mirror of
https://github.com/saitohirga/WSJT-X.git
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785 lines
24 KiB
C++
785 lines
24 KiB
C++
// test file for quaternion.hpp
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// (C) Copyright Hubert Holin 2001.
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// Distributed under the Boost Software License, Version 1.0. (See
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// accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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#include <iomanip>
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#include <boost/mpl/list.hpp>
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#include <boost/test/unit_test.hpp>
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#include <boost/test/unit_test_log.hpp>
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#include <boost/math/quaternion.hpp>
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template<typename T>
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struct string_type_name;
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#define DEFINE_TYPE_NAME(Type) \
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template<> struct string_type_name<Type> \
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{ \
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static char const * _() \
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{ \
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return #Type; \
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} \
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}
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DEFINE_TYPE_NAME(float);
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DEFINE_TYPE_NAME(double);
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DEFINE_TYPE_NAME(long double);
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#ifndef BOOST_MATH_NO_LONG_DOUBLE_MATH_FUNCTIONS
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typedef boost::mpl::list<float,double,long double> test_types;
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#else
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typedef boost::mpl::list<float,double> test_types;
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#endif
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// Apple GCC 4.0 uses the "double double" format for its long double,
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// which means that epsilon is VERY small but useless for
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// comparisons. So, don't do those comparisons.
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#if (defined(__APPLE_CC__) && defined(__GNUC__) && __GNUC__ == 4) || defined(BOOST_MATH_NO_LONG_DOUBLE_MATH_FUNCTIONS)
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typedef boost::mpl::list<float,double> near_eps_test_types;
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#else
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typedef boost::mpl::list<float,double,long double> near_eps_test_types;
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#endif
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#if BOOST_WORKAROUND(__GNUC__, < 3)
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// gcc 2.x ignores function scope using declarations,
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// put them in the scope of the enclosing namespace instead:
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using ::std::sqrt;
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using ::std::atan;
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using ::std::log;
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using ::std::exp;
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using ::std::cos;
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using ::std::sin;
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using ::std::tan;
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using ::std::cosh;
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using ::std::sinh;
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using ::std::tanh;
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using ::std::numeric_limits;
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using ::boost::math::abs;
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#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
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#ifdef BOOST_NO_STDC_NAMESPACE
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using ::sqrt;
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using ::atan;
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using ::log;
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using ::exp;
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using ::cos;
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using ::sin;
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using ::tan;
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using ::cosh;
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using ::sinh;
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using ::tanh;
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#endif /* BOOST_NO_STDC_NAMESPACE */
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#ifdef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP
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using ::boost::math::real;
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using ::boost::math::unreal;
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using ::boost::math::sup;
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using ::boost::math::l1;
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using ::boost::math::abs;
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using ::boost::math::norm;
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using ::boost::math::conj;
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using ::boost::math::exp;
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using ::boost::math::pow;
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using ::boost::math::cos;
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using ::boost::math::sin;
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using ::boost::math::tan;
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using ::boost::math::cosh;
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using ::boost::math::sinh;
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using ::boost::math::tanh;
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using ::boost::math::sinc_pi;
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using ::boost::math::sinhc_pi;
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#endif /* BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP */
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// Provide standard floating point abs() overloads if older Microsoft
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// library is used with _MSC_EXTENSIONS defined. This code also works
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// for the Intel compiler using the Microsoft library.
