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view armadillo-2.4.4/include/armadillo_bits/eop_aux.hpp @ 0:8b6102e2a9b0
Armadillo Library
| author | maxzanoni76 <max.zanoni@eecs.qmul.ac.uk> |
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| date | Wed, 11 Apr 2012 09:27:06 +0100 |
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// Copyright (C) 2010-2011 NICTA (www.nicta.com.au) // Copyright (C) 2010-2011 Conrad Sanderson // // This file is part of the Armadillo C++ library. // It is provided without any warranty of fitness // for any purpose. You can redistribute this file // and/or modify it under the terms of the GNU // Lesser General Public License (LGPL) as published // by the Free Software Foundation, either version 3 // of the License or (at your option) any later version. // (see http://www.opensource.org/licenses for more info) //! \addtogroup eop_aux //! @{ template<typename eT> struct eop_aux_randu { arma_inline operator eT () { return eT(std::rand()) / eT(RAND_MAX); } }; template<typename T> struct eop_aux_randu< std::complex<T> > { arma_inline operator std::complex<T> () { return std::complex<T>( T(eop_aux_randu<T>()), T(eop_aux_randu<T>()) ); } }; template<typename eT> struct eop_aux_randn { // // rudimentary method, based on the central limit theorem // // http://en.wikipedia.org/wiki/Central_limit_theorem // inline // operator eT () const // { // const uword N = 12; // N must be >= 12 and an even number // const uword N2 = N/2; // // eT acc = eT(0); // // for(uword i=0; i<N2; ++i) // { // const eT tmp1 = eT(std::rand()) / eT(RAND_MAX); // const eT tmp2 = eT(std::rand()) / eT(RAND_MAX); // acc += tmp1+tmp2; // } // // return acc - eT(N2); // } // polar form of the Box-Muller transformation // http://en.wikipedia.org/wiki/Box-Muller_transformation // http://en.wikipedia.org/wiki/Marsaglia_polar_method inline operator eT () const { // make sure we are internally using at least floats typedef typename promote_type<eT,float>::result eTp; eTp tmp1; eTp tmp2; eTp w; do { tmp1 = eTp(2) * eTp(std::rand()) / eTp(RAND_MAX) - eTp(1); tmp2 = eTp(2) * eTp(std::rand()) / eTp(RAND_MAX) - eTp(1); w = tmp1*tmp1 + tmp2*tmp2; } while ( w >= eTp(1) ); return eT( tmp1 * std::sqrt( (eTp(-2) * std::log(w)) / w) ); } // other methods: // http://en.wikipedia.org/wiki/Ziggurat_algorithm // // Marsaglia and Tsang Ziggurat technique to transform from a uniform to a normal distribution. // G. Marsaglia, W.W. Tsang. // "Ziggurat method for generating random variables", // J. Statistical Software, vol 5, 2000. // http://www.jstatsoft.org/v05/i08/ }; template<typename T> struct eop_aux_randn< std::complex<T> > { arma_inline operator std::complex<T> () const { return std::complex<T>( T(eop_aux_randn<T>()), T(eop_aux_randn<T>()) ); } }; //! use of the SFINAE approach to work around compiler limitations //! http://en.wikipedia.org/wiki/SFINAE class eop_aux { public: template<typename eT> arma_inline static typename arma_integral_only<eT>::result acos (const eT x) { return eT( std::acos(double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result asin (const eT x) { return eT( std::asin(double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result atan (const eT x) { return eT( std::atan(double(x)) ); } template<typename eT> arma_inline static typename arma_float_only<eT>::result acos (const eT x) { return std::acos(x); } template<typename eT> arma_inline static typename arma_float_only<eT>::result asin (const eT x) { return std::asin(x); } template<typename eT> arma_inline static typename arma_float_only<eT>::result atan (const eT x) { return std::atan(x); } template<typename eT> arma_inline static typename arma_cx_only<eT>::result acos (const eT x) { return arma_acos(x); } template<typename eT> arma_inline static typename arma_cx_only<eT>::result asin (const eT x) { return arma_asin(x); } template<typename eT> arma_inline static typename arma_cx_only<eT>::result atan (const eT x) { return arma_atan(x); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result acosh (const eT x) { return eT( arma_acosh(double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result asinh (const eT x) { return eT( arma_asinh(double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result atanh (const eT x) { return eT( arma_atanh(double(x)) ); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result acosh (const eT x) { return arma_acosh(x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result asinh (const eT x) { return arma_asinh(x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result atanh (const eT x) { return arma_atanh(x); } template<typename eT> arma_inline static typename arma_not_cx<eT>::result conj(const eT x) { return x; } template<typename T> arma_inline static std::complex<T> conj(const std::complex<T>& x) { return std::conj(x); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result sqrt (const eT x) { return eT( std::sqrt (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result log10 (const eT x) { return eT( std::log10(double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result log (const eT x) { return eT( std::log (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result exp (const eT x) { return eT( std::exp (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result cos (const eT x) { return eT( std::cos (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result sin (const eT x) { return eT( std::sin (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result tan (const eT x) { return eT( std::tan (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result