naiveproxy/base/bind.h

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2018-01-28 21:32:06 +03:00
// Copyright (c) 2011 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.
#ifndef BASE_BIND_H_
#define BASE_BIND_H_
#include <utility>
#include "base/bind_internal.h"
// -----------------------------------------------------------------------------
// Usage documentation
// -----------------------------------------------------------------------------
//
// See //docs/callback.md for documentation.
//
//
// -----------------------------------------------------------------------------
// Implementation notes
// -----------------------------------------------------------------------------
//
// If you're reading the implementation, before proceeding further, you should
// read the top comment of base/bind_internal.h for a definition of common
// terms and concepts.
namespace base {
namespace internal {
// IsOnceCallback<T> is a std::true_type if |T| is a OnceCallback.
template <typename T>
struct IsOnceCallback : std::false_type {};
template <typename Signature>
struct IsOnceCallback<OnceCallback<Signature>> : std::true_type {};
// Helper to assert that parameter |i| of type |Arg| can be bound, which means:
// - |Arg| can be retained internally as |Storage|.
// - |Arg| can be forwarded as |Unwrapped| to |Param|.
template <size_t i,
typename Arg,
typename Storage,
typename Unwrapped,
typename Param>
struct AssertConstructible {
private:
static constexpr bool param_is_forwardable =
std::is_constructible<Param, Unwrapped>::value;
// Unlike the check for binding into storage below, the check for
// forwardability drops the const qualifier for repeating callbacks. This is
// to try to catch instances where std::move()--which forwards as a const
// reference with repeating callbacks--is used instead of base::Passed().
static_assert(
param_is_forwardable ||
!std::is_constructible<Param, std::decay_t<Unwrapped>&&>::value,
"Bound argument |i| is move-only but will be forwarded by copy. "
"Ensure |Arg| is bound using base::Passed(), not std::move().");
static_assert(
param_is_forwardable,
"Bound argument |i| of type |Arg| cannot be forwarded as "
"|Unwrapped| to the bound functor, which declares it as |Param|.");
static constexpr bool arg_is_storable =
std::is_constructible<Storage, Arg>::value;
static_assert(arg_is_storable ||
!std::is_constructible<Storage, std::decay_t<Arg>&&>::value,
"Bound argument |i| is move-only but will be bound by copy. "
"Ensure |Arg| is mutable and bound using std::move().");
static_assert(arg_is_storable,
"Bound argument |i| of type |Arg| cannot be converted and "
"bound as |Storage|.");
};
// Takes three same-length TypeLists, and applies AssertConstructible for each
// triples.
template <typename Index,
typename Args,
typename UnwrappedTypeList,
typename ParamsList>
struct AssertBindArgsValidity;
template <size_t... Ns,
typename... Args,
typename... Unwrapped,
typename... Params>
struct AssertBindArgsValidity<std::index_sequence<Ns...>,
TypeList<Args...>,
TypeList<Unwrapped...>,
TypeList<Params...>>
: AssertConstructible<Ns, Args, std::decay_t<Args>, Unwrapped, Params>... {
static constexpr bool ok = true;
};
// The implementation of TransformToUnwrappedType below.
template <bool is_once, typename T>
struct TransformToUnwrappedTypeImpl;
template <typename T>
struct TransformToUnwrappedTypeImpl<true, T> {
using StoredType = std::decay_t<T>;
using ForwardType = StoredType&&;
using Unwrapped = decltype(Unwrap(std::declval<ForwardType>()));
};
template <typename T>
struct TransformToUnwrappedTypeImpl<false, T> {
using StoredType = std::decay_t<T>;
using ForwardType = const StoredType&;
using Unwrapped = decltype(Unwrap(std::declval<ForwardType>()));
};
// Transform |T| into `Unwrapped` type, which is passed to the target function.
// Example:
// In is_once == true case,
// `int&&` -> `int&&`,
// `const int&` -> `int&&`,
// `OwnedWrapper<int>&` -> `int*&&`.
// In is_once == false case,
// `int&&` -> `const int&`,
// `const int&` -> `const int&`,
// `OwnedWrapper<int>&` -> `int* const &`.
template <bool is_once, typename T>
using TransformToUnwrappedType =
typename TransformToUnwrappedTypeImpl<is_once, T>::Unwrapped;
// Transforms |Args| into `Unwrapped` types, and packs them into a TypeList.
// If |is_method| is true, tries to dereference the first argument to support
// smart pointers.
template <bool is_once, bool is_method, typename... Args>
struct MakeUnwrappedTypeListImpl {
using Type = TypeList<TransformToUnwrappedType<is_once, Args>...>;
};
// Performs special handling for this pointers.