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#if defined(_MSC_EXTENSIONS) && BOOST_WORKAROUND(_MSC_VER, < 1310)
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#if !((__INTEL__ && _WIN32) && BOOST_WORKAROUND(__MWERKS__, >= 0x3201))
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inline float abs(float v)
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{
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return(fabs(v));
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}
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inline double abs(double v)
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{
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return(fabs(v));
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}
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inline long double abs(long double v)
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{
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return(fabs(v));
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}
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#endif /* !((__INTEL__ && _WIN32) && BOOST_WORKAROUND(__MWERKS__, >= 0x3201)) */
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#endif /* defined(_MSC_EXTENSIONS) && BOOST_WORKAROUND(_MSC_VER, < 1310) */
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// explicit (if ludicrous) instanciation
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#if !BOOST_WORKAROUND(__GNUC__, < 3)
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template class ::boost::math::quaternion<int>;
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#else
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// gcc doesn't like the absolutely-qualified namespace
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template class boost::math::quaternion<int>;
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#endif /* !BOOST_WORKAROUND(__GNUC__) */
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void quaternion_manual_test()
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{
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// tests for evaluation by humans
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// using default constructor
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::boost::math::quaternion<float> q0;
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::boost::math::quaternion<float> qa[2];
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// using constructor "H seen as R^4"
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::boost::math::quaternion<double> q1(1,2,3,4);
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::std::complex<float> c0(5,6);
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// using constructor "H seen as C^2"
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::boost::math::quaternion<float> q2(c0);
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// using UNtemplated copy constructor
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::boost::math::quaternion<float> q3(q2);
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// using templated copy constructor
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::boost::math::quaternion<long double> q4(q3);
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// using UNtemplated assignment operator
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q3 = q0;
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qa[0] = q0;
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// using templated assignment operator
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q4 = q0;
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qa[1] = q1;
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float f0(7);
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// using converting assignment operator
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q2 = f0;
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// using converting assignment operator
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q3 = c0;
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// using += (const T &)
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q2 += f0;
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// using += (const ::std::complex<T> &)
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q2 += c0;
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// using += (const quaternion<X> &)
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q2 += q3;
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// using -= (const T &)
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q3 -= f0;
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// using -= (const ::std::complex<T> &)
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q3 -= c0;
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// using -= (const quaternion<X> &)
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q3 -= q2;
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double d0(8);
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::std::complex<double> c1(9,10);
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// using *= (const T &)
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q1 *= d0;
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// using *= (const ::std::complex<T> &)
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q1 *= c1;
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// using *= (const quaternion<X> &)
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q1 *= q1;
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long double l0(11);
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::std::complex<long double> c2(12,13);
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// using /= (const T &)
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q4 /= l0;
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// using /= (const ::std::complex<T> &)
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q4 /= c2;
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// using /= (const quaternion<X> &)
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q4 /= q1;
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// using + (const T &, const quaternion<T> &)
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::boost::math::quaternion<float> q5 = f0+q2;
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// using + (const quaternion<T> &, const T &)
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::boost::math::quaternion<float> q6 = q2+f0;
