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/************************************************************************/
/* */
/* Copyright 1998-2002 by Ullrich Koethe */
/* Cognitive Systems Group, University of Hamburg, Germany */
/* */
/* This file is part of the VIGRA computer vision library. */
/* ( Version 1.4.0, Dec 21 2005 ) */
/* The VIGRA Website is */
/* http://kogs-www.informatik.uni-hamburg.de/~koethe/vigra/ */
/* Please direct questions, bug reports, and contributions to */
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/************************************************************************/
#ifndef VIGRA_NUMERICTRAITS_HXX
#define VIGRA_NUMERICTRAITS_HXX
#include <limits.h>
#include <cfloat>
#include <complex>
#include "vigra/metaprogramming.hxx"
#include "vigra/sized_int.hxx"
/********************************************************/
/* */
/* NumericTraits */
/* */
/********************************************************/
/** \page NumericPromotionTraits Numeric and Promotion Traits
Meta-information about arithmetic types.
<DL>
<DT>
<IMG BORDER=0 ALT="-" SRC="documents/bullet.gif">
\ref NumericTraits
<DD><em>Unary traits for promotion, conversion, creation of arithmetic objects</em>
<DT>
<IMG BORDER=0 ALT="-" SRC="documents/bullet.gif">
\ref PromoteTraits
<DD><em>Binary traits for promotion of arithmetic objects</em>
<IMG BORDER=0 ALT="-" SRC="documents/bullet.gif">
\ref SquareRootTraits
<DD><em>Unary traits for the calculation of the square root of arithmetic objects</em>
<IMG BORDER=0 ALT="-" SRC="documents/bullet.gif">
\ref NormTraits
<DD><em>Unary traits for the calculation of the norm and squared norm of arithmetic objects</em>
</DL>
These traits classes contain information that is used by generic
algorithms and data structures to determine intermediate and result
types of numerical calculations, to convert between different
representations of arithmetic types, and to create certain important
constants of each type. Thus, algorithms and data structures
operating that need arithmetic operations can be made more
independent from the actual data representation.
NumericTraits are implemented as template specializations of one
arithmetic type, while PromoteTraits are specialized for a pair of
arithmetic types that shall be combined in one operation.
*/
/** \page NumericTraits template<> struct NumericTraits<ArithmeticType>
Unary traits for promotion, conversion, creation of arithmetic objects.
<b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
This traits class is used derive important properties of
an arithmetic type. Consider the following algorithm:
\code
// calculate the sum of a sequence of bytes
int sumBytes(unsigned char * begin, unsigned char * end)
{
int result = 0;
for(; begin != end; ++begin) result += *begin;
return result;
}
\endcode
The return type of this function can not be 'unsigned char' because
the summation would very likely overflow. Since we know the source
type, we can easily choose 'int' as an appropriate return type.
Likewise, we would have choosen 'float' if we had to sum a
sequence of floats. If we want to make this
algorithm generic, we would like to derive the appropriate return
type automatically. This can be done with NumericTraits.
The code would look like this (we use \ref DataAccessors to
read the data from the sequence):
\code
// calculate the sum of any sequence
template <class Iterator, class Accessor>
typename vigra::NumericTraits<typename Accessor::value_type>::Promote
sumSequence(Iterator begin, Iterator end, Accessor a)
{
// an abbreviation
typedef vigra::NumericTraits<typename Accessor::value_type> SrcTraits;
// find out result type
typedef typename SrcTraits::Promote ResultType;
// init result to zero
ResultType result = vigra::NumericTraits<ResultType>::zero();
for(; begin != end; ++begin)
{
// cast current item to ResultType and add
result += SrcTraits::toPromote(a(begin));
}
return result;
}
\endcode
In this example NumericTraits is not only used to deduce the
ReturnType of the operation, but also to initialize it with the
constant 'zero'. This is necessary since we do not know in general,
which expression must be used to obtain a zero of some arbitrary
type - '<TT>ResultType result = 0;</TT>' would only work if the
ResultType had an constructor taking an '<TT>int</TT>' argument, and we
would not even have any guarantee as to what the semantics of this
constructor are. In addition, the traits are used to cast the
source type into the promote type.
