Source/cmUVHandlePtr.h - third_party/cmake - Git at Google

 /* Distributed under the OSI-approved BSD 3-Clause License.  See accompanying
    file Copyright.txt or https://cmake.org/licensing for details.  */
 #pragma once
 #include "cmConfigure.h" // IWYU pragma: keep

 #include <cstddef>
 #include <cstdint>
 #include <memory>
 #include <type_traits>

 #include "cm_uv.h"

 #if defined(__SUNPRO_CC)

 #  include <utility>

 #  define CM_INHERIT_CTOR(Class, Base, Tpl)                                   \
     template <typename... Args>                                               \
     Class(Args&&... args)                                                     \
       : Base Tpl(std::forward<Args>(args)...)                                 \
     {                                                                         \
     }

 #else

 #  define CM_INHERIT_CTOR(Class, Base, Tpl) using Base Tpl ::Base;

 #endif

 namespace cm {

 /***
  * RAII class to simplify and ensure the safe usage of uv_loop_t. This includes
  * making sure resources are properly freed.
  */
 class uv_loop_ptr
 {
 protected:
   std::shared_ptr<uv_loop_t> loop;

 public:
   uv_loop_ptr(uv_loop_ptr const&) = delete;
   uv_loop_ptr& operator=(uv_loop_ptr const&) = delete;
   uv_loop_ptr(uv_loop_ptr&&) noexcept;
   uv_loop_ptr& operator=(uv_loop_ptr&&) noexcept;

   // Dtor and ctor need to be inline defined like this for default ctors and
   // dtors to work.  Some compilers do not like '= default' here.
   uv_loop_ptr() {} // NOLINT(modernize-use-equals-default)
   uv_loop_ptr(std::nullptr_t) {}
   ~uv_loop_ptr() { this->reset(); }

   int init(void* data = nullptr);

   /**
    * Properly close the handle if needed and sets the inner handle to nullptr
    */
   void reset();

   /**
    * Allow less verbose calling of uv_loop_* functions
    * @return reinterpreted handle
    */
   operator uv_loop_t*();

   uv_loop_t* get() const;
   uv_loop_t* operator->() const noexcept;
 };

 /***
  * RAII class to simplify and ensure the safe usage of uv_*_t types. This
  * includes making sure resources are properly freed and contains casting
  * operators which allow for passing into relevant uv_* functions.
  *
  *@tparam T actual uv_*_t type represented.
  */
 template <typename T>
 class uv_handle_ptr_base_
 {
 protected:
   template <typename _T>
   friend class uv_handle_ptr_base_;

   /**
    * This must be a pointer type since the handle can outlive this class.
    * When uv_close is eventually called on the handle, the memory the
    * handle inhabits must be valid until the close callback is called
    * which can be later on in the loop.
    */
   std::shared_ptr<T> handle;

   /**
    * Allocate memory for the type and optionally set it's 'data' pointer.
    * Protected since this should only be called for an appropriate 'init'
    * call.
    *
    * @param data data pointer to set
    */
   void allocate(void* data = nullptr);

 public:
   uv_handle_ptr_base_(uv_handle_ptr_base_ const&) = delete;
   uv_handle_ptr_base_& operator=(uv_handle_ptr_base_ const&) = delete;
   uv_handle_ptr_base_(uv_handle_ptr_base_&&) noexcept;
   uv_handle_ptr_base_& operator=(uv_handle_ptr_base_&&) noexcept;

   /**
    * This move constructor allows us to move out of a more specialized
    * uv type into a less specialized one. The only constraint is that
    * the right hand side is castable to T.
    *
    * This allows you to return uv_handle_ptr or uv_stream_ptr from a function
    * that initializes something like uv_pipe_ptr or uv_tcp_ptr and interact
    * and clean up after it without caring about the exact type.
    */
   template <typename S,
             typename = typename std::enable_if<
               std::is_rvalue_reference<S&&>::value>::type>
   uv_handle_ptr_base_(S&& rhs)
   {
     // This will force a compiler error if rhs doesn't have a casting
     // operator to get T*
     this->handle = std::shared_ptr<T>(rhs.handle, rhs);
     rhs.handle.reset();
   }

   // Dtor and ctor need to be inline defined like this for default ctors and
   // dtors to work.  Some compilers do not like '= default' here.
   uv_handle_ptr_base_() {} // NOLINT(modernize-use-equals-default)
   uv_handle_ptr_base_(std::nullptr_t) {}
   ~uv_handle_ptr_base_() { reset(); }

