/usr/include/ITK-4.5/itkMathDetail.h is in libinsighttoolkit4-dev 4.5.0-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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*
* Copyright Insight Software Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
/*=========================================================================
*
* Portions of this file are subject to the VTK Toolkit Version 3 copyright.
*
* Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
*
* For complete copyright, license and disclaimer of warranty information
* please refer to the NOTICE file at the top of the ITK source tree.
*
*=========================================================================*/
#ifndef __itkMathDetail_h
#define __itkMathDetail_h
#include "vnl/vnl_math.h"
#include "itkIntTypes.h"
#include "itkNumericTraits.h"
#ifdef ITK_HAVE_FENV_H
// The Sun Studio CC compiler seems to have a bug where if cstdio is
// included stdio.h must also be included before fenv.h
#include <cstdio>
#include <fenv.h> // should this be cfenv?
#endif /* ITK_HAVE_FENV_H */
#ifdef ITK_HAVE_EMMINTRIN_H
#include <emmintrin.h> // sse 2 intrinsics
#endif /* ITK_HAVE_EMMINTRIN_H */
// assume no SSE2:
#define USE_SSE2_64IMPL 0
#define USE_SSE2_32IMPL 0
// For apple assume sse2 is on for all intel builds, check for 64 and 32
// bit versions
#if defined(__APPLE__) && defined( __SSE2__ )
# if defined( __i386__ )
# undef USE_SSE2_32IMPL
# define USE_SSE2_32IMPL 1
# endif
# if defined( __x86_64 )
// Turn on the 64 bits implementation
# undef USE_SSE2_64IMPL
# define USE_SSE2_64IMPL 1
// Turn on also the 32 bits implementation
// since it is available in 64 bits versions.
# undef USE_SSE2_32IMPL
# define USE_SSE2_32IMPL 1
# endif
#else
// For non-apple (no universal binary possible) just use the
// try-compile set ITK_COMPILER_SUPPORTS_SSE2_32 and
// ITK_COMPILER_SUPPORTS_SSE2_64 to set values:
# if defined(ITK_COMPILER_SUPPORTS_SSE2_32) && !defined( __GCCXML__ )
# undef USE_SSE2_32IMPL
# define USE_SSE2_32IMPL 1
# endif
# if defined(ITK_COMPILER_SUPPORTS_SSE2_64) && !defined( __GCCXML__ )
# undef USE_SSE2_64IMPL
# define USE_SSE2_64IMPL 1
# endif
#endif
// Turn on 32-bit and 64-bit asm impl when using GCC on x86 platform with the
// following exception:
// GCCXML
#if defined( __GNUC__ ) && ( !defined( __GCCXML__ ) ) && ( defined( __i386__ ) || defined( __i386 ) \
|| defined( __x86_64__ ) || defined( __x86_64 ) )
#define GCC_USE_ASM_32IMPL 1
#define GCC_USE_ASM_64IMPL 1
#else
#define GCC_USE_ASM_32IMPL 0
#define GCC_USE_ASM_64IMPL 0
#endif
// Turn on 32-bit and 64-bit asm impl when using msvc on 32 bits windows
#if defined( VCL_VC ) && ( !defined( __GCCXML__ ) ) && !defined( _WIN64 )
#define VC_USE_ASM_32IMPL 1
#define VC_USE_ASM_64IMPL 1
#else
#define VC_USE_ASM_32IMPL 0
#define VC_USE_ASM_64IMPL 0
#endif
namespace itk
{
namespace Math
{
namespace Detail
{
// The functions defined in this namespace are not meant to be used directly
// and thus do not adhere to the standard backward-compatibility
// policy of ITK, as any Detail namespace should be considered private.
// Please use the functions from the itk::Math namespace instead
////////////////////////////////////////
// Base versions
template< typename TReturn, typename TInput >
inline TReturn RoundHalfIntegerToEven_base(TInput x)
{
if ( NumericTraits< TInput >::IsNonnegative(x) )
{
x += static_cast< TInput >( 0.5 );
}
else
{
x -= static_cast< TInput >( 0.5 );
}
const TReturn r = static_cast< TReturn >( x );
return ( x != static_cast< TInput >( r ) ) ? r : static_cast< TReturn >( 2 * ( r / 2 ) );
}
template< typename TReturn, typename TInput >
inline TReturn RoundHalfIntegerUp_base(TInput x)
{
x += static_cast< TInput >( 0.5 );
const TReturn r = static_cast< TReturn >( x );
return ( NumericTraits< TInput >::IsNonnegative(x) ) ?
