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// Copyright 2022 The Abseil Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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// -----------------------------------------------------------------------------
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// File: any_invocable.h
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// -----------------------------------------------------------------------------
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//
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// This header file defines an `absl::AnyInvocable` type that assumes ownership
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// and wraps an object of an invocable type. (Invocable types adhere to the
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// concept specified in https://en.cppreference.com/w/cpp/concepts/invocable.)
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//
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// In general, prefer `absl::AnyInvocable` when you need a type-erased
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// function parameter that needs to take ownership of the type.
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//
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// NOTE: `absl::AnyInvocable` is similar to the C++23 `std::move_only_function`
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// abstraction, but has a slightly different API and is not designed to be a
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// drop-in replacement or C++11-compatible backfill of that type.
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//
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// Credits to Matt Calabrese (https://github.com/mattcalabrese) for the original
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// implementation.
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#ifndef ABSL_FUNCTIONAL_ANY_INVOCABLE_H_
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#define ABSL_FUNCTIONAL_ANY_INVOCABLE_H_
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#include <cstddef>
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#include <initializer_list>
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#include <type_traits>
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#include <utility>
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#include "absl/base/config.h"
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#include "absl/functional/internal/any_invocable.h"
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#include "absl/meta/type_traits.h"
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#include "absl/utility/utility.h"
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namespace absl {
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ABSL_NAMESPACE_BEGIN
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// absl::AnyInvocable
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//
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// `absl::AnyInvocable` is a functional wrapper type, like `std::function`, that
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// assumes ownership of an invocable object. Unlike `std::function`, an
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// `absl::AnyInvocable` is more type-safe and provides the following additional
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// benefits:
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//
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// * Properly adheres to const correctness of the underlying type
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// * Is move-only so avoids concurrency problems with copied invocables and
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// unnecessary copies in general.
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// * Supports reference qualifiers allowing it to perform unique actions (noted
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// below).
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//
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// `absl::AnyInvocable` is a template, and an `absl::AnyInvocable` instantiation
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// may wrap any invocable object with a compatible function signature, e.g.
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// having arguments and return types convertible to types matching the
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// `absl::AnyInvocable` signature, and also matching any stated reference
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// qualifiers, as long as that type is moveable. It therefore provides broad
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// type erasure for functional objects.
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//
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// An `absl::AnyInvocable` is typically used as a type-erased function parameter
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// for accepting various functional objects:
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//
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// // Define a function taking an AnyInvocable parameter.
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// void my_func(absl::AnyInvocable<int()> f) {
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// ...
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// };
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//
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// // That function can accept any invocable type:
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//
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// // Accept a function reference. We don't need to move a reference.
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// int func1() { return 0; };
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// my_func(func1);
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//
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// // Accept a lambda. We use std::move here because otherwise my_func would
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// // copy the lambda.
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// auto lambda = []() { return 0; };
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// my_func(std::move(lambda));
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//
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// // Accept a function pointer. We don't need to move a function pointer.
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// func2 = &func1;
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// my_func(func2);
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//
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// // Accept an std::function by moving it. Note that the lambda is copyable
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// // (satisfying std::function requirements) and moveable (satisfying
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// // absl::AnyInvocable requirements).
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// std::function<int()> func6 = []() { return 0; };
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// my_func(std::move(func6));
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//
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// `AnyInvocable` also properly respects `const` qualifiers, reference
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// qualifiers, and the `noexcept` specification (only in C++ 17 and beyond) as
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// part of the user-specified function type (e.g.
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// `AnyInvocable<void()&& const noexcept>`). These qualifiers will be applied to
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// the `AnyInvocable` object's `operator()`, and the underlying invocable must
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// be compatible with those qualifiers.
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//
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// Comparison of const and non-const function types:
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//
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// // Store a closure inside of `func` with the function type `int()`.
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// // Note that we have made `func` itself `const`.
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// const AnyInvocable<int()> func = [](){ return 0; };
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//
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// func(); // Compile-error: the passed type `int()` isn't `const`.