   /**
    * Properly close the handle if needed and sets the inner handle to nullptr
    */
   void reset();

   /**
    * Allow less verbose calling of uv_handle_* functions
    * @return reinterpreted handle
    */
   operator uv_handle_t*();

   T* get() const;
   T* operator->() const noexcept;
 };

 template <typename T>
 inline uv_handle_ptr_base_<T>::uv_handle_ptr_base_(
   uv_handle_ptr_base_<T>&&) noexcept = default;
 template <typename T>
 inline uv_handle_ptr_base_<T>& uv_handle_ptr_base_<T>::operator=(
   uv_handle_ptr_base_<T>&&) noexcept = default;

 /**
  * While uv_handle_ptr_base_ only exposes uv_handle_t*, this exposes uv_T_t*
  * too. It is broken out like this so we can reuse most of the code for the
  * uv_handle_ptr class.
  */
 template <typename T>
 class uv_handle_ptr_ : public uv_handle_ptr_base_<T>
 {
   template <typename _T>
   friend class uv_handle_ptr_;

 public:
   CM_INHERIT_CTOR(uv_handle_ptr_, uv_handle_ptr_base_, <T>);

   /***
    * Allow less verbose calling of uv_<T> functions
    * @return reinterpreted handle
    */
   operator T*() const;
 };

 /***
  * This specialization is required to avoid duplicate 'operator uv_handle_t*()'
  * declarations
  */
 template <>
 class uv_handle_ptr_<uv_handle_t> : public uv_handle_ptr_base_<uv_handle_t>
 {
 public:
   CM_INHERIT_CTOR(uv_handle_ptr_, uv_handle_ptr_base_, <uv_handle_t>);
 };

 class uv_async_ptr : public uv_handle_ptr_<uv_async_t>
 {
 public:
   CM_INHERIT_CTOR(uv_async_ptr, uv_handle_ptr_, <uv_async_t>);

   int init(uv_loop_t& loop, uv_async_cb async_cb, void* data = nullptr);

   void send();
 };

 struct uv_signal_ptr : public uv_handle_ptr_<uv_signal_t>
 {
   CM_INHERIT_CTOR(uv_signal_ptr, uv_handle_ptr_, <uv_signal_t>);

   int init(uv_loop_t& loop, void* data = nullptr);

   int start(uv_signal_cb cb, int signum);

   void stop();
 };

 struct uv_pipe_ptr : public uv_handle_ptr_<uv_pipe_t>
 {
   CM_INHERIT_CTOR(uv_pipe_ptr, uv_handle_ptr_, <uv_pipe_t>);

   operator uv_stream_t*() const;

   int init(uv_loop_t& loop, int ipc, void* data = nullptr);
 };

 struct uv_process_ptr : public uv_handle_ptr_<uv_process_t>
 {
   CM_INHERIT_CTOR(uv_process_ptr, uv_handle_ptr_, <uv_process_t>);

   int spawn(uv_loop_t& loop, uv_process_options_t const& options,
             void* data = nullptr);
 };

 struct uv_timer_ptr : public uv_handle_ptr_<uv_timer_t>
 {
   CM_INHERIT_CTOR(uv_timer_ptr, uv_handle_ptr_, <uv_timer_t>);

   int init(uv_loop_t& loop, void* data = nullptr);

   int start(uv_timer_cb cb, uint64_t timeout, uint64_t repeat);
 };

 struct uv_tty_ptr : public uv_handle_ptr_<uv_tty_t>
 {
   CM_INHERIT_CTOR(uv_tty_ptr, uv_handle_ptr_, <uv_tty_t>);

   operator uv_stream_t*() const;

   int init(uv_loop_t& loop, int fd, int readable, void* data = nullptr);
 };

 using uv_stream_ptr = uv_handle_ptr_<uv_stream_t>;
 using uv_handle_ptr = uv_handle_ptr_<uv_handle_t>;

 #ifndef cmUVHandlePtr_cxx

 extern template class uv_handle_ptr_base_<uv_handle_t>;

 #  define UV_HANDLE_PTR_INSTANTIATE_EXTERN(NAME)                              \
     extern template class uv_handle_ptr_base_<uv_##NAME##_t>;                 \
     extern template class uv_handle_ptr_<uv_##NAME##_t>;

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(async)

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(signal)

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(pipe)

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(process)

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(stream)

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(timer)

 UV_HANDLE_PTR_INSTANTIATE_EXTERN(tty)

