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Menggunakan Objek Peristiwa (Sinkronisasi)

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Aplikasi dapat menggunakan objek peristiwa dalam sejumlah situasi untuk memberi tahu utas tunggu tentang terjadinya peristiwa. Misalnya, operasi I/O yang tumpang tindih pada file, pipa bernama, dan perangkat komunikasi menggunakan objek peristiwa untuk memberi sinyal penyelesaiannya. Untuk informasi selengkapnya tentang penggunaan objek peristiwa dalam operasi I/O yang tumpang tindih, lihat Sinkronisasi dan Input dan Output yang Tumpang Tindih.

Contoh berikut menggunakan objek peristiwa untuk mencegah beberapa utas membaca dari buffer memori bersama saat utas master menulis ke buffer tersebut. Pertama, utas master menggunakan fungsi CreateEvent untuk membuat objek peristiwa reset manual yang status awalnya tidak ditandatangani. Kemudian membuat beberapa utas pembaca. Utas master melakukan operasi tulis dan kemudian mengatur objek peristiwa ke status sinyal ketika telah selesai menulis.

Sebelum memulai operasi baca, setiap utas pembaca menggunakan WaitForSingleObject untuk menunggu objek peristiwa reset manual diberi sinyal. Ketika WaitForSingleObject kembali, ini menunjukkan bahwa utas utama siap untuk memulai operasi bacanya.

#include <windows.h>
#include <stdio.h>

#define THREADCOUNT 4 

HANDLE ghWriteEvent; 
HANDLE ghThreads[THREADCOUNT];

DWORD WINAPI ThreadProc(LPVOID);

void CreateEventsAndThreads(void) 
{
    int i; 
    DWORD dwThreadID; 

    // Create a manual-reset event object. The write thread sets this
    // object to the signaled state when it finishes writing to a 
    // shared buffer. 

    ghWriteEvent = CreateEvent( 
        NULL,               // default security attributes
        TRUE,               // manual-reset event
        FALSE,              // initial state is nonsignaled
        TEXT("WriteEvent")  // object name
        ); 

    if (ghWriteEvent == NULL) 
    { 
        printf("CreateEvent failed (%d)\n", GetLastError());
        return;
    }

    // Create multiple threads to read from the buffer.

    for(i = 0; i < THREADCOUNT; i++) 
    {
        // TODO: More complex scenarios may require use of a parameter
        //   to the thread procedure, such as an event per thread to  
        //   be used for synchronization.
        ghThreads[i] = CreateThread(
            NULL,              // default security
            0,                 // default stack size
            ThreadProc,        // name of the thread function
            NULL,              // no thread parameters
            0,                 // default startup flags
            &dwThreadID); 

        if (ghThreads[i] == NULL) 
        {
            printf("CreateThread failed (%d)\n", GetLastError());
            return;
        }
    }
}

void WriteToBuffer(VOID) 
{
    // TODO: Write to the shared buffer.
    
    printf("Main thread writing to the shared buffer...\n");

    // Set ghWriteEvent to signaled

    if (! SetEvent(ghWriteEvent) ) 
    {
        printf("SetEvent failed (%d)\n", GetLastError());
        return;
    }
}

void CloseEvents()
{
    // Close all event handles (currently, only one global handle).
    
    CloseHandle(ghWriteEvent);
}

int main( void )
{
    DWORD dwWaitResult;

    // TODO: Create the shared buffer

    // Create events and THREADCOUNT threads to read from the buffer

    CreateEventsAndThreads();

    // At this point, the reader threads have started and are most
    // likely waiting for the global event to be signaled. However, 
    // it is safe to write to the buffer because the event is a 
    // manual-reset event.
    
    WriteToBuffer();

    printf("Main thread waiting for threads to exit...\n");

    // The handle for each thread is signaled when the thread is
    // terminated.
    dwWaitResult = WaitForMultipleObjects(
        THREADCOUNT,   // number of handles in array
        ghThreads,     // array of thread handles
        TRUE,          // wait until all are signaled
        INFINITE);

    switch (dwWaitResult) 
    {
        // All thread objects were signaled
        case WAIT_OBJECT_0: 
            printf("All threads ended, cleaning up for application exit...\n");
            break;

        // An error occurred
        default: 
            printf("WaitForMultipleObjects failed (%d)\n", GetLastError());
            return 1;
    } 
            
    // Close the events to clean up

    CloseEvents();

    return 0;
}

DWORD WINAPI ThreadProc(LPVOID lpParam) 
{
    // lpParam not used in this example.
    UNREFERENCED_PARAMETER(lpParam);

    DWORD dwWaitResult;

    printf("Thread %d waiting for write event...\n", GetCurrentThreadId());
    
    dwWaitResult = WaitForSingleObject( 
        ghWriteEvent, // event handle
        INFINITE);    // indefinite wait

    switch (dwWaitResult) 
    {
        // Event object was signaled
        case WAIT_OBJECT_0: 
            //
            // TODO: Read from the shared buffer
            //
            printf("Thread %d reading from buffer\n", 
                   GetCurrentThreadId());
            break; 

        // An error occurred
        default: 
            printf("Wait error (%d)\n", GetLastError()); 
            return 0; 
    }

    // Now that we are done reading the buffer, we could use another
    // event to signal that this thread is no longer reading. This
    // example simply uses the thread handle for synchronization (the
    // handle is signaled when the thread terminates.)

    printf("Thread %d exiting\n", GetCurrentThreadId());
    return 1;
}