cxcore/src/_cxcore.h - platform/external/opencv - Git at Google

 /*M///////////////////////////////////////////////////////////////////////////////////////
 //
 //  IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
 //
 //  By downloading, copying, installing or using the software you agree to this license.
 //  If you do not agree to this license, do not download, install,
 //  copy or use the software.
 //
 //
 //                        Intel License Agreement
 //                For Open Source Computer Vision Library
 //
 // Copyright (C) 2000, Intel Corporation, all rights reserved.
 // Third party copyrights are property of their respective owners.
 //
 // Redistribution and use in source and binary forms, with or without modification,
 // are permitted provided that the following conditions are met:
 //
 //   * Redistribution's of source code must retain the above copyright notice,
 //     this list of conditions and the following disclaimer.
 //
 //   * Redistribution's in binary form must reproduce the above copyright notice,
 //     this list of conditions and the following disclaimer in the documentation
 //     and/or other materials provided with the distribution.
 //
 //   * The name of Intel Corporation may not be used to endorse or promote products
 //     derived from this software without specific prior written permission.
 //
 // This software is provided by the copyright holders and contributors "as is" and
 // any express or implied warranties, including, but not limited to, the implied
 // warranties of merchantability and fitness for a particular purpose are disclaimed.
 // In no event shall the Intel Corporation or contributors be liable for any direct,
 // indirect, incidental, special, exemplary, or consequential damages
 // (including, but not limited to, procurement of substitute goods or services;
 // loss of use, data, or profits; or business interruption) however caused
 // and on any theory of liability, whether in contract, strict liability,
 // or tort (including negligence or otherwise) arising in any way out of
 // the use of this software, even if advised of the possibility of such damage.
 //
 //M*/

 #ifndef _CXCORE_INTERNAL_H_
 #define _CXCORE_INTERNAL_H_

 #if defined _MSC_VER && _MSC_VER >= 1200
     /* disable warnings related to inline functions */
     #pragma warning( disable: 4711 4710 4514 )
 #endif

 typedef unsigned long ulong;

 #ifdef __BORLANDC__
     #define     WIN32
     #define     CV_DLL
     #undef      _CV_ALWAYS_PROFILE_
     #define     _CV_ALWAYS_NO_PROFILE_
 #endif

 #include "cxcore.h"
 #include "cxmisc.h"
 #include "_cxipp.h"
 #include <math.h>
 #include <assert.h>
 #include <string.h>
 #include <stdlib.h>
 #include <stdio.h>
 #include <limits.h>
 #include <float.h>

 // -128.f ... 255.f
 extern const float icv8x32fTab[];
 #define CV_8TO32F(x)  icv8x32fTab[(x)+128]

 extern const ushort icv8x16uSqrTab[];
 #define CV_SQR_8U(x)  icv8x16uSqrTab[(x)+255]

 extern const char* icvHersheyGlyphs[];

 extern const signed char icvDepthToType[];

 #define icvIplToCvDepth( depth ) \
     icvDepthToType[(((depth) & 255) >> 2) + ((depth) < 0)]

 extern const uchar icvSaturate8u[];
 #define CV_FAST_CAST_8U(t)   (assert(-256 <= (t) && (t) <= 512), icvSaturate8u[(t)+256])
 #define CV_MIN_8U(a,b)       ((a) - CV_FAST_CAST_8U((a) - (b)))
 #define CV_MAX_8U(a,b)       ((a) + CV_FAST_CAST_8U((b) - (a)))

 typedef CvFunc2D_3A1I CvArithmBinMaskFunc2D;
 typedef CvFunc2D_2A1P1I CvArithmUniMaskFunc2D;


 /****************************************************************************************\
 *                                   Complex arithmetics                                  *
 \****************************************************************************************/

 struct CvComplex32f;
 struct CvComplex64f;

 struct CvComplex32f
 {
     float re, im;

     CvComplex32f() {}
     CvComplex32f( float _re, float _im=0 ) : re(_re), im(_im) {}
     explicit CvComplex32f( const CvComplex64f& v );
     //CvComplex32f( const CvComplex32f& v ) : re(v.re), im(v.im) {}
     //CvComplex32f& operator = (const CvComplex32f& v ) { re = v.re; im = v.im; return *this; }
     operator CvComplex64f() const;
 };

 struct CvComplex64f
 {
     double re, im;