cosh (const eT x) { return eT( std::cosh (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result sinh (const eT x) { return eT( std::sinh (double(x)) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result tanh (const eT x) { return eT( std::tanh (double(x)) ); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result sqrt (const eT x) { return std::sqrt (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result log10 (const eT x) { return std::log10(x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result log (const eT x) { return std::log (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result exp (const eT x) { return std::exp (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result cos (const eT x) { return std::cos (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result sin (const eT x) { return std::sin (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result tan (const eT x) { return std::tan (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result cosh (const eT x) { return std::cosh (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result sinh (const eT x) { return std::sinh (x); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result tanh (const eT x) { return std::tanh (x); } template<typename eT> arma_inline static typename arma_unsigned_integral_only<eT>::result neg (const eT x) { return x; } template<typename eT> arma_inline static typename arma_signed_only<eT>::result neg (const eT x) { return -x; } template<typename eT> arma_inline static typename arma_integral_only<eT>::result floor(const eT x) { return x; } template<typename eT> arma_inline static typename arma_float_only<eT>::result floor(const eT x) { return std::floor(x); } template<typename eT> arma_inline static typename arma_cx_only<eT>::result floor(const eT& x) { return eT( std::floor(x.real()), std::floor(x.imag()) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result ceil(const eT x) { return x; } template<typename eT> arma_inline static typename arma_float_only<eT>::result ceil(const eT x) { return std::ceil(x); } template<typename eT> arma_inline static typename arma_cx_only<eT>::result ceil(const eT& x) { return eT( std::ceil(x.real()), std::ceil(x.imag()) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result log2 (const eT x) { return eT( std::log(double(x))/ double(0.69314718055994530942) ); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result log2 (const eT x) { typedef typename get_pod_type<eT>::result T; return std::log(x) / T(0.69314718055994530942); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result exp10 (const eT x) { return eT( std::pow(double(10), double(x)) ); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result exp10 (const eT x) { typedef typename get_pod_type<eT>::result T; return std::pow( T(10), x); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result exp2 (const eT x) { return eT( std::pow(double(2), double(x)) ); } template<typename eT> arma_inline static typename arma_float_or_cx_only<eT>::result exp2 (const eT x) { typedef typename get_pod_type<eT>::result T; return std::pow( T(2), x); } template<typename T1, typename T2> arma_inline static typename arma_float_or_cx_only<T1>::result pow(const T1 base, const T2 exponent) { return std::pow(base, exponent); } template<typename T1, typename T2> arma_inline static typename arma_integral_only<T1>::result pow(const T1 base, const T2 exponent) { return T1( std::pow( double(base), double(exponent) ) ); } template<typename eT> arma_inline static typename arma_integral_only<eT>::result direct_eps(const eT) { return eT(0); } template<typename eT> inline static typename arma_float_only<eT>::result direct_eps(const eT x) { //arma_extra_debug_sigprint(); // acording to IEEE Standard for Floating-Point Arithmetic (IEEE 754) // the mantissa length for double is 53 bits = std::numeric_limits<double>::digits // the mantissa length for float is 24 bits = std::numeric_limits<float >::digits //return std::pow( std::numeric_limits<eT>::radix, (std::floor(std::log10(std::abs(x))/std::log10(std::numeric_limits<eT>::radix))-(std::numeric_limits<eT>::digits-1)) ); const eT radix_eT = eT(std::numeric_limits<eT>::radix); const eT digits_m1_eT = eT(std::numeric_limits<eT>::digits - 1); // return std::pow( radix_eT, eT(std::floor(std::log10(std::abs(x))/std::log10(radix_eT)) - digits_m1_eT) ); return eop_aux::pow( radix_eT, eT(std::floor(std::log10(std::abs(x))/std::log10(radix_eT)) - digits_m1_eT) ); } template<typename T> inline static typename arma_float_only<T>::result direct_eps(const std::complex<T> x) { //arma_extra_debug_sigprint(); //return std::pow( std::numeric_limits<T>::radix, (std::floor(std::log10(std::abs(x))/std::log10(std::numeric_limits<T>::radix))-(std::numeric_limits<T>::digits-1)) ); const T radix_T = T(std::numeric_limits<T>::radix); const T digits_m1_T = T(std::numeric_limits<T>::digits - 1); return std::pow( radix_T, T(std::floor(std::log10(std::abs(x))/std::log10(radix_T)) - digits_m1_T) ); } //! work around a bug in GCC 4.4 template<typename eT> arma_inline static typename arma_unsigned_integral_only<eT>::result arma_abs(const eT x) { return x; } template<typename eT> arma_inline static typename arma_signed_integral_only<eT>::result arma_abs(const eT x) { return std::abs(x); } template<typename eT> arma_inline static typename arma_float_only<eT>::result arma_abs(const eT x) { return std::abs(x); } template<typename T> arma_inline static typename arma_float_only<T>::result arma_abs(const std::complex<T> x) { return std::abs(x); } }; //! @}