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// Copyright 2016 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 PDFIUM_THIRD_PARTY_BASE_OPTIONAL_H_
#define PDFIUM_THIRD_PARTY_BASE_OPTIONAL_H_

#include <type_traits>

#include "third_party/base/logging.h"

namespace pdfium {

// Specification:
// http://en.cppreference.com/w/cpp/utility/optional/in_place_t
struct in_place_t {};

// Specification:
// http://en.cppreference.com/w/cpp/utility/optional/nullopt_t
struct nullopt_t {
  constexpr explicit nullopt_t(int) {}
};

// Specification:
// http://en.cppreference.com/w/cpp/utility/optional/in_place
constexpr in_place_t in_place = {};

// Specification:
// http://en.cppreference.com/w/cpp/utility/optional/nullopt
constexpr nullopt_t nullopt(0);

namespace internal {

template <typename T, bool = std::is_trivially_destructible<T>::value>
struct OptionalStorage {
  // Initializing |empty_| here instead of using default member initializing
  // to avoid errors in g++ 4.8.
  constexpr OptionalStorage() : empty_('\0') {}

  constexpr explicit OptionalStorage(const T& value)
      : is_null_(false), value_(value) {}

  // TODO(alshabalin): Can't use 'constexpr' with std::move until C++14.
  explicit OptionalStorage(T&& value)
      : is_null_(false), value_(std::move(value)) {}

  // TODO(alshabalin): Can't use 'constexpr' with std::forward until C++14.
  template <class... Args>
  explicit OptionalStorage(in_place_t, Args&&... args)
      : is_null_(false), value_(std::forward<Args>(args)...) {}

  // When T is not trivially destructible we must call its
  // destructor before deallocating its memory.
  ~OptionalStorage() {
    if (!is_null_)
      value_.~T();
  }

  bool is_null_ = true;
  union {
    // |empty_| exists so that the union will always be initialized, even when
    // it doesn't contain a value. Union members must be initialized for the
    // constructor to be 'constexpr'.
    char empty_;
    T value_;
  };
};

template <typename T>
struct OptionalStorage<T, true> {
  // Initializing |empty_| here instead of using default member initializing
  // to avoid errors in g++ 4.8.
  constexpr OptionalStorage() : empty_('\0') {}

  constexpr explicit OptionalStorage(const T& value)
      : is_null_(false), value_(value) {}

  // TODO(alshabalin): Can't use 'constexpr' with std::move until C++14.
  explicit OptionalStorage(T&& value)
      : is_null_(false), value_(std::move(value)) {}

  // TODO(alshabalin): Can't use 'constexpr' with std::forward until C++14.
  template <class... Args>
  explicit OptionalStorage(in_place_t, Args&&... args)
      : is_null_(false), value_(std::forward<Args>(args)...) {}

  // When T is trivially destructible (i.e. its destructor does nothing) there
  // is no need to call it. Explicitly defaulting the destructor means it's not
  // user-provided. Those two together make this destructor trivial.
  ~OptionalStorage() = default;

  bool is_null_ = true;
  union {
    // |empty_| exists so that the union will always be initialized, even when
    // it doesn't contain a value. Union members must be initialized for the
    // constructor to be 'constexpr'.
    char empty_;
    T value_;
  };
};

}  // namespace internal

// pdfium::Optional is a PDFium version of the C++17 optional class,
// based on the Chromium version:
// std::optional documentation:
// http://en.cppreference.com/w/cpp/utility/optional
// Chromium documentation:
// https://chromium.googlesource.com/chromium/src/+/master/docs/optional.md
//
// These are the differences between the specification and the implementation:
// - The constructor and emplace method using initializer_list are not
//   implemented because 'initializer_list' is banned from Chromium.
// - Constructors do not use 'constexpr' as it is a C++14 extension.
// - 'constexpr' might be missing in some places for reasons specified locally.
// - No exceptions are thrown, because they are banned from Chromium.
// - All the non-members are in the 'pdifum' namespace instead of 'std'.
template <typename T>
class Optional {
 public:
  using value_type = T;

  constexpr Optional() = default;

  constexpr Optional(nullopt_t) {}

  Optional(const Optional& other) {
    if (!other.storage_.is_null_)
      Init(other.value());
  }

  Optional(Optional&& other) {
    if (!other.storage_.is_null_)
      Init(std::move(other.value()));
  }

  constexpr Optional(const T& value) : storage_(value) {}

  // TODO(alshabalin): Can't use 'constexpr' with std::move until C++14.
  Optional(T&& value) : storage_(std::move(value)) {}

  // TODO(alshabalin): Can't use 'constexpr' with std::forward until C++14.
  template <class... Args>
  explicit Optional(in_place_t, Args&&... args)
      : storage_(in_place, std::forward<Args>(args)...) {}

  ~Optional() = default;

