winamp/Src/Plugins/Input/in_dshow/audioswitch.h

216 lines
7.7 KiB
C++

#ifndef _AUDIOSWITCH_H
#define _AUDIOSWITCH_H
#include <streams.h>
class CAudioSwitchRenderer;
class CAudioSwitchRendererInputPin;
class CAudioSwitchRendererInputPin : public CBaseInputPin
{
protected:
CAudioSwitchRenderer *m_pRenderer;
CMediaType m_mt;
public:
HRESULT NotifyMediaType();
CAudioSwitchRendererInputPin(CAudioSwitchRenderer *pRenderer,
HRESULT *phr,
LPCWSTR Name);
// Overriden from the base pin classes
HRESULT BreakConnect();
HRESULT CompleteConnect(IPin *pReceivePin);
HRESULT SetMediaType(const CMediaType *pmt);
HRESULT CheckMediaType(const CMediaType *pmt);
HRESULT Active();
HRESULT Inactive();
// Add rendering behaviour to interface functions
STDMETHODIMP QueryId(LPWSTR *Id);
STDMETHODIMP EndOfStream();
STDMETHODIMP BeginFlush();
STDMETHODIMP EndFlush();
STDMETHODIMP Receive(IMediaSample *pMediaSample);
// Helper
IMemAllocator inline *Allocator() const
{
return m_pAllocator;
}
};
class CAudioSwitchRenderer : public CBaseFilter
{
protected:
friend class CAudioSwitchRendererInputPin;
friend void CALLBACK EndOfStreamTimer(UINT uID, // Timer identifier
UINT uMsg, // Not currently used
DWORD_PTR dwUser, // User information
DWORD_PTR dw1, // Windows reserved
DWORD_PTR dw2); // Is also reserved
CRendererPosPassThru *m_pPosition; // Media seeking pass by object
CAMEvent m_RenderEvent; // Used to signal timer events
CAMEvent m_ThreadSignal; // Signalled to release worker thread
CAMEvent m_evComplete; // Signalled when state complete
BOOL m_bAbort; // Stop us from rendering more data
BOOL m_bStreaming; // Are we currently streaming
DWORD_PTR m_dwAdvise; // Timer advise cookie
IMediaSample *m_pMediaSample[16]; // Current image media samples
BOOL m_bEOS; // Any more samples in the stream
BOOL m_bEOSDelivered; // Have we delivered an EC_COMPLETE
CAudioSwitchRendererInputPin *m_pInputPin[16]; // Our renderer input pin objects
CCritSec m_InterfaceLock; // Critical section for interfaces
CCritSec m_RendererLock; // Controls access to internals
IQualityControl * m_pQSink; // QualityControl sink
BOOL m_bRepaintStatus; // Can we signal an EC_REPAINT
// Avoid some deadlocks by tracking filter during stop
volatile BOOL m_bInReceive; // Inside Receive between PrepareReceive
// And actually processing the sample
REFERENCE_TIME m_SignalTime; // Time when we signal EC_COMPLETE
UINT m_EndOfStreamTimer; // Used to signal end of stream
int m_inputSelected; // input selected for rendering (0 to 16)
public:
CAudioSwitchRenderer(REFCLSID RenderClass, // CLSID for this renderer
TCHAR *pName, // Debug ONLY description
LPUNKNOWN pUnk, // Aggregated owner object
HRESULT *phr); // General OLE return code
virtual ~CAudioSwitchRenderer();
// Overriden to say what interfaces we support and where
virtual HRESULT GetMediaPositionInterface(REFIID riid,void **ppv);
STDMETHODIMP NonDelegatingQueryInterface(REFIID, void **);
virtual HRESULT SourceThreadCanWait(BOOL bCanWait);
#ifdef DEBUG
// Debug only dump of the renderer state
void DisplayRendererState();
#endif
virtual HRESULT WaitForRenderTime();
virtual HRESULT CompleteStateChange(FILTER_STATE OldState);
// Return internal information about this filter
BOOL IsEndOfStream() { return m_bEOS; };
