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646 lines
20 KiB
C++
646 lines
20 KiB
C++
//------------------------------------------------------------------------------
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// File: DMOImpl.h
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//
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// Desc: Classes to implement a DMO.
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//
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// Copyright (c) 2000-2001, Microsoft Corporation. All rights reserved.
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//------------------------------------------------------------------------------
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#ifndef _dmoimpl_h_
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#define _dmoimpl_h_
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#ifdef _DEBUG
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#include <crtdbg.h>
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#endif
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// Class to implement a DMO
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//
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//
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// Assumes the number of input and output streams is fixed
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// (these are template parameters)
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//
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// Provides following services:
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//
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// Basic parameter checking and locking
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// Fully implements :
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// GetStreamCount
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// SetInputType
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// SetOutputType
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// GetCurrentInputType
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// GetCurrentOutputType
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//
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// Checks if all types are set before streaming
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// Automatically calls AllocateStreamingResources before streaming
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// if it's not been called already
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// Prevents streaming until the types on all non-optional streams
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// have been set
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//
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//
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// Derived class implements the following methods :
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//
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/*
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HRESULT InternalGetInputStreamInfo(DWORD dwInputStreamIndex, DWORD *pdwFlags);
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HRESULT InternalGetOutputStreamInfo(DWORD dwOutputStreamIndex, DWORD *pdwFlags);
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HRESULT InternalCheckInputType(DWORD dwInputStreamIndex, const DMO_MEDIA_TYPE *pmt);
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HRESULT InternalCheckOutputType(DWORD dwOutputStreamIndex, const DMO_MEDIA_TYPE *pmt);
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HRESULT InternalGetInputType(DWORD dwInputStreamIndex, DWORD dwTypeIndex,
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DMO_MEDIA_TYPE *pmt);
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HRESULT InternalGetOutputType(DWORD dwOutputStreamIndex, DWORD dwTypeIndex,
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DMO_MEDIA_TYPE *pmt);
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HRESULT InternalGetInputSizeInfo(DWORD dwInputStreamIndex, DWORD *pcbSize,
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DWORD *pcbMaxLookahead, DWORD *pcbAlignment);
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HRESULT InternalGetOutputSizeInfo(DWORD dwOutputStreamIndex, DWORD *pcbSize,
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DWORD *pcbAlignment);
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HRESULT InternalGetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME *prtMaxLatency);
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HRESULT InternalSetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME rtMaxLatency);
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HRESULT InternalFlush();
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HRESULT InternalDiscontinuity(DWORD dwInputStreamIndex);
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HRESULT InternalAllocateStreamingResources();
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HRESULT InternalFreeStreamingResources();
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HRESULT InternalProcessInput(DWORD dwInputStreamIndex, IMediaBuffer *pBuffer,
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DWORD dwFlags, REFERENCE_TIME rtTimestamp,
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REFERENCE_TIME rtTimelength);
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HRESULT InternalProcessOutput(DWORD dwFlags, DWORD cOutputBufferCount,
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DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
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DWORD *pdwStatus);
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HRESULT InternalAcceptingInput(DWORD dwInputStreamIndex);
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void Lock();
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void Unlock();
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Notes:
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The derived class is meant to do most work to initialize streaming
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in AllocateStreamingResources rather than when types are set.
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This centralizes the work to one
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clear place based on the types set for all streams.
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The derived class implements locking.
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The derived class implements the IUnknown methods
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Usage example (1 input and 1 output) :
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class CMyDMO : public IMediaObjectImpl<CMyDmo, 1, 1>,
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...