 #  undef UV_HANDLE_PTR_INSTANTIATE_EXTERN

 #endif
 }
	/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying
	file Copyright.txt or https://cmake.org/licensing for details. */
	#pragma once
	#include "cmConfigure.h" // IWYU pragma: keep

	#include <cstddef>
	#include <cstdint>
	#include <memory>
	#include <type_traits>

	#include "cm_uv.h"

	#if defined(__SUNPRO_CC)

	# include <utility>

	# define CM_INHERIT_CTOR(Class, Base, Tpl) \
	template <typename... Args> \
	Class(Args&&... args) \
	: Base Tpl(std::forward<Args>(args)...) \
	{ \
	}

	#else

	# define CM_INHERIT_CTOR(Class, Base, Tpl) using Base Tpl ::Base;

	#endif

	namespace cm {

	/***
	* RAII class to simplify and ensure the safe usage of uv_loop_t. This includes
	* making sure resources are properly freed.
	*/
	class uv_loop_ptr
	{
	protected:
	std::shared_ptr<uv_loop_t> loop;

	public:
	uv_loop_ptr(uv_loop_ptr const&) = delete;
	uv_loop_ptr& operator=(uv_loop_ptr const&) = delete;
	uv_loop_ptr(uv_loop_ptr&&) noexcept;
	uv_loop_ptr& operator=(uv_loop_ptr&&) noexcept;

	// Dtor and ctor need to be inline defined like this for default ctors and
	// dtors to work. Some compilers do not like '= default' here.
	uv_loop_ptr() {} // NOLINT(modernize-use-equals-default)
	uv_loop_ptr(std::nullptr_t) {}
	~uv_loop_ptr() { this->reset(); }

	int init(void* data = nullptr);

	/**
	* Properly close the handle if needed and sets the inner handle to nullptr
	*/
	void reset();

	/**
	* Allow less verbose calling of uv_loop_* functions
	* @return reinterpreted handle
	*/
	operator uv_loop_t*();

	uv_loop_t* get() const;
	uv_loop_t* operator->() const noexcept;
	};

	/***
	* RAII class to simplify and ensure the safe usage of uv_*_t types. This
	* includes making sure resources are properly freed and contains casting
	* operators which allow for passing into relevant uv_* functions.
	*
	@tparam T actual uv__t type represented.
	*/
	template <typename T>
	class uv_handle_ptr_base_
	{
	protected:
	template <typename _T>
	friend class uv_handle_ptr_base_;

	/**
	* This must be a pointer type since the handle can outlive this class.
	* When uv_close is eventually called on the handle, the memory the
	* handle inhabits must be valid until the close callback is called
	* which can be later on in the loop.
	*/
	std::shared_ptr<T> handle;

	/**
	* Allocate memory for the type and optionally set it's 'data' pointer.
	* Protected since this should only be called for an appropriate 'init'
	* call.
	*
	* @param data data pointer to set
	*/
	void allocate(void* data = nullptr);

	public:
	uv_handle_ptr_base_(uv_handle_ptr_base_ const&) = delete;
	uv_handle_ptr_base_& operator=(uv_handle_ptr_base_ const&) = delete;
	uv_handle_ptr_base_(uv_handle_ptr_base_&&) noexcept;
	uv_handle_ptr_base_& operator=(uv_handle_ptr_base_&&) noexcept;

	/**
	* This move constructor allows us to move out of a more specialized
	* uv type into a less specialized one. The only constraint is that
	* the right hand side is castable to T.
	*
	* This allows you to return uv_handle_ptr or uv_stream_ptr from a function
	* that initializes something like uv_pipe_ptr or uv_tcp_ptr and interact
	* and clean up after it without caring about the exact type.
	*/
	template <typename S,
	typename = typename std::enable_if<
	std::is_rvalue_reference<S&&>::value>::type>
	uv_handle_ptr_base_(S&& rhs)
	{
	// This will force a compiler error if rhs doesn't have a casting
	// operator to get T*
	this->handle = std::shared_ptr<T>(rhs.handle, rhs);
	rhs.handle.reset();
	}

	// Dtor and ctor need to be inline defined like this for default ctors and
	// dtors to work. Some compilers do not like '= default' here.
	uv_handle_ptr_base_() {} // NOLINT(modernize-use-equals-default)
	uv_handle_ptr_base_(std::nullptr_t) {}
	~uv_handle_ptr_base_() { reset(); }

	/**
	* Properly close the handle if needed and sets the inner handle to nullptr
	*/
	void reset();

