lib_ex_pour_HZpp/muparser-2.2.5_GR/include/muParserTemplateMagic.h

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#ifndef MU_PARSER_TEMPLATE_MAGIC_H
#define MU_PARSER_TEMPLATE_MAGIC_H
#include <cmath>
#include "muParserError.h"
namespace mu
{
//-----------------------------------------------------------------------------------------------
//
// Compile time type detection
//
//-----------------------------------------------------------------------------------------------
/** \brief A class singling out integer types at compile time using
template meta programming.
*/
template<typename T>
struct TypeInfo
{
static bool IsInteger() { return false; }
};
template<>
struct TypeInfo<char>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<short>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<int>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<long>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<unsigned char>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<unsigned short>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<unsigned int>
{
static bool IsInteger() { return true; }
};
template<>
struct TypeInfo<unsigned long>
{
static bool IsInteger() { return true; }
};
//-----------------------------------------------------------------------------------------------
//
// Standard math functions with dummy overload for integer types
//
//-----------------------------------------------------------------------------------------------
/** \brief A template class for providing wrappers for essential math functions.
This template is spezialized for several types in order to provide a unified interface
for parser internal math function calls regardless of the data type.
*/
template<typename T>
struct MathImpl
{
static T Sin(T v) { return sin(v); }
static T Cos(T v) { return cos(v); }
static T Tan(T v) { return tan(v); }
static T ASin(T v) { return asin(v); }
static T ACos(T v) { return acos(v); }
static T ATan(T v) { return atan(v); }
static T ATan2(T v1, T v2) { return atan2(v1, v2); }
static T Sinh(T v) { return sinh(v); }
static T Cosh(T v) { return cosh(v); }
static T Tanh(T v) { return tanh(v); }
static T ASinh(T v) { return log(v + sqrt(v * v + 1)); }
static T ACosh(T v) { return log(v + sqrt(v * v - 1)); }
static T ATanh(T v) { return ((T)0.5 * log((1 + v) / (1 - v))); }
static T Log(T v) { return log(v); }
static T Log2(T v) { return log(v)/log((T)2); } // Logarithm base 2
static T Log10(T v) { return log10(v); } // Logarithm base 10
static T Exp(T v) { return exp(v); }
static T Abs(T v) { return (v>=0) ? v : -v; }
static T Sqrt(T v) { return sqrt(v); }
static T Rint(T v) { return floor(v + (T)0.5); }
static T Sign(T v) { return (T)((v<0) ? -1 : (v>0) ? 1 : 0); }
static T Pow(T v1, T v2) { return std::pow(v1, v2); }
};
}
#endif