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261 lines
10 KiB
C++
261 lines
10 KiB
C++
// Copyright 2018 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_TRAITS_BAG_H_
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#define BASE_TRAITS_BAG_H_
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#include <initializer_list>
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#include <tuple>
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#include <type_traits>
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#include <utility>
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#include "base/parameter_pack.h"
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#include "base/template_util.h"
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#include "third_party/abseil-cpp/absl/types/optional.h"
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// A bag of Traits (structs / enums / etc...) can be an elegant alternative to
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// the builder pattern and multiple default arguments for configuring things.
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// Traits are terser than the builder pattern and can be evaluated at compile
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// time, however they require the use of variadic templates which complicates
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// matters. This file contains helpers that make Traits easier to use.
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//
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// WARNING: Trait bags are currently too heavy for non-constexpr usage in prod
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// code due to template bloat, although adding NOINLINE to template constructors
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// configured via trait bags can help.
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//
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// E.g.
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// struct EnableFeatureX {};
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// struct UnusedTrait {};
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// enum Color { RED, BLUE };
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//
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// struct ValidTraits {
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// ValidTraits(EnableFeatureX);
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// ValidTraits(Color);
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// };
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// ...
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// DoSomethingAwesome(); // Use defaults (Color::BLUE &
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// // feature X not enabled)
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// DoSomethingAwesome(EnableFeatureX(), // Turn feature X on
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// Color::RED); // And make it red.
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// DoSomethingAwesome(UnusedTrait(), // Compile time error.
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// Color::RED);
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//
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// DoSomethingAwesome might be defined as:
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//
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// template <class... ArgTypes,
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// class CheckArgumentsAreValid = std::enable_if_t<
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// trait_helpers::AreValidTraits<ValidTraits,
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// ArgTypes...>::value>>
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// constexpr void DoSomethingAwesome(ArgTypes... args)
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// : enable_feature_x(
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// trait_helpers::HasTrait<EnableFeatureX, ArgTypes...>()),
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// color(trait_helpers::GetEnum<Color, EnumTraitA::BLUE>(args...)) {}
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namespace base {
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namespace trait_helpers {
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// Represents a trait that has been removed by a predicate.
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struct EmptyTrait {};
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// Predicate used to remove any traits from the given list of types by
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// converting them to EmptyTrait. E.g.
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//
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// template <typename... Args>
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// void MyFunc(Args... args) {
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// DoSomethingWithTraits(
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// base::trait_helpers::Exclude<UnwantedTrait1,
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// UnwantedTrait2>::Filter(args)...);
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// }
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//
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// NB It's possible to actually remove the unwanted trait from the pack, but
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// that requires constructing a filtered tuple and applying it to the function,
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// which isn't worth the complexity over ignoring EmptyTrait.
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template <typename... TraitsToExclude>
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struct Exclude {
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template <typename T,
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std::enable_if_t<ParameterPack<
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TraitsToExclude...>::template HasType<T>::value>* = nullptr>
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static constexpr EmptyTrait Filter(T t) {
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return EmptyTrait();
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}
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template <typename T,
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std::enable_if_t<!ParameterPack<
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TraitsToExclude...>::template HasType<T>::value>* = nullptr>
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static constexpr T Filter(T t) {
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return t;
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}
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};
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// CallFirstTag is an argument tag that helps to avoid ambiguous overloaded
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// functions. When the following call is made:
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// func(CallFirstTag(), arg...);
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// the compiler will give precedence to an overload candidate that directly
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// takes CallFirstTag. Another overload that takes CallSecondTag will be
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// considered iff the preferred overload candidates were all invalids and
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// therefore discarded.
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struct CallSecondTag {};
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struct CallFirstTag : CallSecondTag {};
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// A trait filter class |TraitFilterType| implements the protocol to get a value
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// of type |ArgType| from an argument list and convert it to a value of type
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// |TraitType|. If the argument list contains an argument of type |ArgType|, the
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// filter class will be instantiated with that argument. If the argument list
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// contains no argument of type |ArgType|, the filter class will be instantiated
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// using the default constructor if available; a compile error is issued
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// otherwise. The filter class must have the conversion operator TraitType()
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// which returns a value of type TraitType.
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// |InvalidTrait| is used to return from GetTraitFromArg when the argument is
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// not compatible with the desired trait.
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struct InvalidTrait {};
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// Returns an object of type |TraitFilterType| constructed from |arg| if
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// compatible, or |InvalidTrait| otherwise.
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template <class TraitFilterType,
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class ArgType,
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class CheckArgumentIsCompatible = std::enable_if_t<
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std::is_constructible<TraitFilterType, ArgType>::value>>
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constexpr TraitFilterType GetTraitFromArg(CallFirstTag, ArgType arg) {
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return TraitFilterType(arg);
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}
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template <class TraitFilterType, class ArgType>
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constexpr InvalidTrait GetTraitFromArg(CallSecondTag, ArgType arg) {
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return InvalidTrait();
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}
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// Returns an object of type |TraitFilterType| constructed from a compatible
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// argument in |args...|, or default constructed if none of the arguments are
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// compatible. This is the implementation of GetTraitFromArgList() with a
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// disambiguation tag.
