/* * Copyright 2008-2013 NVIDIA Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #pragma once #include #include #include #include #include THRUST_NAMESPACE_BEGIN namespace detail { namespace functional { template __host__ __device__ actor< composite< transparent_binary_operator>, actor, typename as_actor::type > > operator&(const actor &_1, const T2 &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator&() template __host__ __device__ actor< composite< transparent_binary_operator>, typename as_actor::type, actor > > operator&(const T1 &_1, const actor &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator&() template __host__ __device__ actor< composite< transparent_binary_operator>, actor, actor > > operator&(const actor &_1, const actor &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator&() template __host__ __device__ actor< composite< transparent_binary_operator>, actor, typename as_actor::type > > operator|(const actor &_1, const T2 &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator|() template __host__ __device__ actor< composite< transparent_binary_operator>, typename as_actor::type, actor > > operator|(const T1 &_1, const actor &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator|() template __host__ __device__ actor< composite< transparent_binary_operator>, actor, actor > > operator|(const actor &_1, const actor &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator|() template __host__ __device__ actor< composite< transparent_binary_operator>, actor, typename as_actor::type > > operator^(const actor &_1, const T2 &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator^() template __host__ __device__ actor< composite< transparent_binary_operator>, typename as_actor::type, actor > > operator^(const T1 &_1, const actor &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator^() template __host__ __device__ actor< composite< transparent_binary_operator>, actor, actor > > operator^(const actor &_1, const actor &_2) { return compose(transparent_binary_operator>(), make_actor(_1), make_actor(_2)); } // end operator^() // there's no standard bit_not functional, so roll an ad hoc one here struct bit_not { using is_transparent = void; __thrust_exec_check_disable__ template __host__ __device__ constexpr auto operator()(T1&& t1) const noexcept(noexcept(~THRUST_FWD(t1))) -> decltype(~THRUST_FWD(t1)) { return ~THRUST_FWD(t1); } }; // end prefix_increment template __host__ __device__ actor< composite< transparent_unary_operator, actor > > __host__ __device__ operator~(const actor &_1) { return compose(transparent_unary_operator(), _1); } // end operator~() // there's no standard bit_lshift functional, so roll an ad hoc one here struct bit_lshift { using is_transparent = void; __thrust_exec_check_disable__ template __host__ __device__ constexpr auto operator()(T1&& t1, T2&& t2) const noexcept(noexcept(THRUST_FWD(t1) << THRUST_FWD(t2))) -> decltype(THRUST_FWD(t1) << THRUST_FWD(t2)) { return THRUST_FWD(t1) << THRUST_FWD(t2); } }; template __host__ __device__ actor< composite< transparent_binary_operator, actor, typename as_actor::type > > operator<<(const actor &_1, const T2 &_2) { return compose(transparent_binary_operator(), make_actor(_1), make_actor(_2)); } // end operator<<() template __host__ __device__ actor< composite< transparent_binary_operator, typename as_actor::type, actor > > operator<<(const T1 &_1, const actor &_2) { return compose(transparent_binary_operator(), make_actor(_1), make_actor(_2)); } // end operator<<() template __host__ __device__ actor< composite< transparent_binary_operator, actor, actor > > operator<<(const actor &_1, const actor &_2) { return compose(transparent_binary_operator(), make_actor(_1), make_actor(_2)); } // end operator<<() // there's no standard bit_rshift functional, so roll an ad hoc one here struct bit_rshift { using is_transparent = void; __thrust_exec_check_disable__ template __host__ __device__ constexpr auto operator()(T1& t1, T2&& t2) const noexcept(noexcept(THRUST_FWD(t1) >> THRUST_FWD(t2))) -> decltype(THRUST_FWD(t1) >> THRUST_FWD(t2)) { return THRUST_FWD(t1) >> THRUST_FWD(t2); } }; template __host__ __device__ actor< composite< transparent_binary_operator, actor, typename as_actor::type > > operator>>(const actor &_1, const T2 &_2) { return compose(transparent_binary_operator(), make_actor(_1), make_actor(_2)); } // end operator>>() template __host__ __device__ actor< composite< transparent_binary_operator, typename as_actor::type, actor > > operator>>(const T1 &_1, const actor &_2) { return compose(transparent_binary_operator(), make_actor(_1), make_actor(_2)); } // end operator>>() template __host__ __device__ actor< composite< transparent_binary_operator, actor, actor > > operator>>(const actor &_1, const actor &_2) { return compose(transparent_binary_operator(), make_actor(_1), make_actor(_2)); } // end operator>>() } // end functional } // end detail THRUST_NAMESPACE_END