// Example:
// int* -> int*,
// std::unique_ptr<int> -> int*.
template <bool is_once, typename Receiver, typename... Args>
struct MakeUnwrappedTypeListImpl<is_once, true, Receiver, Args...> {
using UnwrappedReceiver = TransformToUnwrappedType<is_once, Receiver>;
using Type = TypeList<decltype(&*std::declval<UnwrappedReceiver>()),
TransformToUnwrappedType<is_once, Args>...>;
};
template <bool is_once, bool is_method, typename... Args>
using MakeUnwrappedTypeList =
typename MakeUnwrappedTypeListImpl<is_once, is_method, Args...>::Type;
} // namespace internal
// Bind as OnceCallback.
template <typename Functor, typename... Args>
inline OnceCallback<MakeUnboundRunType<Functor, Args...>>
BindOnce(Functor&& functor, Args&&... args) {
static_assert(!internal::IsOnceCallback<std::decay_t<Functor>>() ||
(std::is_rvalue_reference<Functor&&>() &&
!std::is_const<std::remove_reference_t<Functor>>()),
"BindOnce requires non-const rvalue for OnceCallback binding."
" I.e.: base::BindOnce(std::move(callback)).");
// This block checks if each |args| matches to the corresponding params of the
// target function. This check does not affect the behavior of Bind, but its
// error message should be more readable.
using Helper = internal::BindTypeHelper<Functor, Args...>;
using FunctorTraits = typename Helper::FunctorTraits;
using BoundArgsList = typename Helper::BoundArgsList;
using UnwrappedArgsList =
internal::MakeUnwrappedTypeList<true, FunctorTraits::is_method,
Args&&...>;
using BoundParamsList = typename Helper::BoundParamsList;
static_assert(internal::AssertBindArgsValidity<
std::make_index_sequence<Helper::num_bounds>, BoundArgsList,
UnwrappedArgsList, BoundParamsList>::ok,
"The bound args need to be convertible to the target params.");
using BindState = internal::MakeBindStateType<Functor, Args...>;
using UnboundRunType = MakeUnboundRunType<Functor, Args...>;
using Invoker = internal::Invoker<BindState, UnboundRunType>;
using CallbackType = OnceCallback<UnboundRunType>;
// Store the invoke func into PolymorphicInvoke before casting it to
// InvokeFuncStorage, so that we can ensure its type matches to
// PolymorphicInvoke, to which CallbackType will cast back.
using PolymorphicInvoke = typename CallbackType::PolymorphicInvoke;
PolymorphicInvoke invoke_func = &Invoker::RunOnce;
using InvokeFuncStorage = internal::BindStateBase::InvokeFuncStorage;
return CallbackType(new BindState(
reinterpret_cast<InvokeFuncStorage>(invoke_func),
std::forward<Functor>(functor),
std::forward<Args>(args)...));
}
// Bind as RepeatingCallback.
template <typename Functor, typename... Args>
inline RepeatingCallback<MakeUnboundRunType<Functor, Args...>>
BindRepeating(Functor&& functor, Args&&... args) {
static_assert(
!internal::IsOnceCallback<std::decay_t<Functor>>(),
"BindRepeating cannot bind OnceCallback. Use BindOnce with std::move().");
// This block checks if each |args| matches to the corresponding params of the
// target function. This check does not affect the behavior of Bind, but its
// error message should be more readable.
using Helper = internal::BindTypeHelper<Functor, Args...>;
using FunctorTraits = typename Helper::FunctorTraits;
using BoundArgsList = typename Helper::BoundArgsList;
using UnwrappedArgsList =
internal::MakeUnwrappedTypeList<false, FunctorTraits::is_method,
Args&&...>;
using BoundParamsList = typename Helper::BoundParamsList;
static_assert(internal::AssertBindArgsValidity<
std::make_index_sequence<Helper::num_bounds>, BoundArgsList,
UnwrappedArgsList, BoundParamsList>::ok,
"The bound args need to be convertible to the target params.");
using BindState = internal::MakeBindStateType<Functor, Args...>;
using UnboundRunType = MakeUnboundRunType<Functor, Args...>;
using Invoker = internal::Invoker<BindState, UnboundRunType>;
using CallbackType = RepeatingCallback<UnboundRunType>;
// Store the invoke func into PolymorphicInvoke before casting it to
// InvokeFuncStorage, so that we can ensure its type matches to
// PolymorphicInvoke, to which CallbackType will cast back.
using PolymorphicInvoke = typename CallbackType::PolymorphicInvoke;
PolymorphicInvoke invoke_func = &Invoker::Run;
using InvokeFuncStorage = internal::BindStateBase::InvokeFuncStorage;
return CallbackType(new BindState(
reinterpret_cast<InvokeFuncStorage>(invoke_func),
std::forward<Functor>(functor),
std::forward<Args>(args)...));
}
// Unannotated Bind.
// TODO(tzik): Deprecate this and migrate to OnceCallback and
// RepeatingCallback, once they get ready.
template <typename Functor, typename... Args>
inline Callback<MakeUnboundRunType<Functor, Args...>>
Bind(Functor&& functor, Args&&... args) {
return BindRepeating(std::forward<Functor>(functor),
std::forward<Args>(args)...);
}
// Special cases for binding to a base::Callback without extra bound arguments.
template <typename Signature>
OnceCallback<Signature> BindOnce(OnceCallback<Signature> closure) {
return closure;
}
template <typename Signature>
RepeatingCallback<Signature> BindRepeating(
RepeatingCallback<Signature> closure) {
return closure;
}
template <typename Signature>
Callback<Signature> Bind(Callback<Signature> closure) {
return closure;
}
} // namespace base
#endif // BASE_BIND_H_