r :
( x == static_cast< TInput >( r ) ? r : r - static_cast< TReturn >( 1 ) );
}
template< typename TReturn, typename TInput >
inline TReturn Floor_base(TInput x)
{
const TReturn r = static_cast< TReturn >( x );
return ( NumericTraits< TInput >::IsNonnegative(x) ) ?
r :
( x == static_cast< TInput >( r ) ? r : r - static_cast< TReturn >( 1 ) );
}
template< typename TReturn, typename TInput >
inline TReturn Ceil_base(TInput x)
{
const TReturn r = static_cast< TReturn >( x );
return ( NumericTraits< TInput >::IsNegative(x) ) ?
r :
( x == static_cast< TInput >( r ) ? r : r + static_cast< TReturn >( 1 ) );
}
////////////////////////////////////////
// 32 bits versions
#if USE_SSE2_32IMPL // sse2 implementation
inline int32_t RoundHalfIntegerToEven_32(double x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
return _mm_cvtsd_si32( _mm_set_sd(x) );
}
inline int32_t RoundHalfIntegerToEven_32(float x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
return _mm_cvtss_si32( _mm_set_ss(x) );
}
#elif GCC_USE_ASM_32IMPL // gcc asm implementation
inline int32_t RoundHalfIntegerToEven_32(double x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int32_t r;
__asm__ __volatile__ ( "fistpl %0" : "=m" ( r ) : "t" ( x ) : "st" );
return r;
}
inline int32_t RoundHalfIntegerToEven_32(float x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int32_t r;
__asm__ __volatile__ ( "fistpl %0" : "=m" ( r ) : "t" ( x ) : "st" );
return r;
}
#elif VC_USE_ASM_32IMPL // msvc asm implementation
inline int32_t RoundHalfIntegerToEven_32(double x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int32_t r;
__asm
{
fld x
fistp r
}
return r;
}
inline int32_t RoundHalfIntegerToEven_32(float x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int32_t r;
__asm
{
fld x
fistp r
}
return r;
}
#else // Base implementation
inline int32_t RoundHalfIntegerToEven_32(double x) { return RoundHalfIntegerToEven_base< int32_t, double >(x); }
inline int32_t RoundHalfIntegerToEven_32(float x) { return RoundHalfIntegerToEven_base< int32_t, float >(x); }
#endif
#if USE_SSE2_32IMPL || GCC_USE_ASM_32IMPL || VC_USE_ASM_32IMPL
inline int32_t RoundHalfIntegerUp_32(double x) { return RoundHalfIntegerToEven_32(2 * x + 0.5) >> 1; }
inline int32_t RoundHalfIntegerUp_32(float x) { return RoundHalfIntegerToEven_32(2 * x + 0.5f) >> 1; }
inline int32_t Floor_32(double x) { return RoundHalfIntegerToEven_32(2 * x - 0.5) >> 1; }
inline int32_t Floor_32(float x) { return RoundHalfIntegerToEven_32(2 * x - 0.5f) >> 1; }
inline int32_t Ceil_32(double x) { return -( RoundHalfIntegerToEven_32(-0.5 - 2 * x) >> 1 ); }
inline int32_t Ceil_32(float x) { return -( RoundHalfIntegerToEven_32(-0.5f - 2 * x) >> 1 ); }
#else // Base implementation
inline int32_t RoundHalfIntegerUp_32(double x) { return RoundHalfIntegerUp_base< int32_t, double >(x); }
inline int32_t RoundHalfIntegerUp_32(float x) { return RoundHalfIntegerUp_base< int32_t, float >(x); }
inline int32_t Floor_32(double x) { return Floor_base< int32_t, double >(x); }
inline int32_t Floor_32(float x) { return Floor_base< int32_t, float >(x); }
inline int32_t Ceil_32(double x) { return Ceil_base< int32_t, double >(x); }
inline int32_t Ceil_32(float x) { return Ceil_base< int32_t, float >(x); }
#endif // USE_SSE2_32IMPL || GCC_USE_ASM_32IMPL || VC_USE_ASM_32IMPL
////////////////////////////////////////
// 64 bits versions
#if USE_SSE2_64IMPL // sse2 implementation
inline int64_t RoundHalfIntegerToEven_64(double x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
return _mm_cvtsd_si64( _mm_set_sd(x) );
}
inline int64_t RoundHalfIntegerToEven_64(float x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
