webrtc/base/optional.h - platform/external/webrtc - Git at Google

 /*
  *  Copyright 2015 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef WEBRTC_BASE_OPTIONAL_H_
 #define WEBRTC_BASE_OPTIONAL_H_

 #include <algorithm>
 #include <utility>

 #include "webrtc/base/checks.h"

 namespace rtc {

 // Simple std::experimental::optional-wannabe. It either contains a T or not.
 // In order to keep the implementation simple and portable, this implementation
 // actually contains a (default-constructed) T even when it supposedly doesn't
 // contain a value; use e.g. rtc::scoped_ptr<T> instead if that's too
 // expensive.
 //
 // A moved-from Optional<T> may only be destroyed, and assigned to if T allows
 // being assigned to after having been moved from. Specifically, you may not
 // assume that it just doesn't contain a value anymore.
 //
 // Examples of good places to use Optional:
 //
 // - As a class or struct member, when the member doesn't always have a value:
 //     struct Prisoner {
 //       std::string name;
 //       Optional<int> cell_number;  // Empty if not currently incarcerated.
 //     };
 //
 // - As a return value for functions that may fail to return a value on all
 //   allowed inputs. For example, a function that searches an array might
 //   return an Optional<size_t> (the index where it found the element, or
 //   nothing if it didn't find it); and a function that parses numbers might
 //   return Optional<double> (the parsed number, or nothing if parsing failed).
 //
 // Examples of bad places to use Optional:
 //
 // - As a return value for functions that may fail because of disallowed
 //   inputs. For example, a string length function should not return
 //   Optional<size_t> so that it can return nothing in case the caller passed
 //   it a null pointer; the function should probably use RTC_[D]CHECK instead,
 //   and return plain size_t.
 //
 // - As a return value for functions that may fail to return a value on all
 //   allowed inputs, but need to tell the caller what went wrong. Returning
 //   Optional<double> when parsing a single number as in the example above
 //   might make sense, but any larger parse job is probably going to need to
 //   tell the caller what the problem was, not just that there was one.
 //
 // TODO(kwiberg): Get rid of this class when the standard library has
 // std::optional (and we're allowed to use it).
 template <typename T>
 class Optional final {
  public:
   // Construct an empty Optional.
   Optional() : has_value_(false) {}

   // Construct an Optional that contains a value.
   explicit Optional(const T& val) : value_(val), has_value_(true) {}
   explicit Optional(T&& val)
       : value_(static_cast<T&&>(val)), has_value_(true) {}

   // Copy and move constructors.
   // TODO(kwiberg): =default the move constructor when MSVC supports it.
   Optional(const Optional&) = default;
   Optional(Optional&& m)
       : value_(static_cast<T&&>(m.value_)), has_value_(m.has_value_) {}

   // Assignment.
   // TODO(kwiberg): =default the move assignment op when MSVC supports it.
   Optional& operator=(const Optional&) = default;
   Optional& operator=(Optional&& m) {
     value_ = static_cast<T&&>(m.value_);
     has_value_ = m.has_value_;
     return *this;
   }

   friend void swap(Optional& m1, Optional& m2) {
     using std::swap;
     swap(m1.value_, m2.value_);
     swap(m1.has_value_, m2.has_value_);
   }

   // Conversion to bool to test if we have a value.
   explicit operator bool() const { return has_value_; }

   // Dereferencing. Only allowed if we have a value.
   const T* operator->() const {
     RTC_DCHECK(has_value_);
     return &value_;
   }
   T* operator->() {
     RTC_DCHECK(has_value_);
     return &value_;
   }
   const T& operator*() const {
     RTC_DCHECK(has_value_);
     return value_;
   }
   T& operator*() {
     RTC_DCHECK(has_value_);
     return value_;
   }

   // Dereference with a default value in case we don't have a value.
   const T& value_or(const T& default_val) const {
     return has_value_ ? value_ : default_val;
   }

   // Equality tests. Two Optionals are equal if they contain equivalent values,
   // or
   // if they're both empty.
   friend bool operator==(const Optional& m1, const Optional& m2) {
     return m1.has_value_ && m2.has_value_ ? m1.value_ == m2.value_
                                           : m1.has_value_ == m2.has_value_;
   }
   friend bool operator!=(const Optional& m1, const Optional& m2) {
     return m1.has_value_ && m2.has_value_ ? m1.value_ != m2.value_
                                           : m1.has_value_ != m2.has_value_;
   }

  private:
   // Invariant: Unless *this has been moved from, value_ is default-initialized
   // (or copied or moved from a default-initialized T) if !has_value_.
   T value_;
   bool has_value_;
 };

