sdk/lib/fidl/cpp/vector.h - fuchsia - Git at Google

 // Copyright 2018 The Fuchsia 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 LIB_FIDL_CPP_VECTOR_H_
 #define LIB_FIDL_CPP_VECTOR_H_

 #include <lib/fidl/cpp/builder.h>
 #include <lib/fidl/cpp/comparison.h>
 #include <lib/fit/optional.h>
 #include <zircon/assert.h>

 #include <utility>
 #include <vector>

 #include "lib/fidl/cpp/traits.h"
 #include "lib/fidl/cpp/transition.h"

 namespace fidl {

 #if defined(FIDL_USE_FIT_OPTIONAL)

 template <typename T>
 class VectorPtr : public fit::optional<std::vector<T>> {
  public:
   constexpr VectorPtr() = default;

   constexpr VectorPtr(fit::nullopt_t) noexcept {}
   FIDL_FIT_OPTIONAL_DEPRECATED("Use fit::nullopt instead of nullptr")
   constexpr VectorPtr(std::nullptr_t) noexcept {}

   VectorPtr(const VectorPtr&) = default;
   VectorPtr& operator=(const VectorPtr&) = default;

   VectorPtr(VectorPtr&&) noexcept = default;
   VectorPtr& operator=(VectorPtr&&) noexcept = default;

   // Move construct and move assignment from the value type
   constexpr VectorPtr(std::vector<T>&& value) : fit::optional<std::vector<T>>(std::move(value)) {}
   constexpr VectorPtr& operator=(std::vector<T>&& value) {
     fit::optional<std::vector<T>>::operator=(std::move(value));
     return *this;
   }

   // Copy construct and copy assignment from the value type
   constexpr VectorPtr(const std::vector<T>& value) : fit::optional<std::vector<T>>(value) {}
   constexpr VectorPtr& operator=(const std::vector<T>& value) {
     fit::optional<std::vector<T>>::operator=(value);
     return *this;
   }

   explicit VectorPtr(size_t size) : fit::optional<std::vector<T>>(size) {}

   // Override unchecked accessors with versions that check.
   constexpr std::vector<T>* operator->() {
     if (!fit::optional<std::vector<T>>::has_value()) {
       __builtin_trap();
     }
     return fit::optional<std::vector<T>>::operator->();
   }
   constexpr const std::vector<T>* operator->() const {
     if (!fit::optional<std::vector<T>>::has_value()) {
       __builtin_trap();
     }
     return fit::optional<std::vector<T>>::operator->();
   }

   FIDL_FIT_OPTIONAL_DEPRECATED("Assign an empty std::vector")
   VectorPtr& emplace() {
     *this = std::move(std::vector<T>());
     return *this;
   }

   FIDL_FIT_OPTIONAL_DEPRECATED("Assign an std::vector")
   VectorPtr& emplace(std::initializer_list<std::vector<T>>&& ilist) {
     *this = (std::move(std::vector<T>(ilist)));
     return *this;
   }

   FIDL_FIT_OPTIONAL_DEPRECATED("Assign an std::vector")
   VectorPtr& emplace(std::vector<T>&& value) {
     *this = std::move(value);
     return *this;
   }
 };

 #else

 // A representation of a FIDL vector that owns the memory for the vector.
 //
 // A VectorPtr has three states: (1) null, (2) empty, (3) contains data.  You
 // can check for the null state using the |is_null| method.
 template <typename T>
 class VectorPtr {
  public:
   VectorPtr() : is_null_if_empty_(true) {}
   ~VectorPtr() = default;
   VectorPtr(std::nullptr_t) : is_null_if_empty_(true) {}
   explicit VectorPtr(size_t size) : vec_(std::vector<T>(size)), is_null_if_empty_(false) {}
   VectorPtr(std::vector<T>&& vec) : vec_(std::move(vec)), is_null_if_empty_(false) {}

   VectorPtr(VectorPtr&& other) = default;
   VectorPtr& operator=(VectorPtr&& other) = default;

   // Copy construct and assignment from a const std::vector<T>&
   VectorPtr(const std::vector<T>& other) : vec_(other), is_null_if_empty_(false) {}
   VectorPtr& operator=(const std::vector<T>& other) {
     vec_ = other;
     is_null_if_empty_ = false;
     return *this;
   }

   // Creates a VectorPtr of the given size.
   //
   // Equivalent to using the |VectorPtr(size_t)| constructor.
   FIDL_FIT_OPTIONAL_DEPRECATED("use constructor")
   static VectorPtr New(size_t size) { return VectorPtr(size); }

   // Accesses the underlying std::vector object.
   FIDL_FIT_OPTIONAL_DEPRECATED("use value_or")
   const std::vector<T>& get() const { return vec_; }

