api/include/dmoimpl.h

//------------------------------------------------------------------------------
// File: DMOImpl.h
//
// Desc: Classes to implement a DMO.
//
// Copyright (c) 2000, Microsoft Corporation.  All rights reserved.
//------------------------------------------------------------------------------


#ifndef _dmoimpl_h_
#define _dmoimpl_h_

#ifdef _DEBUG
#include <crtdbg.h>
#endif

//  Class to implement a DMO
//
//
//       Assumes the number of input and output streams is fixed
//       (these are template parameters)
//
//       Provides following services:
//
//          Basic parameter checking and locking
//          Fully implements :
//                 GetStreamCount
//                 SetInputType
//                 SetOutputType
//                 GetCurrentInputType
//                 GetCurrentOutputType
//
//          Checks if all types are set before streaming
//          Automatically calls AllocateStreamingResources before streaming
//              if it's not been called already
//          Prevents streaming until the types on all non-optional streams
//              have been set
//
//
//  Derived class implements the following methods :
//
/*
   HRESULT InternalGetInputStreamInfo(DWORD dwInputStreamIndex, DWORD *pdwFlags);
   HRESULT InternalGetOutputStreamInfo(DWORD dwOutputStreamIndex, DWORD *pdwFlags);
   HRESULT InternalCheckInputType(DWORD dwInputStreamIndex, const DMO_MEDIA_TYPE *pmt);
   HRESULT InternalCheckOutputType(DWORD dwOutputStreamIndex, const DMO_MEDIA_TYPE *pmt);
   HRESULT InternalGetInputType(DWORD dwInputStreamIndex, DWORD dwTypeIndex,
                            DMO_MEDIA_TYPE *pmt);
   HRESULT InternalGetOutputType(DWORD dwOutputStreamIndex, DWORD dwTypeIndex,
                            DMO_MEDIA_TYPE *pmt);
   HRESULT InternalGetInputSizeInfo(DWORD dwInputStreamIndex, DWORD *pcbSize,
                            DWORD *pcbMaxLookahead, DWORD *pcbAlignment);
   HRESULT InternalGetOutputSizeInfo(DWORD dwOutputStreamIndex, DWORD *pcbSize,
                             DWORD *pcbAlignment);
   HRESULT InternalGetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME *prtMaxLatency);
   HRESULT InternalSetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME rtMaxLatency);
   HRESULT InternalFlush();
   HRESULT InternalDiscontinuity(DWORD dwInputStreamIndex);
   HRESULT InternalAllocateStreamingResources();
   HRESULT InternalFreeStreamingResources();
   HRESULT InternalProcessInput(DWORD dwInputStreamIndex, IMediaBuffer *pBuffer,
                               DWORD dwFlags, REFERENCE_TIME rtTimestamp,
                               REFERENCE_TIME rtTimelength);
   HRESULT InternalProcessOutput(DWORD dwFlags, DWORD cOutputBufferCount,
                               DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
                           DWORD *pdwStatus);
   HRESULT InternalAcceptingInput(DWORD dwInputStreamIndex);
   void Lock();
   void Unlock();

   Notes:
       The derived class is meant to do most work to initialize streaming
       in AllocateStreamingResources rather than when types are set.

       This centralizes the work to one
       clear place based on the types set for all streams.

       The derived class implements locking.

       The derived class implements the IUnknown methods

   Usage example (1 input and 1 output) :
   class CMyDMO : public IMediaObjectImpl<CMyDmo, 1, 1>,
                  ...
*/


#define INTERNAL_CALL(_T_, _X_) \
    static_cast<_T_ *>(this)->Internal##_X_

template <class _DERIVED_, int NUMBEROFINPUTS, int NUMBEROFOUTPUTS>
class IMediaObjectImpl : public IMediaObject
{
private:
    // Member variables
    struct {
        DWORD   fTypeSet:1;
        DWORD   fIncomplete:1;
        DMO_MEDIA_TYPE CurrentMediaType;
    } m_InputInfo[NUMBEROFINPUTS], m_OutputInfo[NUMBEROFOUTPUTS];

    bool m_fTypesSet;
    bool m_fFlushed;
    bool m_fResourcesAllocated;

protected:

    //  Helpers
    bool InputTypeSet(DWORD ulInputStreamIndex) const
    {
        _ASSERTE(ulInputStreamIndex < NUMBEROFINPUTS);
        return 0 != m_InputInfo[ulInputStreamIndex].fTypeSet;
    }

    bool OutputTypeSet(DWORD ulOutputStreamIndex) const
    {
        _ASSERTE(ulOutputStreamIndex < NUMBEROFOUTPUTS);
        return 0 != m_OutputInfo[ulOutputStreamIndex].fTypeSet;
    }
    const DMO_MEDIA_TYPE *InputType(DWORD ulInputStreamIndex)
    {
        if (!InputTypeSet(ulInputStreamIndex)) {
            return NULL;
        }
        return &m_InputInfo[ulInputStreamIndex].CurrentMediaType;
    }
    const DMO_MEDIA_TYPE *OutputType(DWORD ulOutputStreamIndex)
    {
        if (!OutputTypeSet(ulOutputStreamIndex)) {
            return NULL;
        }
        return &m_OutputInfo[ulOutputStreamIndex].CurrentMediaType;
    }


    class LockIt
    {
    public:
        LockIt(_DERIVED_ *p) : m_p(p)
        {
            static_cast<_DERIVED_ *>(m_p)->Lock();
        }
        ~LockIt()
        {
            static_cast<_DERIVED_ *>(m_p)->Unlock();
        }
        _DERIVED_ *const m_p;
    };

    bool CheckTypesSet()
    {
        m_fTypesSet = false;
        DWORD dw;
        for (dw = 0; dw < NUMBEROFINPUTS; dw++) {
            if (!InputTypeSet(dw)) {
                return false;
            }
        }
        for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
            if (!OutputTypeSet(dw)) {
                //  Check if it's optional
                DWORD dwFlags;
#ifdef _DEBUG
                dwFlags = 0xFFFFFFFF;
#endif
                INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(dw, &dwFlags);
                _ASSERTE(0 == (dwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES |
                                         DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
                                         DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE |
                                         DMO_OUTPUT_STREAMF_DISCARDABLE |
                                         DMO_OUTPUT_STREAMF_OPTIONAL)));
                if (!(dwFlags & DMO_OUTPUT_STREAMF_OPTIONAL)) {
                    return false;
                }
            }
        }
        m_fTypesSet = true;
        return true;
    }


    IMediaObjectImpl() :
        m_fTypesSet(false),
        m_fFlushed(true),
        m_fResourcesAllocated(false)
    {
        ZeroMemory(&m_InputInfo, sizeof(m_InputInfo));
        ZeroMemory(&m_OutputInfo, sizeof(m_OutputInfo));
    }

    virtual ~IMediaObjectImpl() {
        DWORD dwCurrentType;

        for (dwCurrentType = 0; dwCurrentType < NUMBEROFINPUTS; dwCurrentType++) {
            if(InputTypeSet(dwCurrentType)) {
                MoFreeMediaType(&m_InputInfo[dwCurrentType].CurrentMediaType);
            }
        }

        for (dwCurrentType = 0; dwCurrentType < NUMBEROFOUTPUTS; dwCurrentType++) {
            if(OutputTypeSet(dwCurrentType)) {
                MoFreeMediaType(&m_OutputInfo[dwCurrentType].CurrentMediaType);
            }
        }
    }