Similarly, an algorithm that needs multiplication would use the
return type <TT>RealPromote</TT> and the functions <TT>one()</TT> and
<TT>toRealPromote()</TT>. The following members are defined in
<b> <TT>NumericTraits<ArithmeticType></TT></b>:
<table>
<tr><td>
<b> <TT>typedef ... Type;</TT></b>
</td><td>
the type itself
</td></tr>
<tr><td>
<b> <TT>typedef ... Promote;</TT></b>
</td><td>
promote type for addition and subtraction
</td></tr>
<tr><td>
<b> <TT>typedef ... RealPromote;</TT></b>
</td><td>
promote type for multiplication and division with a real number
(only defined if <TT>ArithmeticType</TT> supports these operations)
</td></tr>
<tr><td>
<b> <TT>typedef ... ComplexPromote;</TT></b>
</td><td>
promote type for complex arithmetic
</td></tr>
<tr><td>
<b> <TT>typedef ... ValueType;</TT></b>
</td><td>
for scalar types: the type itself<br>
otherwise: typename Type::value_type (if defined)
</td></tr>
<tr><td>
<b> <TT>static Promote toPromote(ArithmeticType v);</TT></b>
</td><td>
convert to <TT>Promote</TT> type
</td></tr>
<tr><td>
<b> <TT>static RealPromote toRealPromote(ArithmeticType v);</TT></b>
</td><td>
convert to <TT>RealPromote</TT> type
(only defined if <TT>ArithmeticType</TT> supports multiplication)
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType fromPromote(Promote v);</TT></b>
</td><td>
convert from <TT>Promote</TT> type
if <TT>v</TT> is outside the range of <TT>ArithmeticType</TT> it is clipped;
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType fromRealPromote(RealPromote v);</TT></b>
</td><td>
convert from <TT>RealPromote</TT> type
(only defined if
<TT>ArithmeticType</TT> supports multiplication)
if <TT>ArithmeticType</TT> is an integral type, the result is rounded
if <TT>v</TT> is outside the range of <TT>ArithmeticType</TT> it is clipped
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType zero();</TT></b>
</td><td>
create neutral element of addition
i.e. <TT>(ArithmeticType a = ...,</TT>
<TT> a + NumericTraits<ArithmeticType>::zero() == a)</TT>
must always yield <TT>true</TT>
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType nonZero();</TT></b>
</td><td>
create a non-zero element (if multiplication is defined, this yields one())
i.e. <TT>(ArithmeticType a = ...,</TT>
<TT> a + NumericTraits<ArithmeticType>::nonZero() == a)</TT>
must always yield <TT>false</TT>
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType min();</TT></b>
</td><td>
the smallest number representable in this type.<br>
Only available if isOrdered is VigraTrueType. For integral types,
this equals <TT>INT_MIN</TT> etc., for real valued types it is <TT>-FLT_MAX</TT>
etc. (<b>not</b> <TT>FLT_MIN</TT> -- this is the smallest positive <tt>float</tt>)
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType max();</TT></b>
</td><td>
the largest number representable in this type.<br>
Only available if isOrdered is VigraTrueType. For integral types,
this equals <TT>INT_MAX</TT> etc., for real valued types it is <TT>FLT_MAX</TT>
etc.
</td></tr>
<tr><td>
<b> <TT>static ArithmeticType one();</TT></b>
</td><td>
create neutral element of multiplication
(only defined if <TT>ArithmeticType</TT> supports multiplication)
i.e. <TT>(ArithmeticType a = ...,</TT>
<TT> a * NumericTraits<ArithmeticType>::one() == a)</TT>
must always yield <TT>true</TT>
</td></tr>
<tr><td>
<b> <TT>typedef ... isIntegral;</TT></b>
</td><td>
VigraTrueType if <TT>ArithmeticType</TT> is an integral type,
VigraFalseType otherwise
</td></tr>
<tr><td>
<b> <TT>typedef ... isScalar;</TT></b>
</td><td>
VigraTrueType if <TT>ArithmeticType</TT> is a scalar type,
VigraFalseType otherwise
</td></tr>
<tr><td>
<tr><td>
<b> <TT>typedef ... isSigned;</TT></b>
</td><td>
VigraTrueType if <TT>ArithmeticType</TT> is a signed type,
VigraFalseType otherwise
</td></tr>
<tr><td>
<tr><td>
<b> <TT>typedef ... isOrdered;</TT></b>
</td><td>
VigraTrueType if <TT>ArithmeticType</TT> supports operator<(),
VigraFalseType otherwise
</td></tr>
<tr><td>
<b> <TT>typedef ... isComplex;</TT></b>
</td><td>
VigraTrueType if <TT>ArithmeticType</TT> is a complex number,
VigraFalseType otherwise
</td></tr>
<tr><td>
</table>
NumericTraits for the built-in types are defined in <b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
Namespace: vigra
*/
/** \page PromoteTraits template<> struct PromoteTraits<ArithmeticType1, ArithmeticType2>
Binary traits for promotion of arithmetic objects.
