2012-07-11 19:15:24 +02:00
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/* -----------------------------------------------------------------------------------------------------------
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Software License for The Fraunhofer FDK AAC Codec Library for Android
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2013-08-09 02:26:40 +02:00
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<EFBFBD> Copyright 1995 - 2013 Fraunhofer-Gesellschaft zur F<EFBFBD>rderung der angewandten Forschung e.V.
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2012-07-11 19:15:24 +02:00
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All rights reserved.
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1. INTRODUCTION
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The Fraunhofer FDK AAC Codec Library for Android ("FDK AAC Codec") is software that implements
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the MPEG Advanced Audio Coding ("AAC") encoding and decoding scheme for digital audio.
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This FDK AAC Codec software is intended to be used on a wide variety of Android devices.
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AAC's HE-AAC and HE-AAC v2 versions are regarded as today's most efficient general perceptual
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audio codecs. AAC-ELD is considered the best-performing full-bandwidth communications codec by
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independent studies and is widely deployed. AAC has been standardized by ISO and IEC as part
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of the MPEG specifications.
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Patent licenses for necessary patent claims for the FDK AAC Codec (including those of Fraunhofer)
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may be obtained through Via Licensing (www.vialicensing.com) or through the respective patent owners
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individually for the purpose of encoding or decoding bit streams in products that are compliant with
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the ISO/IEC MPEG audio standards. Please note that most manufacturers of Android devices already license
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these patent claims through Via Licensing or directly from the patent owners, and therefore FDK AAC Codec
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software may already be covered under those patent licenses when it is used for those licensed purposes only.
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Commercially-licensed AAC software libraries, including floating-point versions with enhanced sound quality,
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are also available from Fraunhofer. Users are encouraged to check the Fraunhofer website for additional
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applications information and documentation.
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2. COPYRIGHT LICENSE
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Redistribution and use in source and binary forms, with or without modification, are permitted without
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payment of copyright license fees provided that you satisfy the following conditions:
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You must retain the complete text of this software license in redistributions of the FDK AAC Codec or
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your modifications thereto in source code form.
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You must retain the complete text of this software license in the documentation and/or other materials
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provided with redistributions of the FDK AAC Codec or your modifications thereto in binary form.
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You must make available free of charge copies of the complete source code of the FDK AAC Codec and your
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modifications thereto to recipients of copies in binary form.
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The name of Fraunhofer may not be used to endorse or promote products derived from this library without
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prior written permission.
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You may not charge copyright license fees for anyone to use, copy or distribute the FDK AAC Codec
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software or your modifications thereto.
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Your modified versions of the FDK AAC Codec must carry prominent notices stating that you changed the software
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and the date of any change. For modified versions of the FDK AAC Codec, the term
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"Fraunhofer FDK AAC Codec Library for Android" must be replaced by the term
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"Third-Party Modified Version of the Fraunhofer FDK AAC Codec Library for Android."
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3. NO PATENT LICENSE
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NO EXPRESS OR IMPLIED LICENSES TO ANY PATENT CLAIMS, including without limitation the patents of Fraunhofer,
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ARE GRANTED BY THIS SOFTWARE LICENSE. Fraunhofer provides no warranty of patent non-infringement with
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respect to this software.
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You may use this FDK AAC Codec software or modifications thereto only for purposes that are authorized
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by appropriate patent licenses.
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4. DISCLAIMER
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This FDK AAC Codec software is provided by Fraunhofer on behalf of the copyright holders and contributors
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"AS IS" and WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, including but not limited to the implied warranties
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of merchantability and fitness for a particular purpose. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
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CONTRIBUTORS BE LIABLE for any direct, indirect, incidental, special, exemplary, or consequential damages,
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including but not limited to procurement of substitute goods or services; loss of use, data, or profits,
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or business interruption, however caused and on any theory of liability, whether in contract, strict
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liability, or tort (including negligence), arising in any way out of the use of this software, even if
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advised of the possibility of such damage.