  Optional& operator=(nullopt_t) {
    FreeIfNeeded();
    return *this;
  }

  Optional& operator=(const Optional& other) {
    if (other.storage_.is_null_) {
      FreeIfNeeded();
      return *this;
    }

    InitOrAssign(other.value());
    return *this;
  }

  Optional& operator=(Optional&& other) {
    if (other.storage_.is_null_) {
      FreeIfNeeded();
      return *this;
    }

    InitOrAssign(std::move(other.value()));
    return *this;
  }

  template <class U>
  typename std::enable_if<std::is_same<std::decay<U>, T>::value,
                          Optional&>::type
  operator=(U&& value) {
    InitOrAssign(std::forward<U>(value));
    return *this;
  }

  // TODO(mlamouri): can't use 'constexpr' with DCHECK.
  const T* operator->() const {
    DCHECK(!storage_.is_null_);
    return &value();
  }

  // TODO(mlamouri): using 'constexpr' here breaks compiler that assume it was
  // meant to be 'constexpr const'.
  T* operator->() {
    DCHECK(!storage_.is_null_);
    return &value();
  }

  constexpr const T& operator*() const& { return value(); }

  // TODO(mlamouri): using 'constexpr' here breaks compiler that assume it was
  // meant to be 'constexpr const'.
  T& operator*() & { return value(); }

  constexpr const T&& operator*() const&& { return std::move(value()); }

  // TODO(mlamouri): using 'constexpr' here breaks compiler that assume it was
  // meant to be 'constexpr const'.
  T&& operator*() && { return std::move(value()); }

  constexpr explicit operator bool() const { return !storage_.is_null_; }

  constexpr bool has_value() const { return !storage_.is_null_; }

  // TODO(mlamouri): using 'constexpr' here breaks compiler that assume it was
  // meant to be 'constexpr const'.
  T& value() & {
    DCHECK(!storage_.is_null_);
    return storage_.value_;
  }

  // TODO(mlamouri): can't use 'constexpr' with DCHECK.
  const T& value() const& {
    DCHECK(!storage_.is_null_);
    return storage_.value_;
  }

  // TODO(mlamouri): using 'constexpr' here breaks compiler that assume it was
  // meant to be 'constexpr const'.
  T&& value() && {
    DCHECK(!storage_.is_null_);
    return std::move(storage_.value_);
  }

  // TODO(mlamouri): can't use 'constexpr' with DCHECK.
  const T&& value() const&& {
    DCHECK(!storage_.is_null_);
    return std::move(storage_.value_);
  }

  template <class U>
  constexpr T value_or(U&& default_value) const& {
    // TODO(mlamouri): add the following assert when possible:
    // static_assert(std::is_copy_constructible<T>::value,
    //               "T must be copy constructible");
    static_assert(std::is_convertible<U, T>::value,
                  "U must be convertible to T");
    return storage_.is_null_ ? static_cast<T>(std::forward<U>(default_value))
                             : value();
  }

  template <class U>
  T value_or(U&& default_value) && {
    // TODO(mlamouri): add the following assert when possible:
    // static_assert(std::is_move_constructible<T>::value,
    //               "T must be move constructible");
    static_assert(std::is_convertible<U, T>::value,
                  "U must be convertible to T");
    return storage_.is_null_ ? static_cast<T>(std::forward<U>(default_value))
                             : std::move(value());
  }

  void swap(Optional& other) {
    if (storage_.is_null_ && other.storage_.is_null_)
      return;

    if (storage_.is_null_ != other.storage_.is_null_) {
      if (storage_.is_null_) {
        Init(std::move(other.storage_.value_));
        other.FreeIfNeeded();
      } else {
        other.Init(std::move(storage_.value_));
        FreeIfNeeded();
      }
      return;
    }

    DCHECK(!storage_.is_null_ && !other.storage_.is_null_);
    using std::swap;
    swap(**this, *other);
  }

  void reset() {
    FreeIfNeeded();
  }

  template <class... Args>
  void emplace(Args&&... args) {
    FreeIfNeeded();
    Init(std::forward<Args>(args)...);
  }

 private:
  void Init(const T& value) {
    DCHECK(storage_.is_null_);
    new (&storage_.value_) T(value);
    storage_.is_null_ = false;
  }

  void Init(T&& value) {
    DCHECK(storage_.is_null_);
    new (&storage_.value_) T(std::move(value));
    storage_.is_null_ = false;
  }

  template <class... Args>
  void Init(Args&&... args) {
    DCHECK(storage_.is_null_);
    new (&storage_.value_) T(std::forward<Args>(args)...);
    storage_.is_null_ = false;
  }

  void InitOrAssign(const T& value) {
    if (storage_.is_null_)
      Init(value);
    else
      storage_.value_ = value;
  }

  void InitOrAssign(T&& value) {
    if (storage_.is_null_)
      Init(std::move(value));
    else
      storage_.value_ = std::move(value);
  }

