// Copyright 2021 Google LLC // // 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 // // https://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. #ifndef dap_traits_h #define dap_traits_h #include #include namespace dap { namespace traits { // NthTypeOf returns the `N`th type in `Types` template using NthTypeOf = typename std::tuple_element>::type; // `IsTypeOrDerived::value` is true iff `T` is of type `BASE`, or // derives from `BASE`. template using IsTypeOrDerived = std::integral_constant< bool, std::is_base_of::type>::value || std::is_same::type>::value>; // `EachIsTypeOrDerived::value` is true iff all of the types in // the std::tuple `TYPES` is of, or derives from the corresponding indexed type // in the std::tuple `BASES`. // `N` must be equal to the number of types in both the std::tuple `BASES` and // `TYPES`. template struct EachIsTypeOrDerived { using base = typename std::tuple_element::type; using type = typename std::tuple_element::type; using last_matches = IsTypeOrDerived; using others_match = EachIsTypeOrDerived; static constexpr bool value = last_matches::value && others_match::value; }; // EachIsTypeOrDerived specialization for N = 1 template struct EachIsTypeOrDerived<1, BASES, TYPES> { using base = typename std::tuple_element<0, BASES>::type; using type = typename std::tuple_element<0, TYPES>::type; static constexpr bool value = IsTypeOrDerived::value; }; // EachIsTypeOrDerived specialization for N = 0 template struct EachIsTypeOrDerived<0, BASES, TYPES> { static constexpr bool value = true; }; // Signature describes the signature of a function. template struct Signature { // The return type of the function signature using ret = RETURN; // The parameters of the function signature held in a std::tuple using parameters = std::tuple; // The type of the Nth parameter of function signature template using parameter = NthTypeOf; // The total number of parameters static constexpr std::size_t parameter_count = sizeof...(PARAMETERS); }; // SignatureOf is a traits helper that infers the signature of the function, // method, static method, lambda, or function-like object `F`. template struct SignatureOf { // The signature of the function-like object `F` using type = typename SignatureOf::type; }; // SignatureOf specialization for a regular function or static method. template struct SignatureOf { // The signature of the function-like object `F` using type = Signature::type, typename std::decay::type...>; }; // SignatureOf specialization for a non-static method. template struct SignatureOf { // The signature of the function-like object `F` using type = Signature::type, typename std::decay::type...>; }; // SignatureOf specialization for a non-static, const method. template struct SignatureOf { // The signature of the function-like object `F` using type = Signature::type, typename std::decay::type...>; }; // SignatureOfT is an alias to `typename SignatureOf::type`. template using SignatureOfT = typename SignatureOf::type; // ParameterType is an alias to `typename SignatureOf::type::parameter`. template using ParameterType = typename SignatureOfT::template parameter; // `HasSignature::value` is true iff the function-like `F` has a matching // signature to the function-like `S`. template using HasSignature = std::integral_constant< bool, std::is_same, SignatureOfT>::value>; // `Min::value` resolves to the smaller value of A and B. template using Min = std::integral_constant; // `CompatibleWith::value` is true iff the function-like `F` // can be called with the argument types of the function-like `S`. Return type // of the two functions are not considered. template using CompatibleWith = std::integral_constant< bool, (SignatureOfT::parameter_count == SignatureOfT::parameter_count) && EachIsTypeOrDerived::parameter_count, SignatureOfT::parameter_count>::value, typename SignatureOfT::parameters, typename SignatureOfT::parameters>::value>; // If `CONDITION` is true then EnableIf resolves to type T, otherwise an // invalid type. template using EnableIf = typename std::enable_if::type; // If `BASE` is a base of `T` then EnableIfIsType resolves to type `TRUE_TY`, // otherwise an invalid type. template using EnableIfIsType = EnableIf::value, TRUE_TY>; // If the function-like `F` has a matching signature to the function-like `S` // then EnableIfHasSignature resolves to type `TRUE_TY`, otherwise an invalid type. template using EnableIfHasSignature = EnableIf::value, TRUE_TY>; } // namespace traits } // namespace dap #endif // dap_traits_h