third_party/LLVM/include/llvm/Support/RWMutex.h - SwiftShader - Git at Google

 //===- RWMutex.h - Reader/Writer Mutual Exclusion Lock ----------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file declares the llvm::sys::RWMutex class.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_SYSTEM_RWMUTEX_H
 #define LLVM_SYSTEM_RWMUTEX_H

 #include "llvm/Support/Threading.h"
 #include <cassert>

 namespace llvm
 {
   namespace sys
   {
     /// @brief Platform agnostic RWMutex class.
     class RWMutexImpl
     {
     /// @name Constructors
     /// @{
     public:

       /// Initializes the lock but doesn't acquire it.
       /// @brief Default Constructor.
       explicit RWMutexImpl();

       /// Releases and removes the lock
       /// @brief Destructor
       ~RWMutexImpl();

     /// @}
     /// @name Methods
     /// @{
     public:

       /// Attempts to unconditionally acquire the lock in reader mode. If the
       /// lock is held by a writer, this method will wait until it can acquire
       /// the lock.
       /// @returns false if any kind of error occurs, true otherwise.
       /// @brief Unconditionally acquire the lock in reader mode.
       bool reader_acquire();

       /// Attempts to release the lock in reader mode.
       /// @returns false if any kind of error occurs, true otherwise.
       /// @brief Unconditionally release the lock in reader mode.
       bool reader_release();

       /// Attempts to unconditionally acquire the lock in reader mode. If the
       /// lock is held by any readers, this method will wait until it can
       /// acquire the lock.
       /// @returns false if any kind of error occurs, true otherwise.
       /// @brief Unconditionally acquire the lock in writer mode.
       bool writer_acquire();

       /// Attempts to release the lock in writer mode.
       /// @returns false if any kind of error occurs, true otherwise.
       /// @brief Unconditionally release the lock in write mode.
       bool writer_release();

     //@}
     /// @name Platform Dependent Data
     /// @{
     private:
       void* data_; ///< We don't know what the data will be

     /// @}
     /// @name Do Not Implement
     /// @{
     private:
       RWMutexImpl(const RWMutexImpl & original);
       void operator=(const RWMutexImpl &);
     /// @}
     };

     /// SmartMutex - An R/W mutex with a compile time constant parameter that
     /// indicates whether this mutex should become a no-op when we're not
     /// running in multithreaded mode.
     template<bool mt_only>
     class SmartRWMutex : public RWMutexImpl {
       unsigned readers, writers;
     public:
       explicit SmartRWMutex() : RWMutexImpl(), readers(0), writers(0) { }

       bool reader_acquire() {
         if (!mt_only || llvm_is_multithreaded())
           return RWMutexImpl::reader_acquire();

         // Single-threaded debugging code.  This would be racy in multithreaded
         // mode, but provides not sanity checks in single threaded mode.
         ++readers;
         return true;
       }

       bool reader_release() {
         if (!mt_only || llvm_is_multithreaded())
           return RWMutexImpl::reader_release();

         // Single-threaded debugging code.  This would be racy in multithreaded
         // mode, but provides not sanity checks in single threaded mode.
         assert(readers > 0 && "Reader lock not acquired before release!");
         --readers;
         return true;
       }

       bool writer_acquire() {
         if (!mt_only || llvm_is_multithreaded())
           return RWMutexImpl::writer_acquire();

         // Single-threaded debugging code.  This would be racy in multithreaded
         // mode, but provides not sanity checks in single threaded mode.
         assert(writers == 0 && "Writer lock already acquired!");
         ++writers;
         return true;
       }

       bool writer_release() {
         if (!mt_only || llvm_is_multithreaded())
           return RWMutexImpl::writer_release();

         // Single-threaded debugging code.  This would be racy in multithreaded
         // mode, but provides not sanity checks in single threaded mode.
         assert(writers == 1 && "Writer lock not acquired before release!");
         --writers;
         return true;
       }

     private:
       SmartRWMutex(const SmartRWMutex<mt_only> & original);
       void operator=(const SmartRWMutex<mt_only> &);
     };
     typedef SmartRWMutex<false> RWMutex;

     /// ScopedReader - RAII acquisition of a reader lock
     template<bool mt_only>
     struct SmartScopedReader {
       SmartRWMutex<mt_only>& mutex;

       explicit SmartScopedReader(SmartRWMutex<mt_only>& m) : mutex(m) {
         mutex.reader_acquire();
       }

       ~SmartScopedReader() {
         mutex.reader_release();
       }
     };
     typedef SmartScopedReader<false> ScopedReader;

     /// ScopedWriter - RAII acquisition of a writer lock
     template<bool mt_only>
     struct SmartScopedWriter {
       SmartRWMutex<mt_only>& mutex;

       explicit SmartScopedWriter(SmartRWMutex<mt_only>& m) : mutex(m) {
         mutex.writer_acquire();
       }

       ~SmartScopedWriter() {
         mutex.writer_release();
       }
     };
     typedef SmartScopedWriter<false> ScopedWriter;
   }
 }

