920 lines
25 KiB
C++
920 lines
25 KiB
C++
//------------------------------------------------------------------------------
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// File: CtlUtil.h
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//
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// Desc: DirectShow base classes.
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//
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// Copyright (c) 1992-2001 Microsoft Corporation. All rights reserved.
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//------------------------------------------------------------------------------
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// Base classes implementing IDispatch parsing for the basic control dual
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// interfaces. Derive from these and implement just the custom method and
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// property methods. We also implement CPosPassThru that can be used by
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// renderers and transforms to pass by IMediaPosition and IMediaSeeking
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#ifndef __CTLUTIL__
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#define __CTLUTIL__
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// OLE Automation has different ideas of TRUE and FALSE
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#define OATRUE (-1)
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#define OAFALSE (0)
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// It's possible that we could replace this class with CreateStdDispatch
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class CBaseDispatch
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{
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ITypeInfo * m_pti;
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public:
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CBaseDispatch() : m_pti(NULL) {}
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~CBaseDispatch();
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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REFIID riid,
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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};
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class AM_NOVTABLE CMediaControl :
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public IMediaControl,
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public CUnknown
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{
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CBaseDispatch m_basedisp;
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public:
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CMediaControl(const TCHAR *, LPUNKNOWN);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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STDMETHODIMP Invoke(
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DISPID dispidMember,
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REFIID riid,
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LCID lcid,
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WORD wFlags,
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DISPPARAMS * pdispparams,
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VARIANT * pvarResult,
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EXCEPINFO * pexcepinfo,
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UINT * puArgErr);
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};
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class AM_NOVTABLE CMediaEvent :
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public IMediaEventEx,
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public CUnknown
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{
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CBaseDispatch m_basedisp;
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public:
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CMediaEvent(const TCHAR *, LPUNKNOWN);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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STDMETHODIMP Invoke(
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DISPID dispidMember,
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REFIID riid,
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LCID lcid,
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WORD wFlags,
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DISPPARAMS * pdispparams,
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VARIANT * pvarResult,
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EXCEPINFO * pexcepinfo,
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UINT * puArgErr);
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};
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class AM_NOVTABLE CMediaPosition :
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public IMediaPosition,
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public CUnknown
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{
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CBaseDispatch m_basedisp;
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public:
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CMediaPosition(const TCHAR *, LPUNKNOWN);
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CMediaPosition(const TCHAR *, LPUNKNOWN, HRESULT *phr);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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STDMETHODIMP Invoke(
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DISPID dispidMember,
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REFIID riid,
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LCID lcid,
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WORD wFlags,
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DISPPARAMS * pdispparams,
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VARIANT * pvarResult,
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EXCEPINFO * pexcepinfo,
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UINT * puArgErr);
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};
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// OA-compatibility means that we must use double as the RefTime value,
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// and REFERENCE_TIME (essentially a LONGLONG) within filters.
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// this class converts between the two
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class COARefTime : public CRefTime {
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public:
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COARefTime() {
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};
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COARefTime(CRefTime t)
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: CRefTime(t)
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{
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};
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COARefTime(REFERENCE_TIME t)
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: CRefTime(t)
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{
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};
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COARefTime(double d) {
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m_time = (LONGLONG) (d * 10000000);
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};
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operator double() {
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return double(m_time) / 10000000;
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};
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operator REFERENCE_TIME() {
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return m_time;
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};
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COARefTime& operator=(const double& rd) {
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m_time = (LONGLONG) (rd * 10000000);
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return *this;
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}
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COARefTime& operator=(const REFERENCE_TIME& rt) {
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m_time = rt;
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return *this;
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}
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inline BOOL operator==(const COARefTime& rt)
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{
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return m_time == rt.m_time;
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};
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inline BOOL operator!=(const COARefTime& rt)
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{
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return m_time != rt.m_time;
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};
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inline BOOL operator < (const COARefTime& rt)
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{
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return m_time < rt.m_time;
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};
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inline BOOL operator > (const COARefTime& rt)
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{
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return m_time > rt.m_time;
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};
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inline BOOL operator >= (const COARefTime& rt)
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{
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return m_time >= rt.m_time;
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};
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inline BOOL operator <= (const COARefTime& rt)
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{
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return m_time <= rt.m_time;
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};
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inline COARefTime operator+(const COARefTime& rt)
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{
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return COARefTime(m_time + rt.m_time);
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};
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inline COARefTime operator-(const COARefTime& rt)
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{
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return COARefTime(m_time - rt.m_time);
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};
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inline COARefTime operator*(LONG l)
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{
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return COARefTime(m_time * l);
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};
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inline COARefTime operator/(LONG l)
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{
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return COARefTime(m_time / l);
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};
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private:
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// Prevent bugs from constructing from LONG (which gets
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// converted to double and then multiplied by 10000000
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COARefTime(LONG);
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operator=(LONG);
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};
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// A utility class that handles IMediaPosition and IMediaSeeking on behalf
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// of single-input pin renderers, or transform filters.
