base/allocator/dispatcher/initializer.h - cobalt - 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_ALLOCATOR_DISPATCHER_INITIALIZER_H_
 #define BASE_ALLOCATOR_DISPATCHER_INITIALIZER_H_

 #include "base/allocator/dispatcher/configuration.h"
 #include "base/allocator/dispatcher/dispatcher.h"
 #include "base/allocator/dispatcher/internal/tools.h"

 #include <tuple>
 #include <utility>

 namespace base::allocator::dispatcher {
 namespace internal {

 // Filter the passed observers and perform initialization of the passed
 // dispatcher.
 template <size_t CurrentIndex,
           typename DispatcherType,
           typename CheckObserverPredicate,
           typename VerifiedObservers,
           typename UnverifiedObservers,
           size_t... IndicesToSelect>
 inline void DoInitialize(DispatcherType& dispatcher,
                          CheckObserverPredicate check_observer,
                          const VerifiedObservers& verified_observers,
                          const UnverifiedObservers& unverified_observers,
                          std::index_sequence<IndicesToSelect...> indices) {
   if constexpr (CurrentIndex < std::tuple_size<UnverifiedObservers>::value) {
     // We still have some items left to handle.
     if (check_observer(std::get<CurrentIndex>(unverified_observers))) {
       // The current observer is valid. Hence, append the index of the current
       // item to the set of indices and head on to the next item.
       DoInitialize<CurrentIndex + 1>(
           dispatcher, check_observer, verified_observers, unverified_observers,
           std::index_sequence<IndicesToSelect..., CurrentIndex>{});
     } else {
       // The current observer is not valid. Hence, head on to the next item with
       // an unaltered list of indices.
       DoInitialize<CurrentIndex + 1>(dispatcher, check_observer,
                                      verified_observers, unverified_observers,
                                      indices);
     }
   } else if constexpr (CurrentIndex ==
                        std::tuple_size<UnverifiedObservers>::value) {
     // So we have met the end of the tuple of observers to verify.
     // Hence, we extract the additional valid observers, append to the tuple of
     // already verified observers and hand over to the dispatcher.
     auto observers = std::tuple_cat(
         verified_observers,
         std::make_tuple(std::get<IndicesToSelect>(unverified_observers)...));

     // Do a final check that neither the maximum total number of observers nor
     // the maximum number of optional observers is exceeded.
     static_assert(std::tuple_size<decltype(observers)>::value <=
                   configuration::kMaximumNumberOfObservers);
     static_assert(sizeof...(IndicesToSelect) <=
                   configuration::kMaximumNumberOfOptionalObservers);

     dispatcher.Initialize(std::move(observers));
   }
 }

 }  // namespace internal

 // The result of concatenating two tuple-types.
 template <typename... tuples>
 using TupleCat = decltype(std::tuple_cat(std::declval<tuples>()...));

 // Initializer collects mandatory and optional observers and initializes the
 // passed Dispatcher with only the enabled observers.
 //
 // In some situations, presence of observers depends on runtime. i.e. command
 // line parameters or CPU features. With 3 optional observers we already have 8
 // different combinations. Initializer takes the job of dealing with all
 // combinations from the user. It allows users to pass all observers (including
 // nullptr for disabled optional observers) and initializes the Dispatcher with
 // only the enabled observers.
 //
 // Since this process results in a combinatoric explosion, Initializer
 // distinguishes between optional and mandatory observers. Mandatory observers
 // are not included in the filtering process and must always be enabled (not
 // nullptr).
 //
 // To allow the Initializer to track the number and exact type of observers, it
 // is implemented as a templated class which holds information on the types in
 // the std::tuples passed as template parameters. Therefore, whenever any type
 // observer it set, the initializer changes its type to reflect this.
 template <typename MandatoryObservers = std::tuple<>,
           typename OptionalObservers = std::tuple<>>
 struct BASE_EXPORT Initializer {
   Initializer() = default;
   Initializer(MandatoryObservers mandatory_observers,
               OptionalObservers optional_observers)
       : mandatory_observers_(std::move(mandatory_observers)),
         optional_observers_(std::move(optional_observers)) {}