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5. CONTACT INFORMATION
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Fraunhofer Institute for Integrated Circuits IIS
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Attention: Audio and Multimedia Departments - FDK AAC LL
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Am Wolfsmantel 33
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91058 Erlangen, Germany
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www.iis.fraunhofer.de/amm
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amm-info@iis.fraunhofer.de
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----------------------------------------------------------------------------------------------------------- */
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/*************************** Fraunhofer IIS FDK Tools **********************
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Author(s): M. Lohwasser, M. Gayer
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Description: Flexible fixpoint library configuration
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******************************************************************************/
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#ifndef _COMMON_FIX_H
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#define _COMMON_FIX_H
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#include "FDK_archdef.h"
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#include "machine_type.h"
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/* ***** Start of former fix.h ****** */
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/* Configure fractional or integer arithmetic */
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#define FIX_FRACT 0 /* Define this to "1" to use fractional arithmetic simulation in class fract instead of integer arithmetic */
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/* 1 for debug with extra runtime overflow checking. */
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/* Define bit sizes of integer fixpoint fractional data types */
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#define FRACT_BITS 16 /* single precision */
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#define DFRACT_BITS 32 /* double precision */
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#define ACCU_BITS 40 /* double precision plus overflow */
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/* Fixpoint equivalent type fot PCM audio time domain data. */
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#if defined(SAMPLE_BITS)
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#if (SAMPLE_BITS == DFRACT_BITS)
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#define FIXP_PCM FIXP_DBL
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#define FX_PCM2FX_DBL(x) ((FIXP_DBL)(x))
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#define FX_DBL2FX_PCM(x) ((INT_PCM)(x))
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#elif (SAMPLE_BITS == FRACT_BITS)
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#define FIXP_PCM FIXP_SGL
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#define FX_PCM2FX_DBL(x) FX_SGL2FX_DBL((FIXP_SGL)(x))
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#define FX_DBL2FX_PCM(x) FX_DBL2FX_SGL(x)
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#else
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#error SAMPLE_BITS different from FRACT_BITS or DFRACT_BITS not implemented!
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#endif
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#endif
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/* ****** End of former fix.h ****** */
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#define SGL_MASK ((1UL<<FRACT_BITS)-1) /* 16bit: (2^16)-1 = 0xFFFF */
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#define MAX_SHIFT_SGL (FRACT_BITS-1) /* maximum possible shift for FIXP_SGL values */
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#define MAX_SHIFT_DBL (DFRACT_BITS-1) /* maximum possible shift for FIXP_DBL values */
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/* Scale factor from/to float/fixpoint values. DO NOT USE THESE VALUES AS SATURATION LIMITS !! */
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#define FRACT_FIX_SCALE ((INT64(1)<<(FRACT_BITS-1)))
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#define DFRACT_FIX_SCALE ((INT64(1)<<(DFRACT_BITS-1)))
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/* Max and Min values for saturation purposes. DO NOT USE THESE VALUES AS SCALE VALUES !! */
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#define MAXVAL_SGL ((signed)0x00007FFF) /* this has to be synchronized to FRACT_BITS */
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#define MINVAL_SGL ((signed)0xFFFF8000) /* this has to be synchronized to FRACT_BITS */