 }  // namespace rtc

 #endif  // WEBRTC_BASE_OPTIONAL_H_
	/*
	* Copyright 2015 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef WEBRTC_BASE_OPTIONAL_H_
	#define WEBRTC_BASE_OPTIONAL_H_

	#include <algorithm>
	#include <utility>

	#include "webrtc/base/checks.h"

	namespace rtc {

	// Simple std::experimental::optional-wannabe. It either contains a T or not.
	// In order to keep the implementation simple and portable, this implementation
	// actually contains a (default-constructed) T even when it supposedly doesn't
	// contain a value; use e.g. rtc::scoped_ptr<T> instead if that's too
	// expensive.
	//
	// A moved-from Optional<T> may only be destroyed, and assigned to if T allows
	// being assigned to after having been moved from. Specifically, you may not
	// assume that it just doesn't contain a value anymore.
	//
	// Examples of good places to use Optional:
	//
	// - As a class or struct member, when the member doesn't always have a value:
	// struct Prisoner {
	// std::string name;
	// Optional<int> cell_number; // Empty if not currently incarcerated.
	// };
	//
	// - As a return value for functions that may fail to return a value on all
	// allowed inputs. For example, a function that searches an array might
	// return an Optional<size_t> (the index where it found the element, or
	// nothing if it didn't find it); and a function that parses numbers might
	// return Optional<double> (the parsed number, or nothing if parsing failed).
	//
	// Examples of bad places to use Optional:
	//
	// - As a return value for functions that may fail because of disallowed
	// inputs. For example, a string length function should not return
	// Optional<size_t> so that it can return nothing in case the caller passed
	// it a null pointer; the function should probably use RTC_[D]CHECK instead,
	// and return plain size_t.
	//
	// - As a return value for functions that may fail to return a value on all
	// allowed inputs, but need to tell the caller what went wrong. Returning
	// Optional<double> when parsing a single number as in the example above
	// might make sense, but any larger parse job is probably going to need to
	// tell the caller what the problem was, not just that there was one.
	//
	// TODO(kwiberg): Get rid of this class when the standard library has
	// std::optional (and we're allowed to use it).
	template <typename T>
	class Optional final {
	public:
	// Construct an empty Optional.
	Optional() : has_value_(false) {}

	// Construct an Optional that contains a value.
	explicit Optional(const T& val) : value_(val), has_value_(true) {}
	explicit Optional(T&& val)
	: value_(static_cast<T&&>(val)), has_value_(true) {}

	// Copy and move constructors.
	// TODO(kwiberg): =default the move constructor when MSVC supports it.
	Optional(const Optional&) = default;
	Optional(Optional&& m)
	: value_(static_cast<T&&>(m.value_)), has_value_(m.has_value_) {}

	// Assignment.
	// TODO(kwiberg): =default the move assignment op when MSVC supports it.
	Optional& operator=(const Optional&) = default;
	Optional& operator=(Optional&& m) {
	value_ = static_cast<T&&>(m.value_);
	has_value_ = m.has_value_;
	return *this;
	}

	friend void swap(Optional& m1, Optional& m2) {
	using std::swap;
	swap(m1.value_, m2.value_);
	swap(m1.has_value_, m2.has_value_);
	}

	// Conversion to bool to test if we have a value.
	explicit operator bool() const { return has_value_; }

	// Dereferencing. Only allowed if we have a value.
	const T* operator->() const {
	RTC_DCHECK(has_value_);
	return &value_;
	}
	T* operator->() {
	RTC_DCHECK(has_value_);
	return &value_;
	}
	const T& operator*() const {
	RTC_DCHECK(has_value_);
	return value_;
	}
	T& operator*() {
	RTC_DCHECK(has_value_);
	return value_;
	}

	// Dereference with a default value in case we don't have a value.
	const T& value_or(const T& default_val) const {
	return has_value_ ? value_ : default_val;
	}

	// Equality tests. Two Optionals are equal if they contain equivalent values,
	// or
	// if they're both empty.
	friend bool operator==(const Optional& m1, const Optional& m2) {
	return m1.has_value_ && m2.has_value_ ? m1.value_ == m2.value_
	: m1.has_value_ == m2.has_value_;
	}
	friend bool operator!=(const Optional& m1, const Optional& m2) {
	return m1.has_value_ && m2.has_value_ ? m1.value_ != m2.value_
	: m1.has_value_ != m2.has_value_;
	}

	private:
	// Invariant: Unless *this has been moved from, value_ is default-initialized
	// (or copied or moved from a default-initialized T) if !has_value_.
	T value_;
	bool has_value_;
	};

	} // namespace rtc

	#endif // WEBRTC_BASE_OPTIONAL_H_