   // Set the mandatory observers. The number of observers that can be set is
   // limited by configuration::maximum_number_of_observers.
   template <typename... NewMandatoryObservers,
             std::enable_if_t<
                 internal::LessEqual((sizeof...(NewMandatoryObservers) +
                                      std::tuple_size<OptionalObservers>::value),
                                     configuration::kMaximumNumberOfObservers),
                 bool> = true>
   Initializer<std::tuple<NewMandatoryObservers*...>, OptionalObservers>
   SetMandatoryObservers(NewMandatoryObservers*... mandatory_observers) const {
     return {std::make_tuple(mandatory_observers...), GetOptionalObservers()};
   }

   // Add mandatory observers. The number of observers that can be added is
   // limited by the current number of observers, see
   // configuration::maximum_number_of_observers.
   template <typename... AdditionalMandatoryObservers,
             std::enable_if_t<internal::LessEqual(
                                  std::tuple_size<MandatoryObservers>::value +
                                      sizeof...(AdditionalMandatoryObservers) +
                                      std::tuple_size<OptionalObservers>::value,
                                  configuration::kMaximumNumberOfObservers),
                              bool> = true>
   Initializer<TupleCat<MandatoryObservers,
                        std::tuple<AdditionalMandatoryObservers*...>>,
               OptionalObservers>
   AddMandatoryObservers(
       AdditionalMandatoryObservers*... additional_mandatory_observers) const {
     return {std::tuple_cat(GetMandatoryObservers(),
                            std::make_tuple(additional_mandatory_observers...)),
             GetOptionalObservers()};
   }

   // Set the optional observers. The number of observers that can be set is
   // limited by configuration::maximum_number_of_optional_observers as well as
   // configuration::maximum_number_of_observers.
   template <
       typename... NewOptionalObservers,
       std::enable_if_t<
           internal::LessEqual(
               sizeof...(NewOptionalObservers),
               configuration::kMaximumNumberOfOptionalObservers) &&
               internal::LessEqual((sizeof...(NewOptionalObservers) +
                                    std::tuple_size<MandatoryObservers>::value),
                                   configuration::kMaximumNumberOfObservers),
           bool> = true>
   Initializer<MandatoryObservers, std::tuple<NewOptionalObservers*...>>
   SetOptionalObservers(NewOptionalObservers*... optional_observers) const {
     return {GetMandatoryObservers(), std::make_tuple(optional_observers...)};
   }

   // Add optional observers. The number of observers that can be added is
   // limited by the current number of optional observers,
   // configuration::maximum_number_of_optional_observers as well as
   // configuration::maximum_number_of_observers.
   template <
       typename... AdditionalOptionalObservers,
       std::enable_if_t<
           internal::LessEqual(
               std::tuple_size<OptionalObservers>::value +
                   sizeof...(AdditionalOptionalObservers),
               configuration::kMaximumNumberOfOptionalObservers) &&
               internal::LessEqual((std::tuple_size<OptionalObservers>::value +
                                    sizeof...(AdditionalOptionalObservers) +
                                    std::tuple_size<MandatoryObservers>::value),
                                   configuration::kMaximumNumberOfObservers),
           bool> = true>
   Initializer<
       MandatoryObservers,
       TupleCat<OptionalObservers, std::tuple<AdditionalOptionalObservers*...>>>
   AddOptionalObservers(
       AdditionalOptionalObservers*... additional_optional_observers) const {
     return {GetMandatoryObservers(),
             std::tuple_cat(GetOptionalObservers(),
                            std::make_tuple(additional_optional_observers...))};
   }

   // Perform the actual initialization on the passed dispatcher.
   // The dispatcher is passed as a template only to provide better testability.
   template <typename DispatcherType>
   void DoInitialize(DispatcherType& dispatcher) const {
     internal::DoInitialize<0>(dispatcher, internal::IsValidObserver{},
                               GetMandatoryObservers(), GetOptionalObservers(),
                               {});
   }

   const MandatoryObservers& GetMandatoryObservers() const {
     return mandatory_observers_;
   }

   const OptionalObservers& GetOptionalObservers() const {
     return optional_observers_;
   }

  private:
   MandatoryObservers mandatory_observers_;
   OptionalObservers optional_observers_;
 };

 // Convenience function for creating an empty Initializer.
 inline Initializer<> CreateInitializer() {
   return {};
 }

