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https://github.com/RPCS3/llvm-mirror.git
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32824b5285
llvm-svn: 305119
292 lines
7.9 KiB
C++
292 lines
7.9 KiB
C++
//===- llvm/Support/ErrorOr.h - Error Smart Pointer -------------*- C++ -*-===//
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//
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// The LLVM Linker
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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///
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/// Provides ErrorOr<T> smart pointer.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_SUPPORT_ERROROR_H
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#define LLVM_SUPPORT_ERROROR_H
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#include "llvm/Support/AlignOf.h"
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#include <cassert>
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#include <system_error>
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#include <type_traits>
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#include <utility>
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namespace llvm {
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/// \brief Stores a reference that can be changed.
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template <typename T>
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class ReferenceStorage {
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T *Storage;
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public:
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ReferenceStorage(T &Ref) : Storage(&Ref) {}
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operator T &() const { return *Storage; }
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T &get() const { return *Storage; }
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};
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/// \brief Represents either an error or a value T.
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///
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/// ErrorOr<T> is a pointer-like class that represents the result of an
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/// operation. The result is either an error, or a value of type T. This is
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/// designed to emulate the usage of returning a pointer where nullptr indicates
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/// failure. However instead of just knowing that the operation failed, we also
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/// have an error_code and optional user data that describes why it failed.
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///
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/// It is used like the following.
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/// \code
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/// ErrorOr<Buffer> getBuffer();
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///
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/// auto buffer = getBuffer();
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/// if (error_code ec = buffer.getError())
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/// return ec;
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/// buffer->write("adena");
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/// \endcode
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///
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///
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/// Implicit conversion to bool returns true if there is a usable value. The
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/// unary * and -> operators provide pointer like access to the value. Accessing
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/// the value when there is an error has undefined behavior.
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///
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/// When T is a reference type the behavior is slightly different. The reference
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/// is held in a std::reference_wrapper<std::remove_reference<T>::type>, and
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/// there is special handling to make operator -> work as if T was not a
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/// reference.
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///
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/// T cannot be a rvalue reference.
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template<class T>
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class ErrorOr {
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template <class OtherT> friend class ErrorOr;
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static const bool isRef = std::is_reference<T>::value;
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using wrap = ReferenceStorage<typename std::remove_reference<T>::type>;
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public:
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using storage_type = typename std::conditional<isRef, wrap, T>::type;
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private:
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using reference = typename std::remove_reference<T>::type &;
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using const_reference = const typename std::remove_reference<T>::type &;
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using pointer = typename std::remove_reference<T>::type *;
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using const_pointer = const typename std::remove_reference<T>::type *;
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public:
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template <class E>
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ErrorOr(E ErrorCode,
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typename std::enable_if<std::is_error_code_enum<E>::value ||
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std::is_error_condition_enum<E>::value,
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void *>::type = nullptr)
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: HasError(true) {
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new (getErrorStorage()) std::error_code(make_error_code(ErrorCode));
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}
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ErrorOr(std::error_code EC) : HasError(true) {
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new (getErrorStorage()) std::error_code(EC);
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}
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template <class OtherT>
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ErrorOr(OtherT &&Val,
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typename std::enable_if<std::is_convertible<OtherT, T>::value>::type
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* = nullptr)
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: HasError(false) {
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new (getStorage()) storage_type(std::forward<OtherT>(Val));
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}
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ErrorOr(const ErrorOr &Other) {
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copyConstruct(Other);
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}
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template <class OtherT>
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ErrorOr(
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const ErrorOr<OtherT> &Other,
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typename std::enable_if<std::is_convertible<OtherT, T>::value>::type * =
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nullptr) {
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copyConstruct(Other);
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}
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template <class OtherT>
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explicit ErrorOr(
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const ErrorOr<OtherT> &Other,
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typename std::enable_if<
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!std::is_convertible<OtherT, const T &>::value>::type * = nullptr) {
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copyConstruct(Other);
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}
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ErrorOr(ErrorOr &&Other) {
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moveConstruct(std::move(Other));
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}
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template <class OtherT>
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ErrorOr(
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ErrorOr<OtherT> &&Other,
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typename std::enable_if<std::is_convertible<OtherT, T>::value>::type * =
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nullptr) {
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moveConstruct(std::move(Other));
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}
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// This might eventually need SFINAE but it's more complex than is_convertible
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// & I'm too lazy to write it right now.