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//
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// // Store a closure inside of `const_func` with the function type
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// // `int() const`.
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// // Note that we have also made `const_func` itself `const`.
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// const AnyInvocable<int() const> const_func = [](){ return 0; };
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//
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// const_func(); // Fine: `int() const` is `const`.
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//
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// In the above example, the call `func()` would have compiled if
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// `std::function` were used even though the types are not const compatible.
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// This is a bug, and using `absl::AnyInvocable` properly detects that bug.
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//
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// In addition to affecting the signature of `operator()`, the `const` and
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// reference qualifiers of the function type also appropriately constrain which
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// kinds of invocable objects you are allowed to place into the `AnyInvocable`
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// instance. If you specify a function type that is const-qualified, then
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// anything that you attempt to put into the `AnyInvocable` must be callable on
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// a `const` instance of that type.
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//
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// Constraint example:
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//
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// // Fine because the lambda is callable when `const`.
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// AnyInvocable<int() const> func = [=](){ return 0; };
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//
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// // This is a compile-error because the lambda isn't callable when `const`.
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// AnyInvocable<int() const> error = [=]() mutable { return 0; };
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//
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// An `&&` qualifier can be used to express that an `absl::AnyInvocable`
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// instance should be invoked at most once:
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//
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// // Invokes `continuation` with the logical result of an operation when
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// // that operation completes (common in asynchronous code).
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// void CallOnCompletion(AnyInvocable<void(int)&&> continuation) {
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// int result_of_foo = foo();
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//
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// // `std::move` is required because the `operator()` of `continuation` is
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// // rvalue-reference qualified.
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// std::move(continuation)(result_of_foo);
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// }
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template <class Sig>
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class AnyInvocable : private internal_any_invocable::Impl<Sig> {
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private:
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static_assert(
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std::is_function<Sig>::value,
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"The template argument of AnyInvocable must be a function type.");
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using Impl = internal_any_invocable::Impl<Sig>;
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public:
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// The return type of Sig
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using result_type = typename Impl::result_type;
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// Constructors
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// Constructs the `AnyInvocable` in an empty state.
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AnyInvocable() noexcept = default;
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AnyInvocable(std::nullptr_t) noexcept {} // NOLINT
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// Constructs the `AnyInvocable` from an existing `AnyInvocable` by a move.
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// Note that `f` is not guaranteed to be empty after move-construction,
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// although it may be.
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AnyInvocable(AnyInvocable&& /*f*/) noexcept = default;
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// Constructs an `AnyInvocable` from an invocable object.
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//
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// Upon construction, `*this` is only empty if `f` is a function pointer or
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// member pointer type and is null, or if `f` is an `AnyInvocable` that is
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// empty.
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template <class F, typename = absl::enable_if_t<
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internal_any_invocable::CanConvert<Sig, F>::value>>
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AnyInvocable(F&& f) // NOLINT
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: Impl(internal_any_invocable::ConversionConstruct(),
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std::forward<F>(f)) {}
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// Constructs an `AnyInvocable` that holds an invocable object of type `T`,
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// which is constructed in-place from the given arguments.
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//
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// Example:
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//
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// AnyInvocable<int(int)> func(
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// absl::in_place_type<PossiblyImmovableType>, arg1, arg2);
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//
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template <class T, class... Args,
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typename = absl::enable_if_t<
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internal_any_invocable::CanEmplace<Sig, T, Args...>::value>>
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explicit AnyInvocable(absl::in_place_type_t<T>, Args&&... args)
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: Impl(absl::in_place_type<absl::decay_t<T>>,
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std::forward<Args>(args)...) {
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static_assert(std::is_same<T, absl::decay_t<T>>::value,
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"The explicit template argument of in_place_type is required "
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"to be an unqualified object type.");
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}
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// Overload of the above constructor to support list-initialization.