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#define MAXVAL_DBL ((signed)0x7FFFFFFF) /* this has to be synchronized to DFRACT_BITS */
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#define MINVAL_DBL ((signed)0x80000000) /* this has to be synchronized to DFRACT_BITS */
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#define FX_DBL2FXCONST_SGL(val) ( ( ((((val) >> (DFRACT_BITS-FRACT_BITS-1)) + 1) > (((LONG)1<<FRACT_BITS)-1)) && ((LONG)(val) > 0) ) ? \
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(FIXP_SGL)(SHORT)(((LONG)1<<(FRACT_BITS-1))-1):(FIXP_SGL)(SHORT)((((val) >> (DFRACT_BITS-FRACT_BITS-1)) + 1) >> 1) )
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#define shouldBeUnion union /* unions are possible */
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typedef SHORT FIXP_SGL;
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typedef LONG FIXP_DBL;
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/* macros for compile-time conversion of constant float values to fixedpoint */
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#define FL2FXCONST_SPC FL2FXCONST_DBL
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#define MINVAL_DBL_CONST MINVAL_DBL
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#define MINVAL_SGL_CONST MINVAL_SGL
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#define FL2FXCONST_SGL(val) \
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(FIXP_SGL)( ( (val) >= 0) ? \
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((( (double)(val) * (FRACT_FIX_SCALE) + 0.5 ) >= (double)(MAXVAL_SGL) ) ? (SHORT)(MAXVAL_SGL) : (SHORT)( (double)(val) * (double)(FRACT_FIX_SCALE) + 0.5)) : \
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((( (double)(val) * (FRACT_FIX_SCALE) - 0.5) <= (double)(MINVAL_SGL_CONST) ) ? (SHORT)(MINVAL_SGL_CONST) : (SHORT)( (double)(val) * (double)(FRACT_FIX_SCALE) - 0.5)) )
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#define FL2FXCONST_DBL(val) \
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(FIXP_DBL)( ( (val) >= 0) ? \
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((( (double)(val) * (DFRACT_FIX_SCALE) + 0.5 ) >= (double)(MAXVAL_DBL) ) ? (LONG)(MAXVAL_DBL) : (LONG)( (double)(val) * (double)(DFRACT_FIX_SCALE) + 0.5)) : \
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((( (double)(val) * (DFRACT_FIX_SCALE) - 0.5) <= (double)(MINVAL_DBL_CONST) ) ? (LONG)(MINVAL_DBL_CONST) : (LONG)( (double)(val) * (double)(DFRACT_FIX_SCALE) - 0.5)) )
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/* macros for runtime conversion of float values to integer fixedpoint. NO OVERFLOW CHECK!!! */
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#define FL2FX_SPC FL2FX_DBL
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#define FL2FX_SGL(val) ( (val)>0.0f ? (SHORT)( (val)*(float)(FRACT_FIX_SCALE)+0.5f ) : (SHORT)( (val)*(float)(FRACT_FIX_SCALE)-0.5f ) )
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#define FL2FX_DBL(val) ( (val)>0.0f ? (LONG)( (val)*(float)(DFRACT_FIX_SCALE)+0.5f ) : (LONG)( (val)*(float)(DFRACT_FIX_SCALE)-0.5f ) )
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/* macros for runtime conversion of fixedpoint values to other fixedpoint. NO ROUNDING!!! */
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#define FX_ACC2FX_SGL(val) ((FIXP_SGL)((val)>>(ACCU_BITS-FRACT_BITS)))
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#define FX_ACC2FX_DBL(val) ((FIXP_DBL)((val)>>(ACCU_BITS-DFRACT_BITS)))
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#define FX_SGL2FX_ACC(val) ((FIXP_ACC)((LONG)(val)<<(ACCU_BITS-FRACT_BITS)))
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#define FX_SGL2FX_DBL(val) ((FIXP_DBL)((LONG)(val)<<(DFRACT_BITS-FRACT_BITS)))
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#define FX_DBL2FX_SGL(val) ((FIXP_SGL)((val)>>(DFRACT_BITS-FRACT_BITS)))
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/* ############################################################# */
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/* macros for runtime conversion of integer fixedpoint values to float. */
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/* This is just for temporary use and should not be required in a final version! */
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/* #define FX_DBL2FL(val) ((float)(pow(2.,-31.)*(float)val)) */ /* version #1 */
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#define FX_DBL2FL(val) ((float)((double)(val)/(double)DFRACT_FIX_SCALE)) /* version #2 - identical to class dfract cast from dfract to float */
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/* ############################################################# */
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#include "fixmul.h"
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FDK_INLINE LONG fMult(SHORT a, SHORT b) { return fixmul_SS(a, b); }
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FDK_INLINE LONG fMult(SHORT a, LONG b) { return fixmul_SD(a, b); }