return _mm_cvtss_si64( _mm_set_ss(x) );
}
#elif GCC_USE_ASM_64IMPL // gcc asm implementation
inline int64_t RoundHalfIntegerToEven_64(double x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int64_t r;
__asm__ __volatile__ ( "fistpll %0" : "=m" ( r ) : "t" ( x ) : "st" );
return r;
}
inline int64_t RoundHalfIntegerToEven_64(float x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int64_t r;
__asm__ __volatile__ ( "fistpll %0" : "=m" ( r ) : "t" ( x ) : "st" );
return r;
}
#elif VC_USE_ASM_64IMPL // msvc asm implementation
inline int64_t RoundHalfIntegerToEven_64(double x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int64_t r;
__asm
{
fld x
fistp r
}
return r;
}
inline int64_t RoundHalfIntegerToEven_64(float x)
{
#if defined( ITK_CHECK_FPU_ROUNDING_MODE ) && defined( HAVE_FENV_H )
itkAssertInDebugAndIgnoreInReleaseMacro(fegetround() == FE_TONEAREST);
#endif
int64_t r;
__asm
{
fld x
fistp r
}
return r;
}
#else // Base implementation
inline int64_t RoundHalfIntegerToEven_64(double x) { return RoundHalfIntegerToEven_base< int64_t, double >(x); }
inline int64_t RoundHalfIntegerToEven_64(float x) { return RoundHalfIntegerToEven_base< int64_t, float >(x); }
#endif
#if USE_SSE2_64IMPL || GCC_USE_ASM_64IMPL || VC_USE_ASM_64IMPL
inline int64_t RoundHalfIntegerUp_64(double x) { return RoundHalfIntegerToEven_64(2 * x + 0.5) >> 1; }
inline int64_t RoundHalfIntegerUp_64(float x) { return RoundHalfIntegerToEven_64(2 * x + 0.5f) >> 1; }
inline int64_t Floor_64(double x) { return RoundHalfIntegerToEven_64(2 * x - 0.5) >> 1; }
inline int64_t Floor_64(float x) { return RoundHalfIntegerToEven_64(2 * x - 0.5f) >> 1; }
inline int64_t Ceil_64(double x) { return -( RoundHalfIntegerToEven_64(-0.5 - 2 * x) >> 1 ); }
inline int64_t Ceil_64(float x) { return -( RoundHalfIntegerToEven_64(-0.5f - 2 * x) >> 1 ); }
#else // Base implementation
inline int64_t RoundHalfIntegerUp_64(double x) { return RoundHalfIntegerUp_base< int64_t, double >(x); }
inline int64_t RoundHalfIntegerUp_64(float x) { return RoundHalfIntegerUp_base< int64_t, float >(x); }
inline int64_t Floor_64(double x) { return Floor_base< int64_t, double >(x); }
inline int64_t Floor_64(float x) { return Floor_base< int64_t, float >(x); }
inline int64_t Ceil_64(double x) { return Ceil_base< int64_t, double >(x); }
inline int64_t Ceil_64(float x) { return Ceil_base< int64_t, float >(x); }
#endif // USE_SSE2_64IMPL || GCC_USE_ASM_64IMPL || VC_USE_ASM_64IMPL
template <typename T>
struct FloatIEEETraits;
template <>
struct FloatIEEETraits<float>
{
typedef int32_t IntType;
typedef uint32_t UIntType;
};
template <>
struct FloatIEEETraits<double>
{
typedef int64_t IntType;
typedef uint64_t UIntType;
};
template <typename T>
union FloatIEEE
{
typedef T FloatType;
typedef typename FloatIEEETraits<T>::IntType IntType;
typedef typename FloatIEEETraits<T>::UIntType UIntType;
FloatType asFloat;
IntType asInt;
UIntType asUInt;
FloatIEEE(FloatType f): asFloat(f) {}
bool Sign() const
{
return (asUInt >> (sizeof(asUInt)*8-1)) != 0;
}
IntType AsULP() const
{
return this->Sign()? IntType(~(~UIntType(0) >> 1) - asUInt) : asInt;
}
};
} // end namespace Detail
} // end namespace Math
// move to itkConceptChecking?
namespace Concept
{
template< typename T >
struct FloatOrDouble;
template< >
struct FloatOrDouble< float > {};
template< >
struct FloatOrDouble< double > {};
} // end namespace Concept
} // end namespace itk
#undef USE_SSE2_32IMPL
#undef GCC_USE_ASM_32IMPL
#undef VC_USE_ASM_32IMPL
#undef USE_SSE2_64IMPL
#undef GCC_USE_ASM_64IMPL
#undef VC_USE_ASM_64IMPL
#endif // end of itkMathDetail.h
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