     CvComplex64f() {}
     CvComplex64f( double _re, double _im=0 ) : re(_re), im(_im) {}
     explicit CvComplex64f( const CvComplex32f& v );
     //CvComplex64f( const CvComplex64f& v ) : re(v.re), im(v.im) {}
     //CvComplex64f& operator = (const CvComplex64f& v ) { re = v.re; im = v.im; return *this; }
     operator CvComplex32f() const;
 };

 inline CvComplex32f::CvComplex32f( const CvComplex64f& v ) : re((float)v.re), im((float)v.im) {}
 inline CvComplex64f::CvComplex64f( const CvComplex32f& v ) : re(v.re), im(v.im) {}

 inline CvComplex32f operator + (CvComplex32f a, CvComplex32f b)
 {
     return CvComplex32f( a.re + b.re, a.im + b.im );
 }

 inline CvComplex32f& operator += (CvComplex32f& a, CvComplex32f b)
 {
     a.re += b.re;
     a.im += b.im;
     return a;
 }

 inline CvComplex32f operator - (CvComplex32f a, CvComplex32f b)
 {
     return CvComplex32f( a.re - b.re, a.im - b.im );
 }

 inline CvComplex32f& operator -= (CvComplex32f& a, CvComplex32f b)
 {
     a.re -= b.re;
     a.im -= b.im;
     return a;
 }

 inline CvComplex32f operator - (CvComplex32f a)
 {
     return CvComplex32f( -a.re, -a.im );
 }

 inline CvComplex32f operator * (CvComplex32f a, CvComplex32f b)
 {
     return CvComplex32f( a.re*b.re - a.im*b.im, a.re*b.im + a.im*b.re );
 }

 inline double abs(CvComplex32f a)
 {
     return sqrt( (double)a.re*a.re + (double)a.im*a.im );
 }

 inline CvComplex32f conj(CvComplex32f a)
 {
     return CvComplex32f( a.re, -a.im );
 }


 inline CvComplex32f operator / (CvComplex32f a, CvComplex32f b)
 {
     double t = 1./((double)b.re*b.re + (double)b.im*b.im);
     return CvComplex32f( (float)((a.re*b.re + a.im*b.im)*t),
                          (float)((-a.re*b.im + a.im*b.re)*t) );
 }

 inline CvComplex32f operator * (double a, CvComplex32f b)
 {
     return CvComplex32f( (float)(a*b.re), (float)(a*b.im) );
 }

 inline CvComplex32f operator * (CvComplex32f a, double b)
 {
     return CvComplex32f( (float)(a.re*b), (float)(a.im*b) );
 }

 inline CvComplex32f::operator CvComplex64f() const
 {
     return CvComplex64f(re,im);
 }


 inline CvComplex64f operator + (CvComplex64f a, CvComplex64f b)
 {
     return CvComplex64f( a.re + b.re, a.im + b.im );
 }

 inline CvComplex64f& operator += (CvComplex64f& a, CvComplex64f b)
 {
     a.re += b.re;
     a.im += b.im;
     return a;
 }

 inline CvComplex64f operator - (CvComplex64f a, CvComplex64f b)
 {
     return CvComplex64f( a.re - b.re, a.im - b.im );
 }

 inline CvComplex64f& operator -= (CvComplex64f& a, CvComplex64f b)
 {
     a.re -= b.re;
     a.im -= b.im;
     return a;
 }

 inline CvComplex64f operator - (CvComplex64f a)
 {
     return CvComplex64f( -a.re, -a.im );
 }

 inline CvComplex64f operator * (CvComplex64f a, CvComplex64f b)
 {
     return CvComplex64f( a.re*b.re - a.im*b.im, a.re*b.im + a.im*b.re );
 }

 inline double abs(CvComplex64f a)
 {
     return sqrt( (double)a.re*a.re + (double)a.im*a.im );
 }

 inline CvComplex64f operator / (CvComplex64f a, CvComplex64f b)
 {
     double t = 1./((double)b.re*b.re + (double)b.im*b.im);
     return CvComplex64f( (a.re*b.re + a.im*b.im)*t,
                          (-a.re*b.im + a.im*b.re)*t );
 }

 inline CvComplex64f operator * (double a, CvComplex64f b)
 {
     return CvComplex64f( a*b.re, a*b.im );
 }

 inline CvComplex64f operator * (CvComplex64f a, double b)
 {
     return CvComplex64f( a.re*b, a.im*b );
 }