 #endif
	//===- RWMutex.h - Reader/Writer Mutual Exclusion Lock ----------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file declares the llvm::sys::RWMutex class.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_SYSTEM_RWMUTEX_H
	#define LLVM_SYSTEM_RWMUTEX_H

	#include "llvm/Support/Threading.h"
	#include <cassert>

	namespace llvm
	{
	namespace sys
	{
	/// @brief Platform agnostic RWMutex class.
	class RWMutexImpl
	{
	/// @name Constructors
	/// @{
	public:

	/// Initializes the lock but doesn't acquire it.
	/// @brief Default Constructor.
	explicit RWMutexImpl();

	/// Releases and removes the lock
	/// @brief Destructor
	~RWMutexImpl();

	/// @}
	/// @name Methods
	/// @{
	public:

	/// Attempts to unconditionally acquire the lock in reader mode. If the
	/// lock is held by a writer, this method will wait until it can acquire
	/// the lock.
	/// @returns false if any kind of error occurs, true otherwise.
	/// @brief Unconditionally acquire the lock in reader mode.
	bool reader_acquire();

	/// Attempts to release the lock in reader mode.
	/// @returns false if any kind of error occurs, true otherwise.
	/// @brief Unconditionally release the lock in reader mode.
	bool reader_release();

	/// Attempts to unconditionally acquire the lock in reader mode. If the
	/// lock is held by any readers, this method will wait until it can
	/// acquire the lock.
	/// @returns false if any kind of error occurs, true otherwise.
	/// @brief Unconditionally acquire the lock in writer mode.
	bool writer_acquire();

	/// Attempts to release the lock in writer mode.
	/// @returns false if any kind of error occurs, true otherwise.
	/// @brief Unconditionally release the lock in write mode.
	bool writer_release();

	//@}
	/// @name Platform Dependent Data
	/// @{
	private:
	void* data_; ///< We don't know what the data will be

	/// @}
	/// @name Do Not Implement
	/// @{
	private:
	RWMutexImpl(const RWMutexImpl & original);
	void operator=(const RWMutexImpl &);
	/// @}
	};

	/// SmartMutex - An R/W mutex with a compile time constant parameter that
	/// indicates whether this mutex should become a no-op when we're not
	/// running in multithreaded mode.
	template<bool mt_only>
	class SmartRWMutex : public RWMutexImpl {
	unsigned readers, writers;
	public:
	explicit SmartRWMutex() : RWMutexImpl(), readers(0), writers(0) { }

	bool reader_acquire() {
	if (!mt_only \|\| llvm_is_multithreaded())
	return RWMutexImpl::reader_acquire();

	// Single-threaded debugging code. This would be racy in multithreaded
	// mode, but provides not sanity checks in single threaded mode.
	++readers;
	return true;
	}

	bool reader_release() {
	if (!mt_only \|\| llvm_is_multithreaded())
	return RWMutexImpl::reader_release();

	// Single-threaded debugging code. This would be racy in multithreaded
	// mode, but provides not sanity checks in single threaded mode.
	assert(readers > 0 && "Reader lock not acquired before release!");
	--readers;
	return true;
	}

	bool writer_acquire() {
	if (!mt_only \|\| llvm_is_multithreaded())
	return RWMutexImpl::writer_acquire();

	// Single-threaded debugging code. This would be racy in multithreaded
	// mode, but provides not sanity checks in single threaded mode.
	assert(writers == 0 && "Writer lock already acquired!");
	++writers;
	return true;
	}

	bool writer_release() {
	if (!mt_only \|\| llvm_is_multithreaded())
	return RWMutexImpl::writer_release();

	// Single-threaded debugging code. This would be racy in multithreaded
	// mode, but provides not sanity checks in single threaded mode.
	assert(writers == 1 && "Writer lock not acquired before release!");
	--writers;
	return true;
	}

	private:
	SmartRWMutex(const SmartRWMutex<mt_only> & original);
	void operator=(const SmartRWMutex<mt_only> &);
	};
	typedef SmartRWMutex<false> RWMutex;

	/// ScopedReader - RAII acquisition of a reader lock
	template<bool mt_only>
	struct SmartScopedReader {
	SmartRWMutex<mt_only>& mutex;

	explicit SmartScopedReader(SmartRWMutex<mt_only>& m) : mutex(m) {
	mutex.reader_acquire();
	}

	~SmartScopedReader() {
	mutex.reader_release();
	}
	};
	typedef SmartScopedReader<false> ScopedReader;

	/// ScopedWriter - RAII acquisition of a writer lock
	template<bool mt_only>
	struct SmartScopedWriter {
	SmartRWMutex<mt_only>& mutex;

	explicit SmartScopedWriter(SmartRWMutex<mt_only>& m) : mutex(m) {
	mutex.writer_acquire();
	}

	~SmartScopedWriter() {
	mutex.writer_release();
	}
	};
	typedef SmartScopedWriter<false> ScopedWriter;
	}
	}

	#endif