   // Takes the std::vector from the VectorPtr.
   //
   // After this method returns, the VectorPtr is null.
   FIDL_FIT_OPTIONAL_DEPRECATED("use std::move(vecptr).value();vecptr.reset();")
   std::vector<T> take() {
     is_null_if_empty_ = true;
     return std::move(vec_);
   }

   // Stores the given std::vector in this VectorPtr.
   //
   // After this method returns, the VectorPtr is non-null.
   FIDL_FIT_OPTIONAL_DEPRECATED("use assignment or emplace()")
   void reset(std::vector<T> vec) {
     vec_ = std::move(vec);
     is_null_if_empty_ = false;
   }

   VectorPtr& emplace() {
     vec_.clear();
     is_null_if_empty_ = false;
     return *this;
   }

   VectorPtr& emplace(std::vector<T>&& vec) {
     vec_ = std::move(vec);
     is_null_if_empty_ = false;
     return *this;
   }

   VectorPtr& emplace(std::initializer_list<T>&& ilist) {
     vec_ = std::vector<T>(ilist);
     is_null_if_empty_ = false;
     return *this;
   }

   VectorPtr& operator=(std::vector<T>&& vec) {
     vec_ = std::move(vec);
     is_null_if_empty_ = false;
     return *this;
   }

   void reset() {
     vec_.clear();
     is_null_if_empty_ = true;
   }

   // Resizes the underlying std::vector in this VectorPtr to the given size.
   //
   // After this method returns, the VectorPtr is non-null.
   FIDL_FIT_OPTIONAL_DEPRECATED("initialize and use operator->")
   void resize(size_t size) {
     vec_.resize(size);
     is_null_if_empty_ = false;
   }

   // Pushes |value| onto the back of this VectorPtr.
   //
   // If this vector was null, it will become non-null with a size of 1.
   FIDL_FIT_OPTIONAL_DEPRECATED("initialize and use operator->")
   void push_back(const T& value) {
     vec_.push_back(value);
     is_null_if_empty_ = false;
   }

   // Pushes |value| onto the back of this VectorPtr.
   //
   // If this vector was null, it will become non-null with a size of 1.
   FIDL_FIT_OPTIONAL_DEPRECATED("initialize and use operator->")
   void push_back(T&& value) {
     vec_.push_back(std::forward<T>(value));
     is_null_if_empty_ = false;
   }

   void swap(VectorPtr& other) {
     using std::swap;
     swap(vec_, other.vec_);
     swap(is_null_if_empty_, other.is_null_if_empty_);
   }

   // Returns a copy of this VectorPtr.
   //
   // Unlike fidl::Clone, this function can never fail. However, this function
   // works only if T is copiable.
   FIDL_FIT_OPTIONAL_DEPRECATED("use fidl::Clone()")
   VectorPtr Clone() const {
     if (is_null())
       return VectorPtr();
     return VectorPtr(vec_);
   }

   // Whether this VectorPtr is null.
   //
   // The null state is separate from the empty state.
   FIDL_FIT_OPTIONAL_DEPRECATED("use !has_value()")
   bool is_null() const { return is_null_if_empty_ && vec_.empty(); }

   bool has_value() const { return !is_null_if_empty_ || !vec_.empty(); }

   // Tests as true if non-null, false if null.
   explicit operator bool() const { return has_value(); }

   // Provides access to the underlying std::vector.
   std::vector<T>* operator->() { return &vec_; }
   const std::vector<T>* operator->() const { return &vec_; }

   // Provides access to the underlying std::vector.
   std::vector<T>& operator*() { return vec_; }
   const std::vector<T>& operator*() const { return vec_; }

   std::vector<T>& value() & { return vec_; }
   const std::vector<T>& value() const& { return vec_; }

   std::vector<T>& value_or(std::vector<T>& default_value) & {
     return has_value() ? vec_ : default_value;
   }
   const std::vector<T>& value_or(const std::vector<T>& default_value) const& {
     return has_value() ? vec_ : default_value;
   }

   // Provides implicit conversion for accessing the underlying std::vector.
   // To mutate the vector, use operator* or operator-> or one of the mutation
   // functions.
   FIDL_FIT_OPTIONAL_DEPRECATED("use value_or()")
   operator const std::vector<T> &() const { return vec_; }

  private:
   std::vector<T> vec_;
   bool is_null_if_empty_;
 };

 #endif

 template <class T>
 struct Equality<VectorPtr<T>> {
   bool operator()(const VectorPtr<T>& lhs, const VectorPtr<T>& rhs) const {
     if (!lhs.has_value() || !rhs.has_value()) {
       return !lhs.has_value() == !rhs.has_value();
     }
     return ::fidl::Equality<std::vector<T>>{}(lhs.value(), rhs.value());
   }
 };