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// using + (const ::std::complex<T> &, const quaternion<T> &)
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::boost::math::quaternion<float> q7 = c0+q2;
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// using + (const quaternion<T> &, const ::std::complex<T> &)
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::boost::math::quaternion<float> q8 = q2+c0;
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// using + (const quaternion<T> &,const quaternion<T> &)
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::boost::math::quaternion<float> q9 = q2+q3;
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// using - (const T &, const quaternion<T> &)
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q5 = f0-q2;
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// using - (const quaternion<T> &, const T &)
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q6 = q2-f0;
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// using - (const ::std::complex<T> &, const quaternion<T> &)
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q7 = c0-q2;
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// using - (const quaternion<T> &, const ::std::complex<T> &)
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q8 = q2-c0;
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// using - (const quaternion<T> &,const quaternion<T> &)
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q9 = q2-q3;
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// using * (const T &, const quaternion<T> &)
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q5 = f0*q2;
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// using * (const quaternion<T> &, const T &)
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q6 = q2*f0;
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// using * (const ::std::complex<T> &, const quaternion<T> &)
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q7 = c0*q2;
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// using * (const quaternion<T> &, const ::std::complex<T> &)
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q8 = q2*c0;
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// using * (const quaternion<T> &,const quaternion<T> &)
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q9 = q2*q3;
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// using / (const T &, const quaternion<T> &)
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q5 = f0/q2;
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// using / (const quaternion<T> &, const T &)
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q6 = q2/f0;
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// using / (const ::std::complex<T> &, const quaternion<T> &)
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q7 = c0/q2;
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// using / (const quaternion<T> &, const ::std::complex<T> &)
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q8 = q2/c0;
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// using / (const quaternion<T> &,const quaternion<T> &)
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q9 = q2/q3;
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// using + (const quaternion<T> &)
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q2 = +q0;
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// using - (const quaternion<T> &)
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q2 = -q3;
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// using == (const T &, const quaternion<T> &)
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f0 == q2;
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// using == (const quaternion<T> &, const T &)
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q2 == f0;
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// using == (const ::std::complex<T> &, const quaternion<T> &)
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c0 == q2;
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// using == (const quaternion<T> &, const ::std::complex<T> &)
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q2 == c0;
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// using == (const quaternion<T> &,const quaternion<T> &)
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q2 == q3;
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// using != (const T &, const quaternion<T> &)
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f0 != q2;
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// using != (const quaternion<T> &, const T &)
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q2 != f0;
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// using != (const ::std::complex<T> &, const quaternion<T> &)
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c0 != q2;
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// using != (const quaternion<T> &, const ::std::complex<T> &)
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q2 != c0;
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// using != (const quaternion<T> &,const quaternion<T> &)
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q2 != q3;
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BOOST_TEST_MESSAGE("Please input a quaternion...");
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#ifdef BOOST_INTERACTIVE_TEST_INPUT_ITERATOR
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::std::cin >> q0;
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if (::std::cin.fail())
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{
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BOOST_TEST_MESSAGE("You have entered nonsense!");
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}
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else
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{
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BOOST_TEST_MESSAGE("You have entered the quaternion "<< q0 << " .");
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}
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#else
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::std::istringstream bogus("(1,2,3,4)");
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bogus >> q0;
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BOOST_TEST_MESSAGE("You have entered the quaternion " << q0 << " .");
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#endif
