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265 lines
7.1 KiB
265 lines
7.1 KiB
/*******************************Module*Header*********************************\
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* Module Name: support.c
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*
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* MultiMedia Systems MCIWAVE DLL
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*
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* Created: 27-Feb-1992
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* Author: ROBINSP
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*
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* History:
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*
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* Copyright (c) 1985-1996 Microsoft Corporation
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*
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\******************************************************************************/
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#define UNICODE
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#include <windows.h>
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#include <mciwave.h>
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STATICDT CRITICAL_SECTION CritSec;
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#if DBG
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STATICDT UINT cCritSec = 0;
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DWORD dwCritSecOwner = 0;
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#endif
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/*************************************************************************
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*
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* Cut-down critical section stuff
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*
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* This critical section is used to simulate windows tasking
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* The owner of the critical section runs exclusively in this
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* DLL.
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*
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* At the front of each function request the critical section is
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* grabbed and only release on mmYield or TaskBlock.
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*
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* Extra 'tasks' (threads) per device hold the critical section when
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* they are working.
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*
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* This method has been used to simplify porting the code from
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* windows. A rewrite would use a different mechanism.
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*
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************************************************************************/
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VOID InitCrit(VOID)
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{
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InitializeCriticalSection(&CritSec);
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}
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VOID DeleteCrit(VOID)
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{
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DeleteCriticalSection(&CritSec);
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}
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#if DBG
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VOID DbgEnterCrit(UINT ln, LPCSTR lpszFile)
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{
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BOOL fPossibleWait;
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if (dwCritSecOwner) {
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dprintf3(("Critical section owned by thread %x", dwCritSecOwner));
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fPossibleWait = TRUE;
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} else {
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fPossibleWait = FALSE;
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}
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EnterCriticalSection(&CritSec);
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if (fPossibleWait) {
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dprintf2(("...entered critical section after possible wait"));
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}
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if (!cCritSec++) {
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// This is the first time into the critcal section
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dwCritSecOwner = GetCurrentThreadId();
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dprintf3(("...entered critical section (%d) at line %d in file %s", cCritSec, ln, lpszFile));
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} else {
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dprintf1(("Reentering critical section, count = %d", cCritSec));
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WinAssert(0);
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// Note: if the memory allocation stuff starts to be synchronised
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// then this assertion becomes invalid.
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}
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}
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#else
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VOID EnterCrit(VOID)
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{
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EnterCriticalSection(&CritSec);
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}
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#endif
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VOID LeaveCrit(VOID)
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{
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#if DBG
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if (!--cCritSec) {
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// Relinquishing control of the critcal section
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dwCritSecOwner = 0;
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dprintf2(("...relinquished critical section (%d)",cCritSec));
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} else {
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dprintf3(("Leaving critical section, count = %d", cCritSec));
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}
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#endif
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LeaveCriticalSection(&CritSec);
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}
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/*************************************************************************
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*
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* @doc MCIWAVE
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*
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* @func UINT | TaskBlock | This function blocks the current
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* task context if its event count is 0.
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*
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* @rdesc Returns the message value of the signal sent.
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*
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************************************************************************/
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UINT TaskBlock(VOID)
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{
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MSG msg;
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dprintf3(("Thread %x blocking", GetCurrentThreadId()));
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LeaveCrit();
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/*
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* Loop until we get the message we want
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*/
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for (;;) {
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/*
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* Retrieve any message for task
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*/
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GetMessage(&msg, NULL, 0, 0);
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/*
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* If the message is for a window dispatch it
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*/
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if (msg.hwnd != NULL) {
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DispatchMessage(&msg);
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} else {
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if (msg.message != WM_USER &&
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msg.message != WTM_STATECHANGE) {
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dprintf1(("Got thread message %8X", msg.message));
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}
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//
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// Because MCIWAVE background task can't cope with getting
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// random(?) messages like MM_WIM_DATA because it thinks that
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// WM_USER IS its MM_WIM_DATA. Let the expected WM_USER
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// messages go through, but trap the MM_WIM_DATA so that
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// MCIWAVE's buffers don't get all messed up.
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//
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if (msg.message != MM_WIM_DATA)
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break;
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}
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}
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dprintf3(("TaskBlock returning with message 0x%x", msg.message));
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EnterCrit();
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return msg.message;
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}
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/*************************************************************************
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*
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* @doc MCIWAVE
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*
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* @func BOOL | TaskSignal | This function signals the specified
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* task, incrementing its event count and unblocking
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* it.
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*
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* @parm HANDLE | h | Task handle. For predictable results, get the
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* task handle from <f mmGetCurrentTask>.
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*
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* @parm UINT | Msg | Signal message to send.
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*
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* @rdesc Returns TRUE if the signal was sent, else FALSE if the message
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* queue was full.
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*
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* @xref mmTaskBlock mmTaskCreate
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*
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* @comm For predictable results, must only be called from a task
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* created with <f mmTaskCreate>.
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*
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************************************************************************/
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BOOL TaskSignal(DWORD h, UINT Msg)
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{
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#ifdef DBG
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BOOL fErr;
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dprintf2(("Signalling Thread %x", (ULONG)h));
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fErr = PostThreadMessage(h, Msg, 0, 0);
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if (!fErr) {
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dprintf1(("Error %d signalling Thread %x", GetLastError(), (ULONG)h));
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}
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return(fErr);
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#else
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return PostThreadMessage(h, Msg, 0, 0);
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#endif
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}
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/*************************************************************************
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*
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* @doc MCIWAVE
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*
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* @func VOID | TaskWaitComplete | This function waits for the
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* specified task to terminate.
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*
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* @parm HANDLE | h | Task handle. For predictable results, get the
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* task handle from <f mmGetCurrentTask>.
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*
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* @rdesc No return code
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*
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************************************************************************/
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VOID TaskWaitComplete(HANDLE h)
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{
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UINT Rc;
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LeaveCrit();
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/* Wait (no timeout) for thread to complete */
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Rc = WaitForSingleObject(h, INFINITE);
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if (Rc != 0) {
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dprintf(("Error terminating thread - WaitForSingleObject returned non-zero !!!"));
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}
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/* Note that the handle must be freed by us */
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CloseHandle(h);
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EnterCrit();
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}
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#if DBG
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/*************************************************************************
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*
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* @doc MCIWAVE
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*
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* @func VOID | mmYield | This function checks that we are in the
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* critical section before Yielding. If we are then the
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* critical section is reentered after yielding.
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*
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* @parm <t>PWAVEDESC<d> | pwd |
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* Pointer to the wave device descriptor.
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*
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* @rdesc No return code
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*
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************************************************************************/
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VOID mmDbgYield(
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PWAVEDESC pwd,
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UINT ln,
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LPCSTR lpszFile)
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{
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if (GetCurrentThreadId() != dwCritSecOwner) {
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dprintf1(("mmYield called while not in the critical section from line %d in file %s", ln, lpszFile));
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}
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CheckIn();
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LeaveCrit();
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CheckOut();
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Sleep(10);
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EnterCrit();
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}
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#endif
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