 inline CvComplex64f::operator CvComplex32f() const
 {
     return CvComplex32f((float)re,(float)im);
 }

 inline CvComplex64f conj(CvComplex64f a)
 {
     return CvComplex64f( a.re, -a.im );
 }

 inline CvComplex64f operator + (CvComplex64f a, CvComplex32f b)
 {
     return CvComplex64f( a.re + b.re, a.im + b.im );
 }

 inline CvComplex64f operator + (CvComplex32f a, CvComplex64f b)
 {
     return CvComplex64f( a.re + b.re, a.im + b.im );
 }

 inline CvComplex64f operator - (CvComplex64f a, CvComplex32f b)
 {
     return CvComplex64f( a.re - b.re, a.im - b.im );
 }

 inline CvComplex64f operator - (CvComplex32f a, CvComplex64f b)
 {
     return CvComplex64f( a.re - b.re, a.im - b.im );
 }

 inline CvComplex64f operator * (CvComplex64f a, CvComplex32f b)
 {
     return CvComplex64f( a.re*b.re - a.im*b.im, a.re*b.im + a.im*b.re );
 }

 inline CvComplex64f operator * (CvComplex32f a, CvComplex64f b)
 {
     return CvComplex64f( a.re*b.re - a.im*b.im, a.re*b.im + a.im*b.re );
 }


 typedef CvStatus (CV_STDCALL * CvCopyMaskFunc)(const void* src, int src_step,
                                                void* dst, int dst_step, CvSize size,
                                                const void* mask, int mask_step);

 CvCopyMaskFunc icvGetCopyMaskFunc( int elem_size );

 CvStatus CV_STDCALL icvSetZero_8u_C1R( uchar* dst, int dststep, CvSize size );

 CvStatus CV_STDCALL icvScale_32f( const float* src, float* dst, int len, float a, float b );
 CvStatus CV_STDCALL icvScale_64f( const double* src, double* dst, int len, double a, double b );

 CvStatus CV_STDCALL icvLUT_Transform8u_8u_C1R( const uchar* src, int srcstep, uchar* dst,
                                                int dststep, CvSize size, const uchar* lut );
 CvStatus CV_STDCALL icvLUT_Transform8u_16u_C1R( const uchar* src, int srcstep, ushort* dst,
                                                 int dststep, CvSize size, const ushort* lut );
 CvStatus CV_STDCALL icvLUT_Transform8u_32s_C1R( const uchar* src, int srcstep, int* dst,
                                                 int dststep, CvSize size, const int* lut );
 CvStatus CV_STDCALL icvLUT_Transform8u_64f_C1R( const uchar* src, int srcstep, double* dst,
                                                 int dststep, CvSize size, const double* lut );

 CvStatus CV_STDCALL icvLUT_Transform8u_8u_C2R( const uchar* src, int srcstep, uchar* dst,
                                                int dststep, CvSize size, const uchar* lut );
 CvStatus CV_STDCALL icvLUT_Transform8u_8u_C3R( const uchar* src, int srcstep, uchar* dst,
                                                int dststep, CvSize size, const uchar* lut );
 CvStatus CV_STDCALL icvLUT_Transform8u_8u_C4R( const uchar* src, int srcstep, uchar* dst,
                                                int dststep, CvSize size, const uchar* lut );

 typedef CvStatus (CV_STDCALL * CvLUT_TransformFunc)( const void* src, int srcstep, void* dst,
                                                      int dststep, CvSize size, const void* lut );

 CV_INLINE CvStatus
 icvLUT_Transform8u_8s_C1R( const uchar* src, int srcstep, schar* dst,
                             int dststep, CvSize size, const schar* lut )
 {
     return icvLUT_Transform8u_8u_C1R( src, srcstep, (uchar*)dst,
                                       dststep, size, (const uchar*)lut );
 }

 CV_INLINE CvStatus
 icvLUT_Transform8u_16s_C1R( const uchar* src, int srcstep, short* dst,
                             int dststep, CvSize size, const short* lut )
 {
     return icvLUT_Transform8u_16u_C1R( src, srcstep, (ushort*)dst,
                                        dststep, size, (const ushort*)lut );
 }

 CV_INLINE CvStatus
 icvLUT_Transform8u_32f_C1R( const uchar* src, int srcstep, float* dst,
                             int dststep, CvSize size, const float* lut )
 {
     return icvLUT_Transform8u_32s_C1R( src, srcstep, (int*)dst,
                                        dststep, size, (const int*)lut );
 }