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BOOST_TEST_MESSAGE("For this quaternion:");
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BOOST_TEST_MESSAGE( "the value of the real part is "
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<< real(q0));
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BOOST_TEST_MESSAGE( "the value of the unreal part is "
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<< unreal(q0));
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BOOST_TEST_MESSAGE( "the value of the sup norm is "
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<< sup(q0));
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BOOST_TEST_MESSAGE( "the value of the l1 norm is "
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<< l1(q0));
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BOOST_TEST_MESSAGE( "the value of the magnitude (euclidian norm) is "
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<< abs(q0));
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BOOST_TEST_MESSAGE( "the value of the (Cayley) norm is "
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<< norm(q0));
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BOOST_TEST_MESSAGE( "the value of the conjugate is "
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<< conj(q0));
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BOOST_TEST_MESSAGE( "the value of the exponential is "
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<< exp(q0));
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BOOST_TEST_MESSAGE( "the value of the cube is "
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<< pow(q0,3));
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BOOST_TEST_MESSAGE( "the value of the cosinus is "
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<< cos(q0));
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BOOST_TEST_MESSAGE( "the value of the sinus is "
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<< sin(q0));
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BOOST_TEST_MESSAGE( "the value of the tangent is "
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<< tan(q0));
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BOOST_TEST_MESSAGE( "the value of the hyperbolic cosinus is "
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<< cosh(q0));
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BOOST_TEST_MESSAGE( "the value of the hyperbolic sinus is "
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<< sinh(q0));
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BOOST_TEST_MESSAGE( "the value of the hyperbolic tangent is "
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<< tanh(q0));
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#ifdef BOOST_NO_TEMPLATE_TEMPLATES
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BOOST_TEST_MESSAGE("no template templates, can't compute cardinal functions");
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#else /* BOOST_NO_TEMPLATE_TEMPLATES */
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BOOST_TEST_MESSAGE( "the value of "
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<< "the Sinus Cardinal (of index pi) is "
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<< sinc_pi(q0));
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BOOST_TEST_MESSAGE( "the value of "
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<< "the Hyperbolic Sinus Cardinal (of index pi) is "
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<< sinhc_pi(q0));
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#endif /* BOOST_NO_TEMPLATE_TEMPLATES */
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BOOST_TEST_MESSAGE(" ");
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float rho = ::std::sqrt(8.0f);
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float theta = ::std::atan(1.0f);
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float phi1 = ::std::atan(1.0f);
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float phi2 = ::std::atan(1.0f);
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BOOST_TEST_MESSAGE( "The value of the quaternion represented "
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<< "in spherical form by "
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<< "rho = " << rho << " , theta = " << theta
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<< " , phi1 = " << phi1 << " , phi2 = " << phi2
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<< " is "
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<< ::boost::math::spherical(rho, theta, phi1, phi2));
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float alpha = ::std::atan(1.0f);
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BOOST_TEST_MESSAGE( "The value of the quaternion represented "
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<< "in semipolar form by "
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<< "rho = " << rho << " , alpha = " << alpha
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<< " , phi1 = " << phi1 << " , phi2 = " << phi2
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<< " is "
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<< ::boost::math::semipolar(rho, alpha, phi1, phi2));
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float rho1 = 1;
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float rho2 = 2;
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float theta1 = 0;
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float theta2 = ::std::atan(1.0f)*2;
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BOOST_TEST_MESSAGE( "The value of the quaternion represented "
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<< "in multipolar form by "
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<< "rho1 = " << rho1 << " , theta1 = " << theta1
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<< " , rho2 = " << rho2 << " , theta2 = " << theta2
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<< " is "
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<< ::boost::math::multipolar(rho1, theta1, rho2, theta2));
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float t = 5;
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float radius = ::std::sqrt(2.0f);
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float longitude = ::std::atan(1.0f);
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float lattitude = ::std::atan(::std::sqrt(3.0f));
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BOOST_TEST_MESSAGE( "The value of the quaternion represented "
