ecency-mobile/ios/Pods/Folly/folly/ExceptionWrapper-inl.h
2019-05-29 14:32:35 +03:00

678 lines
21 KiB
C++

/*
* Copyright 2017-present Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
*
* Author: Eric Niebler <eniebler@fb.com>
*/
#include <folly/Portability.h>
namespace folly {
template <class Fn>
struct exception_wrapper::arg_type_
: public arg_type_<decltype(&Fn::operator())> {};
template <class Ret, class Class, class Arg>
struct exception_wrapper::arg_type_<Ret (Class::*)(Arg)> {
using type = Arg;
};
template <class Ret, class Class, class Arg>
struct exception_wrapper::arg_type_<Ret (Class::*)(Arg) const> {
using type = Arg;
};
template <class Ret, class Arg>
struct exception_wrapper::arg_type_<Ret(Arg)> {
using type = Arg;
};
template <class Ret, class Arg>
struct exception_wrapper::arg_type_<Ret (*)(Arg)> {
using type = Arg;
};
template <class Ret, class Class>
struct exception_wrapper::arg_type_<Ret (Class::*)(...)> {
using type = AnyException;
};
template <class Ret, class Class>
struct exception_wrapper::arg_type_<Ret (Class::*)(...) const> {
using type = AnyException;
};
template <class Ret>
struct exception_wrapper::arg_type_<Ret(...)> {
using type = AnyException;
};
template <class Ret>
struct exception_wrapper::arg_type_<Ret (*)(...)> {
using type = AnyException;
};
template <class Ret, class... Args>
inline Ret exception_wrapper::noop_(Args...) {
return Ret();
}
inline std::type_info const* exception_wrapper::uninit_type_(
exception_wrapper const*) {
return &typeid(void);
}
template <class Ex, typename... As>
inline exception_wrapper::Buffer::Buffer(in_place_type_t<Ex>, As&&... as_) {
::new (static_cast<void*>(&buff_)) Ex(std::forward<As>(as_)...);
}
template <class Ex>
inline Ex& exception_wrapper::Buffer::as() noexcept {
return *static_cast<Ex*>(static_cast<void*>(&buff_));
}
template <class Ex>
inline Ex const& exception_wrapper::Buffer::as() const noexcept {
return *static_cast<Ex const*>(static_cast<void const*>(&buff_));
}
inline std::exception const* exception_wrapper::as_exception_or_null_(
std::exception const& ex) {
return &ex;
}
inline std::exception const* exception_wrapper::as_exception_or_null_(
AnyException) {
return nullptr;
}
static_assert(
!kMicrosoftAbiVer || (kMicrosoftAbiVer >= 1900 && kMicrosoftAbiVer <= 2000),
"exception_wrapper is untested and possibly broken on your version of "
"MSVC");
inline std::uintptr_t exception_wrapper::ExceptionPtr::as_int_(
std::exception_ptr const& ptr,
std::exception const& e) noexcept {
if (!kMicrosoftAbiVer) {
return reinterpret_cast<std::uintptr_t>(&e);
} else {
// On Windows, as of MSVC2017, all thrown exceptions are copied to the stack
// first. Thus, we cannot depend on exception references associated with an
// exception_ptr to be live for the duration of the exception_ptr. We need
// to directly access the heap allocated memory inside the exception_ptr.
//
// std::exception_ptr is an opaque reinterpret_cast of
// std::shared_ptr<__ExceptionPtr>
// __ExceptionPtr is a non-virtual class with two members, a union and a
// bool. The union contains the now-undocumented EHExceptionRecord, which
// contains a struct which contains a void* which points to the heap
// allocated exception.
// We derive the offset to pExceptionObject via manual means.
