// This file is part of Eigen, a lightweight C++ template library // for linear algebra. // // Copyright (C) 2010-2012 Gael Guennebaud // Copyright (C) 2010 Benoit Jacob // // This Source Code Form is subject to the terms of the Mozilla // Public License v. 2.0. If a copy of the MPL was not distributed // with this file, You can obtain one at http://mozilla.org/MPL/2.0/. #ifndef EIGEN_GLOBAL_FUNCTIONS_H #define EIGEN_GLOBAL_FUNCTIONS_H #define EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(NAME,FUNCTOR) \ template \ inline const Eigen::CwiseUnaryOp, const Derived> \ (NAME)(const Eigen::ArrayBase& x) { \ return Eigen::CwiseUnaryOp, const Derived>(x.derived()); \ } #define EIGEN_ARRAY_DECLARE_GLOBAL_EIGEN_UNARY(NAME,FUNCTOR) \ \ template \ struct NAME##_retval > \ { \ typedef const Eigen::CwiseUnaryOp, const Derived> type; \ }; \ template \ struct NAME##_impl > \ { \ static inline typename NAME##_retval >::type run(const Eigen::ArrayBase& x) \ { \ return typename NAME##_retval >::type(x.derived()); \ } \ }; namespace Eigen { EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(real,scalar_real_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(imag,scalar_imag_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(conj,scalar_conjugate_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(inverse,scalar_inverse_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(sin,scalar_sin_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(cos,scalar_cos_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(tan,scalar_tan_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(atan,scalar_atan_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(asin,scalar_asin_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(acos,scalar_acos_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(sinh,scalar_sinh_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(cosh,scalar_cosh_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(tanh,scalar_tanh_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(exp,scalar_exp_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(log,scalar_log_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(log10,scalar_log10_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(abs,scalar_abs_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(abs2,scalar_abs2_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(arg,scalar_arg_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(sqrt,scalar_sqrt_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(square,scalar_square_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(cube,scalar_cube_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(round,scalar_round_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(floor,scalar_floor_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(ceil,scalar_ceil_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(isnan,scalar_isnan_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(isinf,scalar_isinf_op) EIGEN_ARRAY_DECLARE_GLOBAL_UNARY(isfinite,scalar_isfinite_op) template inline const Eigen::CwiseUnaryOp, const Derived> pow(const Eigen::ArrayBase& x, const typename Derived::Scalar& exponent) { return x.derived().pow(exponent); } /** \returns an expression of the coefficient-wise power of \a x to the given array of \a exponents. * * This function computes the coefficient-wise power. * * Example: \include Cwise_array_power_array.cpp * Output: \verbinclude Cwise_array_power_array.out * * \sa ArrayBase::pow() */ template inline const Eigen::CwiseBinaryOp, const Derived, const ExponentDerived> pow(const Eigen::ArrayBase& x, const Eigen::ArrayBase& exponents) { return Eigen::CwiseBinaryOp, const Derived, const ExponentDerived>( x.derived(), exponents.derived() ); } /** \returns an expression of the coefficient-wise power of the scalar \a x to the given array of \a exponents. * * This function computes the coefficient-wise power between a scalar and an array of exponents. * Beaware that the scalar type of the input scalar \a x and the exponents \a exponents must be the same. * * Example: \include Cwise_scalar_power_array.cpp * Output: \verbinclude Cwise_scalar_power_array.out * * \sa ArrayBase::pow() */ template inline const Eigen::CwiseBinaryOp, const typename Derived::ConstantReturnType, const Derived> pow(const typename Derived::Scalar& x, const Eigen::ArrayBase& exponents) { typename Derived::ConstantReturnType constant_x(exponents.rows(), exponents.cols(), x); return Eigen::CwiseBinaryOp, const typename Derived::ConstantReturnType, const Derived>( constant_x, exponents.derived() ); } /** * \brief Component-wise division of a scalar by array elements. **/ template inline const Eigen::CwiseUnaryOp, const Derived> operator/(const typename Derived::Scalar& s, const Eigen::ArrayBase& a) { return Eigen::CwiseUnaryOp, const Derived>( a.derived(), Eigen::internal::scalar_inverse_mult_op(s) ); } namespace internal { EIGEN_ARRAY_DECLARE_GLOBAL_EIGEN_UNARY(real,scalar_real_op) EIGEN_ARRAY_DECLARE_GLOBAL_EIGEN_UNARY(imag,scalar_imag_op) EIGEN_ARRAY_DECLARE_GLOBAL_EIGEN_UNARY(abs2,scalar_abs2_op) } } // TODO: cleanly disable those functions that are not supported on Array (numext::real_ref, internal::random, internal::isApprox...) #endif // EIGEN_GLOBAL_FUNCTIONS_H