<b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
This traits class is used to determine the appropriate result type
of arithmetic expressions which depend of two arguments. Consider
the following function:
\code
template <class T>
T min(T t1, T t2)
{
return (t1 < t2) ? t1 : t2;
}
\endcode
This template is only applicable if both arguments have the same
type. However, sometimes we may want to use the function in cases
where the argument types differ. The we can deduce the approrpiate
return type by using <TT>PromoteTraits</TT>:
\code
template <class T1, class T2>
typename vigra::PromoteTraits<T1, T2>::Promote
min(T1 t1, T2 t2)
{
return (t1 < t2) ? vigra::PromoteTraits<T1, T2>::toPromote(t1) :
vigra::PromoteTraits<T1, T2>::toPromote(t2);
}
\endcode
In addition, the traits class provide static functions to cast the
arguments to the promote type. For example, if <TT>T1</TT> were <TT>int</TT> and
<TT>T2</TT> were <TT>float</TT>, the <TT>Promote</TT> type would be <TT>float</TT>.
The following members are defined in
<b> <TT>PromoteTraits<ArithmeticType1, ArithmeticType2></TT></b>:
<table>
<tr>
<td>
<b> <TT>typedef ... Promote;</TT></b>
</td><td>
promote type
</td></tr>
<tr><td>
<b> <TT>static Promote toPromote(ArithmeticType1 v);</TT></b>
<b> <TT>static Promote toPromote(ArithmeticType2 v);</TT></b>
</td><td>
convert to <TT>Promote</TT> type
</td></tr>
</table>
PromoteTraits for the built-in types are defined in <b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
Namespace: vigra
*/
/** \page SquareRootTraits template<> struct SquareRootTraits<ArithmeticType>
Unary traits for the calculation of the square root of arithmetic objects.
<b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
This traits class is used to determine appropriate argument and result types
for the function sqrt(). These traits are typically used like this:
\code
ArithmeticType t = ...;
SquareRootTraits<ArithmeticType>::SquareRootResult r =
sqrt((SquareRootTraits<ArithmeticType>::SquareRootArgument)t);
\endcode
This approach avoids 'ambigouos overload errors' when taking the square root of
an integer type. It also takes care of determining the proper result of the
sqrt() function of \ref vigra::FixedPoint and of the norm() function, when
it is implemented via sqrt(squaredNorm(x)).
The following members are defined in <b> <TT>SquareRootTraits<ArithmeticType></TT></b>:
<table>
<tr><td>
<b> <TT>typedef ArithmeticType Type;</TT></b>
</td><td>
the type itself
</td></tr>
<tr><td>
<b> <TT>typedef ... SquareRootArgument;</TT></b>
</td><td>
required argument type for srqt(), i.e. <tt>sqrt((SquareRootArgument)x)</tt>
</td></tr>
<tr><td>
<b> <TT>typedef ... SquareRootResult;</TT></b>
</td><td>
result of <tt>sqrt((SquareRootArgument)x)</tt>
</td></tr>
</table>
NormTraits for the built-in types are defined in <b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
Namespace: vigra
*/
/** \page NormTraits template<> struct NormTraits<ArithmeticType>
Unary traits for the calculation of the norm and squared norm of arithmetic objects.
<b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
This traits class is used to determine appropriate result types
for the functions norm() and squaredNorm(). These functions are always
declared like this (where <tt>ArithmeticType</tt> is a type thats supports a norm):
\code
NormTraits<ArithmeticType>::NormType norm(ArithmeticType const & t);
NormTraits<ArithmeticType>::SquaredNormType squaredNorm(ArithmeticType const & t);
\endcode
The following members are defined in <b> <TT>NormTraits<ArithmeticType></TT></b>:
<table>
<tr><td>
<b> <TT>typedef ArithmeticType Type;</TT></b>
</td><td>
the type itself
</td></tr>
<tr><td>
<b> <TT>typedef ... SquaredNormType;</TT></b>
</td><td>
result of <tt>squaredNorm(ArithmeticType)</tt>
</td></tr>
<tr><td>
<b> <TT>typedef ... NormType;</TT></b>
</td><td>
result of <tt>norm(ArithmeticType)</tt><br>
Usually equal to <tt>SquareRootTraits&lt;SquaredNormType&gt;::SquareRootResult
</td></tr>
</table>
NormTraits for the built-in types are defined in <b>\#include</b>
"<a href="numerictraits_8hxx-source.html">vigra/numerictraits.hxx</a>"
Namespace: vigra
*/
namespace vigra {
struct Error_NumericTraits_not_specialized_for_this_case { };
struct Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char { };
template<class A>
struct NumericTraits
{
typedef Error_NumericTraits_not_specialized_for_this_case Type;
typedef Error_NumericTraits_not_specialized_for_this_case Promote;
typedef Error_NumericTraits_not_specialized_for_this_case RealPromote;
typedef Error_NumericTraits_not_specialized_for_this_case ComplexPromote;
typedef Error_NumericTraits_not_specialized_for_this_case ValueType;
typedef Error_NumericTraits_not_specialized_for_this_case isScalar;
typedef Error_NumericTraits_not_specialized_for_this_case isIntegral;
typedef Error_NumericTraits_not_specialized_for_this_case isSigned;
typedef Error_NumericTraits_not_specialized_for_this_case isOrdered;
typedef Error_NumericTraits_not_specialized_for_this_case isComplex;
};
template<>
struct NumericTraits<char>
{
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char Type;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char Promote;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char RealPromote;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char ComplexPromote;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char ValueType;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char isScalar;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char isIntegral;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char isSigned;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char isOrdered;