FOLLY_PACK_PUSH
struct Win32ExceptionPtr {
char offset[8 + 4 * sizeof(void*)];
void* exceptionObject;
} FOLLY_PACK_ATTR;
FOLLY_PACK_POP
auto* win32ExceptionPtr =
reinterpret_cast<std::shared_ptr<Win32ExceptionPtr> const*>(&ptr)
->get();
return reinterpret_cast<std::uintptr_t>(win32ExceptionPtr->exceptionObject);
}
}
inline std::uintptr_t exception_wrapper::ExceptionPtr::as_int_(
std::exception_ptr const&,
AnyException e) noexcept {
return reinterpret_cast<std::uintptr_t>(e.typeinfo_) + 1;
}
inline bool exception_wrapper::ExceptionPtr::has_exception_() const {
return 0 == exception_or_type_ % 2;
}
inline std::exception const* exception_wrapper::ExceptionPtr::as_exception_()
const {
return reinterpret_cast<std::exception const*>(exception_or_type_);
}
inline std::type_info const* exception_wrapper::ExceptionPtr::as_type_() const {
return reinterpret_cast<std::type_info const*>(exception_or_type_ - 1);
}
inline void exception_wrapper::ExceptionPtr::copy_(
exception_wrapper const* from,
exception_wrapper* to) {
::new (static_cast<void*>(&to->eptr_)) ExceptionPtr(from->eptr_);
}
inline void exception_wrapper::ExceptionPtr::move_(
exception_wrapper* from,
exception_wrapper* to) {
::new (static_cast<void*>(&to->eptr_)) ExceptionPtr(std::move(from->eptr_));
delete_(from);
}
inline void exception_wrapper::ExceptionPtr::delete_(exception_wrapper* that) {
that->eptr_.~ExceptionPtr();
that->vptr_ = &uninit_;
}
[[noreturn]] inline void exception_wrapper::ExceptionPtr::throw_(
exception_wrapper const* that) {
std::rethrow_exception(that->eptr_.ptr_);
}
inline std::type_info const* exception_wrapper::ExceptionPtr::type_(
exception_wrapper const* that) {
if (auto e = get_exception_(that)) {
return &typeid(*e);
}
return that->eptr_.as_type_();
}
inline std::exception const* exception_wrapper::ExceptionPtr::get_exception_(
exception_wrapper const* that) {
return that->eptr_.has_exception_() ? that->eptr_.as_exception_() : nullptr;
}
inline exception_wrapper exception_wrapper::ExceptionPtr::get_exception_ptr_(
exception_wrapper const* that) {
return *that;
}
template <class Ex>
inline void exception_wrapper::InPlace<Ex>::copy_(
exception_wrapper const* from,
exception_wrapper* to) {
::new (static_cast<void*>(std::addressof(to->buff_.as<Ex>())))
Ex(from->buff_.as<Ex>());
}
template <class Ex>
inline void exception_wrapper::InPlace<Ex>::move_(
exception_wrapper* from,
exception_wrapper* to) {
::new (static_cast<void*>(std::addressof(to->buff_.as<Ex>())))
Ex(std::move(from->buff_.as<Ex>()));
delete_(from);
}
template <class Ex>
inline void exception_wrapper::InPlace<Ex>::delete_(exception_wrapper* that) {
that->buff_.as<Ex>().~Ex();
that->vptr_ = &uninit_;
}
template <class Ex>
[[noreturn]] inline void exception_wrapper::InPlace<Ex>::throw_(
exception_wrapper const* that) {
throw that->buff_.as<Ex>(); // @nolint
}
template <class Ex>
inline std::type_info const* exception_wrapper::InPlace<Ex>::type_(
exception_wrapper const*) {
return &typeid(Ex);
}
template <class Ex>
inline std::exception const* exception_wrapper::InPlace<Ex>::get_exception_(
exception_wrapper const* that) {
return as_exception_or_null_(that->buff_.as<Ex>());
}
template <class Ex>
inline exception_wrapper exception_wrapper::InPlace<Ex>::get_exception_ptr_(
exception_wrapper const* that) {
try {
throw_(that);
} catch (Ex const& ex) {
return exception_wrapper{std::current_exception(), ex};
}
}
template <class Ex>
[[noreturn]] inline void exception_wrapper::SharedPtr::Impl<Ex>::throw_()
const {
throw ex_; // @nolint
}
template <class Ex>
inline std::exception const*
exception_wrapper::SharedPtr::Impl<Ex>::get_exception_() const noexcept {
return as_exception_or_null_(ex_);
}
template <class Ex>
inline exception_wrapper
exception_wrapper::SharedPtr::Impl<Ex>::get_exception_ptr_() const noexcept {
try {
throw_();
} catch (Ex& ex) {
return exception_wrapper{std::current_exception(), ex};
}
}
inline void exception_wrapper::SharedPtr::copy_(
exception_wrapper const* from,
exception_wrapper* to) {