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*/
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#define INTERNAL_CALL(_T_, _X_) \
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static_cast<_T_ *>(this)->Internal##_X_
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template <class _DERIVED_, int NUMBEROFINPUTS, int NUMBEROFOUTPUTS>
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class IMediaObjectImpl : public IMediaObject
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{
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private:
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// Member variables
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struct {
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DWORD fTypeSet:1;
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DWORD fIncomplete:1;
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DMO_MEDIA_TYPE CurrentMediaType;
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} m_InputInfo[NUMBEROFINPUTS], m_OutputInfo[NUMBEROFOUTPUTS];
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bool m_fTypesSet;
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bool m_fFlushed;
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bool m_fResourcesAllocated;
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protected:
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// Helpers
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bool InputTypeSet(DWORD ulInputStreamIndex) const
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{
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_ASSERTE(ulInputStreamIndex < NUMBEROFINPUTS);
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return 0 != m_InputInfo[ulInputStreamIndex].fTypeSet;
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}
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bool OutputTypeSet(DWORD ulOutputStreamIndex) const
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{
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_ASSERTE(ulOutputStreamIndex < NUMBEROFOUTPUTS);
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return 0 != m_OutputInfo[ulOutputStreamIndex].fTypeSet;
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}
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const DMO_MEDIA_TYPE *InputType(DWORD ulInputStreamIndex)
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{
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if (!InputTypeSet(ulInputStreamIndex)) {
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return NULL;
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}
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return &m_InputInfo[ulInputStreamIndex].CurrentMediaType;
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}
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const DMO_MEDIA_TYPE *OutputType(DWORD ulOutputStreamIndex)
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{
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if (!OutputTypeSet(ulOutputStreamIndex)) {
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return NULL;
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}
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return &m_OutputInfo[ulOutputStreamIndex].CurrentMediaType;
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}
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class LockIt
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{
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public:
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LockIt(_DERIVED_ *p) : m_p(p)
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{
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static_cast<_DERIVED_ *>(m_p)->Lock();
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}
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~LockIt()
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{
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static_cast<_DERIVED_ *>(m_p)->Unlock();
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}
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_DERIVED_ *const m_p;
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};
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bool CheckTypesSet()
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{
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m_fTypesSet = false;
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DWORD dw;
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for (dw = 0; dw < NUMBEROFINPUTS; dw++) {
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if (!InputTypeSet(dw)) {
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return false;
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}
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}
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for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
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if (!OutputTypeSet(dw)) {
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// Check if it's optional
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DWORD dwFlags;
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#ifdef _DEBUG
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dwFlags = 0xFFFFFFFF;
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#endif
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INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(dw, &dwFlags);
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_ASSERTE(0 == (dwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES |
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DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
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DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE |
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DMO_OUTPUT_STREAMF_DISCARDABLE |
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DMO_OUTPUT_STREAMF_OPTIONAL)));
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if (!(dwFlags & DMO_OUTPUT_STREAMF_OPTIONAL)) {
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return false;
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}
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}
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}
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m_fTypesSet = true;
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return true;
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}
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IMediaObjectImpl() :
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m_fTypesSet(false),
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m_fFlushed(true),
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m_fResourcesAllocated(false)
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{
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ZeroMemory(&m_InputInfo, sizeof(m_InputInfo));
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ZeroMemory(&m_OutputInfo, sizeof(m_OutputInfo));
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}
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virtual ~IMediaObjectImpl() {
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DWORD dwCurrentType;
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for (dwCurrentType = 0; dwCurrentType < NUMBEROFINPUTS; dwCurrentType++) {
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if(InputTypeSet(dwCurrentType)) {
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MoFreeMediaType(&m_InputInfo[dwCurrentType].CurrentMediaType);
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}
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}
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for (dwCurrentType = 0; dwCurrentType < NUMBEROFOUTPUTS; dwCurrentType++) {
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if(OutputTypeSet(dwCurrentType)) {
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MoFreeMediaType(&m_OutputInfo[dwCurrentType].CurrentMediaType);
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}
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}
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}
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// IMediaObject methods
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//
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// IMediaObject methods
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//
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STDMETHODIMP GetStreamCount(unsigned long *pulNumberOfInputStreams, unsigned long *pulNumberOfOutputStreams)
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{
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (pulNumberOfInputStreams == NULL ||