typedef Error_NumericTraits_char_is_not_a_numeric_type__use_signed_char_or_unsigned_char isComplex;
};
#ifndef NO_BOOL
template<>
struct NumericTraits<bool>
{
typedef bool Type;
typedef int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraFalseType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static bool zero() { return false; }
static bool one() { return true; }
static bool nonZero() { return true; }
static bool min() { return false; }
static bool max() { return true; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = false , maxConst = true };
#else
static const bool minConst = false;
static const bool maxConst = true;
#endif
static Promote toPromote(bool v) { return v ? 1 : 0; }
static RealPromote toRealPromote(bool v) { return v ? 1.0 : 0.0; }
static bool fromPromote(Promote v) {
return (v == 0) ? false : true;
}
static bool fromRealPromote(RealPromote v) {
return (v == 0.0) ? false : true;
}
};
#endif
template<>
struct NumericTraits<signed char>
{
typedef signed char Type;
typedef int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static signed char zero() { return 0; }
static signed char one() { return 1; }
static signed char nonZero() { return 1; }
static signed char min() { return SCHAR_MIN; }
static signed char max() { return SCHAR_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = SCHAR_MIN, maxConst = SCHAR_MIN };
#else
static const signed char minConst = SCHAR_MIN;
static const signed char maxConst = SCHAR_MIN;
#endif
static Promote toPromote(signed char v) { return v; }
static RealPromote toRealPromote(signed char v) { return v; }
static signed char fromPromote(Promote v) {
return ((v < SCHAR_MIN) ? SCHAR_MIN : (v > SCHAR_MAX) ? SCHAR_MAX : v);
}
static signed char fromRealPromote(RealPromote v) {
return ((v < 0.0)
? ((v < (RealPromote)SCHAR_MIN)
? SCHAR_MIN
: static_cast<signed char>(v - 0.5))
: (v > (RealPromote)SCHAR_MAX)
? SCHAR_MAX
: static_cast<signed char>(v + 0.5));
}
};
template<>
struct NumericTraits<unsigned char>
{
typedef unsigned char Type;
typedef int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraFalseType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static unsigned char zero() { return 0; }
static unsigned char one() { return 1; }
static unsigned char nonZero() { return 1; }
static unsigned char min() { return 0; }
static unsigned char max() { return UCHAR_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = 0, maxConst = UCHAR_MAX };
#else
static const unsigned char minConst = 0;
static const unsigned char maxConst = UCHAR_MAX;
#endif
static Promote toPromote(unsigned char v) { return v; }
static RealPromote toRealPromote(unsigned char v) { return v; }
static unsigned char fromPromote(Promote const & v) {
return ((v < 0) ? 0 : (v > UCHAR_MAX) ? UCHAR_MAX : v);
}
static unsigned char fromRealPromote(RealPromote const & v) {
return ((v < 0.0)
? 0
: ((v > (RealPromote)UCHAR_MAX)
? UCHAR_MAX
: static_cast<unsigned char>(v + 0.5)));
}
};
template<>
struct NumericTraits<short int>
{
typedef short int Type;
typedef int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static short int zero() { return 0; }
static short int one() { return 1; }
static short int nonZero() { return 1; }
static short int min() { return SHRT_MIN; }
static short int max() { return SHRT_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = SHRT_MIN, maxConst = SHRT_MAX };
#else
static const short int minConst = SHRT_MIN;
static const short int maxConst = SHRT_MAX;
#endif
static Promote toPromote(short int v) { return v; }
static RealPromote toRealPromote(short int v) { return v; }
static short int fromPromote(Promote v) {
return ((v < SHRT_MIN) ? SHRT_MIN :
(v > SHRT_MAX) ? SHRT_MAX : v);
}
static short int fromRealPromote(RealPromote v) {
return ((v < 0.0)
? ((v < (RealPromote)SHRT_MIN)
? SHRT_MIN
: static_cast<short int>(v - 0.5))
: ((v > (RealPromote)SHRT_MAX)
? SHRT_MAX
: static_cast<short int>(v + 0.5)));
}
};
template<>
struct NumericTraits<short unsigned int>
{
typedef short unsigned int Type;
typedef int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraFalseType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static short unsigned int zero() { return 0; }
static short unsigned int one() { return 1; }
static short unsigned int nonZero() { return 1; }
static short unsigned int min() { return 0; }
static short unsigned int max() { return USHRT_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = 0, maxConst = USHRT_MAX };
#else
static const short unsigned int minConst = 0;
static const short unsigned int maxConst = USHRT_MAX;
#endif
static Promote toPromote(short unsigned int v) { return v; }
static RealPromote toRealPromote(short unsigned int v) { return v; }
static short unsigned int fromPromote(Promote v) {
return ((v < 0) ? 0 : (v > USHRT_MAX) ? USHRT_MAX : v);
}
static short unsigned int fromRealPromote(RealPromote v) {
return ((v < 0.0)
? 0
: ((v > (RealPromote)USHRT_MAX)
? USHRT_MAX
: static_cast<short unsigned int>(v + 0.5)));
}
};
template<>
struct NumericTraits<int>
{
typedef int Type;
typedef int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static int zero() { return 0; }
static int one() { return 1; }
static int nonZero() { return 1; }
static int min() { return INT_MIN; }
static int max() { return INT_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = INT_MIN, maxConst = INT_MAX };
#else
static const int minConst = INT_MIN;
static const int maxConst = INT_MAX;
#endif
static Promote toPromote(int v) { return v; }
static RealPromote toRealPromote(int v) { return v; }