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//
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// Renderers will expose this from the filter; transform filters will
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// expose it from the output pin and not the renderer.
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//
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// Create one of these, giving it your IPin* for your input pin, and delegate
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// all IMediaPosition methods to it. It will query the input pin for
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// IMediaPosition and respond appropriately.
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//
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// Call ForceRefresh if the pin connection changes.
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//
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// This class no longer caches the upstream IMediaPosition or IMediaSeeking
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// it acquires it on each method call. This means ForceRefresh is not needed.
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// The method is kept for source compatibility and to minimise the changes
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// if we need to put it back later for performance reasons.
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class CPosPassThru : public IMediaSeeking, public CMediaPosition
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{
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IPin *m_pPin;
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HRESULT GetPeer(IMediaPosition **ppMP);
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HRESULT GetPeerSeeking(IMediaSeeking **ppMS);
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public:
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CPosPassThru(const TCHAR *, LPUNKNOWN, HRESULT*, IPin *);
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DECLARE_IUNKNOWN
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HRESULT ForceRefresh() {
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return S_OK;
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};
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// override to return an accurate current position
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virtual HRESULT GetMediaTime(LONGLONG *pStartTime,LONGLONG *pEndTime) {
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return E_FAIL;
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}
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid,void **ppv);
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// IMediaSeeking methods
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STDMETHODIMP GetCapabilities( DWORD * pCapabilities );
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STDMETHODIMP CheckCapabilities( DWORD * pCapabilities );
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STDMETHODIMP SetTimeFormat(const GUID * pFormat);
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STDMETHODIMP GetTimeFormat(GUID *pFormat);
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STDMETHODIMP IsUsingTimeFormat(const GUID * pFormat);
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STDMETHODIMP IsFormatSupported( const GUID * pFormat);
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STDMETHODIMP QueryPreferredFormat( GUID *pFormat);
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STDMETHODIMP ConvertTimeFormat(LONGLONG * pTarget, const GUID * pTargetFormat,
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LONGLONG Source, const GUID * pSourceFormat );
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STDMETHODIMP SetPositions( LONGLONG * pCurrent, DWORD CurrentFlags
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, LONGLONG * pStop, DWORD StopFlags );
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STDMETHODIMP GetPositions( LONGLONG * pCurrent, LONGLONG * pStop );
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STDMETHODIMP GetCurrentPosition( LONGLONG * pCurrent );
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STDMETHODIMP GetStopPosition( LONGLONG * pStop );
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STDMETHODIMP SetRate( double dRate);
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STDMETHODIMP GetRate( double * pdRate);
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STDMETHODIMP GetDuration( LONGLONG *pDuration);
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STDMETHODIMP GetAvailable( LONGLONG *pEarliest, LONGLONG *pLatest );
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STDMETHODIMP GetPreroll( LONGLONG *pllPreroll );
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// IMediaPosition properties
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STDMETHODIMP get_Duration(REFTIME * plength);
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STDMETHODIMP put_CurrentPosition(REFTIME llTime);
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STDMETHODIMP get_StopTime(REFTIME * pllTime);
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STDMETHODIMP put_StopTime(REFTIME llTime);
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STDMETHODIMP get_PrerollTime(REFTIME * pllTime);
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STDMETHODIMP put_PrerollTime(REFTIME llTime);
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STDMETHODIMP get_Rate(double * pdRate);
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STDMETHODIMP put_Rate(double dRate);
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STDMETHODIMP get_CurrentPosition(REFTIME * pllTime);
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STDMETHODIMP CanSeekForward(LONG *pCanSeekForward);
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STDMETHODIMP CanSeekBackward(LONG *pCanSeekBackward);
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private:
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HRESULT GetSeekingLongLong( HRESULT (__stdcall IMediaSeeking::*pMethod)( LONGLONG * ),
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LONGLONG * pll );
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};
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// Adds the ability to return a current position
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class CRendererPosPassThru : public CPosPassThru
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{
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CCritSec m_PositionLock; // Locks access to our position
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LONGLONG m_StartMedia; // Start media time last seen
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LONGLONG m_EndMedia; // And likewise the end media
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BOOL m_bReset; // Have media times been set
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public:
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// Used to help with passing media times through graph
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CRendererPosPassThru(const TCHAR *, LPUNKNOWN, HRESULT*, IPin *);
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HRESULT RegisterMediaTime(IMediaSample *pMediaSample);
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HRESULT RegisterMediaTime(LONGLONG StartTime,LONGLONG EndTime);
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HRESULT GetMediaTime(LONGLONG *pStartTime,LONGLONG *pEndTime);
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HRESULT ResetMediaTime();
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HRESULT EOS();
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};
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STDAPI CreatePosPassThru(
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LPUNKNOWN pAgg,
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BOOL bRenderer,
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IPin *pPin,
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IUnknown **ppPassThru
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);
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// A class that handles the IDispatch part of IBasicAudio and leaves the
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// properties and methods themselves pure virtual.
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class AM_NOVTABLE CBasicAudio : public IBasicAudio, public CUnknown
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{
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CBaseDispatch m_basedisp;
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public:
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CBasicAudio(const TCHAR *, LPUNKNOWN);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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STDMETHODIMP Invoke(
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DISPID dispidMember,
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REFIID riid,
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LCID lcid,
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WORD wFlags,
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DISPPARAMS * pdispparams,
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VARIANT * pvarResult,
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EXCEPINFO * pexcepinfo,
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UINT * puArgErr);
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};
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// A class that handles the IDispatch part of IBasicVideo and leaves the
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// properties and methods themselves pure virtual.
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class AM_NOVTABLE CBaseBasicVideo : public IBasicVideo2, public CUnknown
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{
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CBaseDispatch m_basedisp;
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public:
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CBaseBasicVideo(const TCHAR *, LPUNKNOWN);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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STDMETHODIMP Invoke(
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DISPID dispidMember,
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REFIID riid,
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LCID lcid,
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WORD wFlags,
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DISPPARAMS * pdispparams,
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VARIANT * pvarResult,
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EXCEPINFO * pexcepinfo,
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UINT * puArgErr);
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STDMETHODIMP GetPreferredAspectRatio(
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long *plAspectX,
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long *plAspectY)
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{
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return E_NOTIMPL;
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}
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};
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// A class that handles the IDispatch part of IVideoWindow and leaves the
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// properties and methods themselves pure virtual.
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class AM_NOVTABLE CBaseVideoWindow : public IVideoWindow, public CUnknown
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{
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CBaseDispatch m_basedisp;
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public:
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CBaseVideoWindow(const TCHAR *, LPUNKNOWN);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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/* IDispatch methods */
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STDMETHODIMP GetTypeInfoCount(UINT * pctinfo);
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STDMETHODIMP GetTypeInfo(
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UINT itinfo,
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LCID lcid,
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ITypeInfo ** pptinfo);
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STDMETHODIMP GetIDsOfNames(
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REFIID riid,
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OLECHAR ** rgszNames,
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UINT cNames,
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LCID lcid,
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DISPID * rgdispid);
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STDMETHODIMP Invoke(
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DISPID dispidMember,
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REFIID riid,
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LCID lcid,
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WORD wFlags,
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DISPPARAMS * pdispparams,
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VARIANT * pvarResult,
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EXCEPINFO * pexcepinfo,
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UINT * puArgErr);
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};
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// abstract class to help source filters with their implementation
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// of IMediaPosition. Derive from this and set the duration (and stop
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// position). Also override NotifyChange to do something when the properties
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// change.