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template <class OtherT>
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explicit ErrorOr(
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ErrorOr<OtherT> &&Other,
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typename std::enable_if<!std::is_convertible<OtherT, T>::value>::type * =
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nullptr) {
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moveConstruct(std::move(Other));
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}
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ErrorOr &operator=(const ErrorOr &Other) {
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copyAssign(Other);
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return *this;
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}
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ErrorOr &operator=(ErrorOr &&Other) {
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moveAssign(std::move(Other));
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return *this;
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}
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~ErrorOr() {
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if (!HasError)
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getStorage()->~storage_type();
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}
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/// \brief Return false if there is an error.
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explicit operator bool() const {
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return !HasError;
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}
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reference get() { return *getStorage(); }
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const_reference get() const { return const_cast<ErrorOr<T> *>(this)->get(); }
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std::error_code getError() const {
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return HasError ? *getErrorStorage() : std::error_code();
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}
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pointer operator ->() {
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return toPointer(getStorage());
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}
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const_pointer operator->() const { return toPointer(getStorage()); }
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reference operator *() {
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return *getStorage();
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}
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const_reference operator*() const { return *getStorage(); }
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private:
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template <class OtherT>
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void copyConstruct(const ErrorOr<OtherT> &Other) {
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if (!Other.HasError) {
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// Get the other value.
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HasError = false;
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new (getStorage()) storage_type(*Other.getStorage());
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} else {
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// Get other's error.
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HasError = true;
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new (getErrorStorage()) std::error_code(Other.getError());
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}
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}
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template <class T1>
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static bool compareThisIfSameType(const T1 &a, const T1 &b) {
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return &a == &b;
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}
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template <class T1, class T2>
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static bool compareThisIfSameType(const T1 &a, const T2 &b) {
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return false;
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}
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template <class OtherT>
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void copyAssign(const ErrorOr<OtherT> &Other) {
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if (compareThisIfSameType(*this, Other))
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return;
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this->~ErrorOr();
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new (this) ErrorOr(Other);
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}
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template <class OtherT>
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void moveConstruct(ErrorOr<OtherT> &&Other) {
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if (!Other.HasError) {
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// Get the other value.
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HasError = false;
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new (getStorage()) storage_type(std::move(*Other.getStorage()));
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} else {
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// Get other's error.
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HasError = true;
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new (getErrorStorage()) std::error_code(Other.getError());
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}
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}
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template <class OtherT>
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void moveAssign(ErrorOr<OtherT> &&Other) {
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if (compareThisIfSameType(*this, Other))
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return;
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this->~ErrorOr();
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new (this) ErrorOr(std::move(Other));
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}
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pointer toPointer(pointer Val) {
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return Val;
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}
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const_pointer toPointer(const_pointer Val) const { return Val; }
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pointer toPointer(wrap *Val) {
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return &Val->get();
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}
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const_pointer toPointer(const wrap *Val) const { return &Val->get(); }
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storage_type *getStorage() {
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assert(!HasError && "Cannot get value when an error exists!");
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return reinterpret_cast<storage_type*>(TStorage.buffer);
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}
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const storage_type *getStorage() const {
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assert(!HasError && "Cannot get value when an error exists!");
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return reinterpret_cast<const storage_type*>(TStorage.buffer);
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}
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std::error_code *getErrorStorage() {
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assert(HasError && "Cannot get error when a value exists!");
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return reinterpret_cast<std::error_code *>(ErrorStorage.buffer);
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}
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const std::error_code *getErrorStorage() const {
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return const_cast<ErrorOr<T> *>(this)->getErrorStorage();
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}
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union {
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AlignedCharArrayUnion<storage_type> TStorage;
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AlignedCharArrayUnion<std::error_code> ErrorStorage;
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};
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bool HasError : 1;
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};
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template <class T, class E>
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typename std::enable_if<std::is_error_code_enum<E>::value ||
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std::is_error_condition_enum<E>::value,
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bool>::type
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operator==(const ErrorOr<T> &Err, E Code) {
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return Err.getError() == Code;
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}
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} // end namespace llvm
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#endif // LLVM_SUPPORT_ERROROR_H
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