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- //------------------------------------------------------------------------------
- // File: RefClock.h
- //
- // Desc: DirectShow base classes - defines the IReferenceClock interface.
- //
- // Copyright (c) 1992-2001 Microsoft Corporation. All rights reserved.
- //------------------------------------------------------------------------------
- #ifndef __BASEREFCLOCK__
- #define __BASEREFCLOCK__
- #include <Schedule.h>
- const UINT RESOLUTION = 1; /* High resolution timer */
- const INT ADVISE_CACHE = 4; /* Default cache size */
- const LONGLONG MAX_TIME = 0x7FFFFFFFFFFFFFFF; /* Maximum LONGLONG value */
- inline LONGLONG WINAPI ConvertToMilliseconds(const REFERENCE_TIME& RT)
- {
- /* This converts an arbitrary value representing a reference time
- into a MILLISECONDS value for use in subsequent system calls */
- return (RT / (UNITS / MILLISECONDS));
- }
- /* This class hierarchy will support an IReferenceClock interface so
- that an audio card (or other externally driven clock) can update the
- system wide clock that everyone uses.
- The interface will be pretty thin with probably just one update method
- This interface has not yet been defined.
- */
- /* This abstract base class implements the IReferenceClock
- * interface. Classes that actually provide clock signals (from
- * whatever source) have to be derived from this class.
- *
- * The abstract class provides implementations for:
- * CUnknown support
- * locking support (CCritSec)
- * client advise code (creates a thread)
- *
- * Question: what can we do about quality? Change the timer
- * resolution to lower the system load? Up the priority of the
- * timer thread to force more responsive signals?
- *
- * During class construction we create a worker thread that is destroyed during
- * destuction. This thread executes a series of WaitForSingleObject calls,
- * waking up when a command is given to the thread or the next wake up point
- * is reached. The wakeup points are determined by clients making Advise
- * calls.
- *
- * Each advise call defines a point in time when they wish to be notified. A
- * periodic advise is a series of these such events. We maintain a list of
- * advise links and calculate when the nearest event notification is due for.
- * We then call WaitForSingleObject with a timeout equal to this time. The
- * handle we wait on is used by the class to signal that something has changed
- * and that we must reschedule the next event. This typically happens when
- * someone comes in and asks for an advise link while we are waiting for an
- * event to timeout.
- *
- * While we are modifying the list of advise requests we
- * are protected from interference through a critical section. Clients are NOT
- * advised through callbacks. One shot clients have an event set, while
- * periodic clients have a semaphore released for each event notification. A
- * semaphore allows a client to be kept up to date with the number of events
- * actually triggered and be assured that they can't miss multiple events being
- * set.
- *
- * Keeping track of advises is taken care of by the CAMSchedule class.
- */
- class CBaseReferenceClock
- : public CUnknown, public IReferenceClock, public CCritSec, public IReferenceClockTimerControl
- {
- protected:
- virtual ~CBaseReferenceClock(); // Don't let me be created on the stack!
- public:
- CBaseReferenceClock(__in_opt LPCTSTR pName,
- __inout_opt LPUNKNOWN pUnk,
- __inout HRESULT *phr,
- __inout_opt CAMSchedule * pSched = 0 );
- STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, __deref_out void ** ppv);
- DECLARE_IUNKNOWN
- /* IReferenceClock methods */
- // Derived classes must implement GetPrivateTime(). All our GetTime
- // does is call GetPrivateTime and then check so that time does not
- // go backwards. A return code of S_FALSE implies that the internal
- // clock has gone backwards and GetTime time has halted until internal
- // time has caught up. (Don't know if this will be much use to folk,
- // but it seems odd not to use the return code for something useful.)
- STDMETHODIMP GetTime(__out REFERENCE_TIME *pTime);
- // When this is called, it sets m_rtLastGotTime to the time it returns.
- /* Provide standard mechanisms for scheduling events */
- /* Ask for an async notification that a time has elapsed */
- STDMETHODIMP AdviseTime(
- REFERENCE_TIME baseTime, // base reference time
- REFERENCE_TIME streamTime, // stream offset time
- HEVENT hEvent, // advise via this event
- __out DWORD_PTR *pdwAdviseCookie// where your cookie goes
- );
- /* Ask for an asynchronous periodic notification that a time has elapsed */
- STDMETHODIMP AdvisePeriodic(
- REFERENCE_TIME StartTime, // starting at this time
- REFERENCE_TIME PeriodTime, // time between notifications
- HSEMAPHORE hSemaphore, // advise via a semaphore
- __out DWORD_PTR *pdwAdviseCookie// where your cookie goes
- );
- /* Cancel a request for notification(s) - if the notification was
- * a one shot timer then this function doesn't need to be called
- * as the advise is automatically cancelled, however it does no
- * harm to explicitly cancel a one-shot advise. It is REQUIRED that
- * clients call Unadvise to clear a Periodic advise setting.
- */
- STDMETHODIMP Unadvise(DWORD_PTR dwAdviseCookie);
- /* Methods for the benefit of derived classes or outer objects */
- // GetPrivateTime() is the REAL clock. GetTime is just a cover for
- // it. Derived classes will probably override this method but not
- // GetTime() itself.
- // The important point about GetPrivateTime() is it's allowed to go
- // backwards. Our GetTime() will keep returning the LastGotTime
- // until GetPrivateTime() catches up.
- virtual REFERENCE_TIME GetPrivateTime();
- /* Provide a method for correcting drift */
- STDMETHODIMP SetTimeDelta( const REFERENCE_TIME& TimeDelta );
- CAMSchedule * GetSchedule() const {
- return m_pSchedule;
- }
- // IReferenceClockTimerControl methods
- //
- // Setting a default of 0 disables the default of 1ms
- STDMETHODIMP SetDefaultTimerResolution(
- REFERENCE_TIME timerResolution // in 100ns
- );
- STDMETHODIMP GetDefaultTimerResolution(
- __out REFERENCE_TIME* pTimerResolution // in 100ns
- );
- private:
- REFERENCE_TIME m_rtPrivateTime; // Current best estimate of time
- DWORD m_dwPrevSystemTime; // Last vaule we got from timeGetTime
- REFERENCE_TIME m_rtLastGotTime; // Last time returned by GetTime
- REFERENCE_TIME m_rtNextAdvise; // Time of next advise
- UINT m_TimerResolution;
- #ifdef PERF
- int m_idGetSystemTime;
- #endif
- // Thread stuff
- public:
- void TriggerThread() { // Wakes thread up. Need to do this if
- // time to next advise needs reevaluating.
- EXECUTE_ASSERT(SetEvent(m_pSchedule->GetEvent()));
- }
- private:
- BOOL m_bAbort; // Flag used for thread shutdown
- HANDLE m_hThread; // Thread handle
- HRESULT AdviseThread(); // Method in which the advise thread runs
- static DWORD __stdcall AdviseThreadFunction(__in LPVOID); // Function used to get there
- protected:
- CAMSchedule * m_pSchedule;
- void Restart (IN REFERENCE_TIME rtMinTime = 0I64) ;
- };
- #endif
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