  void FreeIfNeeded() {
    if (storage_.is_null_)
      return;
    storage_.value_.~T();
    storage_.is_null_ = true;
  }

  internal::OptionalStorage<T> storage_;
};

template <class T>
constexpr bool operator==(const Optional<T>& lhs, const Optional<T>& rhs) {
  return !!lhs != !!rhs ? false : lhs == nullopt || (*lhs == *rhs);
}

template <class T>
constexpr bool operator!=(const Optional<T>& lhs, const Optional<T>& rhs) {
  return !(lhs == rhs);
}

template <class T>
constexpr bool operator<(const Optional<T>& lhs, const Optional<T>& rhs) {
  return rhs == nullopt ? false : (lhs == nullopt ? true : *lhs < *rhs);
}

template <class T>
constexpr bool operator<=(const Optional<T>& lhs, const Optional<T>& rhs) {
  return !(rhs < lhs);
}

template <class T>
constexpr bool operator>(const Optional<T>& lhs, const Optional<T>& rhs) {
  return rhs < lhs;
}

template <class T>
constexpr bool operator>=(const Optional<T>& lhs, const Optional<T>& rhs) {
  return !(lhs < rhs);
}

template <class T>
constexpr bool operator==(const Optional<T>& opt, nullopt_t) {
  return !opt;
}

template <class T>
constexpr bool operator==(nullopt_t, const Optional<T>& opt) {
  return !opt;
}

template <class T>
constexpr bool operator!=(const Optional<T>& opt, nullopt_t) {
  return !!opt;
}

template <class T>
constexpr bool operator!=(nullopt_t, const Optional<T>& opt) {
  return !!opt;
}

template <class T>
constexpr bool operator<(const Optional<T>& opt, nullopt_t) {
  return false;
}

template <class T>
constexpr bool operator<(nullopt_t, const Optional<T>& opt) {
  return !!opt;
}

template <class T>
constexpr bool operator<=(const Optional<T>& opt, nullopt_t) {
  return !opt;
}

template <class T>
constexpr bool operator<=(nullopt_t, const Optional<T>& opt) {
  return true;
}

template <class T>
constexpr bool operator>(const Optional<T>& opt, nullopt_t) {
  return !!opt;
}

template <class T>
constexpr bool operator>(nullopt_t, const Optional<T>& opt) {
  return false;
}

template <class T>
constexpr bool operator>=(const Optional<T>& opt, nullopt_t) {
  return true;
}

template <class T>
constexpr bool operator>=(nullopt_t, const Optional<T>& opt) {
  return !opt;
}

template <class T>
constexpr bool operator==(const Optional<T>& opt, const T& value) {
  return opt != nullopt ? *opt == value : false;
}

template <class T>
constexpr bool operator==(const T& value, const Optional<T>& opt) {
  return opt == value;
}

template <class T>
constexpr bool operator!=(const Optional<T>& opt, const T& value) {
  return !(opt == value);
}

template <class T>
constexpr bool operator!=(const T& value, const Optional<T>& opt) {
  return !(opt == value);
}

template <class T>
constexpr bool operator<(const Optional<T>& opt, const T& value) {
  return opt != nullopt ? *opt < value : true;
}

template <class T>
constexpr bool operator<(const T& value, const Optional<T>& opt) {
  return opt != nullopt ? value < *opt : false;
}

template <class T>
constexpr bool operator<=(const Optional<T>& opt, const T& value) {
  return !(opt > value);
}

template <class T>
constexpr bool operator<=(const T& value, const Optional<T>& opt) {
  return !(value > opt);
}

template <class T>
constexpr bool operator>(const Optional<T>& opt, const T& value) {
  return value < opt;
}

template <class T>
constexpr bool operator>(const T& value, const Optional<T>& opt) {
  return opt < value;
}

template <class T>
constexpr bool operator>=(const Optional<T>& opt, const T& value) {
  return !(opt < value);
}

template <class T>
constexpr bool operator>=(const T& value, const Optional<T>& opt) {
  return !(value < opt);
}

template <class T>
constexpr Optional<typename std::decay<T>::type> make_optional(T&& value) {
  return Optional<typename std::decay<T>::type>(std::forward<T>(value));
}

template <class T>
void swap(Optional<T>& lhs, Optional<T>& rhs) {
  lhs.swap(rhs);
}

}  // namespace pdfium

namespace std {

template <class T>
struct hash<pdfium::Optional<T>> {
  size_t operator()(const pdfium::Optional<T>& opt) const {
    return opt == pdfium::nullopt ? 0 : std::hash<T>()(*opt);
  }
};

}  // namespace std

template <class T>
using Optional = pdfium::Optional<T>;

#endif  // PDFIUM_THIRD_PARTY_BASE_OPTIONAL_H_