source/common/umutex.h - external/github.com/unicode-org/icu - Git at Google

 /*
 **********************************************************************
 *   Copyright (C) 1997-2006, International Business Machines
 *   Corporation and others.  All Rights Reserved.
 **********************************************************************
 *
 * File UMUTEX.H
 *
 * Modification History:
 *
 *   Date        Name        Description
 *   04/02/97  aliu        Creation.
 *   04/07/99  srl         rewrite - C interface, multiple mutices
 *   05/13/99  stephen     Changed to umutex (from cmutex)
 ******************************************************************************
 */

 #ifndef UMUTEX_H
 #define UMUTEX_H

 #include "unicode/utypes.h"
 #include "unicode/uclean.h"


 /* APP_NO_THREADS is an old symbol. We'll honour it if present. */
 #ifdef APP_NO_THREADS
 # define ICU_USE_THREADS 0
 #endif

 /* ICU_USE_THREADS
  *
  *   Allows thread support (use of mutexes) to be compiled out of ICU.
  *   Default: use threads.
  *   Even with thread support compiled out, applications may override the
  *   (empty) mutex implementation with the u_setMutexFunctions() functions.
  */
 #ifndef ICU_USE_THREADS
 # define ICU_USE_THREADS 1
 #endif

 /**
  * By default assume that we are on a machine with a weak memory model,
  * and the double check lock won't work reliably.
  */
 #if !defined(UMTX_STRONG_MEMORY_MODEL)
 #define UMTX_STRONG_MEMORY_MODEL 0
 #endif

 /**
  * \def UMTX_CHECK
  * Encapsulates a safe check for an expression (usually a condition)
  * for lazy variable inititialization.
  * On CPUs with weak memory models, this must use memory fence instructions
  * or mutexes.
  * @internal
  */
 #if UMTX_STRONG_MEMORY_MODEL

 #define UMTX_CHECK(pMutex, expression, result) \
     (result)=(expression)

 #else

 #define UMTX_CHECK(pMutex, expression, result) \
     umtx_lock(pMutex); \
     (result)=(expression); \
     umtx_unlock(pMutex)

 #endif

 /*
  * Code within ICU that accesses shared static or global data should
  * instantiate a Mutex object while doing so.  The unnamed global mutex
  * is used throughout ICU, so keep locking short and sweet.
  *
  * For example:
  *
  * void Function(int arg1, int arg2)
  * {
  *   static Object* foo;     // Shared read-write object
  *   umtx_lock(NULL);        // Lock the ICU global mutex
  *   foo->Method();
  *   umtx_unlock(NULL);
  * }
  *
  * an alternative C++ mutex API is defined in the file common/mutex.h
  */

 /* Lock a mutex.
  * @param mutex The given mutex to be locked.  Pass NULL to specify
  *              the global ICU mutex.  Recursive locks are an error
  *              and may cause a deadlock on some platforms.
  */
 U_CAPI void U_EXPORT2 umtx_lock   ( UMTX* mutex );

 /* Unlock a mutex. Pass in NULL if you want the single global
    mutex.
  * @param mutex The given mutex to be unlocked.  Pass NULL to specify
  *              the global ICU mutex.
  */
 U_CAPI void U_EXPORT2 umtx_unlock ( UMTX* mutex );

 /* Initialize a mutex. Use it this way:
    umtx_init( &aMutex );
  * ICU Mutexes do not need explicit initialization before use.  Use of this
  *   function is not necessary.
  * Initialization of an already initialized mutex has no effect, and is safe to do.
  * Initialization of mutexes is thread safe.  Two threads can concurrently
  *   initialize the same mutex without causing problems.
  * @param mutex The given mutex to be initialized
  */
 U_CAPI void U_EXPORT2 umtx_init   ( UMTX* mutex );

 /* Destroy a mutex. This will free the resources of a mutex.
  * Use it this way:
  *   umtx_destroy( &aMutex );
  * Destroying an already destroyed mutex has no effect, and causes no problems.
  * This function is not thread safe.  Two threads must not attempt to concurrently
  *   destroy the same mutex.
  * @param mutex The given mutex to be destroyed.
  */
 U_CAPI void U_EXPORT2 umtx_destroy( UMTX *mutex );


 /*
  * Atomic Increment and Decrement of an int32_t value.
  *
  * Return Values:
  *   If the result of the operation is zero, the return zero.
  *   If the result of the operation is not zero, the sign of returned value
  *      is the same as the sign of the result, but the returned value itself may
  *      be different from the result of the operation.
  */
 U_CAPI int32_t U_EXPORT2 umtx_atomic_inc(int32_t *);
 U_CAPI int32_t U_EXPORT2 umtx_atomic_dec(int32_t *);