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pulNumberOfOutputStreams == NULL) {
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return E_POINTER;
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}
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*pulNumberOfInputStreams = NUMBEROFINPUTS;
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*pulNumberOfOutputStreams = NUMBEROFOUTPUTS;
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return S_OK;
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}
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STDMETHODIMP GetInputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
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{
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (pdwFlags == NULL) {
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return E_POINTER;
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}
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HRESULT hr = INTERNAL_CALL(_DERIVED_, GetInputStreamInfo)(ulStreamIndex, pdwFlags);
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_ASSERTE(0 == (*pdwFlags & ~(DMO_INPUT_STREAMF_WHOLE_SAMPLES |
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DMO_INPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
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DMO_INPUT_STREAMF_FIXED_SAMPLE_SIZE |
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DMO_INPUT_STREAMF_HOLDS_BUFFERS)));
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return hr;
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}
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STDMETHODIMP GetOutputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
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{
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (ulStreamIndex >= NUMBEROFOUTPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (pdwFlags == NULL) {
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return E_POINTER;
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}
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HRESULT hr = INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(ulStreamIndex, pdwFlags);
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_ASSERTE(0 == (*pdwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES |
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DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
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DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE |
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DMO_OUTPUT_STREAMF_DISCARDABLE |
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DMO_OUTPUT_STREAMF_OPTIONAL)));
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return hr;
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}
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STDMETHODIMP GetInputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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return INTERNAL_CALL(_DERIVED_, GetInputType)(ulStreamIndex, ulTypeIndex, pmt);
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}
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STDMETHODIMP GetOutputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
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if (ulStreamIndex >= NUMBEROFOUTPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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return INTERNAL_CALL(_DERIVED_, GetOutputType)(ulStreamIndex, ulTypeIndex, pmt);
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}
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STDMETHODIMP GetInputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (NULL == pmt) {
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return E_POINTER;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (InputTypeSet(ulStreamIndex))
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return MoCopyMediaType(pmt,
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&m_InputInfo[ulStreamIndex].CurrentMediaType);
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else
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return DMO_E_TYPE_NOT_SET;
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}
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STDMETHODIMP GetOutputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
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if (ulStreamIndex >= NUMBEROFOUTPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (NULL == pmt) {
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return E_POINTER;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (OutputTypeSet(ulStreamIndex))
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return MoCopyMediaType(pmt,
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&m_OutputInfo[ulStreamIndex].CurrentMediaType);
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else
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return DMO_E_TYPE_NOT_SET;
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}
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STDMETHODIMP GetInputSizeInfo(ULONG ulStreamIndex, ULONG *pulSize, ULONG *pcbMaxLookahead, ULONG *pulAlignment) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (NULL == pulSize || NULL == pulAlignment ||
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NULL == pcbMaxLookahead) {
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return E_POINTER;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (!InputTypeSet(ulStreamIndex)) {
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return DMO_E_TYPE_NOT_SET;
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}
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return INTERNAL_CALL(_DERIVED_, GetInputSizeInfo)(ulStreamIndex, pulSize, pcbMaxLookahead, pulAlignment);
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}
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STDMETHODIMP GetOutputSizeInfo(ULONG ulStreamIndex, ULONG *pulSize, ULONG *pulAlignment) {
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if (ulStreamIndex >= NUMBEROFOUTPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (NULL == pulSize || NULL == pulAlignment) {
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return E_POINTER;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (!m_fTypesSet || !OutputTypeSet(ulStreamIndex)) {
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return DMO_E_TYPE_NOT_SET;
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}
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return INTERNAL_CALL(_DERIVED_, GetOutputSizeInfo)(ulStreamIndex, pulSize, pulAlignment);
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}
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STDMETHODIMP SetInputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR | DMO_SET_TYPEF_TEST_ONLY)) {
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return E_INVALIDARG;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (dwFlags & DMO_SET_TYPEF_CLEAR) {
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MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
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m_InputInfo[ulStreamIndex].fTypeSet = FALSE;
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if (!CheckTypesSet()) {
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Flush();
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FreeStreamingResources();
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}
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return NOERROR;
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}
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if (NULL == pmt) {
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return E_POINTER;
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}
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HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckInputType)(ulStreamIndex, pmt);
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if (FAILED(hr))
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return hr;
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if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
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return NOERROR;
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}
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// actually set the type
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DMO_MEDIA_TYPE mtTemp;
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if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
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// Free any previous mediatype
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if (InputTypeSet(ulStreamIndex)) {