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class AM_NOVTABLE CSourcePosition : public CMediaPosition
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{
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public:
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CSourcePosition(const TCHAR *, LPUNKNOWN, HRESULT*, CCritSec *);
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// IMediaPosition methods
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STDMETHODIMP get_Duration(REFTIME * plength);
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STDMETHODIMP put_CurrentPosition(REFTIME llTime);
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STDMETHODIMP get_StopTime(REFTIME * pllTime);
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STDMETHODIMP put_StopTime(REFTIME llTime);
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STDMETHODIMP get_PrerollTime(REFTIME * pllTime);
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STDMETHODIMP put_PrerollTime(REFTIME llTime);
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STDMETHODIMP get_Rate(double * pdRate);
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STDMETHODIMP put_Rate(double dRate);
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STDMETHODIMP CanSeekForward(LONG *pCanSeekForward);
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STDMETHODIMP CanSeekBackward(LONG *pCanSeekBackward);
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// override if you can return the data you are actually working on
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STDMETHODIMP get_CurrentPosition(REFTIME * pllTime) {
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return E_NOTIMPL;
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};
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protected:
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// we call this to notify changes. Override to handle them
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virtual HRESULT ChangeStart() PURE;
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virtual HRESULT ChangeStop() PURE;
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virtual HRESULT ChangeRate() PURE;
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COARefTime m_Duration;
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COARefTime m_Start;
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COARefTime m_Stop;
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double m_Rate;
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CCritSec * m_pLock;
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};
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class AM_NOVTABLE CSourceSeeking :
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public IMediaSeeking,
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public CUnknown
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{
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public:
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DECLARE_IUNKNOWN;
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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// IMediaSeeking methods
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STDMETHODIMP IsFormatSupported(const GUID * pFormat);
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STDMETHODIMP QueryPreferredFormat(GUID *pFormat);
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STDMETHODIMP SetTimeFormat(const GUID * pFormat);
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STDMETHODIMP IsUsingTimeFormat(const GUID * pFormat);
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STDMETHODIMP GetTimeFormat(GUID *pFormat);
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STDMETHODIMP GetDuration(LONGLONG *pDuration);
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STDMETHODIMP GetStopPosition(LONGLONG *pStop);
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STDMETHODIMP GetCurrentPosition(LONGLONG *pCurrent);
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STDMETHODIMP GetCapabilities( DWORD * pCapabilities );
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STDMETHODIMP CheckCapabilities( DWORD * pCapabilities );
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STDMETHODIMP ConvertTimeFormat( LONGLONG * pTarget, const GUID * pTargetFormat,
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LONGLONG Source, const GUID * pSourceFormat );
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STDMETHODIMP SetPositions( LONGLONG * pCurrent, DWORD CurrentFlags
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, LONGLONG * pStop, DWORD StopFlags );
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STDMETHODIMP GetPositions( LONGLONG * pCurrent, LONGLONG * pStop );
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STDMETHODIMP GetAvailable( LONGLONG * pEarliest, LONGLONG * pLatest );
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STDMETHODIMP SetRate( double dRate);
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STDMETHODIMP GetRate( double * pdRate);
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STDMETHODIMP GetPreroll(LONGLONG *pPreroll);
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protected:
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// ctor
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CSourceSeeking(const TCHAR *, LPUNKNOWN, HRESULT*, CCritSec *);
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// we call this to notify changes. Override to handle them
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virtual HRESULT ChangeStart() PURE;
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virtual HRESULT ChangeStop() PURE;
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virtual HRESULT ChangeRate() PURE;
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CRefTime m_rtDuration; // length of stream
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CRefTime m_rtStart; // source will start here
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CRefTime m_rtStop; // source will stop here
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double m_dRateSeeking;
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// seeking capabilities
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DWORD m_dwSeekingCaps;
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CCritSec * m_pLock;
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};
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// Base classes supporting Deferred commands.
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// Deferred commands are queued by calls to methods on the IQueueCommand
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// interface, exposed by the filtergraph and by some filters. A successful
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// call to one of these methods will return an IDeferredCommand interface
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// representing the queued command.
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//
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// A CDeferredCommand object represents a single deferred command, and exposes
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// the IDeferredCommand interface as well as other methods permitting time
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// checks and actual execution. It contains a reference to the CCommandQueue
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// object on which it is queued.
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//
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// CCommandQueue is a base class providing a queue of CDeferredCommand
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// objects, and methods to add, remove, check status and invoke the queued
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// commands. A CCommandQueue object would be part of an object that
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// implemented IQueueCommand.