	/**
	* Allow less verbose calling of uv_handle_* functions
	* @return reinterpreted handle
	*/
	operator uv_handle_t*();

	T* get() const;
	T* operator->() const noexcept;
	};

	template <typename T>
	inline uv_handle_ptr_base_<T>::uv_handle_ptr_base_(
	uv_handle_ptr_base_<T>&&) noexcept = default;
	template <typename T>
	inline uv_handle_ptr_base_<T>& uv_handle_ptr_base_<T>::operator=(
	uv_handle_ptr_base_<T>&&) noexcept = default;

	/**
	* While uv_handle_ptr_base_ only exposes uv_handle_t, this exposes uv_T_t
	* too. It is broken out like this so we can reuse most of the code for the
	* uv_handle_ptr class.
	*/
	template <typename T>
	class uv_handle_ptr_ : public uv_handle_ptr_base_<T>
	{
	template <typename _T>
	friend class uv_handle_ptr_;

	public:
	CM_INHERIT_CTOR(uv_handle_ptr_, uv_handle_ptr_base_, <T>);

	/***
	* Allow less verbose calling of uv_<T> functions
	* @return reinterpreted handle
	*/
	operator T*() const;
	};

	/***
	* This specialization is required to avoid duplicate 'operator uv_handle_t*()'
	* declarations
	*/
	template <>
	class uv_handle_ptr_<uv_handle_t> : public uv_handle_ptr_base_<uv_handle_t>
	{
	public:
	CM_INHERIT_CTOR(uv_handle_ptr_, uv_handle_ptr_base_, <uv_handle_t>);
	};

	class uv_async_ptr : public uv_handle_ptr_<uv_async_t>
	{
	public:
	CM_INHERIT_CTOR(uv_async_ptr, uv_handle_ptr_, <uv_async_t>);

	int init(uv_loop_t& loop, uv_async_cb async_cb, void* data = nullptr);

	void send();
	};

	struct uv_signal_ptr : public uv_handle_ptr_<uv_signal_t>
	{
	CM_INHERIT_CTOR(uv_signal_ptr, uv_handle_ptr_, <uv_signal_t>);

	int init(uv_loop_t& loop, void* data = nullptr);

	int start(uv_signal_cb cb, int signum);

	void stop();
	};

	struct uv_pipe_ptr : public uv_handle_ptr_<uv_pipe_t>
	{
	CM_INHERIT_CTOR(uv_pipe_ptr, uv_handle_ptr_, <uv_pipe_t>);

	operator uv_stream_t*() const;

	int init(uv_loop_t& loop, int ipc, void* data = nullptr);
	};

	struct uv_process_ptr : public uv_handle_ptr_<uv_process_t>
	{
	CM_INHERIT_CTOR(uv_process_ptr, uv_handle_ptr_, <uv_process_t>);

	int spawn(uv_loop_t& loop, uv_process_options_t const& options,
	void* data = nullptr);
	};

	struct uv_timer_ptr : public uv_handle_ptr_<uv_timer_t>
	{
	CM_INHERIT_CTOR(uv_timer_ptr, uv_handle_ptr_, <uv_timer_t>);

	int init(uv_loop_t& loop, void* data = nullptr);

	int start(uv_timer_cb cb, uint64_t timeout, uint64_t repeat);
	};

	struct uv_tty_ptr : public uv_handle_ptr_<uv_tty_t>
	{
	CM_INHERIT_CTOR(uv_tty_ptr, uv_handle_ptr_, <uv_tty_t>);

	operator uv_stream_t*() const;

	int init(uv_loop_t& loop, int fd, int readable, void* data = nullptr);
	};

	using uv_stream_ptr = uv_handle_ptr_<uv_stream_t>;
	using uv_handle_ptr = uv_handle_ptr_<uv_handle_t>;

	#ifndef cmUVHandlePtr_cxx

	extern template class uv_handle_ptr_base_<uv_handle_t>;

	# define UV_HANDLE_PTR_INSTANTIATE_EXTERN(NAME) \
	extern template class uv_handle_ptr_base_<uv_##NAME##_t>; \
	extern template class uv_handle_ptr_<uv_##NAME##_t>;

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(async)

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(signal)

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(pipe)

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(process)

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(stream)

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(timer)

	UV_HANDLE_PTR_INSTANTIATE_EXTERN(tty)

	# undef UV_HANDLE_PTR_INSTANTIATE_EXTERN

	#endif
	}