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MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
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}
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m_InputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
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m_InputInfo[ulStreamIndex].fTypeSet = TRUE;
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CheckTypesSet();
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} else {
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return E_OUTOFMEMORY;
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}
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return NOERROR;
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}
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STDMETHODIMP SetOutputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
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if (ulStreamIndex >= NUMBEROFOUTPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR | DMO_SET_TYPEF_TEST_ONLY)) {
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return E_INVALIDARG;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (dwFlags & DMO_SET_TYPEF_CLEAR) {
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MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
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m_OutputInfo[ulStreamIndex].fTypeSet = FALSE;
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if (!CheckTypesSet()) {
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Flush();
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FreeStreamingResources();
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}
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return NOERROR;
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}
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if (NULL == pmt) {
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return E_POINTER;
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}
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HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckOutputType)(ulStreamIndex, pmt);
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if (FAILED(hr)) {
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return hr;
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}
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if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
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return NOERROR;
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}
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// actually set the type
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DMO_MEDIA_TYPE mtTemp;
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if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
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// Free any previous mediatype
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if (OutputTypeSet(ulStreamIndex)) {
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MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
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}
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m_OutputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
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m_OutputInfo[ulStreamIndex].fTypeSet = TRUE;
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CheckTypesSet();
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} else {
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return E_OUTOFMEMORY;
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}
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return NOERROR;
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}
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STDMETHODIMP GetInputStatus(
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ULONG ulStreamIndex,
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DWORD *pdwStatus
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) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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if (NULL == pdwStatus) {
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return E_POINTER;
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}
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*pdwStatus = 0;
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (!m_fTypesSet) {
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return DMO_E_TYPE_NOT_SET;
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}
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if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) == S_OK) {
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*pdwStatus |= DMO_INPUT_STATUSF_ACCEPT_DATA;
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}
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return NOERROR;
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}
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STDMETHODIMP GetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME *prtLatency) {
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if (prtLatency == NULL) {
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return E_POINTER;
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}
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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return INTERNAL_CALL(_DERIVED_, GetInputMaxLatency)(ulStreamIndex, prtLatency);
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}
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STDMETHODIMP SetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME rtLatency) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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return INTERNAL_CALL(_DERIVED_, SetInputMaxLatency)(ulStreamIndex, rtLatency);
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}
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STDMETHODIMP Discontinuity(ULONG ulStreamIndex) {
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if (ulStreamIndex >= NUMBEROFINPUTS) {
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return DMO_E_INVALIDSTREAMINDEX;
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}
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (!m_fTypesSet) {
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return DMO_E_TYPE_NOT_SET;
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}
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if (S_OK != INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex)) {
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return DMO_E_NOTACCEPTING;
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}
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return INTERNAL_CALL(_DERIVED_, Discontinuity)(ulStreamIndex);
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}
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STDMETHODIMP Flush()
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{
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LockIt lck(static_cast<_DERIVED_ *>(this));
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if (!m_fTypesSet) {
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return S_OK;
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}
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if (m_fFlushed) {
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return S_OK;
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}
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HRESULT hr = INTERNAL_CALL(_DERIVED_, Flush)();
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m_fFlushed = true;
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return hr;
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}
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STDMETHODIMP AllocateStreamingResources() {
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|
LockIt lck(static_cast<_DERIVED_ *>(this));
|
|
if (!m_fTypesSet) {
|
|
return DMO_E_TYPE_NOT_SET;
|
|
}
|
|
if (m_fResourcesAllocated) {
|
|
return S_OK;
|
|
}
|
|
HRESULT hr = INTERNAL_CALL(_DERIVED_, AllocateStreamingResources)();
|
|
if (SUCCEEDED(hr)) {
|
|
m_fResourcesAllocated = true;
|
|
}
|
|
return hr;
|
|
}
|
|
|
|
STDMETHODIMP FreeStreamingResources()
|
|
{
|
|
LockIt lck(static_cast<_DERIVED_ *>(this));
|
|
if (m_fResourcesAllocated) {
|
|
m_fResourcesAllocated = false;
|
|
INTERNAL_CALL(_DERIVED_, Flush)();
|
|
return INTERNAL_CALL(_DERIVED_, FreeStreamingResources)();
|
|
}
|
|
return S_OK;
|
|
}
|
|
|
|
//
|
|
// Processing methods - public entry points
|
|
//
|
|
STDMETHODIMP ProcessInput(
|
|
DWORD ulStreamIndex,
|
|
IMediaBuffer *pBuffer, // [in], must not be NULL
|
|
DWORD dwFlags, // [in] - discontinuity, timestamp, etc.