 }  // namespace fidl

 #endif  // LIB_FIDL_CPP_VECTOR_H_
	// Copyright 2018 The Fuchsia 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 LIB_FIDL_CPP_VECTOR_H_
	#define LIB_FIDL_CPP_VECTOR_H_

	#include <lib/fidl/cpp/builder.h>
	#include <lib/fidl/cpp/comparison.h>
	#include <lib/fit/optional.h>
	#include <zircon/assert.h>

	#include <utility>
	#include <vector>

	#include "lib/fidl/cpp/traits.h"
	#include "lib/fidl/cpp/transition.h"

	namespace fidl {

	#if defined(FIDL_USE_FIT_OPTIONAL)

	template <typename T>
	class VectorPtr : public fit::optional<std::vector<T>> {
	public:
	constexpr VectorPtr() = default;

	constexpr VectorPtr(fit::nullopt_t) noexcept {}
	FIDL_FIT_OPTIONAL_DEPRECATED("Use fit::nullopt instead of nullptr")
	constexpr VectorPtr(std::nullptr_t) noexcept {}

	VectorPtr(const VectorPtr&) = default;
	VectorPtr& operator=(const VectorPtr&) = default;

	VectorPtr(VectorPtr&&) noexcept = default;
	VectorPtr& operator=(VectorPtr&&) noexcept = default;

	// Move construct and move assignment from the value type
	constexpr VectorPtr(std::vector<T>&& value) : fit::optional<std::vector<T>>(std::move(value)) {}
	constexpr VectorPtr& operator=(std::vector<T>&& value) {
	fit::optional<std::vector<T>>::operator=(std::move(value));
	return *this;
	}

	// Copy construct and copy assignment from the value type
	constexpr VectorPtr(const std::vector<T>& value) : fit::optional<std::vector<T>>(value) {}
	constexpr VectorPtr& operator=(const std::vector<T>& value) {
	fit::optional<std::vector<T>>::operator=(value);
	return *this;
	}

	explicit VectorPtr(size_t size) : fit::optional<std::vector<T>>(size) {}

	// Override unchecked accessors with versions that check.
	constexpr std::vector<T>* operator->() {
	if (!fit::optional<std::vector<T>>::has_value()) {
	__builtin_trap();
	}
	return fit::optional<std::vector<T>>::operator->();
	}
	constexpr const std::vector<T>* operator->() const {
	if (!fit::optional<std::vector<T>>::has_value()) {
	__builtin_trap();
	}
	return fit::optional<std::vector<T>>::operator->();
	}

	FIDL_FIT_OPTIONAL_DEPRECATED("Assign an empty std::vector")
	VectorPtr& emplace() {
	*this = std::move(std::vector<T>());
	return *this;
	}

	FIDL_FIT_OPTIONAL_DEPRECATED("Assign an std::vector")
	VectorPtr& emplace(std::initializer_list<std::vector<T>>&& ilist) {
	*this = (std::move(std::vector<T>(ilist)));
	return *this;
	}

	FIDL_FIT_OPTIONAL_DEPRECATED("Assign an std::vector")
	VectorPtr& emplace(std::vector<T>&& value) {
	*this = std::move(value);
	return *this;
	}
	};

	#else

	// A representation of a FIDL vector that owns the memory for the vector.
	//
	// A VectorPtr has three states: (1) null, (2) empty, (3) contains data. You
	// can check for the null state using the \|is_null\| method.
	template <typename T>
	class VectorPtr {
	public:
	VectorPtr() : is_null_if_empty_(true) {}
	~VectorPtr() = default;
	VectorPtr(std::nullptr_t) : is_null_if_empty_(true) {}
	explicit VectorPtr(size_t size) : vec_(std::vector<T>(size)), is_null_if_empty_(false) {}
	VectorPtr(std::vector<T>&& vec) : vec_(std::move(vec)), is_null_if_empty_(false) {}

	VectorPtr(VectorPtr&& other) = default;
	VectorPtr& operator=(VectorPtr&& other) = default;

	// Copy construct and assignment from a const std::vector<T>&
	VectorPtr(const std::vector<T>& other) : vec_(other), is_null_if_empty_(false) {}
	VectorPtr& operator=(const std::vector<T>& other) {
	vec_ = other;
	is_null_if_empty_ = false;
	return *this;
	}

	// Creates a VectorPtr of the given size.
	//
	// Equivalent to using the \|VectorPtr(size_t)\| constructor.
	FIDL_FIT_OPTIONAL_DEPRECATED("use constructor")
	static VectorPtr New(size_t size) { return VectorPtr(size); }

	// Accesses the underlying std::vector object.
	FIDL_FIT_OPTIONAL_DEPRECATED("use value_or")
	const std::vector<T>& get() const { return vec_; }