static int fromPromote(Promote v) { return v; }
static int fromRealPromote(RealPromote v) {
return ((v < 0.0)
? ((v < (RealPromote)INT_MIN)
? INT_MIN
: static_cast<int>(v - 0.5))
: ((v > (RealPromote)INT_MAX)
? INT_MAX
: static_cast<int>(v + 0.5)));
}
};
template<>
struct NumericTraits<unsigned int>
{
typedef unsigned int Type;
typedef unsigned int Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraFalseType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static unsigned int zero() { return 0; }
static unsigned int one() { return 1; }
static unsigned int nonZero() { return 1; }
static unsigned int min() { return 0; }
static unsigned int max() { return UINT_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = 0, maxConst = UINT_MAX };
#else
static const unsigned int minConst = 0;
static const unsigned int maxConst = UINT_MAX;
#endif
static Promote toPromote(unsigned int v) { return v; }
static RealPromote toRealPromote(unsigned int v) { return v; }
static unsigned int fromPromote(Promote v) { return v; }
static unsigned int fromRealPromote(RealPromote v) {
return ((v < 0.0)
? 0
: ((v > (RealPromote)UINT_MAX)
? UINT_MAX
: static_cast<unsigned int>(v + 0.5)));
}
};
template<>
struct NumericTraits<long>
{
typedef long Type;
typedef long Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static long zero() { return 0; }
static long one() { return 1; }
static long nonZero() { return 1; }
static long min() { return LONG_MIN; }
static long max() { return LONG_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = LONG_MIN, maxConst = LONG_MAX };
#else
static const long minConst = LONG_MIN;
static const long maxConst = LONG_MAX;
#endif
static Promote toPromote(long v) { return v; }
static RealPromote toRealPromote(long v) { return v; }
static long fromPromote(Promote v) { return v; }
static long fromRealPromote(RealPromote v) {
return ((v < 0.0)
? ((v < (RealPromote)LONG_MIN)
? LONG_MIN
: static_cast<long>(v - 0.5))
: ((v > (RealPromote)LONG_MAX)
? LONG_MAX
: static_cast<long>(v + 0.5)));
}
};
template<>
struct NumericTraits<unsigned long>
{
typedef unsigned long Type;
typedef unsigned long Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraTrueType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraFalseType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static unsigned long zero() { return 0; }
static unsigned long one() { return 1; }
static unsigned long nonZero() { return 1; }
static unsigned long min() { return 0; }
static unsigned long max() { return ULONG_MAX; }
#ifdef NO_INLINE_STATIC_CONST_DEFINITION
enum { minConst = 0, maxConst = ULONG_MAX };
#else
static const unsigned long minConst = 0;
static const unsigned long maxConst = ULONG_MAX;
#endif
static Promote toPromote(unsigned long v) { return v; }
static RealPromote toRealPromote(unsigned long v) { return v; }
static unsigned long fromPromote(Promote v) { return v; }
static unsigned long fromRealPromote(RealPromote v) {
return ((v < 0.0)
? 0
: ((v > (RealPromote)ULONG_MAX)
? ULONG_MAX
: static_cast<unsigned long>(v + 0.5)));
}
};
template<>
struct NumericTraits<float>
{
typedef float Type;
typedef float Promote;
typedef float RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraFalseType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static float zero() { return 0.0; }
static float one() { return 1.0; }
static float nonZero() { return 1.0; }
static float epsilon() { return FLT_EPSILON; }
static float smallestPositive() { return FLT_MIN; }
static float min() { return -FLT_MAX; }
static float max() { return FLT_MAX; }
static Promote toPromote(float v) { return v; }
static RealPromote toRealPromote(float v) { return v; }
static float fromPromote(Promote v) { return v; }
static float fromRealPromote(RealPromote v) { return v; }
};
template<>
struct NumericTraits<double>
{
typedef double Type;
typedef double Promote;
typedef double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraFalseType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static double zero() { return 0.0; }
static double one() { return 1.0; }
static double nonZero() { return 1.0; }
static double epsilon() { return DBL_EPSILON; }
static double smallestPositive() { return DBL_MIN; }
static double min() { return -DBL_MAX; }
static double max() { return DBL_MAX; }
static Promote toPromote(double v) { return v; }
static RealPromote toRealPromote(double v) { return v; }
static double fromPromote(Promote v) { return v; }
static double fromRealPromote(RealPromote v) { return v; }
};
template<>
struct NumericTraits<long double>
{
typedef long double Type;
typedef long double Promote;
typedef long double RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef Type ValueType;
typedef VigraFalseType isIntegral;
typedef VigraTrueType isScalar;
typedef VigraTrueType isSigned;
typedef VigraTrueType isOrdered;
typedef VigraFalseType isComplex;
static long double zero() { return 0.0; }
static long double one() { return 1.0; }
static long double nonZero() { return 1.0; }
static long double epsilon() { return LDBL_EPSILON; }
static long double smallestPositive() { return LDBL_MIN; }
static long double min() { return -LDBL_MAX; }
static long double max() { return LDBL_MAX; }
static Promote toPromote(long double v) { return v; }
static RealPromote toRealPromote(long double v) { return v; }
static long double fromPromote(Promote v) { return v; }
static long double fromRealPromote(RealPromote v) { return v; }
};
#ifndef NO_PARTIAL_TEMPLATE_SPECIALIZATION
template<class T>
struct NumericTraits<std::complex<T> >
{
typedef std::complex<T> Type;
typedef std::complex<typename NumericTraits<T>::Promote> Promote;
