base/functional/overloaded.h - chromium/src - Git at Google

 // Copyright 2022 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef BASE_FUNCTIONAL_OVERLOADED_H_
 #define BASE_FUNCTIONAL_OVERLOADED_H_

 namespace base {

 // absl::visit() needs to be called with a functor object, such as
 //
 //  struct Visitor {
 //    std::string operator()(const PackageA& source) {
 //      return "PackageA";
 //    }
 //
 //    std::string operator()(const PackageB& source) {
 //      return "PackageB";
 //    }
 //  };
 //
 //  absl::variant<PackageA, PackageB> var = PackageA();
 //  return absl::visit(Visitor(), var);
 //
 // `Overloaded` enables the above code to be written as:
 //
 //  absl::visit(
 //     Overloaded{
 //         [](const PackageA& pack) { return "PackageA"; },
 //         [](const PackageB& pack) { return "PackageB"; },
 //     }, var);
 //
 // Note: Overloads must be implemented for all the variant options. Otherwise,
 // there will be a compilation error.
 //
 // This struct inherits operator() method from all its base classes.
 // Introduces operator() method from all its base classes into its definition.
 template <typename... Callables>
 struct Overloaded : Callables... {
   using Callables::operator()...;
 };

 // Uses template argument deduction so that the `Overloaded` struct can be used
 // without specifying its template argument. This allows anonymous lambdas
 // passed into the `Overloaded` constructor.
 template <typename... Callables>
 Overloaded(Callables...) -> Overloaded<Callables...>;

 }  // namespace base

 #endif  // BASE_FUNCTIONAL_OVERLOADED_H_
	// Copyright 2022 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef BASE_FUNCTIONAL_OVERLOADED_H_
	#define BASE_FUNCTIONAL_OVERLOADED_H_

	namespace base {

	// absl::visit() needs to be called with a functor object, such as
	//
	// struct Visitor {
	// std::string operator()(const PackageA& source) {
	// return "PackageA";
	// }
	//
	// std::string operator()(const PackageB& source) {
	// return "PackageB";
	// }
	// };
	//
	// absl::variant<PackageA, PackageB> var = PackageA();
	// return absl::visit(Visitor(), var);
	//
	// `Overloaded` enables the above code to be written as:
	//
	// absl::visit(
	// Overloaded{
	// [](const PackageA& pack) { return "PackageA"; },
	// [](const PackageB& pack) { return "PackageB"; },
	// }, var);
	//
	// Note: Overloads must be implemented for all the variant options. Otherwise,
	// there will be a compilation error.
	//
	// This struct inherits operator() method from all its base classes.
	// Introduces operator() method from all its base classes into its definition.
	template <typename... Callables>
	struct Overloaded : Callables... {
	using Callables::operator()...;
	};

	// Uses template argument deduction so that the `Overloaded` struct can be used
	// without specifying its template argument. This allows anonymous lambdas
	// passed into the `Overloaded` constructor.
	template <typename... Callables>
	Overloaded(Callables...) -> Overloaded<Callables...>;

	} // namespace base

	#endif // BASE_FUNCTIONAL_OVERLOADED_H_