	// Takes the std::vector from the VectorPtr.
	//
	// After this method returns, the VectorPtr is null.
	FIDL_FIT_OPTIONAL_DEPRECATED("use std::move(vecptr).value();vecptr.reset();")
	std::vector<T> take() {
	is_null_if_empty_ = true;
	return std::move(vec_);
	}

	// Stores the given std::vector in this VectorPtr.
	//
	// After this method returns, the VectorPtr is non-null.
	FIDL_FIT_OPTIONAL_DEPRECATED("use assignment or emplace()")
	void reset(std::vector<T> vec) {
	vec_ = std::move(vec);
	is_null_if_empty_ = false;
	}

	VectorPtr& emplace() {
	vec_.clear();
	is_null_if_empty_ = false;
	return *this;
	}

	VectorPtr& emplace(std::vector<T>&& vec) {
	vec_ = std::move(vec);
	is_null_if_empty_ = false;
	return *this;
	}

	VectorPtr& emplace(std::initializer_list<T>&& ilist) {
	vec_ = std::vector<T>(ilist);
	is_null_if_empty_ = false;
	return *this;
	}

	VectorPtr& operator=(std::vector<T>&& vec) {
	vec_ = std::move(vec);
	is_null_if_empty_ = false;
	return *this;
	}

	void reset() {
	vec_.clear();
	is_null_if_empty_ = true;
	}

	// Resizes the underlying std::vector in this VectorPtr to the given size.
	//
	// After this method returns, the VectorPtr is non-null.
	FIDL_FIT_OPTIONAL_DEPRECATED("initialize and use operator->")
	void resize(size_t size) {
	vec_.resize(size);
	is_null_if_empty_ = false;
	}

	// Pushes \|value\| onto the back of this VectorPtr.
	//
	// If this vector was null, it will become non-null with a size of 1.
	FIDL_FIT_OPTIONAL_DEPRECATED("initialize and use operator->")
	void push_back(const T& value) {
	vec_.push_back(value);
	is_null_if_empty_ = false;
	}

	// Pushes \|value\| onto the back of this VectorPtr.
	//
	// If this vector was null, it will become non-null with a size of 1.
	FIDL_FIT_OPTIONAL_DEPRECATED("initialize and use operator->")
	void push_back(T&& value) {
	vec_.push_back(std::forward<T>(value));
	is_null_if_empty_ = false;
	}

	void swap(VectorPtr& other) {
	using std::swap;
	swap(vec_, other.vec_);
	swap(is_null_if_empty_, other.is_null_if_empty_);
	}

	// Returns a copy of this VectorPtr.
	//
	// Unlike fidl::Clone, this function can never fail. However, this function
	// works only if T is copiable.
	FIDL_FIT_OPTIONAL_DEPRECATED("use fidl::Clone()")
	VectorPtr Clone() const {
	if (is_null())
	return VectorPtr();
	return VectorPtr(vec_);
	}

	// Whether this VectorPtr is null.
	//
	// The null state is separate from the empty state.
	FIDL_FIT_OPTIONAL_DEPRECATED("use !has_value()")
	bool is_null() const { return is_null_if_empty_ && vec_.empty(); }

	bool has_value() const { return !is_null_if_empty_ \|\| !vec_.empty(); }

	// Tests as true if non-null, false if null.
	explicit operator bool() const { return has_value(); }

	// Provides access to the underlying std::vector.
	std::vector<T>* operator->() { return &vec_; }
	const std::vector<T>* operator->() const { return &vec_; }

	// Provides access to the underlying std::vector.
	std::vector<T>& operator*() { return vec_; }
	const std::vector<T>& operator*() const { return vec_; }

	std::vector<T>& value() & { return vec_; }
	const std::vector<T>& value() const& { return vec_; }

	std::vector<T>& value_or(std::vector<T>& default_value) & {
	return has_value() ? vec_ : default_value;
	}
	const std::vector<T>& value_or(const std::vector<T>& default_value) const& {
	return has_value() ? vec_ : default_value;
	}

	// Provides implicit conversion for accessing the underlying std::vector.
	// To mutate the vector, use operator* or operator-> or one of the mutation
	// functions.
	FIDL_FIT_OPTIONAL_DEPRECATED("use value_or()")
	operator const std::vector<T> &() const { return vec_; }

	private:
	std::vector<T> vec_;
	bool is_null_if_empty_;
	};

	#endif

	template <class T>
	struct Equality<VectorPtr<T>> {
	bool operator()(const VectorPtr<T>& lhs, const VectorPtr<T>& rhs) const {
	if (!lhs.has_value() \|\| !rhs.has_value()) {
	return !lhs.has_value() == !rhs.has_value();
	}
	return ::fidl::Equality<std::vector<T>>{}(lhs.value(), rhs.value());
	}
	};

	} // namespace fidl

	#endif // LIB_FIDL_CPP_VECTOR_H_