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FDK_INLINE LONG fMult(LONG a, SHORT b) { return fixmul_DS(a, b); }
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FDK_INLINE LONG fMult(LONG a, LONG b) { return fixmul_DD(a, b); }
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FDK_INLINE LONG fPow2(LONG a) { return fixpow2_D(a); }
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FDK_INLINE LONG fPow2(SHORT a) { return fixpow2_S(a); }
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FDK_INLINE INT fMultI(LONG a, SHORT b) { return ( (INT)(((1<<(FRACT_BITS-2)) +
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fixmuldiv2_DD(a,((INT)b<<FRACT_BITS)))>>(FRACT_BITS-1)) ); }
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FDK_INLINE INT fMultIfloor(LONG a, INT b) { return ( (INT)((1 +
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fixmuldiv2_DD(a,(b<<FRACT_BITS))) >> (FRACT_BITS-1)) ); }
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FDK_INLINE INT fMultIceil(LONG a, INT b) { return ( (INT)(((INT)0x7fff +
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fixmuldiv2_DD(a,(b<<FRACT_BITS))) >> (FRACT_BITS-1)) ); }
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FDK_INLINE LONG fMultDiv2(SHORT a, SHORT b) { return fixmuldiv2_SS(a, b); }
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FDK_INLINE LONG fMultDiv2(SHORT a, LONG b) { return fixmuldiv2_SD(a, b); }
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FDK_INLINE LONG fMultDiv2(LONG a, SHORT b) { return fixmuldiv2_DS(a, b); }
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FDK_INLINE LONG fMultDiv2(LONG a, LONG b) { return fixmuldiv2_DD(a, b); }
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FDK_INLINE LONG fPow2Div2(LONG a) { return fixpow2div2_D(a); }
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FDK_INLINE LONG fPow2Div2(SHORT a) { return fixpow2div2_S(a); }
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FDK_INLINE LONG fMultDiv2BitExact(LONG a, LONG b) { return fixmuldiv2BitExact_DD(a, b); }
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FDK_INLINE LONG fMultDiv2BitExact(SHORT a, LONG b) { return fixmuldiv2BitExact_SD(a, b); }
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FDK_INLINE LONG fMultDiv2BitExact(LONG a, SHORT b) { return fixmuldiv2BitExact_DS(a, b); }
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FDK_INLINE LONG fMultBitExact(LONG a, LONG b) { return fixmulBitExact_DD(a, b); }
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FDK_INLINE LONG fMultBitExact(SHORT a, LONG b) { return fixmulBitExact_SD(a, b); }
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FDK_INLINE LONG fMultBitExact(LONG a, SHORT b) { return fixmulBitExact_DS(a, b); }
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/* ******************************************************************************** */
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#include "abs.h"
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FDK_INLINE FIXP_DBL fAbs(FIXP_DBL x)
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{ return fixabs_D(x); }
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FDK_INLINE FIXP_SGL fAbs(FIXP_SGL x)
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{ return fixabs_S(x); }
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/* workaround for TI C6x compiler but not for TI ARM9E compiler */
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#if (!defined(__TI_COMPILER_VERSION__) || defined(__TI_TMS470_V5__)) && !defined(__x86_64__)
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FDK_INLINE INT fAbs(INT x)
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{ return fixabs_I(x); }
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#endif
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/* ******************************************************************************** */
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#include "clz.h"
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FDK_INLINE INT fNormz(FIXP_DBL x)
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{ return fixnormz_D(x); }
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FDK_INLINE INT fNormz(FIXP_SGL x)
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{ return fixnormz_S(x); }
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FDK_INLINE INT fNorm(FIXP_DBL x)
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{ return fixnorm_D(x); }
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FDK_INLINE INT fNorm(FIXP_SGL x)
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{ return fixnorm_S(x); }
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/* ******************************************************************************** */
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/* ******************************************************************************** */
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/* ******************************************************************************** */