::new (static_cast<void*>(std::addressof(to->sptr_))) SharedPtr(from->sptr_);
}
inline void exception_wrapper::SharedPtr::move_(
exception_wrapper* from,
exception_wrapper* to) {
::new (static_cast<void*>(std::addressof(to->sptr_)))
SharedPtr(std::move(from->sptr_));
delete_(from);
}
inline void exception_wrapper::SharedPtr::delete_(exception_wrapper* that) {
that->sptr_.~SharedPtr();
that->vptr_ = &uninit_;
}
[[noreturn]] inline void exception_wrapper::SharedPtr::throw_(
exception_wrapper const* that) {
that->sptr_.ptr_->throw_();
folly::assume_unreachable();
}
inline std::type_info const* exception_wrapper::SharedPtr::type_(
exception_wrapper const* that) {
return that->sptr_.ptr_->info_;
}
inline std::exception const* exception_wrapper::SharedPtr::get_exception_(
exception_wrapper const* that) {
return that->sptr_.ptr_->get_exception_();
}
inline exception_wrapper exception_wrapper::SharedPtr::get_exception_ptr_(
exception_wrapper const* that) {
return that->sptr_.ptr_->get_exception_ptr_();
}
template <class Ex, typename... As>
inline exception_wrapper::exception_wrapper(
ThrownTag,
in_place_type_t<Ex>,
As&&... as)
: eptr_{std::make_exception_ptr(Ex(std::forward<As>(as)...)),
reinterpret_cast<std::uintptr_t>(std::addressof(typeid(Ex))) + 1u},
vptr_(&ExceptionPtr::ops_) {}
template <class Ex, typename... As>
inline exception_wrapper::exception_wrapper(
OnHeapTag,
in_place_type_t<Ex>,
As&&... as)
: sptr_{std::make_shared<SharedPtr::Impl<Ex>>(std::forward<As>(as)...)},
vptr_(&SharedPtr::ops_) {}
template <class Ex, typename... As>
inline exception_wrapper::exception_wrapper(
InSituTag,
in_place_type_t<Ex>,
As&&... as)
: buff_{in_place_type<Ex>, std::forward<As>(as)...},
vptr_(&InPlace<Ex>::ops_) {}
inline exception_wrapper::exception_wrapper(exception_wrapper&& that) noexcept
: exception_wrapper{} {
(vptr_ = that.vptr_)->move_(&that, this); // Move into *this, won't throw
}
inline exception_wrapper::exception_wrapper(
exception_wrapper const& that) noexcept
: exception_wrapper{} {
that.vptr_->copy_(&that, this); // Copy into *this, won't throw
vptr_ = that.vptr_;
}
// If `this == &that`, this move assignment operator leaves the object in a
// valid but unspecified state.
inline exception_wrapper& exception_wrapper::operator=(
exception_wrapper&& that) noexcept {
vptr_->delete_(this); // Free the current exception
(vptr_ = that.vptr_)->move_(&that, this); // Move into *this, won't throw
return *this;
}
inline exception_wrapper& exception_wrapper::operator=(
exception_wrapper const& that) noexcept {
exception_wrapper(that).swap(*this);
return *this;
}
inline exception_wrapper::~exception_wrapper() {
reset();
}
template <class Ex>
inline exception_wrapper::exception_wrapper(
std::exception_ptr ptr,
Ex& ex) noexcept
: eptr_{ptr, ExceptionPtr::as_int_(ptr, ex)}, vptr_(&ExceptionPtr::ops_) {
assert(eptr_.ptr_);
}
namespace exception_wrapper_detail {
template <class Ex>
Ex&& dont_slice(Ex&& ex) {
assert(typeid(ex) == typeid(_t<std::decay<Ex>>) ||
!"Dynamic and static exception types don't match. Exception would "
"be sliced when storing in exception_wrapper.");
return std::forward<Ex>(ex);
}
} // namespace exception_wrapper_detail
template <
class Ex,
class Ex_,
FOLLY_REQUIRES_DEF(Conjunction<
exception_wrapper::IsStdException<Ex_>,
exception_wrapper::IsRegularExceptionType<Ex_>>::value)>
inline exception_wrapper::exception_wrapper(Ex&& ex)
: exception_wrapper{
PlacementOf<Ex_>{},
in_place_type<Ex_>,
exception_wrapper_detail::dont_slice(std::forward<Ex>(ex))} {}
template <
class Ex,
class Ex_,
FOLLY_REQUIRES_DEF(exception_wrapper::IsRegularExceptionType<Ex_>::value)>
inline exception_wrapper::exception_wrapper(in_place_t, Ex&& ex)
: exception_wrapper{
PlacementOf<Ex_>{},
in_place_type<Ex_>,
exception_wrapper_detail::dont_slice(std::forward<Ex>(ex))} {}
template <
class Ex,
typename... As,
FOLLY_REQUIRES_DEF(exception_wrapper::IsRegularExceptionType<Ex>::value)>
inline exception_wrapper::exception_wrapper(in_place_type_t<Ex>, As&&... as)
: exception_wrapper{PlacementOf<Ex>{},
in_place_type<Ex>,
std::forward<As>(as)...} {}