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class CCmdQueue;
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// take a copy of the params and store them. Release any allocated
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// memory in destructor
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class CDispParams : public DISPPARAMS
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{
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public:
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CDispParams(UINT nArgs, VARIANT* pArgs, HRESULT *phr = NULL);
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~CDispParams();
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};
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// CDeferredCommand lifetime is controlled by refcounts. Caller of
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// InvokeAt.. gets a refcounted interface pointer, and the CCmdQueue
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// object also holds a refcount on us. Calling Cancel or Invoke takes
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// us off the CCmdQueue and thus reduces the refcount by 1. Once taken
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// off the queue we cannot be put back on the queue.
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class CDeferredCommand
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: public CUnknown,
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public IDeferredCommand
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{
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public:
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CDeferredCommand(
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CCmdQueue * pQ,
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LPUNKNOWN pUnk, // aggregation outer unk
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HRESULT * phr,
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LPUNKNOWN pUnkExecutor, // object that will execute this cmd
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REFTIME time,
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GUID* iid,
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long dispidMethod,
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short wFlags,
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long cArgs,
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VARIANT* pDispParams,
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VARIANT* pvarResult,
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short* puArgErr,
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BOOL bStream
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);
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DECLARE_IUNKNOWN
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// override this to publicise our interfaces
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STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void **ppv);
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// IDeferredCommand methods
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STDMETHODIMP Cancel();
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STDMETHODIMP Confidence(
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LONG* pConfidence);
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STDMETHODIMP Postpone(
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REFTIME newtime);
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STDMETHODIMP GetHResult(
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HRESULT* phrResult);
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// other public methods
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HRESULT Invoke();
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// access methods
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// returns TRUE if streamtime, FALSE if presentation time
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BOOL IsStreamTime() {
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return m_bStream;
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};
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CRefTime GetTime() {
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return m_time;
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};
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REFIID GetIID() {
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return *m_iid;
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};
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long GetMethod() {
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return m_dispidMethod;
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};
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short GetFlags() {
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return m_wFlags;
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};
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DISPPARAMS* GetParams() {
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return &m_DispParams;
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};
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VARIANT* GetResult() {
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return m_pvarResult;
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};
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protected:
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CCmdQueue* m_pQueue;
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// pUnk for the interface that we will execute the command on
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LPUNKNOWN m_pUnk;
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// stored command data
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REFERENCE_TIME m_time;
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GUID* m_iid;
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long m_dispidMethod;
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short m_wFlags;
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VARIANT* m_pvarResult;
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BOOL m_bStream;
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CDispParams m_DispParams;
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DISPID m_DispId; // For get and put
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// we use this for ITypeInfo access
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CBaseDispatch m_Dispatch;
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// save retval here
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HRESULT m_hrResult;
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};
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// a list of CDeferredCommand objects. this is a base class providing
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// the basics of access to the list. If you want to use CDeferredCommand
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// objects then your queue needs to be derived from this class.
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class AM_NOVTABLE CCmdQueue
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{
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public:
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CCmdQueue();
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virtual ~CCmdQueue();
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// returns a new CDeferredCommand object that will be initialised with
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// the parameters and will be added to the queue during construction.
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// returns S_OK if successfully created otherwise an error and
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// no object has been queued.
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virtual HRESULT New(
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CDeferredCommand **ppCmd,
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LPUNKNOWN pUnk,
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REFTIME time,
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GUID* iid,
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long dispidMethod,
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short wFlags,
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long cArgs,
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VARIANT* pDispParams,
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VARIANT* pvarResult,
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short* puArgErr,
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BOOL bStream
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);
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// called by the CDeferredCommand object to add and remove itself
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// from the queue
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virtual HRESULT Insert(CDeferredCommand* pCmd);
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virtual HRESULT Remove(CDeferredCommand* pCmd);
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// Command-Due Checking
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//
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// There are two schemes of synchronisation: coarse and accurate. In
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// coarse mode, you wait till the time arrives and then execute the cmd.
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// In accurate mode, you wait until you are processing the sample that
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// will appear at the time, and then execute the command. It's up to the
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// filter which one it will implement. The filtergraph will always
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// implement coarse mode for commands queued at the filtergraph.