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#include "clz.h"
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#define fixp_abs(x) fAbs(x)
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#define fixMin(a,b) fMin(a,b)
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#define fixMax(a,b) fMax(a,b)
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#define CntLeadingZeros(x) fixnormz_D(x)
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#define CountLeadingBits(x) fixnorm_D(x)
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#include "fixmadd.h"
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/* y = (x+0.5*a*b) */
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FDK_INLINE FIXP_DBL fMultAddDiv2(FIXP_DBL x, FIXP_DBL a, FIXP_DBL b)
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{ return fixmadddiv2_DD(x, a, b); }
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FDK_INLINE FIXP_DBL fMultAddDiv2(FIXP_DBL x, FIXP_SGL a, FIXP_DBL b)
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{ return fixmadddiv2_SD(x, a, b); }
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FDK_INLINE FIXP_DBL fMultAddDiv2(FIXP_DBL x, FIXP_DBL a, FIXP_SGL b)
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{ return fixmadddiv2_DS(x, a, b); }
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FDK_INLINE FIXP_DBL fMultAddDiv2(FIXP_DBL x, FIXP_SGL a, FIXP_SGL b)
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{ return fixmadddiv2_SS(x, a, b); }
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FDK_INLINE FIXP_DBL fPow2AddDiv2(FIXP_DBL x, FIXP_DBL a)
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{ return fixpadddiv2_D(x, a); }
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FDK_INLINE FIXP_DBL fPow2AddDiv2(FIXP_DBL x, FIXP_SGL a)
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{ return fixpadddiv2_S(x, a); }
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/* y = 2*(x+0.5*a*b) = (2x+a*b) */
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FDK_INLINE FIXP_DBL fMultAdd(FIXP_DBL x, FIXP_DBL a, FIXP_DBL b)
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{ return fixmadd_DD(x, a, b); }
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inline FIXP_DBL fMultAdd(FIXP_DBL x, FIXP_SGL a, FIXP_DBL b)
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{ return fixmadd_SD(x, a, b); }
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inline FIXP_DBL fMultAdd(FIXP_DBL x, FIXP_DBL a, FIXP_SGL b)
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{ return fixmadd_DS(x, a, b); }
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inline FIXP_DBL fMultAdd(FIXP_DBL x, FIXP_SGL a, FIXP_SGL b)
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{ return fixmadd_SS(x, a, b); }
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inline FIXP_DBL fPow2Add(FIXP_DBL x, FIXP_DBL a)
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{ return fixpadd_D(x, a); }
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inline FIXP_DBL fPow2Add(FIXP_DBL x, FIXP_SGL a)
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{ return fixpadd_S(x, a); }
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/* y = (x-0.5*a*b) */
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inline FIXP_DBL fMultSubDiv2(FIXP_DBL x, FIXP_DBL a, FIXP_DBL b)
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{ return fixmsubdiv2_DD(x, a, b); }
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inline FIXP_DBL fMultSubDiv2(FIXP_DBL x, FIXP_SGL a, FIXP_DBL b)
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{ return fixmsubdiv2_SD(x, a, b); }
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inline FIXP_DBL fMultSubDiv2(FIXP_DBL x, FIXP_DBL a, FIXP_SGL b)
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{ return fixmsubdiv2_DS(x, a, b); }
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inline FIXP_DBL fMultSubDiv2(FIXP_DBL x, FIXP_SGL a, FIXP_SGL b)
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{ return fixmsubdiv2_SS(x, a, b); }
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/* y = 2*(x-0.5*a*b) = (2*x-a*b) */
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FDK_INLINE FIXP_DBL fMultSub(FIXP_DBL x, FIXP_DBL a, FIXP_DBL b)
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{ return fixmsub_DD(x, a, b); }
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inline FIXP_DBL fMultSub(FIXP_DBL x, FIXP_SGL a, FIXP_DBL b)
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{ return fixmsub_SD(x, a, b); }
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inline FIXP_DBL fMultSub(FIXP_DBL x, FIXP_DBL a, FIXP_SGL b)
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{ return fixmsub_DS(x, a, b); }
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inline FIXP_DBL fMultSub(FIXP_DBL x, FIXP_SGL a, FIXP_SGL b)
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{ return fixmsub_SS(x, a, b); }