inline void exception_wrapper::swap(exception_wrapper& that) noexcept {
exception_wrapper tmp(std::move(that));
that = std::move(*this);
*this = std::move(tmp);
}
inline exception_wrapper::operator bool() const noexcept {
return vptr_ != &uninit_;
}
inline bool exception_wrapper::operator!() const noexcept {
return !static_cast<bool>(*this);
}
inline void exception_wrapper::reset() {
vptr_->delete_(this);
}
inline bool exception_wrapper::has_exception_ptr() const noexcept {
return vptr_ == &ExceptionPtr::ops_;
}
inline std::exception* exception_wrapper::get_exception() noexcept {
return const_cast<std::exception*>(vptr_->get_exception_(this));
}
inline std::exception const* exception_wrapper::get_exception() const noexcept {
return vptr_->get_exception_(this);
}
template <typename Ex>
inline Ex* exception_wrapper::get_exception() noexcept {
Ex* object{nullptr};
with_exception([&](Ex& ex) { object = &ex; });
return object;
}
template <typename Ex>
inline Ex const* exception_wrapper::get_exception() const noexcept {
Ex const* object{nullptr};
with_exception([&](Ex const& ex) { object = &ex; });
return object;
}
inline std::exception_ptr const&
exception_wrapper::to_exception_ptr() noexcept {
// Computing an exception_ptr is expensive so cache the result.
return (*this = vptr_->get_exception_ptr_(this)).eptr_.ptr_;
}
inline std::exception_ptr exception_wrapper::to_exception_ptr() const noexcept {
return vptr_->get_exception_ptr_(this).eptr_.ptr_;
}
inline std::type_info const& exception_wrapper::none() noexcept {
return typeid(void);
}
inline std::type_info const& exception_wrapper::unknown() noexcept {
return typeid(Unknown);
}
inline std::type_info const& exception_wrapper::type() const noexcept {
return *vptr_->type_(this);
}
inline folly::fbstring exception_wrapper::what() const {
if (auto e = get_exception()) {
return class_name() + ": " + e->what();
}
return class_name();
}
inline folly::fbstring exception_wrapper::class_name() const {
auto& ti = type();
return ti == none()
? ""
: ti == unknown() ? "<unknown exception>" : folly::demangle(ti);
}
template <class Ex>
inline bool exception_wrapper::is_compatible_with() const noexcept {
return with_exception([](Ex const&) {});
}
[[noreturn]] inline void exception_wrapper::throw_exception() const {
vptr_->throw_(this);
onNoExceptionError(__func__);
}
template <class Ex>
[[noreturn]] inline void exception_wrapper::throw_with_nested(Ex&& ex) const {
try {
throw_exception();
} catch (...) {
std::throw_with_nested(std::forward<Ex>(ex));
}
}
template <class CatchFn, bool IsConst>
struct exception_wrapper::ExceptionTypeOf {
using type = arg_type<_t<std::decay<CatchFn>>>;
static_assert(
std::is_reference<type>::value,
"Always catch exceptions by reference.");
static_assert(
!IsConst || std::is_const<_t<std::remove_reference<type>>>::value,
"handle() or with_exception() called on a const exception_wrapper "
"and asked to catch a non-const exception. Handler will never fire. "
"Catch exception by const reference to fix this.");
};
// Nests a throw in the proper try/catch blocks
template <bool IsConst>
struct exception_wrapper::HandleReduce {
bool* handled_;
template <
class ThrowFn,
class CatchFn,
FOLLY_REQUIRES(!IsCatchAll<CatchFn>::value)>
auto operator()(ThrowFn&& th, CatchFn& ca) const {
using Ex = _t<ExceptionTypeOf<CatchFn, IsConst>>;
return [th = std::forward<ThrowFn>(th), &ca, handled_ = handled_] {
try {
th();
} catch (Ex& e) {
// If we got here because a catch function threw, rethrow.
if (*handled_) {
throw;
}
*handled_ = true;
ca(e);
}
};
}
template <
class ThrowFn,
class CatchFn,
FOLLY_REQUIRES(IsCatchAll<CatchFn>::value)>
auto operator()(ThrowFn&& th, CatchFn& ca) const {
return [th = std::forward<ThrowFn>(th), &ca, handled_ = handled_] {
try {
th();
} catch (...) {
// If we got here because a catch function threw, rethrow.
if (*handled_) {
throw;
}
*handled_ = true;
ca();
}
};
}
};
// When all the handlers expect types derived from std::exception, we can
// sometimes invoke the handlers without throwing any exceptions.