|
|
REFERENCE_TIME rtTimestamp, // [in], valid if flag set
|
|
REFERENCE_TIME rtTimelength // [in], valid if flag set
|
|
) {
|
|
if (!pBuffer) {
|
|
return E_POINTER;
|
|
}
|
|
if (ulStreamIndex >= NUMBEROFINPUTS) {
|
|
return DMO_E_INVALIDSTREAMINDEX;
|
|
}
|
|
if (dwFlags & ~(DMO_INPUT_DATA_BUFFERF_SYNCPOINT |
|
|
DMO_INPUT_DATA_BUFFERF_TIME |
|
|
DMO_INPUT_DATA_BUFFERF_TIMELENGTH)) {
|
|
return E_INVALIDARG;
|
|
}
|
|
|
|
LockIt lck(static_cast<_DERIVED_ *>(this));
|
|
|
|
// Make sure all streams have media types set and resources are allocated
|
|
HRESULT hr = AllocateStreamingResources();
|
|
if (FAILED(hr)) {
|
|
return hr;
|
|
}
|
|
if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) != S_OK) {
|
|
return DMO_E_NOTACCEPTING;
|
|
}
|
|
|
|
m_fFlushed = false;
|
|
|
|
return INTERNAL_CALL(_DERIVED_, ProcessInput)(
|
|
ulStreamIndex,
|
|
pBuffer,
|
|
dwFlags,
|
|
rtTimestamp,
|
|
rtTimelength);
|
|
}
|
|
|
|
STDMETHODIMP ProcessOutput(
|
|
DWORD dwFlags,
|
|
DWORD ulOutputBufferCount,
|
|
DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
|
|
DWORD *pdwStatus)
|
|
{
|
|
if (pdwStatus == NULL) {
|
|
return E_POINTER;
|
|
}
|
|
|
|
|
|
if (ulOutputBufferCount != NUMBEROFOUTPUTS || (dwFlags & ~DMO_PROCESS_OUTPUT_DISCARD_WHEN_NO_BUFFER)) {
|
|
return E_INVALIDARG;
|
|
}
|
|
|
|
if (NUMBEROFOUTPUTS != 0 && pOutputBuffers == NULL) {
|
|
return E_POINTER;
|
|
}
|
|
|
|
*pdwStatus = 0;
|
|
|
|
LockIt lck(static_cast<_DERIVED_ *>(this));
|
|
|
|
HRESULT hr = AllocateStreamingResources();
|
|
if (FAILED(hr)) {
|
|
return hr;
|
|
}
|
|
|
|
for (DWORD dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
|
|
pOutputBuffers[dw].dwStatus = 0;
|
|
}
|
|
|
|
hr = INTERNAL_CALL(_DERIVED_, ProcessOutput)(
|
|
dwFlags,
|
|
ulOutputBufferCount,
|
|
pOutputBuffers,
|
|
pdwStatus);
|
|
|
|
// remember the DMO's incomplete status
|
|
for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
|
|
if (pOutputBuffers[dw].dwStatus & DMO_OUTPUT_DATA_BUFFERF_INCOMPLETE) {
|
|
m_OutputInfo[dw].fIncomplete = TRUE;
|
|
} else {
|
|
m_OutputInfo[dw].fIncomplete = FALSE;
|
|
}
|
|
}
|
|
|
|
return hr;
|
|
}
|
|
|
|
STDMETHODIMP DMOLock(LONG lLock)
|
|
{
|
|
if (lLock) {
|
|
static_cast<_DERIVED_ *>(this)->Lock();
|
|
} else {
|
|
static_cast<_DERIVED_ *>(this)->Unlock();
|
|
}
|
|
return S_OK;
|
|
}
|
|
};
|
|
|
|
#endif // _dmoimpl_h_
|
|
|