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<< "in cylindrospherical form by "
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<< "t = " << t << " , radius = " << radius
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<< " , longitude = " << longitude << " , latitude = "
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<< lattitude << " is "
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<< ::boost::math::cylindrospherical(t, radius,
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longitude, lattitude));
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float r = ::std::sqrt(2.0f);
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float angle = ::std::atan(1.0f);
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float h1 = 3;
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float h2 = 4;
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BOOST_TEST_MESSAGE( "The value of the quaternion represented "
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<< "in cylindrical form by "
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<< "r = " << r << " , angle = " << angle
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<< " , h1 = " << h1 << " , h2 = " << h2
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<< " is "
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<< ::boost::math::cylindrical(r, angle, h1, h2));
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double real_1(1);
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::std::complex<double> complex_1(1);
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::std::complex<double> complex_i(0,1);
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::boost::math::quaternion<double> quaternion_1(1);
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::boost::math::quaternion<double> quaternion_i(0,1);
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::boost::math::quaternion<double> quaternion_j(0,0,1);
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::boost::math::quaternion<double> quaternion_k(0,0,0,1);
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BOOST_TEST_MESSAGE(" ");
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BOOST_TEST_MESSAGE( "Real 1: " << real_1 << " ; "
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<< "Complex 1: " << complex_1 << " ; "
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<< "Quaternion 1: " << quaternion_1 << " .");
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BOOST_TEST_MESSAGE( "Complex i: " << complex_i << " ; "
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<< "Quaternion i: " << quaternion_i << " .");
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BOOST_TEST_MESSAGE( "Quaternion j: " << quaternion_j << " .");
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BOOST_TEST_MESSAGE( "Quaternion k: " << quaternion_k << " .");
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BOOST_TEST_MESSAGE(" ");
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BOOST_TEST_MESSAGE( "i*i: " << quaternion_i*quaternion_i << " ; "
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<< "j*j: " << quaternion_j*quaternion_j << " ; "
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<< "k*k: " << quaternion_k*quaternion_k << " .");
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BOOST_TEST_MESSAGE( "i*j: " << quaternion_i*quaternion_j << " ; "
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<< "j*i: " << quaternion_j*quaternion_i << " .");
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BOOST_TEST_MESSAGE( "j*k: " << quaternion_j*quaternion_k << " ; "
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<< "k*j: " << quaternion_k*quaternion_j << " .");
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BOOST_TEST_MESSAGE( "k*i: " << quaternion_k*quaternion_i << " ; "
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<< "i*k: " << quaternion_i*quaternion_k << " .");
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BOOST_TEST_MESSAGE(" ");
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}
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BOOST_TEST_CASE_TEMPLATE_FUNCTION(multiplication_test, T)
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{
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#if BOOST_WORKAROUND(__GNUC__, < 3)
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#else /* BOOST_WORKAROUND(__GNUC__, < 3) */
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using ::std::numeric_limits;
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using ::boost::math::abs;
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#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
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BOOST_TEST_MESSAGE("Testing multiplication for "
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<< string_type_name<T>::_() << ".");
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BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
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(abs(::boost::math::quaternion<T>(1,0,0,0)*
|
|
::boost::math::quaternion<T>(1,0,0,0)-static_cast<T>(1)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,1,0,0)*
|
|
::boost::math::quaternion<T>(0,1,0,0)+static_cast<T>(1)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,0,1,0)*
|
|
::boost::math::quaternion<T>(0,0,1,0)+static_cast<T>(1)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,0,0,1)*
|
|
::boost::math::quaternion<T>(0,0,0,1)+static_cast<T>(1)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,1,0,0)*
|
|
::boost::math::quaternion<T>(0,0,1,0)-
|
|
::boost::math::quaternion<T>(0,0,0,1)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,0,1,0)*
|
|
::boost::math::quaternion<T>(0,1,0,0)+
|
|
::boost::math::quaternion<T>(0,0,0,1)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,0,1,0)*
|
|
::boost::math::quaternion<T>(0,0,0,1)-
|
|
::boost::math::quaternion<T>(0,1,0,0)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,0,0,1)*
|
|
::boost::math::quaternion<T>(0,0,1,0)+
|
|
::boost::math::quaternion<T>(0,1,0,0)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,0,0,1)*
|
|
::boost::math::quaternion<T>(0,1,0,0)-
|
|
::boost::math::quaternion<T>(0,0,1,0)))
|
|
(numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_REQUIRE_PREDICATE(::std::less_equal<T>(),
|
|
(abs(::boost::math::quaternion<T>(0,1,0,0)*
|
|
::boost::math::quaternion<T>(0,0,0,1)+
|
|
::boost::math::quaternion<T>(0,0,1,0)))
|
|
(numeric_limits<T>::epsilon()));
|
|