 }  // namespace base::allocator::dispatcher

 #endif  // BASE_ALLOCATOR_DISPATCHER_INITIALIZER_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_ALLOCATOR_DISPATCHER_INITIALIZER_H_
	#define BASE_ALLOCATOR_DISPATCHER_INITIALIZER_H_

	#include "base/allocator/dispatcher/configuration.h"
	#include "base/allocator/dispatcher/dispatcher.h"
	#include "base/allocator/dispatcher/internal/tools.h"

	#include <tuple>
	#include <utility>

	namespace base::allocator::dispatcher {
	namespace internal {

	// Filter the passed observers and perform initialization of the passed
	// dispatcher.
	template <size_t CurrentIndex,
	typename DispatcherType,
	typename CheckObserverPredicate,
	typename VerifiedObservers,
	typename UnverifiedObservers,
	size_t... IndicesToSelect>
	inline void DoInitialize(DispatcherType& dispatcher,
	CheckObserverPredicate check_observer,
	const VerifiedObservers& verified_observers,
	const UnverifiedObservers& unverified_observers,
	std::index_sequence<IndicesToSelect...> indices) {
	if constexpr (CurrentIndex < std::tuple_size<UnverifiedObservers>::value) {
	// We still have some items left to handle.
	if (check_observer(std::get<CurrentIndex>(unverified_observers))) {
	// The current observer is valid. Hence, append the index of the current
	// item to the set of indices and head on to the next item.
	DoInitialize<CurrentIndex + 1>(
	dispatcher, check_observer, verified_observers, unverified_observers,
	std::index_sequence<IndicesToSelect..., CurrentIndex>{});
	} else {
	// The current observer is not valid. Hence, head on to the next item with
	// an unaltered list of indices.
	DoInitialize<CurrentIndex + 1>(dispatcher, check_observer,
	verified_observers, unverified_observers,
	indices);
	}
	} else if constexpr (CurrentIndex ==
	std::tuple_size<UnverifiedObservers>::value) {
	// So we have met the end of the tuple of observers to verify.
	// Hence, we extract the additional valid observers, append to the tuple of
	// already verified observers and hand over to the dispatcher.
	auto observers = std::tuple_cat(
	verified_observers,
	std::make_tuple(std::get<IndicesToSelect>(unverified_observers)...));

	// Do a final check that neither the maximum total number of observers nor
	// the maximum number of optional observers is exceeded.
	static_assert(std::tuple_size<decltype(observers)>::value <=
	configuration::kMaximumNumberOfObservers);
	static_assert(sizeof...(IndicesToSelect) <=
	configuration::kMaximumNumberOfOptionalObservers);

	dispatcher.Initialize(std::move(observers));
	}
	}

	} // namespace internal

	// The result of concatenating two tuple-types.
	template <typename... tuples>
	using TupleCat = decltype(std::tuple_cat(std::declval<tuples>()...));

	// Initializer collects mandatory and optional observers and initializes the
	// passed Dispatcher with only the enabled observers.
	//
	// In some situations, presence of observers depends on runtime. i.e. command
	// line parameters or CPU features. With 3 optional observers we already have 8
	// different combinations. Initializer takes the job of dealing with all
	// combinations from the user. It allows users to pass all observers (including
	// nullptr for disabled optional observers) and initializes the Dispatcher with
	// only the enabled observers.
	//
	// Since this process results in a combinatoric explosion, Initializer
	// distinguishes between optional and mandatory observers. Mandatory observers
	// are not included in the filtering process and must always be enabled (not
	// nullptr).
	//
	// To allow the Initializer to track the number and exact type of observers, it
	// is implemented as a templated class which holds information on the types in
	// the std::tuples passed as template parameters. Therefore, whenever any type
	// observer it set, the initializer changes its type to reflect this.
	template <typename MandatoryObservers = std::tuple<>,
	typename OptionalObservers = std::tuple<>>
	struct BASE_EXPORT Initializer {
	Initializer() = default;
	Initializer(MandatoryObservers mandatory_observers,
	OptionalObservers optional_observers)
	: mandatory_observers_(std::move(mandatory_observers)),
	optional_observers_(std::move(optional_observers)) {}