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FDK_INLINE FIXP_DBL fMultAddDiv2BitExact(FIXP_DBL x, FIXP_DBL a, FIXP_DBL b)
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{ return fixmadddiv2BitExact_DD(x, a, b); }
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FDK_INLINE FIXP_DBL fMultAddDiv2BitExact(FIXP_DBL x, FIXP_SGL a, FIXP_DBL b)
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{ return fixmadddiv2BitExact_SD(x, a, b); }
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FDK_INLINE FIXP_DBL fMultAddDiv2BitExact(FIXP_DBL x, FIXP_DBL a, FIXP_SGL b)
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{ return fixmadddiv2BitExact_DS(x, a, b); }
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FDK_INLINE FIXP_DBL fMultSubDiv2BitExact(FIXP_DBL x, FIXP_DBL a, FIXP_DBL b)
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{ return fixmsubdiv2BitExact_DD(x, a, b); }
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FDK_INLINE FIXP_DBL fMultSubDiv2BitExact(FIXP_DBL x, FIXP_SGL a, FIXP_DBL b)
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{ return fixmsubdiv2BitExact_SD(x, a, b); }
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FDK_INLINE FIXP_DBL fMultSubDiv2BitExact(FIXP_DBL x, FIXP_DBL a, FIXP_SGL b)
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{ return fixmsubdiv2BitExact_DS(x, a, b); }
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#include "fixminmax.h"
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FDK_INLINE FIXP_DBL fMin(FIXP_DBL a, FIXP_DBL b)
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{ return fixmin_D(a,b); }
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FDK_INLINE FIXP_DBL fMax(FIXP_DBL a, FIXP_DBL b)
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{ return fixmax_D(a,b); }
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FDK_INLINE FIXP_SGL fMin(FIXP_SGL a, FIXP_SGL b)
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{ return fixmin_S(a,b); }
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FDK_INLINE FIXP_SGL fMax(FIXP_SGL a, FIXP_SGL b)
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{ return fixmax_S(a,b); }
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/* workaround for TI C6x compiler but not for TI ARM9E */
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#if ((!defined(__TI_COMPILER_VERSION__) || defined(__TI_TMS470_V5__)) && !defined(__x86_64__)) || (FIX_FRACT == 1)
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FDK_INLINE INT fMax(INT a, INT b)
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{ return fixmax_I(a,b); }
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FDK_INLINE INT fMin(INT a, INT b)
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{ return fixmin_I(a,b); }
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#endif
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inline UINT fMax(UINT a, UINT b)
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{ return fixmax_UI(a,b); }
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inline UINT fMin(UINT a, UINT b)
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{ return fixmin_UI(a,b); }
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/* Complex data types */
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typedef shouldBeUnion {
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/* vector representation for arithmetic */
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struct {
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FIXP_SGL re;
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FIXP_SGL im;
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} v;
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/* word representation for memory move */
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LONG w;
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} FIXP_SPK;
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typedef shouldBeUnion {
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/* vector representation for arithmetic */
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struct {
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FIXP_DBL re;
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FIXP_DBL im;
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} v;
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/* word representation for memory move */
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INT64 w;
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} FIXP_DPK;
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#include "fixmul.h"
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#include "fixmadd.h"
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#include "cplx_mul.h"
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#include "scale.h"
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#include "fixpoint_math.h"
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#endif
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