verdnatura-chat/ios/Pods/Folly/folly/Try.h

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C++

/*
* Copyright 2014-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.
*/
#pragma once
#include <folly/ExceptionWrapper.h>
#include <folly/Likely.h>
#include <folly/Memory.h>
#include <folly/Portability.h>
#include <folly/Unit.h>
#include <folly/Utility.h>
#include <folly/functional/Invoke.h>
#include <folly/lang/Exception.h>
#include <exception>
#include <stdexcept>
#include <type_traits>
#include <utility>
namespace folly {
class FOLLY_EXPORT TryException : public std::logic_error {
public:
using std::logic_error::logic_error;
};
class FOLLY_EXPORT UsingUninitializedTry : public TryException {
public:
UsingUninitializedTry() : TryException("Using uninitialized try") {}
};
/*
* Try<T> is a wrapper that contains either an instance of T, an exception, or
* nothing. Exceptions are stored as exception_wrappers so that the user can
* minimize rethrows if so desired.
*
* To represent success or a captured exception, use Try<Unit>.
*/
template <class T>
class Try {
static_assert(
!std::is_reference<T>::value,
"Try may not be used with reference types");
enum class Contains {
VALUE,
EXCEPTION,
NOTHING,
};
public:
/*
* The value type for the Try
*/
typedef T element_type;
/*
* Construct an empty Try
*/
Try() noexcept : contains_(Contains::NOTHING) {}
/*
* Construct a Try with a value by copy
*
* @param v The value to copy in
*/
explicit Try(const T& v) noexcept(
std::is_nothrow_copy_constructible<T>::value)
: contains_(Contains::VALUE), value_(v) {}
/*
* Construct a Try with a value by move
*
* @param v The value to move in
*/
explicit Try(T&& v) noexcept(std::is_nothrow_move_constructible<T>::value)
: contains_(Contains::VALUE), value_(std::move(v)) {}
template <typename... Args>
explicit Try(in_place_t, Args&&... args) noexcept(
std::is_nothrow_constructible<T, Args&&...>::value)
: contains_(Contains::VALUE), value_(static_cast<Args&&>(args)...) {}
/// Implicit conversion from Try<void> to Try<Unit>
template <class T2 = T>
/* implicit */
Try(typename std::enable_if<std::is_same<Unit, T2>::value, Try<void> const&>::
type t) noexcept;
/*
* Construct a Try with an exception_wrapper
*
* @param e The exception_wrapper
*/
explicit Try(exception_wrapper e) noexcept
: contains_(Contains::EXCEPTION), e_(std::move(e)) {}
// Move constructor
Try(Try<T>&& t) noexcept(std::is_nothrow_move_constructible<T>::value);
// Move assigner
Try& operator=(Try<T>&& t) noexcept(
std::is_nothrow_move_constructible<T>::value);
// Copy constructor
Try(const Try& t) noexcept(std::is_nothrow_copy_constructible<T>::value);
// Copy assigner
Try& operator=(const Try& t) noexcept(
std::is_nothrow_copy_constructible<T>::value);
~Try();
/*
* In-place construct the value in the Try object.
*
* Destroys any previous value prior to constructing the new value.
* Leaves *this in an empty state if the construction of T throws.
*
* @returns reference to the newly constructed value.
*/
template <typename... Args>
T& emplace(Args&&... args) noexcept(
std::is_nothrow_constructible<T, Args&&...>::value);
/*
* In-place construct an exception in the Try object.
*
* Destroys any previous value prior to constructing the new value.
* Leaves *this in an empty state if the construction of the exception_wrapper
* throws.
*
* Any arguments passed to emplaceException() are forwarded on to the
* exception_wrapper constructor.
*
* @returns reference to the newly constructed exception_wrapper.
*/
template <typename... Args>
exception_wrapper& emplaceException(Args&&... args) noexcept(
std::is_nothrow_constructible<exception_wrapper, Args&&...>::value);
/*
* Get a mutable reference to the contained value. If the Try contains an
* exception it will be rethrown.