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template <class TraitFilterType,
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class... ArgTypes,
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class TestCompatibleArgument = std::enable_if_t<any_of(
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{std::is_constructible<TraitFilterType, ArgTypes>::value...})>>
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constexpr TraitFilterType GetTraitFromArgListImpl(CallFirstTag,
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ArgTypes... args) {
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return std::get<TraitFilterType>(std::make_tuple(
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GetTraitFromArg<TraitFilterType>(CallFirstTag(), args)...));
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}
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template <class TraitFilterType, class... ArgTypes>
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constexpr TraitFilterType GetTraitFromArgListImpl(CallSecondTag,
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ArgTypes... args) {
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static_assert(std::is_constructible<TraitFilterType>::value,
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"The traits bag is missing a required trait.");
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return TraitFilterType();
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}
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// Constructs an object of type |TraitFilterType| from a compatible argument in
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// |args...|, or using the default constructor, and returns its associated trait
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// value using conversion to |TraitFilterType::ValueType|. If there are more
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// than one compatible argument in |args|, generates a compile-time error.
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template <class TraitFilterType, class... ArgTypes>
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constexpr typename TraitFilterType::ValueType GetTraitFromArgList(
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ArgTypes... args) {
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static_assert(
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count({std::is_constructible<TraitFilterType, ArgTypes>::value...},
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true) <= 1,
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"The traits bag contains multiple traits of the same type.");
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return GetTraitFromArgListImpl<TraitFilterType>(CallFirstTag(), args...);
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}
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// Helper class to implemnent a |TraitFilterType|.
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template <typename T, typename _ValueType = T>
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struct BasicTraitFilter {
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using ValueType = _ValueType;
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constexpr BasicTraitFilter(ValueType v) : value(v) {}
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constexpr operator ValueType() const { return value; }
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ValueType value = {};
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};
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template <typename ArgType, ArgType DefaultValue>
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struct EnumTraitFilter : public BasicTraitFilter<ArgType> {
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constexpr EnumTraitFilter() : BasicTraitFilter<ArgType>(DefaultValue) {}
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constexpr EnumTraitFilter(ArgType arg) : BasicTraitFilter<ArgType>(arg) {}
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};
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template <typename ArgType>
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struct OptionalEnumTraitFilter
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: public BasicTraitFilter<ArgType, absl::optional<ArgType>> {
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constexpr OptionalEnumTraitFilter()
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: BasicTraitFilter<ArgType, absl::optional<ArgType>>(absl::nullopt) {}
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constexpr OptionalEnumTraitFilter(ArgType arg)
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: BasicTraitFilter<ArgType, absl::optional<ArgType>>(arg) {}
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};
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// Tests whether multiple given argtument types are all valid traits according
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// to the provided ValidTraits. To use, define a ValidTraits
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template <typename ArgType>
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struct RequiredEnumTraitFilter : public BasicTraitFilter<ArgType> {
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constexpr RequiredEnumTraitFilter(ArgType arg)
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: BasicTraitFilter<ArgType>(arg) {}
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};
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// Note EmptyTrait is always regarded as valid to support filtering.
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template <class ValidTraits, class T>
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using IsValidTrait = disjunction<std::is_constructible<ValidTraits, T>,
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std::is_same<T, EmptyTrait>>;
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// Tests whether a given trait type is valid or invalid by testing whether it is
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// convertible to the provided ValidTraits type. To use, define a ValidTraits
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// type like this:
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//
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// struct ValidTraits {
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// ValidTraits(MyTrait);
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// ...
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// };
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//
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// You can 'inherit' valid traits like so:
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//
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// struct MoreValidTraits {
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// MoreValidTraits(ValidTraits); // Pull in traits from ValidTraits.
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// MoreValidTraits(MyOtherTrait);
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// ...
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// };
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template <class ValidTraits, class... ArgTypes>
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using AreValidTraits =
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bool_constant<all_of({IsValidTrait<ValidTraits, ArgTypes>::value...})>;
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// Helper to make getting an enum from a trait more readable.
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template <typename Enum, typename... Args>
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static constexpr Enum GetEnum(Args... args) {
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return GetTraitFromArgList<RequiredEnumTraitFilter<Enum>>(args...);
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}
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// Helper to make getting an enum from a trait with a default more readable.
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template <typename Enum, Enum DefaultValue, typename... Args>
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static constexpr Enum GetEnum(Args... args) {
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return GetTraitFromArgList<EnumTraitFilter<Enum, DefaultValue>>(args...);
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}
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// Helper to make getting an optional enum from a trait with a default more
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// readable.
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template <typename Enum, typename... Args>
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static constexpr absl::optional<Enum> GetOptionalEnum(Args... args) {
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return GetTraitFromArgList<OptionalEnumTraitFilter<Enum>>(args...);
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}
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// Helper to make checking for the presence of a trait more readable.
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template <typename Trait, typename... Args>
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struct HasTrait : ParameterPack<Args...>::template HasType<Trait> {
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static_assert(
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count({std::is_constructible<Trait, Args>::value...}, true) <= 1,
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"The traits bag contains multiple traits of the same type.");
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};
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// If you need a template vararg constructor to delegate to a private
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// constructor, you may need to add this to the private constructor to ensure
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// it's not matched by accident.
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struct NotATraitTag {};
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} // namespace trait_helpers
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} // namespace base
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#endif // BASE_TRAITS_BAG_H_
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