 #endif /*_CMUTEX*/
 /*eof*/
	/*
	**********************************************************************
	* Copyright (C) 1997-2006, International Business Machines
	* Corporation and others. All Rights Reserved.
	**********************************************************************
	*
	* File UMUTEX.H
	*
	* Modification History:
	*
	* Date Name Description
	* 04/02/97 aliu Creation.
	* 04/07/99 srl rewrite - C interface, multiple mutices
	* 05/13/99 stephen Changed to umutex (from cmutex)
	******************************************************************************
	*/

	#ifndef UMUTEX_H
	#define UMUTEX_H

	#include "unicode/utypes.h"
	#include "unicode/uclean.h"


	/* APP_NO_THREADS is an old symbol. We'll honour it if present. */
	#ifdef APP_NO_THREADS
	# define ICU_USE_THREADS 0
	#endif

	/* ICU_USE_THREADS
	*
	* Allows thread support (use of mutexes) to be compiled out of ICU.
	* Default: use threads.
	* Even with thread support compiled out, applications may override the
	* (empty) mutex implementation with the u_setMutexFunctions() functions.
	*/
	#ifndef ICU_USE_THREADS
	# define ICU_USE_THREADS 1
	#endif

	/**
	* By default assume that we are on a machine with a weak memory model,
	* and the double check lock won't work reliably.
	*/
	#if !defined(UMTX_STRONG_MEMORY_MODEL)
	#define UMTX_STRONG_MEMORY_MODEL 0
	#endif

	/**
	* \def UMTX_CHECK
	* Encapsulates a safe check for an expression (usually a condition)
	* for lazy variable inititialization.
	* On CPUs with weak memory models, this must use memory fence instructions
	* or mutexes.
	* @internal
	*/
	#if UMTX_STRONG_MEMORY_MODEL

	#define UMTX_CHECK(pMutex, expression, result) \
	(result)=(expression)

	#else

	#define UMTX_CHECK(pMutex, expression, result) \
	umtx_lock(pMutex); \
	(result)=(expression); \
	umtx_unlock(pMutex)

	#endif

	/*
	* Code within ICU that accesses shared static or global data should
	* instantiate a Mutex object while doing so. The unnamed global mutex
	* is used throughout ICU, so keep locking short and sweet.
	*
	* For example:
	*
	* void Function(int arg1, int arg2)
	* {
	* static Object* foo; // Shared read-write object
	* umtx_lock(NULL); // Lock the ICU global mutex
	* foo->Method();
	* umtx_unlock(NULL);
	* }
	*
	* an alternative C++ mutex API is defined in the file common/mutex.h
	*/

	/* Lock a mutex.
	* @param mutex The given mutex to be locked. Pass NULL to specify
	* the global ICU mutex. Recursive locks are an error
	* and may cause a deadlock on some platforms.
	*/
	U_CAPI void U_EXPORT2 umtx_lock ( UMTX* mutex );

	/* Unlock a mutex. Pass in NULL if you want the single global
	mutex.
	* @param mutex The given mutex to be unlocked. Pass NULL to specify
	* the global ICU mutex.
	*/
	U_CAPI void U_EXPORT2 umtx_unlock ( UMTX* mutex );

	/* Initialize a mutex. Use it this way:
	umtx_init( &aMutex );
	* ICU Mutexes do not need explicit initialization before use. Use of this
	* function is not necessary.
	* Initialization of an already initialized mutex has no effect, and is safe to do.
	* Initialization of mutexes is thread safe. Two threads can concurrently
	* initialize the same mutex without causing problems.
	* @param mutex The given mutex to be initialized
	*/
	U_CAPI void U_EXPORT2 umtx_init ( UMTX* mutex );

	/* Destroy a mutex. This will free the resources of a mutex.
	* Use it this way:
	* umtx_destroy( &aMutex );
	* Destroying an already destroyed mutex has no effect, and causes no problems.
	* This function is not thread safe. Two threads must not attempt to concurrently
	* destroy the same mutex.
	* @param mutex The given mutex to be destroyed.
	*/
	U_CAPI void U_EXPORT2 umtx_destroy( UMTX *mutex );



	/*
	* Atomic Increment and Decrement of an int32_t value.
	*
	* Return Values:
	* If the result of the operation is zero, the return zero.
	* If the result of the operation is not zero, the sign of returned value
	* is the same as the sign of the result, but the returned value itself may
	* be different from the result of the operation.
	*/
	U_CAPI int32_t U_EXPORT2 umtx_atomic_inc(int32_t *);
	U_CAPI int32_t U_EXPORT2 umtx_atomic_dec(int32_t *);


	#endif /_CMUTEX/
	/eof/