*
* @returns mutable reference to the contained value
*/
T& value() &;
/*
* Get a rvalue reference to the contained value. If the Try contains an
* exception it will be rethrown.
*
* @returns rvalue reference to the contained value
*/
T&& value() &&;
/*
* Get a const reference to the contained value. If the Try contains an
* exception it will be rethrown.
*
* @returns const reference to the contained value
*/
const T& value() const&;
/*
* Get a const rvalue reference to the contained value. If the Try contains an
* exception it will be rethrown.
*
* @returns const rvalue reference to the contained value
*/
const T&& value() const&&;
/*
* If the Try contains an exception, rethrow it. Otherwise do nothing.
*/
void throwIfFailed() const;
/*
* Const dereference operator. If the Try contains an exception it will be
* rethrown.
*
* @returns const reference to the contained value
*/
const T& operator*() const& {
return value();
}
/*
* Dereference operator. If the Try contains an exception it will be rethrown.
*
* @returns mutable reference to the contained value
*/
T& operator*() & {
return value();
}
/*
* Mutable rvalue dereference operator. If the Try contains an exception it
* will be rethrown.
*
* @returns rvalue reference to the contained value
*/
T&& operator*() && {
return std::move(value());
}
/*
* Const rvalue dereference operator. If the Try contains an exception it
* will be rethrown.
*
* @returns rvalue reference to the contained value
*/
const T&& operator*() const&& {
return std::move(value());
}
/*
* Const arrow operator. If the Try contains an exception it will be
* rethrown.
*
* @returns const reference to the contained value
*/
const T* operator->() const {
return &value();
}
/*
* Arrow operator. If the Try contains an exception it will be rethrown.
*
* @returns mutable reference to the contained value
*/
T* operator->() {
return &value();
}
/*
* @returns True if the Try contains a value, false otherwise
*/
bool hasValue() const {
return contains_ == Contains::VALUE;
}
/*
* @returns True if the Try contains an exception, false otherwise
*/
bool hasException() const {
return contains_ == Contains::EXCEPTION;
}
/*
* @returns True if the Try contains an exception of type Ex, false otherwise
*/
template <class Ex>
bool hasException() const {
return hasException() && e_.is_compatible_with<Ex>();
}
exception_wrapper& exception() & {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return e_;
}
exception_wrapper&& exception() && {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return std::move(e_);
}
const exception_wrapper& exception() const& {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return e_;
}
const exception_wrapper&& exception() const&& {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return std::move(e_);
}
/*
* @returns a pointer to the `std::exception` held by `*this`, if one is held;
* otherwise, returns `nullptr`.
*/
std::exception* tryGetExceptionObject() {
return hasException() ? e_.get_exception() : nullptr;
}
std::exception const* tryGetExceptionObject() const {
return hasException() ? e_.get_exception() : nullptr;
}
/*
* @returns a pointer to the `Ex` held by `*this`, if it holds an object whose
* type `From` permits `std::is_convertible<From*, Ex*>`; otherwise,
* returns `nullptr`.