}
|
|
|
|
|
|
BOOST_TEST_CASE_TEMPLATE_FUNCTION(exp_test, T)
|
|
{
|
|
#if BOOST_WORKAROUND(__GNUC__, < 3)
|
|
#else /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
using ::std::numeric_limits;
|
|
|
|
using ::std::atan;
|
|
|
|
using ::boost::math::abs;
|
|
#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
|
|
|
|
BOOST_TEST_MESSAGE("Testing exp for "
|
|
<< string_type_name<T>::_() << ".");
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(exp(::boost::math::quaternion<T>
|
|
(0,4*atan(static_cast<T>(1)),0,0))+static_cast<T>(1)))
|
|
(2*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(exp(::boost::math::quaternion<T>
|
|
(0,0,4*atan(static_cast<T>(1)),0))+static_cast<T>(1)))
|
|
(2*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(exp(::boost::math::quaternion<T>
|
|
(0,0,0,4*atan(static_cast<T>(1))))+static_cast<T>(1)))
|
|
(2*numeric_limits<T>::epsilon()));
|
|
}
|
|
|
|
|
|
BOOST_TEST_CASE_TEMPLATE_FUNCTION(cos_test, T)
|
|
{
|
|
#if BOOST_WORKAROUND(__GNUC__, < 3)
|
|
#else /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
using ::std::numeric_limits;
|
|
|
|
using ::std::log;
|
|
|
|
using ::boost::math::abs;
|
|
#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
|
|
|
|
BOOST_TEST_MESSAGE("Testing cos for "
|
|
<< string_type_name<T>::_() << ".");
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(static_cast<T>(4)*cos(::boost::math::quaternion<T>
|
|
(0,log(static_cast<T>(2)),0,0))-static_cast<T>(5)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(static_cast<T>(4)*cos(::boost::math::quaternion<T>
|
|
(0,0,log(static_cast<T>(2)),0))-static_cast<T>(5)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(static_cast<T>(4)*cos(::boost::math::quaternion<T>
|
|
(0,0,0,log(static_cast<T>(2))))-static_cast<T>(5)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
}
|
|
|
|
|
|
BOOST_TEST_CASE_TEMPLATE_FUNCTION(sin_test, T)
|
|
{
|
|
#if BOOST_WORKAROUND(__GNUC__, < 3)
|
|
#else /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
using ::std::numeric_limits;
|
|
|
|
using ::std::log;
|
|
|
|
using ::boost::math::abs;
|
|
#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
|
|
|
|
BOOST_TEST_MESSAGE("Testing sin for "
|
|
<< string_type_name<T>::_() << ".");
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(static_cast<T>(4)*sin(::boost::math::quaternion<T>
|
|
(0,log(static_cast<T>(2)),0,0))
|
|
-::boost::math::quaternion<T>(0,3,0,0)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(static_cast<T>(4)*sin(::boost::math::quaternion<T>
|
|
(0,0,log(static_cast<T>(2)),0))
|
|
-::boost::math::quaternion<T>(0,0,3,0)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(static_cast<T>(4)*sin(::boost::math::quaternion<T>
|
|
(0,0,0,log(static_cast<T>(2))))
|
|
-::boost::math::quaternion<T>(0,0,0,3)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
}
|
|
|
|
|
|
BOOST_TEST_CASE_TEMPLATE_FUNCTION(cosh_test, T)
|
|
{
|
|
#if BOOST_WORKAROUND(__GNUC__, < 3)
|
|
#else /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
using ::std::numeric_limits;
|
|
|
|
using ::std::atan;
|
|
|
|
using ::boost::math::abs;
|
|
#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
|
|
|
|
BOOST_TEST_MESSAGE("Testing cosh for "
|
|
<< string_type_name<T>::_() << ".");
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(cosh(::boost::math::quaternion<T>
|
|
(0,4*atan(static_cast<T>(1)),0,0))
|
|
+static_cast<T>(1)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(cosh(::boost::math::quaternion<T>
|
|
(0,0,4*atan(static_cast<T>(1)),0))
|
|
+static_cast<T>(1)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(cosh(::boost::math::quaternion<T>
|
|
(0,0,0,4*atan(static_cast<T>(1))))
|
|
+static_cast<T>(1)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
}
|
|
|
|
|
|
BOOST_TEST_CASE_TEMPLATE_FUNCTION(sinh_test, T)
|
|
{
|
|
#if BOOST_WORKAROUND(__GNUC__, < 3)
|
|
#else /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
using ::std::numeric_limits;
|
|
|
|
using ::std::atan;
|
|
|
|
using ::boost::math::abs;
|
|
#endif /* BOOST_WORKAROUND(__GNUC__, < 3) */
|
|
|
|
|
|
BOOST_TEST_MESSAGE("Testing sinh for "
|
|
<< string_type_name<T>::_() << ".");
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(sinh(::boost::math::quaternion<T>
|
|
(0,2*atan(static_cast<T>(1)),0,0))
|
|
-::boost::math::quaternion<T>(0,1,0,0)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(sinh(::boost::math::quaternion<T>
|
|
(0,0,2*atan(static_cast<T>(1)),0))
|
|
-::boost::math::quaternion<T>(0,0,1,0)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
|
|
BOOST_CHECK_PREDICATE(::std::less_equal<T>(),
|
|
(abs(sinh(::boost::math::quaternion<T>
|
|
(0,0,0,2*atan(static_cast<T>(1))))
|
|
-::boost::math::quaternion<T>(0,0,0,1)))
|
|
(4*numeric_limits<T>::epsilon()));
|
|
}
|
|
|
|
|
|
boost::unit_test::test_suite * init_unit_test_suite(int, char *[])
|
|
{
|
|
::boost::unit_test::unit_test_log.
|
|
set_threshold_level(::boost::unit_test::log_messages);
|
|
|
|
boost::unit_test::test_suite * test =
|
|
BOOST_TEST_SUITE("quaternion_test");
|
|
|
|
BOOST_TEST_MESSAGE("Results of quaternion test.");
|
|
BOOST_TEST_MESSAGE(" ");
|
|
BOOST_TEST_MESSAGE("(C) Copyright Hubert Holin 2003-2005.");
|
|
BOOST_TEST_MESSAGE("Distributed under the Boost Software License, Version 1.0.");
|
|
BOOST_TEST_MESSAGE("(See accompanying file LICENSE_1_0.txt or copy at");
|
|
BOOST_TEST_MESSAGE("http://www.boost.org/LICENSE_1_0.txt)");
|
|
BOOST_TEST_MESSAGE(" ");
|
|
|
|
#define BOOST_QUATERNION_COMMON_GENERATOR(fct) \
|
|
test->add(BOOST_TEST_CASE_TEMPLATE(fct##_test, test_types));
|
|
|
|
#define BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS(fct) \
|
|
test->add(BOOST_TEST_CASE_TEMPLATE(fct##_test, near_eps_test_types));
|
|
|
|
|
|
#define BOOST_QUATERNION_TEST \
|
|
BOOST_QUATERNION_COMMON_GENERATOR(multiplication) \
|
|
BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS(exp) \
|
|
BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS(cos) \
|
|
BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS(sin) \
|
|
BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS(cosh) \
|
|
BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS(sinh)
|
|
|
|
|
|
BOOST_QUATERNION_TEST
|
|
|
|
|
|
#undef BOOST_QUATERNION_TEST
|
|
|
|
#undef BOOST_QUATERNION_COMMON_GENERATOR
|
|
#undef BOOST_QUATERNION_COMMON_GENERATOR_NEAR_EPS
|
|
|
|
#ifdef BOOST_QUATERNION_TEST_VERBOSE
|
|
|
|
test->add(BOOST_TEST_CASE(quaternion_manual_test));
|
|
|
|
#endif /* BOOST_QUATERNION_TEST_VERBOSE */
|
|
|
|
return test;
|
|
}
|
|
|
|
#undef DEFINE_TYPE_NAME
|