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InitializeCriticalSectionAndSpinCount info  Overview  Group

[This is a preview of an interface that may appear in future releases of Windows.]

The InitializeCriticalSectionAndSpinCount function initializes a critical section object and sets the spin count for the critical section.

BOOL InitializeCriticalSectionAndSpinCount(

    LPCRITICAL_SECTION lpCriticalSection,

// pointer to critical section

    DWORD dwSpinCount 

// spin count for critical section

   );

Parameters

lpCriticalSection
Pointer to the critical section object.
dwSpinCount
Specifies the spin count for the critical section object. On single-processor systems, the spin count is ignored and the critical section spin count is set to 0. On multiprocessor systems, if the critical section is unavailable, the calling thread will spin dwSpinCount times before performing a wait operation on a semaphore associated with the critical section. If the critical section becomes free during the spin operation, the calling thread avoids the wait operation.

Return Values

If the function succeeds, the return value is nonzero.

If the function fails, the return value is zero. To get extended error information, call GetLastError.

Remarks

The threads of a single process can use a critical section object for mutual-exclusion synchronization. The process is responsible for allocating the memory used by a critical section object, which it can do by declaring a variable of type CRITICAL_SECTION. Before using a critical section, some thread of the process must call the InitializeCriticalSection or InitializeCriticalSectionAndSpinCount function to initialize the object. You can subsequently modify the spin count by calling the SetCriticalSectionSpinCount function.

The spin count is useful for critical sections of short duration that can experience high levels of contention. Consider a worst-case scenario, in which an application on an SMP system has two or three threads constantly allocating and releasing memory from the heap. The application serializes the heap with a critical section. In the worst-case scenario, contention for the critical section is constant, and each thread makes an expensive call to the WaitForSingleObject function. However, if the spin count is set properly, the calling thread will not immediately call WaitForSingleObject when contention occurs. Instead, the calling thread can acquire ownership of the critical section if it is released during the spin operation.

You can improve performance significantly by choosing a small spin count for a critical section of short duration. The Windows NT heap manager uses a spin count of roughly 4000 for its per-heap critical sections. This gives great performance and scalability in almost all worst-case scenarios.

See Also

InitializeCriticalSection, SetCriticalSectionSpinCount, WaitForSingleObject 


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