		temp, smax, scalauto;
+
+#ifdef	USE_FLOAT_MUL
+	float		float_s[160];
+#endif
+
+	/*  Dynamic scaling of the array  s[0..159]
+	 */
+
+	/*  Search for the maximum.
+	 */
+	smax = 0;
+	for (k = 0; k <= 159; k++) {
+		temp = GSM_ABS( s[k] );
+		if (temp > smax) smax = temp;
+	}
+
+	/*  Computation of the scaling factor.
+	 */
+	if (smax == 0) scalauto = 0;
+	else {
+		assert(smax > 0);
+		scalauto = 4 - gsm_norm( (longword)smax << 16 );/* sub(4,..) */
+	}
+
+	/*  Scaling of the array s[0...159]
+	 */
+
+	if (scalauto > 0) {
+
+# ifdef USE_FLOAT_MUL
+#   define SCALE(n)	\
+	case n: for (k = 0; k <= 159; k++) \
+			float_s[k] = (float)	\
+				(s[k] = GSM_MULT_R(s[k], 16384 >> (n-1)));\
+		break;
+# else
+#   define SCALE(n)	\
+	case n: for (k = 0; k <= 159; k++) \
+			s[k] = GSM_MULT_R( s[k], 16384 >> (n-1) );\
+		break;
+# endif /* USE_FLOAT_MUL */
+
+		switch (scalauto) {
+		SCALE(1)
+		SCALE(2)
+		SCALE(3)
+		SCALE(4)
+		}
+# undef	SCALE
+	}
+# ifdef	USE_FLOAT_MUL
+	else for (k = 0; k <= 159; k++) float_s[k] = (float) s[k];
+# endif
+
+	/*  Compute the L_ACF[..].
+	 */
+	{
+# ifdef	USE_FLOAT_MUL
+		register float * sp = float_s;
+		register float   sl = *sp;
+
+#		define STEP(k)	 L_ACF[k] += (longword)(sl * sp[ -(k) ]);
+# else
+		word  * sp = s;
+		word    sl = *sp;
+
+#		define STEP(k)	 L_ACF[k] += ((longword)sl * sp[ -(k) ]);
+# endif
+
+#	define NEXTI	 sl = *++sp
+
+
+	for (k = 9; k--; L_ACF[k] = 0) ;
+
+	STEP (0);
+	NEXTI;
+	STEP(0); STEP(1);
+	NEXTI;
+	STEP(0); STEP(1); STEP(2);
+	NEXTI;
+	STEP(0); STEP(1); STEP(2); STEP(3);
+	NEXTI;
+	STEP(0); STEP(1); STEP(2); STEP(3); STEP(4);
+	NEXTI;
+	STEP(0); STEP(1); STEP(2); STEP(3); STEP(4); STEP(5);
+	NEXTI;
+	STEP(0); STEP(1); STEP(2); STEP(3); STEP(4); STEP(5); STEP(6);
+	NEXTI;
+	STEP(0); STEP(1); STEP(2); STEP(3); STEP(4); STEP(5); STEP(6); STEP(7);
+
+	for (i = 8; i <= 159; i++) {
+
+		NEXTI;
+
+		STEP(0);
+		STEP(1); STEP(2); STEP(3); STEP(4);
+		STEP(5); STEP(6); STEP(7); STEP(8);
+	}
+
+	for (k = 9; k--; L_ACF[k] <<= 1) ;
+
+	}
+	/*   Rescaling of the array s[0..159]
+	 */
+	if (scalauto > 0) {
+		assert(scalauto <= 4);
+		for (k = 160; k--; *s++ <<= scalauto) ;
+	}
+}
+
+#if defined(USE_FLOAT_MUL) && defined(FAST)
+
+static void Fast_Autocorrelation P2((s, L_ACF),
+	word * s,		/* [0..159]	IN/OUT  */
+ 	longword * L_ACF)	/* [0..8]	OUT     */
+{
+	register int	k, i;
+	float f_L_ACF[9];
+	float scale;
+
+	float          s_f[160];
+	register float *sf = s_f;
+
+	for (i = 0; i < 160; ++i) sf[i] = s[i];
+	for (k = 0; k <= 8; k++) {
+		register float L_temp2 = 0;
+		register float *sfl = sf - k;
+		for (i = k; i < 160; ++i) L_temp2 += sf[i] * sfl[i];
+		f_L_ACF[k] = L_temp2;
+	}
+	scale = MAX_LONGWORD / f_L_ACF[0];
+
+	for (k = 0; k <= 8; k++) {
+		L_ACF[k] = f_L_ACF[k] * scale;
+	}
+}
+#endif	/* defined (USE_FLOAT_MUL) && defined (FAST) */
+
+/* 4.2.5 */
+
+static void Reflection_coefficients P2( (L_ACF, r),
+	longword	* L_ACF,		/* 0...8	IN	*/
+	register word	* r			/* 0...7	OUT 	*/
+)
+{
+	register int	i, m, n;
+	register word	temp;
+	register longword ltmp;
+	word		ACF[9];	/* 0..8 */
+	word		P[  9];	/* 0..8 */
+	word		K[  9]; /* 2..8 */
+
+	/*  Schur recursion with 16 bits arithmetic.