template <bool IsConst>
struct exception_wrapper::HandleStdExceptReduce {
using StdEx = AddConstIf<IsConst, std::exception>;
template <
class ThrowFn,
class CatchFn,
FOLLY_REQUIRES(!IsCatchAll<CatchFn>::value)>
auto operator()(ThrowFn&& th, CatchFn& ca) const {
using Ex = _t<ExceptionTypeOf<CatchFn, IsConst>>;
return
[th = std::forward<ThrowFn>(th), &ca](auto&& continuation) -> StdEx* {
if (auto e = const_cast<StdEx*>(th(continuation))) {
if (auto e2 = dynamic_cast<_t<std::add_pointer<Ex>>>(e)) {
ca(*e2);
} else {
return e;
}
}
return nullptr;
};
}
template <
class ThrowFn,
class CatchFn,
FOLLY_REQUIRES(IsCatchAll<CatchFn>::value)>
auto operator()(ThrowFn&& th, CatchFn& ca) const {
return [th = std::forward<ThrowFn>(th), &ca](auto &&) -> StdEx* {
// The following continuation causes ca() to execute if *this contains
// an exception /not/ derived from std::exception.
auto continuation = [&ca](StdEx* e) {
return e != nullptr ? e : ((void)ca(), nullptr);
};
if (th(continuation) != nullptr) {
ca();
}
return nullptr;
};
}
};
// Called when some types in the catch clauses are not derived from
// std::exception.
template <class This, class... CatchFns>
inline void
exception_wrapper::handle_(std::false_type, This& this_, CatchFns&... fns) {
bool handled = false;
auto impl = exception_wrapper_detail::fold(
HandleReduce<std::is_const<This>::value>{&handled},
[&] { this_.throw_exception(); },
fns...);
impl();
}
// Called when all types in the catch clauses are either derived from
// std::exception or a catch-all clause.
template <class This, class... CatchFns>
inline void
exception_wrapper::handle_(std::true_type, This& this_, CatchFns&... fns) {
using StdEx = exception_wrapper_detail::
AddConstIf<std::is_const<This>::value, std::exception>;
auto impl = exception_wrapper_detail::fold(
HandleStdExceptReduce<std::is_const<This>::value>{},
[&](auto&& continuation) {
return continuation(
const_cast<StdEx*>(this_.vptr_->get_exception_(&this_)));
},
fns...);
// This continuation gets evaluated if CatchFns... does not include a
// catch-all handler. It is a no-op.
auto continuation = [](StdEx* ex) { return ex; };
if (nullptr != impl(continuation)) {
this_.throw_exception();
}
}
namespace exception_wrapper_detail {
template <class Ex, class Fn>
struct catch_fn {
Fn fn_;
auto operator()(Ex& ex) {
return fn_(ex);
}
};
template <class Ex, class Fn>
inline catch_fn<Ex, Fn> catch_(Ex*, Fn fn) {
return {std::move(fn)};
}
template <class Fn>
inline Fn catch_(void const*, Fn fn) {
return fn;
}
} // namespace exception_wrapper_detail
template <class Ex, class This, class Fn>
inline bool exception_wrapper::with_exception_(This& this_, Fn fn_) {
if (!this_) {
return false;
}
bool handled = true;
auto fn = exception_wrapper_detail::catch_(
static_cast<Ex*>(nullptr), std::move(fn_));
auto&& all = [&](...) { handled = false; };
handle_(IsStdException<arg_type<decltype(fn)>>{}, this_, fn, all);
return handled;
}
template <class Ex, class Fn>
inline bool exception_wrapper::with_exception(Fn fn) {
return with_exception_<Ex>(*this, std::move(fn));
}
template <class Ex, class Fn>
inline bool exception_wrapper::with_exception(Fn fn) const {
return with_exception_<Ex const>(*this, std::move(fn));
}
template <class... CatchFns>
inline void exception_wrapper::handle(CatchFns... fns) {
using AllStdEx =
exception_wrapper_detail::AllOf<IsStdException, arg_type<CatchFns>...>;
if (!*this) {
onNoExceptionError(__func__);
}
this->handle_(AllStdEx{}, *this, fns...);
}
template <class... CatchFns>
inline void exception_wrapper::handle(CatchFns... fns) const {
using AllStdEx =
exception_wrapper_detail::AllOf<IsStdException, arg_type<CatchFns>...>;
if (!*this) {
onNoExceptionError(__func__);
}
this->handle_(AllStdEx{}, *this, fns...);
}
} // namespace folly