*/
template <class E>
E* tryGetExceptionObject() {
return hasException() ? e_.get_exception<E>() : nullptr;
}
template <class E>
E const* tryGetExceptionObject() const {
return hasException() ? e_.get_exception<E>() : nullptr;
}
/*
* If the Try contains an exception and it is of type Ex, execute func(Ex)
*
* @param func a function that takes a single parameter of type const Ex&
*
* @returns True if the Try held an Ex and func was executed, false otherwise
*/
template <class Ex, class F>
bool withException(F func) {
if (!hasException()) {
return false;
}
return e_.with_exception<Ex>(std::move(func));
}
template <class Ex, class F>
bool withException(F func) const {
if (!hasException()) {
return false;
}
return e_.with_exception<Ex>(std::move(func));
}
/*
* If the Try contains an exception and it is of type compatible with Ex as
* deduced from the first parameter of func, execute func(Ex)
*
* @param func a function that takes a single parameter of type const Ex&
*
* @returns True if the Try held an Ex and func was executed, false otherwise
*/
template <class F>
bool withException(F func) {
if (!hasException()) {
return false;
}
return e_.with_exception(std::move(func));
}
template <class F>
bool withException(F func) const {
if (!hasException()) {
return false;
}
return e_.with_exception(std::move(func));
}
template <bool isTry, typename R>
typename std::enable_if<isTry, R>::type get() {
return std::forward<R>(*this);
}
template <bool isTry, typename R>
typename std::enable_if<!isTry, R>::type get() {
return std::forward<R>(value());
}
private:
void destroy() noexcept;
Contains contains_;
union {
T value_;
exception_wrapper e_;
};
};
/*
* Specialization of Try for void value type. Encapsulates either success or an
* exception.
*/
template <>
class Try<void> {
public:
/*
* The value type for the Try
*/
typedef void element_type;
// Construct a Try holding a successful and void result
Try() noexcept : hasValue_(true) {}
/*
* Construct a Try with an exception_wrapper
*
* @param e The exception_wrapper
*/
explicit Try(exception_wrapper e) noexcept
: hasValue_(false), e_(std::move(e)) {}
// Copy assigner
inline Try& operator=(const Try<void>& t) noexcept;
// Copy constructor
Try(const Try<void>& t) noexcept : hasValue_(t.hasValue_) {
if (t.hasException()) {
new (&e_) exception_wrapper(t.e_);
}
}
~Try() {
if (hasException()) {
e_.~exception_wrapper();
}
}
/*
* In-place construct a 'void' value into this Try object.
*
* This has the effect of clearing any existing exception stored in the
* Try object.
*/
void emplace() noexcept {
if (hasException()) {
e_.~exception_wrapper();
hasValue_ = true;
}
}
/*
* In-place construct an exception in the Try object.
*
* Destroys any previous value prior to constructing the new value.
* Leaves *this in an empty state if the construction of the exception_wrapper
* throws.
*
* Any arguments passed to emplaceException() are forwarded on to the
* exception_wrapper constructor.
*
* @returns reference to the newly constructed exception_wrapper.
*/
template <typename... Args>
exception_wrapper& emplaceException(Args&&... args) noexcept(
std::is_nothrow_constructible<exception_wrapper, Args&&...>::value);
// If the Try contains an exception, throws it
void value() const {
throwIfFailed();
}
// Dereference operator. If the Try contains an exception, throws it
void operator*() const {
return value();
}
// If the Try contains an exception, throws it
inline void throwIfFailed() const;
// @returns False if the Try contains an exception, true otherwise
bool hasValue() const {
return hasValue_;
}
// @returns True if the Try contains an exception, false otherwise
bool hasException() const {
return !hasValue_;
}
// @returns True if the Try contains an exception of type Ex, false otherwise
template <class Ex>
bool hasException() const {
return hasException() && e_.is_compatible_with<Ex>();
}
/*
* @throws TryException if the Try doesn't contain an exception
*
* @returns mutable reference to the exception contained by this Try
*/
exception_wrapper& exception() & {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return e_;
}
exception_wrapper&& exception() && {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return std::move(e_);
}
const exception_wrapper& exception() const& {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return e_;
}
const exception_wrapper&& exception() const&& {
if (!hasException()) {
throw_exception<TryException>("Try does not contain an exception");
}
return std::move(e_);
}
/*
* @returns a pointer to the `std::exception` held by `*this`, if one is held;
* otherwise, returns `nullptr`.
*/
std::exception* tryGetExceptionObject() {
return hasException() ? e_.get_exception() : nullptr;
}
std::exception const* tryGetExceptionObject() const {
return hasException() ? e_.get_exception() : nullptr;
}
/*
* @returns a pointer to the `Ex` held by `*this`, if it holds an object whose
* type `From` permits `std::is_convertible<From*, Ex*>`; otherwise,
* returns `nullptr`.