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//
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// If you want coarse sync, you probably want to wait until there is a
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// command due, and then execute it. You can do this by calling
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// GetDueCommand. If you have several things to wait for, get the
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// event handle from GetDueHandle() and when this is signalled then call
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// GetDueCommand. Stream time will only advance between calls to Run and
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// EndRun. Note that to avoid an extra thread there is no guarantee that
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// if the handle is set there will be a command ready. Each time the
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// event is signalled, call GetDueCommand (probably with a 0 timeout);
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// This may return E_ABORT.
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//
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// If you want accurate sync, you must call GetCommandDueFor, passing
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// as a parameter the stream time of the samples you are about to process.
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// This will return:
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// -- a stream-time command due at or before that stream time
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// -- a presentation-time command due at or before the
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// time that stream time will be presented (only between Run
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// and EndRun calls, since outside of this, the mapping from
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// stream time to presentation time is not known.
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// -- any presentation-time command due now.
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// This means that if you want accurate synchronisation on samples that
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// might be processed during Paused mode, you need to use
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// stream-time commands.
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//
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// In all cases, commands remain queued until Invoked or Cancelled. The
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// setting and resetting of the event handle is managed entirely by this
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// queue object.
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// set the clock used for timing
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virtual HRESULT SetSyncSource(IReferenceClock*);
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// switch to run mode. Streamtime to Presentation time mapping known.
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virtual HRESULT Run(REFERENCE_TIME tStreamTimeOffset);
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// switch to Stopped or Paused mode. Time mapping not known.
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virtual HRESULT EndRun();
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// return a pointer to the next due command. Blocks for msTimeout
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// milliseconds until there is a due command.
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// Stream-time commands will only become due between Run and Endrun calls.
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// The command remains queued until invoked or cancelled.
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// Returns E_ABORT if timeout occurs, otherwise S_OK (or other error).
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// Returns an AddRef-ed object
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virtual HRESULT GetDueCommand(CDeferredCommand ** ppCmd, long msTimeout);
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|
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// return the event handle that will be signalled whenever
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// there are deferred commands due for execution (when GetDueCommand
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// will not block).
|
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HANDLE GetDueHandle() {
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return HANDLE(m_evDue);
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};
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// return a pointer to a command that will be due for a given time.
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// Pass in a stream time here. The stream time offset will be passed
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// in via the Run method.
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// Commands remain queued until invoked or cancelled.
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// This method will not block. It will report VFW_E_NOT_FOUND if there
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// are no commands due yet.
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// Returns an AddRef-ed object
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virtual HRESULT GetCommandDueFor(REFERENCE_TIME tStream, CDeferredCommand**ppCmd);
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|
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// check if a given time is due (TRUE if it is due yet)
|
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BOOL CheckTime(CRefTime time, BOOL bStream) {
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|
|
// if no clock, nothing is due!
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if (!m_pClock) {
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return FALSE;
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}
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|
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// stream time
|
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if (bStream) {
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|
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// not valid if not running
|
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if (!m_bRunning) {
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return FALSE;
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}
|
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// add on known stream time offset to get presentation time
|
|
time += m_StreamTimeOffset;
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}
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|
|
CRefTime Now;
|
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m_pClock->GetTime((REFERENCE_TIME*)&Now);
|
|
return (time <= Now);
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};
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|
|
protected:
|
|
|
|
// protect access to lists etc
|
|
CCritSec m_Lock;
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|
|
|
// commands queued in presentation time are stored here
|
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CGenericList<CDeferredCommand> m_listPresentation;
|
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|
|
// commands queued in stream time are stored here
|
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CGenericList<CDeferredCommand> m_listStream;
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|
|
|
// set when any commands are due
|
|
CAMEvent m_evDue;
|
|
|
|
// creates an advise for the earliest time required, if any
|
|
void SetTimeAdvise(void);
|
|
|
|
// advise id from reference clock (0 if no outstanding advise)
|
|
DWORD_PTR m_dwAdvise;
|
|
|
|
// advise time is for this presentation time
|
|
CRefTime m_tCurrentAdvise;
|
|
|
|
// the reference clock we are using (addrefed)
|
|
IReferenceClock* m_pClock;
|
|
|
|
// true when running
|
|
BOOL m_bRunning;
|
|
|
|
// contains stream time offset when m_bRunning is true
|
|
CRefTime m_StreamTimeOffset;
|
|
};
|
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|
|
#endif // __CTLUTIL__
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