// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // NOTE: Header files that do not require the full definition of Callback or // Closure should #include "base/callback_forward.h" instead of this file. #ifndef BASE_CALLBACK_H_ #define BASE_CALLBACK_H_ #include "base/callback_forward.h" #include "base/callback_internal.h" // ----------------------------------------------------------------------------- // Usage documentation // ----------------------------------------------------------------------------- // // Overview: // A callback is similar in concept to a function pointer: it wraps a runnable // object such as a function, method, lambda, or even another callback, allowing // the runnable object to be invoked later via the callback object. // // Unlike function pointers, callbacks are created with base::BindOnce() or // base::BindRepeating() and support partial function application. // // A base::OnceCallback may be Run() at most once; a base::RepeatingCallback may // be Run() any number of times. |is_null()| is guaranteed to return true for a // moved-from callback. // // // The lambda takes two arguments, but the first argument |x| is bound at // // callback creation. // base::OnceCallback cb = base::BindOnce([] (int x, int y) { // return x + y; // }, 1); // // Run() only needs the remaining unbound argument |y|. // printf("1 + 2 = %d\n", std::move(cb).Run(2)); // Prints 3 // printf("cb is null? %s\n", // cb.is_null() ? "true" : "false"); // Prints true // std::move(cb).Run(2); // Crashes since |cb| has already run. // // Callbacks also support cancellation. A common use is binding the receiver // object as a WeakPtr. If that weak pointer is invalidated, calling Run() // will be a no-op. Note that |is_cancelled()| and |is_null()| are distinct: // simply cancelling a callback will not also make it null. // // base::Callback is currently a type alias for base::RepeatingCallback. In the // future, we expect to flip this to default to base::OnceCallback. // // See //docs/callback.md for the full documentation. namespace base { template class OnceCallback : public internal::CallbackBase { public: using RunType = R(Args...); using PolymorphicInvoke = R (*)(internal::BindStateBase*, internal::PassingTraitsType...); constexpr OnceCallback() = default; explicit OnceCallback(internal::BindStateBase* bind_state) : internal::CallbackBase(bind_state) {} OnceCallback(const OnceCallback&) = delete; OnceCallback& operator=(const OnceCallback&) = delete; OnceCallback(OnceCallback&&) noexcept = default; OnceCallback& operator=(OnceCallback&&) noexcept = default; OnceCallback(RepeatingCallback other) : internal::CallbackBase(std::move(other)) {} OnceCallback& operator=(RepeatingCallback other) { static_cast(*this) = std::move(other); return *this; } bool Equals(const OnceCallback& other) const { return EqualsInternal(other); } R Run(Args... args) const& { static_assert(!sizeof(*this), "OnceCallback::Run() may only be invoked on a non-const " "rvalue, i.e. std::move(callback).Run()."); NOTREACHED(); } R Run(Args... args) && { // Move the callback instance into a local variable before the invocation, // that ensures the internal state is cleared after the invocation. // It's not safe to touch |this| after the invocation, since running the // bound function may destroy |this|. OnceCallback cb = std::move(*this); PolymorphicInvoke f = reinterpret_cast(cb.polymorphic_invoke()); return f(cb.bind_state_.get(), std::forward(args)...); } }; template class RepeatingCallback : public internal::CallbackBaseCopyable { public: using RunType = R(Args...); using PolymorphicInvoke = R (*)(internal::BindStateBase*, internal::PassingTraitsType...); constexpr RepeatingCallback() = default; explicit RepeatingCallback(internal::BindStateBase* bind_state) : internal::CallbackBaseCopyable(bind_state) {} // Copyable and movable. RepeatingCallback(const RepeatingCallback&) = default; RepeatingCallback& operator=(const RepeatingCallback&) = default; RepeatingCallback(RepeatingCallback&&) noexcept = default; RepeatingCallback& operator=(RepeatingCallback&&) noexcept = default; bool Equals(const RepeatingCallback& other) const { return EqualsInternal(other); } R Run(Args... args) const& { PolymorphicInvoke f = reinterpret_cast(this->polymorphic_invoke()); return f(this->bind_state_.get(), std::forward(args)...); } R Run(Args... args) && { // Move the callback instance into a local variable before the invocation, // that ensures the internal state is cleared after the invocation. // It's not safe to touch |this| after the invocation, since running the // bound function may destroy |this|. RepeatingCallback cb = std::move(*this); PolymorphicInvoke f = reinterpret_cast(cb.polymorphic_invoke()); return f(cb.bind_state_.get(), std::forward(args)...); } }; } // namespace base #endif // BASE_CALLBACK_H_