BOOL IsEndOfStreamDelivered() { return m_bEOSDelivered; };
BOOL IsStreaming() { return m_bStreaming; };
void SetAbortSignal(BOOL bAbort) { m_bAbort = bAbort; };
CAMEvent *GetRenderEvent() { return &m_RenderEvent; };
// Permit access to the transition state
void Ready() { m_evComplete.Set(); };
void NotReady() { m_evComplete.Reset(); };
BOOL CheckReady() { return m_evComplete.Check(); };
virtual int GetPinCount();
virtual CBasePin *GetPin(int n);
FILTER_STATE GetRealState();
void SendRepaint();
void SendNotifyWindow(IPin *pPin,HWND hwnd);
BOOL OnDisplayChange();
void SetRepaintStatus(BOOL bRepaint);
// Override the filter and pin interface functions
STDMETHODIMP Stop();
STDMETHODIMP Pause();
STDMETHODIMP Run(REFERENCE_TIME StartTime);
STDMETHODIMP GetState(DWORD dwMSecs,FILTER_STATE *State);
STDMETHODIMP FindPin(LPCWSTR Id, IPin **ppPin);
// These are available for a quality management implementation
virtual void OnRenderStart(IMediaSample *pMediaSample);
virtual void OnRenderEnd(IMediaSample *pMediaSample);
virtual HRESULT OnStartStreaming() { return NOERROR; };
virtual HRESULT OnStopStreaming() { return NOERROR; };
virtual void OnWaitStart() { };
virtual void OnWaitEnd() { };
virtual void PrepareRender() { };
#ifdef PERF
REFERENCE_TIME m_trRenderStart; // Just before we started drawing
// Set in OnRenderStart, Used in OnRenderEnd
int m_idBaseStamp; // MSR_id for frame time stamp
int m_idBaseRenderTime; // MSR_id for true wait time
int m_idBaseAccuracy; // MSR_id for time frame is late (int)
#endif
// Quality management implementation for scheduling rendering
virtual BOOL ScheduleSample(IMediaSample *pMediaSample);
virtual HRESULT GetSampleTimes(IMediaSample *pMediaSample,
REFERENCE_TIME *pStartTime,
REFERENCE_TIME *pEndTime);
virtual HRESULT ShouldDrawSampleNow(IMediaSample *pMediaSample,
REFERENCE_TIME *ptrStart,
REFERENCE_TIME *ptrEnd);
// Lots of end of stream complexities
void TimerCallback();
void ResetEndOfStreamTimer();
HRESULT NotifyEndOfStream();
virtual HRESULT SendEndOfStream();
virtual HRESULT ResetEndOfStream();
virtual HRESULT EndOfStream();
// Rendering is based around the clock
void SignalTimerFired();
virtual HRESULT CancelNotification();
virtual HRESULT ClearPendingSample();
// Called when the filter changes state
virtual HRESULT Active();
virtual HRESULT Inactive();
virtual HRESULT StartStreaming();
virtual HRESULT StopStreaming();
virtual HRESULT BeginFlush();
virtual HRESULT EndFlush();
// Deal with connections and type changes
virtual HRESULT BreakConnect();
virtual HRESULT SetMediaType(const CMediaType *pmt);
virtual HRESULT CompleteConnect(IPin *pReceivePin);
// These look after the handling of data samples
virtual HRESULT PrepareReceive(IMediaSample *pMediaSample);
virtual HRESULT Receive(IMediaSample *pMediaSample);
virtual BOOL HaveCurrentSample();
virtual IMediaSample *GetCurrentSample();
virtual HRESULT Render(IMediaSample *pMediaSample);
// Derived classes MUST override these
virtual HRESULT DoRenderSample(IMediaSample *pMediaSample) PURE;
virtual HRESULT CheckMediaType(const CMediaType *) PURE;
// Helper
void WaitForReceiveToComplete();
CAudioSwitchRendererInputPin *GetSelectedPin() { return m_pInputPin[m_inputSelected]; }
int GetConnectedInputsCount();
int GetSelectedInput();
void SetSelectedInput(int n);
};
#endif