typedef std::complex<typename NumericTraits<T>::RealPromote> RealPromote;
typedef std::complex<RealPromote> ComplexPromote;
typedef T ValueType;
typedef VigraFalseType isIntegral;
typedef VigraFalseType isScalar;
typedef typename NumericTraits<T>::isSigned isSigned;
typedef VigraFalseType isOrdered;
typedef VigraTrueType isComplex;
static Type zero() { return Type(0.0); }
static Type one() { return Type(1.0); }
static Type nonZero() { return one(); }
static Type epsilon() { return Type(NumericTraits<T>::epsilon()); }
static Type smallestPositive() { return Type(NumericTraits<T>::smallestPositive()); }
static Promote toPromote(Type const & v) { return v; }
static Type fromPromote(Promote const & v) { return v; }
static Type fromRealPromote(RealPromote v) { return Type(v); }
};
#endif // NO_PARTIAL_TEMPLATE_SPECIALIZATION
/********************************************************/
/* */
/* SquareRootTraits */
/* */
/********************************************************/
template<class T>
struct SquareRootTraits
{
typedef T Type;
typedef typename NumericTraits<T>::RealPromote SquareRootResult;
typedef typename NumericTraits<T>::RealPromote SquareRootArgument;
};
/********************************************************/
/* */
/* NormTraits */
/* */
/********************************************************/
struct Error_NormTraits_not_specialized_for_this_case { };
template<class T>
struct NormTraits
{
typedef T Type;
typedef typename T::SquaredNormType SquaredNormType;
typedef typename SquareRootTraits<SquaredNormType>::SquareRootResult NormType;
};
#define VIGRA_DEFINE_NORM_TRAITS(T) \
template <> struct NormTraits<T> { \
typedef T Type; \
typedef NumericTraits<T>::Promote SquaredNormType; \
typedef T NormType; \
};
VIGRA_DEFINE_NORM_TRAITS(bool)
VIGRA_DEFINE_NORM_TRAITS(signed char)
VIGRA_DEFINE_NORM_TRAITS(unsigned char)
VIGRA_DEFINE_NORM_TRAITS(short)
VIGRA_DEFINE_NORM_TRAITS(unsigned short)
VIGRA_DEFINE_NORM_TRAITS(int)
VIGRA_DEFINE_NORM_TRAITS(unsigned int)
VIGRA_DEFINE_NORM_TRAITS(long)
VIGRA_DEFINE_NORM_TRAITS(unsigned long)
VIGRA_DEFINE_NORM_TRAITS(float)
VIGRA_DEFINE_NORM_TRAITS(double)
VIGRA_DEFINE_NORM_TRAITS(long double)
#undef VIGRA_DEFINE_NORM_TRAITS
#ifndef NO_PARTIAL_TEMPLATE_SPECIALIZATION
template<class T>
struct NormTraits<std::complex<T> >
{
typedef std::complex<T> Type;
typedef typename NormTraits<T>::SquaredNormType SquaredNormType;
typedef typename SquareRootTraits<SquaredNormType>::SquareRootResult NormType;
};
#endif // NO_PARTIAL_TEMPLATE_SPECIALIZATION
/********************************************************/
/* */
/* PromoteTraits */
/* */
/********************************************************/
struct Error_PromoteTraits_not_specialized_for_this_case { };
template<class A, class B>
struct PromoteTraits
{
typedef Error_PromoteTraits_not_specialized_for_this_case Promote;
};
template<>
struct PromoteTraits<signed char, signed char>
{
typedef int Promote;
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<signed char, unsigned char>
{
typedef int Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<signed char, short int>
{
typedef int Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<signed char, short unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<signed char, int>
{
typedef int Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<signed char, unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<signed char, long>
{
typedef long Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<signed char, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<signed char, float>
{
typedef float Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<signed char, double>
{
typedef double Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<signed char, long double>
{
typedef long double Promote;
static Promote toPromote(signed char v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, signed char>
{
typedef int Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, unsigned char>
{
typedef int Promote;
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, short int>
{
typedef int Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, short unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, int>
{
typedef int Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, long>
{
typedef long Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, float>
{
typedef float Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, double>
{
typedef double Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<unsigned char, long double>
{
typedef long double Promote;
static Promote toPromote(unsigned char v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<short int, signed char>
{
typedef int Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<short int, unsigned char>
{
typedef int Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<short int, short int>
{
typedef int Promote;
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<short int, short unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<short int, int>
{
typedef int Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<short int, unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<short int, long>
{
typedef long Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<short int, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<short int, float>
{
typedef float Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<short int, double>
{
typedef double Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<short int, long double>
{
typedef long double Promote;
static Promote toPromote(short int v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, signed char>
