/*============================================================================= Copyright (c) 2011-2014 Bolero MURAKAMI https://github.com/bolero-MURAKAMI/Sprout Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) =============================================================================*/ #ifndef SPROUT_COMPLEX_EXP_HPP #define SPROUT_COMPLEX_EXP_HPP #include #include #include #include #include #include #include #include #include #include namespace sprout { // // exp // // G.6.3.1 The cexp functions // cexp(conj(z)) = conj(cexp(z)). // cexp(}0 + i0) returns 1 + i0. // cexp(x + i‡) returns NaN + iNaN and raises the eeinvalidff floating-point exception, for finite x. // cexp(x + iNaN) returns NaN + iNaN and optionally raises the eeinvalidff floating-point exception, for finite x. // cexp(+‡+ i0) returns +‡+ i0. // cexp(-‡+ iy) returns +0 cis(y), for finite y. // cexp(+‡+ iy) returns +‡ cis(y), for finite nonzero y. // cexp(-‡+ i‡) returns }0 } i0 (where the signs of the real and imaginary parts of the result are unspecified). // cexp(+‡+ i‡) returns }‡+ iNaN and raises the eeinvalidff floating-point exception (where the sign of the real part of the result is unspecified). // cexp(-‡+ iNaN) returns }0 } i0 (where the signs of the real and imaginary parts of the result are unspecified). // cexp(+‡+ iNaN) returns }‡+ iNaN (where the sign of the real part of the result is unspecified). // cexp(NaN + i0) returns NaN + i0. // cexp(NaN + iy) returns NaN + iNaN and optionally raises the eeinvalidff floating-point exception, for all non-zero numbers y. // cexp(NaN + iNaN) returns NaN + iNaN. // template inline SPROUT_CONSTEXPR sprout::complex exp(sprout::complex const& x) { typedef sprout::complex type; return sprout::math::isnan(x.real()) ? sprout::math::isnan(x.imag()) ? type(x.real(), x.real()) : x.imag() == 0 ? type(x.real(), x.imag()) : type(x.real(), x.real()) : sprout::math::isnan(x.imag()) ? x.real() == sprout::numeric_limits::infinity() ? type(x.real(), x.imag()) : x.real() == -sprout::numeric_limits::infinity() ? type(T(0), T(0)) : sprout::math::isinf(x.real()) ? type(sprout::numeric_limits::infinity(), sprout::numeric_limits::quiet_NaN()) : type(x.imag(), x.imag()) : x.real() == sprout::numeric_limits::infinity() ? sprout::math::isinf(x.imag()) ? type(sprout::numeric_limits::infinity(), sprout::numeric_limits::quiet_NaN()) : x.imag() == 0 ? type(sprout::numeric_limits::infinity(), x.imag()) : sprout::detail::copysign_mul(sprout::numeric_limits::infinity(), sprout::euler(x.imag())) : x.real() == -sprout::numeric_limits::infinity() ? sprout::math::isinf(x.imag()) ? type(T(0), T(0)) : T(0) * sprout::euler(x.imag()) : sprout::math::isinf(x.imag()) ? type(-sprout::numeric_limits::quiet_NaN(), -sprout::numeric_limits::quiet_NaN()) : x.real() == 0 && x.imag() == 0 ? type(T(1), x.imag()) : sprout::polar(sprout::math::exp(x.real()), x.imag()) ; } } // namespace sprout #endif // #ifndef SPROUT_COMPLEX_EXP_HPP