 #endif /*_CXCORE_INTERNAL_H_*/
	/*M///////////////////////////////////////////////////////////////////////////////////////
	//
	// IMPORTANT: READ BEFORE DOWNLOADING, COPYING, INSTALLING OR USING.
	//
	// By downloading, copying, installing or using the software you agree to this license.
	// If you do not agree to this license, do not download, install,
	// copy or use the software.
	//
	//
	// Intel License Agreement
	// For Open Source Computer Vision Library
	//
	// Copyright (C) 2000, Intel Corporation, all rights reserved.
	// Third party copyrights are property of their respective owners.
	//
	// Redistribution and use in source and binary forms, with or without modification,
	// are permitted provided that the following conditions are met:
	//
	// * Redistribution's of source code must retain the above copyright notice,
	// this list of conditions and the following disclaimer.
	//
	// * Redistribution's in binary form must reproduce the above copyright notice,
	// this list of conditions and the following disclaimer in the documentation
	// and/or other materials provided with the distribution.
	//
	// * The name of Intel Corporation may not be used to endorse or promote products
	// derived from this software without specific prior written permission.
	//
	// This software is provided by the copyright holders and contributors "as is" and
	// any express or implied warranties, including, but not limited to, the implied
	// warranties of merchantability and fitness for a particular purpose are disclaimed.
	// In no event shall the Intel Corporation or contributors be liable for any direct,
	// indirect, incidental, special, exemplary, or consequential damages
	// (including, but not limited to, procurement of substitute goods or services;
	// loss of use, data, or profits; or business interruption) however caused
	// and on any theory of liability, whether in contract, strict liability,
	// or tort (including negligence or otherwise) arising in any way out of
	// the use of this software, even if advised of the possibility of such damage.
	//
	//M*/

	#ifndef _CXCORE_INTERNAL_H_
	#define _CXCORE_INTERNAL_H_

	#if defined _MSC_VER && _MSC_VER >= 1200
	/* disable warnings related to inline functions */
	#pragma warning( disable: 4711 4710 4514 )
	#endif

	typedef unsigned long ulong;

	#ifdef __BORLANDC__
	#define WIN32
	#define CV_DLL
	#undef _CV_ALWAYS_PROFILE_
	#define _CV_ALWAYS_NO_PROFILE_
	#endif

	#include "cxcore.h"
	#include "cxmisc.h"
	#include "_cxipp.h"
	#include <math.h>
	#include <assert.h>
	#include <string.h>
	#include <stdlib.h>
	#include <stdio.h>
	#include <limits.h>
	#include <float.h>

	// -128.f ... 255.f
	extern const float icv8x32fTab[];
	#define CV_8TO32F(x) icv8x32fTab[(x)+128]

	extern const ushort icv8x16uSqrTab[];
	#define CV_SQR_8U(x) icv8x16uSqrTab[(x)+255]

	extern const char* icvHersheyGlyphs[];

	extern const signed char icvDepthToType[];

	#define icvIplToCvDepth( depth ) \
	icvDepthToType[(((depth) & 255) >> 2) + ((depth) < 0)]

	extern const uchar icvSaturate8u[];
	#define CV_FAST_CAST_8U(t) (assert(-256 <= (t) && (t) <= 512), icvSaturate8u[(t)+256])
	#define CV_MIN_8U(a,b) ((a) - CV_FAST_CAST_8U((a) - (b)))
	#define CV_MAX_8U(a,b) ((a) + CV_FAST_CAST_8U((b) - (a)))

	typedef CvFunc2D_3A1I CvArithmBinMaskFunc2D;
	typedef CvFunc2D_2A1P1I CvArithmUniMaskFunc2D;


	/****************************************************************************************\
	* Complex arithmetics *
	\****************************************************************************************/

	struct CvComplex32f;
	struct CvComplex64f;

	struct CvComplex32f
	{
	float re, im;

	CvComplex32f() {}
	CvComplex32f( float _re, float _im=0 ) : re(_re), im(_im) {}
	explicit CvComplex32f( const CvComplex64f& v );
	//CvComplex32f( const CvComplex32f& v ) : re(v.re), im(v.im) {}
	//CvComplex32f& operator = (const CvComplex32f& v ) { re = v.re; im = v.im; return *this; }
	operator CvComplex64f() const;
	};

	struct CvComplex64f
	{
	double re, im;