{
typedef unsigned int Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, unsigned char>
{
typedef unsigned int Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, short int>
{
typedef unsigned int Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, short unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, int>
{
typedef unsigned int Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, long>
{
typedef long Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, float>
{
typedef float Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, double>
{
typedef double Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<short unsigned int, long double>
{
typedef long double Promote;
static Promote toPromote(short unsigned int v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<int, signed char>
{
typedef int Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<int, unsigned char>
{
typedef int Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<int, short int>
{
typedef int Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<int, short unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<int, int>
{
typedef int Promote;
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<int, unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<int, long>
{
typedef long Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<int, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<int, float>
{
typedef float Promote;
static Promote toPromote(int v) { return static_cast<Promote>(v); }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<int, double>
{
typedef double Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<int, long double>
{
typedef long double Promote;
static Promote toPromote(int v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, signed char>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, unsigned char>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, short int>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, short unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, int>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, unsigned int>
{
typedef unsigned int Promote;
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, long>
{
typedef long Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, float>
{
typedef float Promote;
static Promote toPromote(unsigned int v) { return static_cast<Promote>(v); }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, double>
{
typedef double Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<unsigned int, long double>
{
typedef long double Promote;
static Promote toPromote(unsigned int v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<long, signed char>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<long, unsigned char>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<long, short int>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<long, short unsigned int>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<long, int>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<long, unsigned int>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<long, long>
{
typedef long Promote;
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<long, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<long, float>
{
typedef float Promote;
static Promote toPromote(long v) { return static_cast<Promote>(v); }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<long, double>
{
typedef double Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<long, long double>
{
typedef long double Promote;
static Promote toPromote(long v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, signed char>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, unsigned char>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, short int>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, short unsigned int>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, int>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, unsigned int>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, long>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, unsigned long>
{
typedef unsigned long Promote;
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, float>
{
typedef float Promote;
static Promote toPromote(unsigned long v) { return static_cast<Promote>(v); }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, double>
{
typedef double Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<unsigned long, long double>
{
typedef long double Promote;
static Promote toPromote(unsigned long v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<float, signed char>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<float, unsigned char>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<float, short int>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<float, short unsigned int>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<float, int>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(int v) { return static_cast<Promote>(v); }
};
template<>
struct PromoteTraits<float, unsigned int>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(unsigned int v) { return static_cast<Promote>(v); }
};
template<>
struct PromoteTraits<float, long>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(long v) { return static_cast<Promote>(v); }
};
template<>
struct PromoteTraits<float, unsigned long>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(unsigned long v) { return static_cast<Promote>(v); }
};
template<>
struct PromoteTraits<float, float>
{
typedef float Promote;
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<float, double>