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template <class T, class U, class... Args,
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typename = absl::enable_if_t<internal_any_invocable::CanEmplace<
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Sig, T, std::initializer_list<U>&, Args...>::value>>
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explicit AnyInvocable(absl::in_place_type_t<T>,
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std::initializer_list<U> ilist, Args&&... args)
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: Impl(absl::in_place_type<absl::decay_t<T>>, ilist,
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std::forward<Args>(args)...) {
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static_assert(std::is_same<T, absl::decay_t<T>>::value,
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"The explicit template argument of in_place_type is required "
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"to be an unqualified object type.");
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}
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// Assignment Operators
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// Assigns an `AnyInvocable` through move-assignment.
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// Note that `f` is not guaranteed to be empty after move-assignment
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// although it may be.
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AnyInvocable& operator=(AnyInvocable&& /*f*/) noexcept = default;
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// Assigns an `AnyInvocable` from a nullptr, clearing the `AnyInvocable`. If
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// not empty, destroys the target, putting `*this` into an empty state.
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AnyInvocable& operator=(std::nullptr_t) noexcept {
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this->Clear();
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return *this;
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}
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// Assigns an `AnyInvocable` from an existing `AnyInvocable` instance.
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//
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// Upon assignment, `*this` is only empty if `f` is a function pointer or
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// member pointer type and is null, or if `f` is an `AnyInvocable` that is
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// empty.
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template <class F, typename = absl::enable_if_t<
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internal_any_invocable::CanAssign<Sig, F>::value>>
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AnyInvocable& operator=(F&& f) {
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*this = AnyInvocable(std::forward<F>(f));
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return *this;
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}
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// Assigns an `AnyInvocable` from a reference to an invocable object.
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// Upon assignment, stores a reference to the invocable object in the
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// `AnyInvocable` instance.
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template <
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class F,
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typename = absl::enable_if_t<
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internal_any_invocable::CanAssignReferenceWrapper<Sig, F>::value>>
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AnyInvocable& operator=(std::reference_wrapper<F> f) noexcept {
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*this = AnyInvocable(f);
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return *this;
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}
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// Destructor
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// If not empty, destroys the target.
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~AnyInvocable() = default;
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// absl::AnyInvocable::swap()
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//
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// Exchanges the targets of `*this` and `other`.
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void swap(AnyInvocable& other) noexcept { std::swap(*this, other); }
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// abl::AnyInvocable::operator bool()
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//
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// Returns `true` if `*this` is not empty.
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explicit operator bool() const noexcept { return this->HasValue(); }
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// Invokes the target object of `*this`. `*this` must not be empty.
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//
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// Note: The signature of this function call operator is the same as the
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// template parameter `Sig`.
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using Impl::operator();
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// Equality operators
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// Returns `true` if `*this` is empty.
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friend bool operator==(const AnyInvocable& f, std::nullptr_t) noexcept {
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return !f.HasValue();
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}
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// Returns `true` if `*this` is empty.
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friend bool operator==(std::nullptr_t, const AnyInvocable& f) noexcept {
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return !f.HasValue();
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}
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// Returns `false` if `*this` is empty.
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friend bool operator!=(const AnyInvocable& f, std::nullptr_t) noexcept {
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return f.HasValue();
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}
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// Returns `false` if `*this` is empty.
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friend bool operator!=(std::nullptr_t, const AnyInvocable& f) noexcept {
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return f.HasValue();
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}
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// swap()
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//
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// Exchanges the targets of `f1` and `f2`.
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friend void swap(AnyInvocable& f1, AnyInvocable& f2) noexcept { f1.swap(f2); }
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private:
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// Friending other instantiations is necessary for conversions.
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template <bool /*SigIsNoexcept*/, class /*ReturnType*/, class... /*P*/>
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friend class internal_any_invocable::CoreImpl;
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};
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ABSL_NAMESPACE_END
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} // namespace absl
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#endif // ABSL_FUNCTIONAL_ANY_INVOCABLE_H_
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