	CvComplex64f() {}
	CvComplex64f( double _re, double _im=0 ) : re(_re), im(_im) {}
	explicit CvComplex64f( const CvComplex32f& v );
	//CvComplex64f( const CvComplex64f& v ) : re(v.re), im(v.im) {}
	//CvComplex64f& operator = (const CvComplex64f& v ) { re = v.re; im = v.im; return *this; }
	operator CvComplex32f() const;
	};

	inline CvComplex32f::CvComplex32f( const CvComplex64f& v ) : re((float)v.re), im((float)v.im) {}
	inline CvComplex64f::CvComplex64f( const CvComplex32f& v ) : re(v.re), im(v.im) {}

	inline CvComplex32f operator + (CvComplex32f a, CvComplex32f b)
	{
	return CvComplex32f( a.re + b.re, a.im + b.im );
	}

	inline CvComplex32f& operator += (CvComplex32f& a, CvComplex32f b)
	{
	a.re += b.re;
	a.im += b.im;
	return a;
	}

	inline CvComplex32f operator - (CvComplex32f a, CvComplex32f b)
	{
	return CvComplex32f( a.re - b.re, a.im - b.im );
	}

	inline CvComplex32f& operator -= (CvComplex32f& a, CvComplex32f b)
	{
	a.re -= b.re;
	a.im -= b.im;
	return a;
	}

	inline CvComplex32f operator - (CvComplex32f a)
	{
	return CvComplex32f( -a.re, -a.im );
	}

	inline CvComplex32f operator * (CvComplex32f a, CvComplex32f b)
	{
	return CvComplex32f( a.reb.re - a.imb.im, a.reb.im + a.imb.re );
	}

	inline double abs(CvComplex32f a)
	{
	return sqrt( (double)a.rea.re + (double)a.ima.im );
	}

	inline CvComplex32f conj(CvComplex32f a)
	{
	return CvComplex32f( a.re, -a.im );
	}


	inline CvComplex32f operator / (CvComplex32f a, CvComplex32f b)
	{
	double t = 1./((double)b.reb.re + (double)b.imb.im);
	return CvComplex32f( (float)((a.reb.re + a.imb.im)*t),
	(float)((-a.reb.im + a.imb.re)*t) );
	}

	inline CvComplex32f operator * (double a, CvComplex32f b)
	{
	return CvComplex32f( (float)(ab.re), (float)(ab.im) );
	}

	inline CvComplex32f operator * (CvComplex32f a, double b)
	{
	return CvComplex32f( (float)(a.reb), (float)(a.imb) );
	}

	inline CvComplex32f::operator CvComplex64f() const
	{
	return CvComplex64f(re,im);
	}


	inline CvComplex64f operator + (CvComplex64f a, CvComplex64f b)
	{
	return CvComplex64f( a.re + b.re, a.im + b.im );
	}

	inline CvComplex64f& operator += (CvComplex64f& a, CvComplex64f b)
	{
	a.re += b.re;
	a.im += b.im;
	return a;
	}

	inline CvComplex64f operator - (CvComplex64f a, CvComplex64f b)
	{
	return CvComplex64f( a.re - b.re, a.im - b.im );
	}

	inline CvComplex64f& operator -= (CvComplex64f& a, CvComplex64f b)
	{
	a.re -= b.re;
	a.im -= b.im;
	return a;
	}

	inline CvComplex64f operator - (CvComplex64f a)
	{
	return CvComplex64f( -a.re, -a.im );
	}

	inline CvComplex64f operator * (CvComplex64f a, CvComplex64f b)
	{
	return CvComplex64f( a.reb.re - a.imb.im, a.reb.im + a.imb.re );
	}

	inline double abs(CvComplex64f a)
	{
	return sqrt( (double)a.rea.re + (double)a.ima.im );
	}

	inline CvComplex64f operator / (CvComplex64f a, CvComplex64f b)
	{
	double t = 1./((double)b.reb.re + (double)b.imb.im);
	return CvComplex64f( (a.reb.re + a.imb.im)*t,
	(-a.reb.im + a.imb.re)*t );
	}

	inline CvComplex64f operator * (double a, CvComplex64f b)
	{
	return CvComplex64f( ab.re, ab.im );
	}

	inline CvComplex64f operator * (CvComplex64f a, double b)
	{
	return CvComplex64f( a.reb, a.imb );
	}