*/
template <class E>
E* tryGetExceptionObject() {
return hasException() ? e_.get_exception<E>() : nullptr;
}
template <class E>
E const* tryGetExceptionObject() const {
return hasException() ? e_.get_exception<E>() : nullptr;
}
/*
* If the Try contains an exception and it is of type Ex, execute func(Ex)
*
* @param func a function that takes a single parameter of type const Ex&
*
* @returns True if the Try held an Ex and func was executed, false otherwise
*/
template <class Ex, class F>
bool withException(F func) {
if (!hasException()) {
return false;
}
return e_.with_exception<Ex>(std::move(func));
}
template <class Ex, class F>
bool withException(F func) const {
if (!hasException()) {
return false;
}
return e_.with_exception<Ex>(std::move(func));
}
/*
* If the Try contains an exception and it is of type compatible with Ex as
* deduced from the first parameter of func, execute func(Ex)
*
* @param func a function that takes a single parameter of type const Ex&
*
* @returns True if the Try held an Ex and func was executed, false otherwise
*/
template <class F>
bool withException(F func) {
if (!hasException()) {
return false;
}
return e_.with_exception(std::move(func));
}
template <class F>
bool withException(F func) const {
if (!hasException()) {
return false;
}
return e_.with_exception(std::move(func));
}
template <bool, typename R>
R get() {
return std::forward<R>(*this);
}
private:
bool hasValue_;
union {
exception_wrapper e_;
};
};
/*
* @param f a function to execute and capture the result of (value or exception)
*
* @returns Try holding the result of f
*/
template <typename F>
typename std::enable_if<
!std::is_same<invoke_result_t<F>, void>::value,
Try<invoke_result_t<F>>>::type
makeTryWith(F&& f);
/*
* Specialization of makeTryWith for void return
*
* @param f a function to execute and capture the result of
*
* @returns Try<void> holding the result of f
*/
template <typename F>
typename std::
enable_if<std::is_same<invoke_result_t<F>, void>::value, Try<void>>::type
makeTryWith(F&& f);
/*
* Try to in-place construct a new value from the specified arguments.
*
* If T's constructor throws an exception then this is caught and the Try<T>
* object is initialised to hold that exception.
*
* @param args Are passed to T's constructor.
*/
template <typename T, typename... Args>
T* tryEmplace(Try<T>& t, Args&&... args) noexcept;
/*
* Overload of tryEmplace() for Try<void>.
*/
inline void tryEmplace(Try<void>& t) noexcept;
/*
* Try to in-place construct a new value from the result of a function.
*
* If the function completes successfully then attempts to in-place construct
* a value of type, T, passing the result of the function as the only parameter.
*
* If either the call to the function completes with an exception or the
* constructor completes with an exception then the exception is caught and
* stored in the Try object.
*
* @returns A pointer to the newly constructed object if it completed
* successfully, otherwise returns nullptr if the operation completed with
* an exception.
*/
template <typename T, typename Func>
T* tryEmplaceWith(Try<T>& t, Func&& func) noexcept;
/*
* Specialization of tryEmplaceWith() for Try<void>.
*
* Calls func() and if it doesn't throw an exception then calls t.emplace().
* If func() throws then captures the exception in t using t.emplaceException().
*
* Func must be callable with zero parameters and must return void.
*
* @returns true if func() completed without an exception, false if func()
* threw an exception.
*/
template <typename Func>
bool tryEmplaceWith(Try<void>& t, Func&& func) noexcept;
/**
* Tuple<Try<Type>...> -> std::tuple<Type...>
*
* Unwraps a tuple-like type containing a sequence of Try<Type> instances to
* std::tuple<Type>
*/
template <typename Tuple>
auto unwrapTryTuple(Tuple&&);
} // namespace folly
#include <folly/Try-inl.h>