{
typedef double Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<float, long double>
{
typedef long double Promote;
static Promote toPromote(float v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<double, signed char>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<double, unsigned char>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<double, short int>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<double, short unsigned int>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<double, int>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<double, unsigned int>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<double, long>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<double, unsigned long>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<double, float>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<double, double>
{
typedef double Promote;
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<double, long double>
{
typedef long double Promote;
static Promote toPromote(double v) { return v; }
static Promote toPromote(long double v) { return v; }
};
template<>
struct PromoteTraits<long double, signed char>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(signed char v) { return v; }
};
template<>
struct PromoteTraits<long double, unsigned char>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(unsigned char v) { return v; }
};
template<>
struct PromoteTraits<long double, short int>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(short int v) { return v; }
};
template<>
struct PromoteTraits<long double, short unsigned int>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(short unsigned int v) { return v; }
};
template<>
struct PromoteTraits<long double, int>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(int v) { return v; }
};
template<>
struct PromoteTraits<long double, unsigned int>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(unsigned int v) { return v; }
};
template<>
struct PromoteTraits<long double, long>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(long v) { return v; }
};
template<>
struct PromoteTraits<long double, unsigned long>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(unsigned long v) { return v; }
};
template<>
struct PromoteTraits<long double, float>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(float v) { return v; }
};
template<>
struct PromoteTraits<long double, double>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
static Promote toPromote(double v) { return v; }
};
template<>
struct PromoteTraits<long double, long double>
{
typedef long double Promote;
static Promote toPromote(long double v) { return v; }
};
#ifndef NO_PARTIAL_TEMPLATE_SPECIALIZATION
template <class T>
struct PromoteTraits<std::complex<T>, std::complex<T> >
{
typedef std::complex<typename PromoteTraits<T, T>::Promote> Promote;
static Promote toPromote(std::complex<T> const & v) { return v; }
};
template <class T1, class T2>
struct PromoteTraits<std::complex<T1>, std::complex<T2> >
{
typedef std::complex<typename PromoteTraits<T1, T2>::Promote> Promote;
static Promote toPromote(std::complex<T1> const & v) { return v; }
static Promote toPromote(std::complex<T2> const & v) { return v; }
};
template <class T1, class T2>
struct PromoteTraits<std::complex<T1>, T2 >
{
typedef std::complex<typename PromoteTraits<T1, T2>::Promote> Promote;
static Promote toPromote(std::complex<T1> const & v) { return v; }
static Promote toPromote(T2 const & v) { return Promote(v); }
};
template <class T1, class T2>
struct PromoteTraits<T1, std::complex<T2> >
{
typedef std::complex<typename PromoteTraits<T1, T2>::Promote> Promote;
static Promote toPromote(T1 const & v) { return Promote(v); }
static Promote toPromote(std::complex<T2> const & v) { return v; }
};
#endif
namespace detail {
template <class T>
struct RequiresExplicitCast {
template <class U>
static U const & cast(U const & v)
{ return v; }
};
#if !defined(_MSC_VER) || _MSC_VER >= 1300
# define VIGRA_SPECIALIZED_CAST(type) \
template <> \
struct RequiresExplicitCast<type> { \
static type cast(float v) \
{ return NumericTraits<type>::fromRealPromote(v); } \
static type cast(double v) \
{ return NumericTraits<type>::fromRealPromote(v); } \
static type cast(type v) \
{ return v; } \
template <class U> \
static type cast(U v) \
{ return static_cast<type>(v); } \
\
};
#else
# define VIGRA_SPECIALIZED_CAST(type) \
template <> \
struct RequiresExplicitCast<type> { \
static type cast(float v) \
{ return NumericTraits<type>::fromRealPromote(v); } \
static type cast(double v) \
{ return NumericTraits<type>::fromRealPromote(v); } \
static type cast(signed char v) \
{ return v; } \
static type cast(unsigned char v) \
{ return v; } \
static type cast(short v) \
{ return v; } \
static type cast(unsigned short v) \
{ return v; } \
static type cast(int v) \
{ return v; } \
static type cast(unsigned int v) \
{ return v; } \
static type cast(long v) \
{ return v; } \
static type cast(unsigned long v) \
{ return v; } \
};
#endif
VIGRA_SPECIALIZED_CAST(signed char)
VIGRA_SPECIALIZED_CAST(unsigned char)
VIGRA_SPECIALIZED_CAST(short)
VIGRA_SPECIALIZED_CAST(unsigned short)
VIGRA_SPECIALIZED_CAST(int)
VIGRA_SPECIALIZED_CAST(unsigned int)
VIGRA_SPECIALIZED_CAST(long)
VIGRA_SPECIALIZED_CAST(unsigned long)
template <>
struct RequiresExplicitCast<float> {
template <class U>
static U cast(U v)
{ return v; }
};
template <>
struct RequiresExplicitCast<double> {
template <class U>
static U cast(U v)
{ return v; }
};
#undef VIGRA_SPECIALIZED_CAST
} // namespace detail
} // namespace vigra
#endif // VIGRA_NUMERICTRAITS_HXX