	inline CvComplex64f::operator CvComplex32f() const
	{
	return CvComplex32f((float)re,(float)im);
	}

	inline CvComplex64f conj(CvComplex64f a)
	{
	return CvComplex64f( a.re, -a.im );
	}

	inline CvComplex64f operator + (CvComplex64f a, CvComplex32f b)
	{
	return CvComplex64f( a.re + b.re, a.im + b.im );
	}

	inline CvComplex64f operator + (CvComplex32f a, CvComplex64f b)
	{
	return CvComplex64f( a.re + b.re, a.im + b.im );
	}

	inline CvComplex64f operator - (CvComplex64f a, CvComplex32f b)
	{
	return CvComplex64f( a.re - b.re, a.im - b.im );
	}

	inline CvComplex64f operator - (CvComplex32f a, CvComplex64f b)
	{
	return CvComplex64f( a.re - b.re, a.im - b.im );
	}

	inline CvComplex64f operator * (CvComplex64f a, CvComplex32f b)
	{
	return CvComplex64f( a.reb.re - a.imb.im, a.reb.im + a.imb.re );
	}

	inline CvComplex64f operator * (CvComplex32f a, CvComplex64f b)
	{
	return CvComplex64f( a.reb.re - a.imb.im, a.reb.im + a.imb.re );
	}


	typedef CvStatus (CV_STDCALL * CvCopyMaskFunc)(const void* src, int src_step,
	void* dst, int dst_step, CvSize size,
	const void* mask, int mask_step);

	CvCopyMaskFunc icvGetCopyMaskFunc( int elem_size );

	CvStatus CV_STDCALL icvSetZero_8u_C1R( uchar* dst, int dststep, CvSize size );

	CvStatus CV_STDCALL icvScale_32f( const float* src, float* dst, int len, float a, float b );
	CvStatus CV_STDCALL icvScale_64f( const double* src, double* dst, int len, double a, double b );

	CvStatus CV_STDCALL icvLUT_Transform8u_8u_C1R( const uchar* src, int srcstep, uchar* dst,
	int dststep, CvSize size, const uchar* lut );
	CvStatus CV_STDCALL icvLUT_Transform8u_16u_C1R( const uchar* src, int srcstep, ushort* dst,
	int dststep, CvSize size, const ushort* lut );
	CvStatus CV_STDCALL icvLUT_Transform8u_32s_C1R( const uchar* src, int srcstep, int* dst,
	int dststep, CvSize size, const int* lut );
	CvStatus CV_STDCALL icvLUT_Transform8u_64f_C1R( const uchar* src, int srcstep, double* dst,
	int dststep, CvSize size, const double* lut );

	CvStatus CV_STDCALL icvLUT_Transform8u_8u_C2R( const uchar* src, int srcstep, uchar* dst,
	int dststep, CvSize size, const uchar* lut );
	CvStatus CV_STDCALL icvLUT_Transform8u_8u_C3R( const uchar* src, int srcstep, uchar* dst,
	int dststep, CvSize size, const uchar* lut );
	CvStatus CV_STDCALL icvLUT_Transform8u_8u_C4R( const uchar* src, int srcstep, uchar* dst,
	int dststep, CvSize size, const uchar* lut );

	typedef CvStatus (CV_STDCALL * CvLUT_TransformFunc)( const void* src, int srcstep, void* dst,
	int dststep, CvSize size, const void* lut );

	CV_INLINE CvStatus
	icvLUT_Transform8u_8s_C1R( const uchar* src, int srcstep, schar* dst,
	int dststep, CvSize size, const schar* lut )
	{
	return icvLUT_Transform8u_8u_C1R( src, srcstep, (uchar*)dst,
	dststep, size, (const uchar*)lut );
	}

	CV_INLINE CvStatus
	icvLUT_Transform8u_16s_C1R( const uchar* src, int srcstep, short* dst,
	int dststep, CvSize size, const short* lut )
	{
	return icvLUT_Transform8u_16u_C1R( src, srcstep, (ushort*)dst,
	dststep, size, (const ushort*)lut );
	}

	CV_INLINE CvStatus
	icvLUT_Transform8u_32f_C1R( const uchar* src, int srcstep, float* dst,
	int dststep, CvSize size, const float* lut )
	{
	return icvLUT_Transform8u_32s_C1R( src, srcstep, (int*)dst,
	dststep, size, (const int*)lut );
	}

	#endif /_CXCORE_INTERNAL_H_/