+	 */
+
+	if (L_ACF[0] == 0) {
+		for (i = 8; i--; *r++ = 0) ;
+		return;
+	}
+
+	assert( L_ACF[0] != 0 );
+	temp = gsm_norm( L_ACF[0] );
+
+	assert(temp >= 0 && temp < 32);
+
+	/* ? overflow ? */
+	for (i = 0; i <= 8; i++) ACF[i] = SASR( L_ACF[i] << temp, 16 );
+
+	/*   Initialize array P[..] and K[..] for the recursion.
+	 */
+
+	for (i = 1; i <= 7; i++) K[ i ] = ACF[ i ];
+	for (i = 0; i <= 8; i++) P[ i ] = ACF[ i ];
+
+	/*   Compute reflection coefficients
+	 */
+	for (n = 1; n <= 8; n++, r++) {
+
+		temp = P[1];
+		temp = GSM_ABS(temp);
+		if (P[0] < temp) {
+			for (i = n; i <= 8; i++) *r++ = 0;
+			return;
+		}
+
+		*r = gsm_div( temp, P[0] );
+
+		assert(*r >= 0);
+		if (P[1] > 0) *r = -*r;		/* r[n] = sub(0, r[n]) */
+		assert (*r != MIN_WORD);
+		if (n == 8) return;
+
+		/*  Schur recursion
+		 */
+		temp = GSM_MULT_R( P[1], *r );
+		P[0] = GSM_ADD( P[0], temp );
+
+		for (m = 1; m <= 8 - n; m++) {
+			temp     = GSM_MULT_R( K[ m   ],    *r );
+			P[m]     = GSM_ADD(    P[ m+1 ],  temp );
+
+			temp     = GSM_MULT_R( P[ m+1 ],    *r );
+			K[m]     = GSM_ADD(    K[ m   ],  temp );
+		}
+	}
+}
+
+/* 4.2.6 */
+
+static void Transformation_to_Log_Area_Ratios P1((r),
+	register word	* r 			/* 0..7	   IN/OUT */
+)
+/*
+ *  The following scaling for r[..] and LAR[..] has been used:
+ *
+ *  r[..]   = integer( real_r[..]*32768. ); -1 <= real_r < 1.