	// Set the mandatory observers. The number of observers that can be set is
	// limited by configuration::maximum_number_of_observers.
	template <typename... NewMandatoryObservers,
	std::enable_if_t<
	internal::LessEqual((sizeof...(NewMandatoryObservers) +
	std::tuple_size<OptionalObservers>::value),
	configuration::kMaximumNumberOfObservers),
	bool> = true>
	Initializer<std::tuple<NewMandatoryObservers*...>, OptionalObservers>
	SetMandatoryObservers(NewMandatoryObservers*... mandatory_observers) const {
	return {std::make_tuple(mandatory_observers...), GetOptionalObservers()};
	}

	// Add mandatory observers. The number of observers that can be added is
	// limited by the current number of observers, see
	// configuration::maximum_number_of_observers.
	template <typename... AdditionalMandatoryObservers,
	std::enable_if_t<internal::LessEqual(
	std::tuple_size<MandatoryObservers>::value +
	sizeof...(AdditionalMandatoryObservers) +
	std::tuple_size<OptionalObservers>::value,
	configuration::kMaximumNumberOfObservers),
	bool> = true>
	Initializer<TupleCat<MandatoryObservers,
	std::tuple<AdditionalMandatoryObservers*...>>,
	OptionalObservers>
	AddMandatoryObservers(
	AdditionalMandatoryObservers*... additional_mandatory_observers) const {
	return {std::tuple_cat(GetMandatoryObservers(),
	std::make_tuple(additional_mandatory_observers...)),
	GetOptionalObservers()};
	}

	// Set the optional observers. The number of observers that can be set is
	// limited by configuration::maximum_number_of_optional_observers as well as
	// configuration::maximum_number_of_observers.
	template <
	typename... NewOptionalObservers,
	std::enable_if_t<
	internal::LessEqual(
	sizeof...(NewOptionalObservers),
	configuration::kMaximumNumberOfOptionalObservers) &&
	internal::LessEqual((sizeof...(NewOptionalObservers) +
	std::tuple_size<MandatoryObservers>::value),
	configuration::kMaximumNumberOfObservers),
	bool> = true>
	Initializer<MandatoryObservers, std::tuple<NewOptionalObservers*...>>
	SetOptionalObservers(NewOptionalObservers*... optional_observers) const {
	return {GetMandatoryObservers(), std::make_tuple(optional_observers...)};
	}

	// Add optional observers. The number of observers that can be added is
	// limited by the current number of optional observers,
	// configuration::maximum_number_of_optional_observers as well as
	// configuration::maximum_number_of_observers.
	template <
	typename... AdditionalOptionalObservers,
	std::enable_if_t<
	internal::LessEqual(
	std::tuple_size<OptionalObservers>::value +
	sizeof...(AdditionalOptionalObservers),
	configuration::kMaximumNumberOfOptionalObservers) &&
	internal::LessEqual((std::tuple_size<OptionalObservers>::value +
	sizeof...(AdditionalOptionalObservers) +
	std::tuple_size<MandatoryObservers>::value),
	configuration::kMaximumNumberOfObservers),
	bool> = true>
	Initializer<
	MandatoryObservers,
	TupleCat<OptionalObservers, std::tuple<AdditionalOptionalObservers*...>>>
	AddOptionalObservers(
	AdditionalOptionalObservers*... additional_optional_observers) const {
	return {GetMandatoryObservers(),
	std::tuple_cat(GetOptionalObservers(),
	std::make_tuple(additional_optional_observers...))};
	}

	// Perform the actual initialization on the passed dispatcher.
	// The dispatcher is passed as a template only to provide better testability.
	template <typename DispatcherType>
	void DoInitialize(DispatcherType& dispatcher) const {
	internal::DoInitialize<0>(dispatcher, internal::IsValidObserver{},
	GetMandatoryObservers(), GetOptionalObservers(),
	{});
	}

	const MandatoryObservers& GetMandatoryObservers() const {
	return mandatory_observers_;
	}

	const OptionalObservers& GetOptionalObservers() const {
	return optional_observers_;
	}

	private:
	MandatoryObservers mandatory_observers_;
	OptionalObservers optional_observers_;
	};

	// Convenience function for creating an empty Initializer.
	inline Initializer<> CreateInitializer() {
	return {};
	}

	} // namespace base::allocator::dispatcher

	#endif // BASE_ALLOCATOR_DISPATCHER_INITIALIZER_H_