+ *  LAR[..] = integer( real_LAR[..] * 16384 );
+ *  with -1.625 <= real_LAR <= 1.625
+ */
+{
+	register word	temp;
+	register int	i;
+
+
+	/* Computation of the LAR[0..7] from the r[0..7]
+	 */
+	for (i = 1; i <= 8; i++, r++) {
+
+		temp = *r;
+		temp = GSM_ABS(temp);
+		assert(temp >= 0);
+
+		if (temp < 22118) {
+			temp >>= 1;
+		} else if (temp < 31130) {
+			assert( temp >= 11059 );
+			temp -= 11059;
+		} else {
+			assert( temp >= 26112 );
+			temp -= 26112;
+			temp <<= 2;
+		}
+
+		*r = *r < 0 ? -temp : temp;
+		assert( *r != MIN_WORD );
+	}
+}
+
+/* 4.2.7 */
+
+static void Quantization_and_coding P1((LAR),
+	register word * LAR    	/* [0..7]	IN/OUT	*/
+)
+{
+	register word	temp;
+	longword	ltmp;
+
+
+	/*  This procedure needs four tables; the following equations
+	 *  give the optimum scaling for the constants:
+	 *
+	 *  A[0..7] = integer( real_A[0..7] * 1024 )
+	 *  B[0..7] = integer( real_B[0..7] *  512 )
+	 *  MAC[0..7] = maximum of the LARc[0..7]
+	 *  MIC[0..7] = minimum of the LARc[0..7]
+	 */
+
+#	undef STEP
+#	define	STEP( A, B, MAC, MIC )		\
+		temp = GSM_MULT( A,   *LAR );	\
+		temp = GSM_ADD(  temp,   B );	\
+		temp = GSM_ADD(  temp, 256 );	\
+		temp = SASR(     temp,   9 );	\
+		*LAR  =  temp>MAC ? MAC - MIC : (temp<MIC ? 0 : temp - MIC); \
+		LAR++;
+
+	STEP(  20480,     0,  31, -32 );
+	STEP(  20480,     0,  31, -32 );
+	STEP(  20480,  2048,  15, -16 );
+	STEP(  20480, -2560,  15, -16 );
+
+	STEP(  13964,    94,   7,  -8 );
+	STEP(  15360, -1792,   7,  -8 );
+	STEP(   8534,  -341,   3,  -4 );
+	STEP(   9036, -1144,   3,  -4 );
+
+#	undef	STEP
+}
+
+void Gsm_LPC_Analysis P3((S, s,LARc),
+	struct gsm_state *S,
+	word 		 * s,		/* 0..159 signals	IN/OUT	*/
+        word 		 * LARc)	/* 0..7   LARc's	OUT	*/
+{
+	longword	L_ACF[9];
+
+#if defined(USE_FLOAT_MUL) && defined(FAST)
+	if (S->fast) Fast_Autocorrelation (s,	  L_ACF );
+	else
+#endif
+	Autocorrelation			  (s,	  L_ACF	);
+	Reflection_coefficients		  (L_ACF, LARc	);
+	Transformation_to_Log_Area_Ratios (LARc);
+	Quantization_and_coding		  (LARc);
+}

libs/gsm/src/preprocess.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/preprocess.c,v 1.2 1994/05/10 20:18:45 jutta Exp $ */
+
+#include	<stdio.h>
+#include	<assert.h>
+
+#include "private.h"
+
+#include	"gsm.h"
+#include 	"proto.h"
+
+/*	4.2.0 .. 4.2.3	PREPROCESSING SECTION
+ *
+ *  	After A-law to linear conversion (or directly from the
+ *   	Ato D converter) the following scaling is assumed for
+ * 	input to the RPE-LTP algorithm:
+ *
+ *      in:  0.1.....................12
+ *	     S.v.v.v.v.v.v.v.v.v.v.v.v.*.*.*
+ *
+ *	Where S is the sign bit, v a valid bit, and * a "don't care" bit.
+ * 	The original signal is called sop[..]
+ *
+ *      out:   0.1................... 12
+ *	     S.S.v.v.v.v.v.v.v.v.v.v.v.v.0.0
+ */
+
+
+void Gsm_Preprocess P3((S, s, so),
+	struct gsm_state * S,
+	word		 * s,
+	word 		 * so )		/* [0..159] 	IN/OUT	*/
+{
+
+	word       z1 = S->z1;
+	longword L_z2 = S->L_z2;
+	word 	   mp = S->mp;
+
+	word 	   	s1;
+	longword      L_s2;
+
+	longword      L_temp;
+
+	word		msp, lsp;
+	word		SO;
+
+	longword	ltmp;		/* for   ADD */
+	ulongword	utmp;		/* for L_ADD */
+
+	register int		k = 160;
+
+	while (k--) {
+
+	/*  4.2.1   Downscaling of the input signal
+	 */
+		SO = SASR( *s, 3 ) << 2;
+		s++;
+
+		assert (SO >= -0x4000);	/* downscaled by     */
+		assert (SO <=  0x3FFC);	/* previous routine. */
+
+
+	/*  4.2.2   Offset compensation
+	 *
+	 *  This part implements a high-pass filter and requires extended
+	 *  arithmetic precision for the recursive part of this filter.
+	 *  The input of this procedure is the array so[0...159] and the
+	 *  output the array sof[ 0...159 ].
+	 */
+		/*   Compute the non-recursive part
+		 */
+
+		s1 = SO - z1;			/* s1 = gsm_sub( *so, z1 ); */
+		z1 = SO;
+
+		assert(s1 != MIN_WORD);
+
+		/*   Compute the recursive part
+		 */
+		L_s2 = s1;
+		L_s2 <<= 15;
+
+		/*   Execution of a 31 bv 16 bits multiplication
+		 */
+
+		msp = SASR( L_z2, 15 );
+		lsp = L_z2-((longword)msp<<15); /* gsm_L_sub(L_z2,(msp<<15)); */
+
+		L_s2  += GSM_MULT_R( lsp, 32735 );
+		L_temp = (longword)msp * 32735; /* GSM_L_MULT(msp,32735) >> 1;*/
+		L_z2   = GSM_L_ADD( L_temp, L_s2 );
+
+		/*    Compute sof[k] with rounding
+		 */
+		L_temp = GSM_L_ADD( L_z2, 16384 );
+
+	/*   4.2.3  Preemphasis
+	 */
+
+		msp   = GSM_MULT_R( mp, -28180 );
+		mp    = SASR( L_temp, 15 );
+		*so++ = GSM_ADD( mp, msp );
+	}
+
+	S->z1   = z1;
+	S->L_z2 = L_z2;
+	S->mp   = mp;
+}

libs/gsm/src/table.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: /tmp_amd/presto/export/kbs/jutta/src/gsm/RCS/table.c,v 1.1 1992/10/28 00:15:50 jutta Exp $ */
+
+/*  Most of these tables are inlined at their point of use.
+ */
+
+/*  4.4 TABLES USED IN THE FIXED POINT IMPLEMENTATION OF THE RPE-LTP
+ *      CODER AND DECODER
+ *
+ *	(Most of them inlined, so watch out.)
+ */
+
+#define	GSM_TABLE_C
+#include "private.h"
+#include	"gsm.h"
+
+/*  Table 4.1  Quantization of the Log.-Area Ratios
+ */
+/* i 		     1      2      3        4      5      6        7       8 */
+word gsm_A[8]   = {20480, 20480, 20480,  20480,  13964,  15360,   8534,  9036};
+word gsm_B[8]   = {    0,     0,  2048,  -2560,     94,  -1792,   -341, -1144};
+word gsm_MIC[8] = { -32,   -32,   -16,    -16,     -8,     -8,     -4,    -4 };
+word gsm_MAC[8] = {  31,    31,    15,     15,      7,      7,      3,     3 };
+
+
+/*  Table 4.2  Tabulation  of 1/A[1..8]
+ */
+word gsm_INVA[8]={ 13107, 13107,  13107, 13107,  19223, 17476,  31454, 29708 };
+
+
+/*   Table 4.3a  Decision level of the LTP gain quantizer
+ */
+/*  bc		      0	        1	  2	     3			*/
+word gsm_DLB[4] = {  6554,    16384,	26214,	   32767	};
+
+
+/*   Table 4.3b   Quantization levels of the LTP gain quantizer
+ */
+/* bc		      0          1        2          3			*/
+word gsm_QLB[4] = {  3277,    11469,	21299,	   32767	};
+
+
+/*   Table 4.4	 Coefficients of the weighting filter
+ */
+/* i		    0      1   2    3   4      5      6     7   8   9    10  */
+word gsm_H[11] = {-134, -374, 0, 2054, 5741, 8192, 5741, 2054, 0, -374, -134 };
+
+
+/*   Table 4.5 	 Normalized inverse mantissa used to compute xM/xmax
+ */
+/* i		 	0        1    2      3      4      5     6      7   */
+word gsm_NRFAC[8] = { 29128, 26215, 23832, 21846, 20165, 18725, 17476, 16384 };
+
+
+/*   Table 4.6	 Normalized direct mantissa used to compute xM/xmax
+ */
+/* i                  0      1       2      3      4      5      6      7   */
+word gsm_FAC[8]	= { 18431, 20479, 22527, 24575, 26623, 28671, 30719, 32767 };