    // IMediaObject methods


    //
    // IMediaObject methods
    //
    STDMETHODIMP GetStreamCount(unsigned long *pulNumberOfInputStreams, unsigned long *pulNumberOfOutputStreams)
    {
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (pulNumberOfInputStreams == NULL ||
            pulNumberOfOutputStreams == NULL) {
            return E_POINTER;
        }
        *pulNumberOfInputStreams  = NUMBEROFINPUTS;
        *pulNumberOfOutputStreams = NUMBEROFOUTPUTS;
        return S_OK;
    }
    STDMETHODIMP GetInputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
    {
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (pdwFlags == NULL) {
            return E_POINTER;
        }
        HRESULT hr = INTERNAL_CALL(_DERIVED_, GetInputStreamInfo)(ulStreamIndex, pdwFlags);
        _ASSERTE(0 == (*pdwFlags & ~(DMO_INPUT_STREAMF_WHOLE_SAMPLES |
                                   DMO_INPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
                                   DMO_INPUT_STREAMF_FIXED_SAMPLE_SIZE |
                                   DMO_INPUT_STREAMF_HOLDS_BUFFERS)));
        return hr;
    }
    STDMETHODIMP GetOutputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
    {
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (ulStreamIndex >= NUMBEROFOUTPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (pdwFlags == NULL) {
            return E_POINTER;
        }
        HRESULT hr = INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(ulStreamIndex, pdwFlags);
        _ASSERTE(0 == (*pdwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES |
                                   DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
                                   DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE |
                                   DMO_OUTPUT_STREAMF_DISCARDABLE |
                                   DMO_OUTPUT_STREAMF_OPTIONAL)));
        return hr;
    }
    STDMETHODIMP GetInputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        LockIt lck(static_cast<_DERIVED_ *>(this));
        return INTERNAL_CALL(_DERIVED_, GetInputType)(ulStreamIndex, ulTypeIndex, pmt);
    }
    STDMETHODIMP GetOutputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
        if (ulStreamIndex >= NUMBEROFOUTPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        LockIt lck(static_cast<_DERIVED_ *>(this));
        return INTERNAL_CALL(_DERIVED_, GetOutputType)(ulStreamIndex, ulTypeIndex, pmt);
    }
    STDMETHODIMP GetInputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (NULL == pmt) {
            return E_POINTER;
        }
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (InputTypeSet(ulStreamIndex))
            return MoCopyMediaType(pmt,
                                   &m_InputInfo[ulStreamIndex].CurrentMediaType);
        else
           return DMO_E_TYPE_NOT_SET;
    }
    STDMETHODIMP GetOutputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
        if (ulStreamIndex >= NUMBEROFOUTPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (NULL == pmt) {
            return E_POINTER;
        }
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (OutputTypeSet(ulStreamIndex))
            return MoCopyMediaType(pmt,
                                   &m_OutputInfo[ulStreamIndex].CurrentMediaType);
        else
           return DMO_E_TYPE_NOT_SET;
    }
    STDMETHODIMP GetInputSizeInfo(ULONG ulStreamIndex, ULONG *pulSize, ULONG *pcbMaxLookahead, ULONG *pulAlignment) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (NULL == pulSize || NULL == pulAlignment ||
            NULL == pcbMaxLookahead) {
            return E_POINTER;
        }
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (!InputTypeSet(ulStreamIndex)) {
           return DMO_E_TYPE_NOT_SET;
        }
        return INTERNAL_CALL(_DERIVED_, GetInputSizeInfo)(ulStreamIndex, pulSize, pcbMaxLookahead, pulAlignment);
    }
    STDMETHODIMP GetOutputSizeInfo(ULONG ulStreamIndex, ULONG *pulSize, ULONG *pulAlignment) {
        if (ulStreamIndex >= NUMBEROFOUTPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (NULL == pulSize || NULL == pulAlignment) {
            return E_POINTER;
        }
        LockIt lck(static_cast<_DERIVED_ *>(this));
        if (!m_fTypesSet || !OutputTypeSet(ulStreamIndex)) {
           return DMO_E_TYPE_NOT_SET;
        }
        return INTERNAL_CALL(_DERIVED_, GetOutputSizeInfo)(ulStreamIndex, pulSize, pulAlignment);
    }
    STDMETHODIMP SetInputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR | DMO_SET_TYPEF_TEST_ONLY)) {
            return E_INVALIDARG;
        }

        LockIt lck(static_cast<_DERIVED_ *>(this));

        if (dwFlags & DMO_SET_TYPEF_CLEAR) {
            MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
            m_InputInfo[ulStreamIndex].fTypeSet = FALSE;
            if (!CheckTypesSet()) {
                Flush();
                FreeStreamingResources();
            }
            return NOERROR;
        }
        if (NULL == pmt) {
            return E_POINTER;
        }
        HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckInputType)(ulStreamIndex, pmt);
        if (FAILED(hr))
           return hr;

        if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
           return NOERROR;
        }


        // actually set the type
        DMO_MEDIA_TYPE mtTemp;
        if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
            // Free any previous mediatype
            if (InputTypeSet(ulStreamIndex)) {
                MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
            }
            m_InputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
            m_InputInfo[ulStreamIndex].fTypeSet = TRUE;
            CheckTypesSet();
        } else {
            return E_OUTOFMEMORY;
        }

        return NOERROR;
    }

    STDMETHODIMP SetOutputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
        if (ulStreamIndex >= NUMBEROFOUTPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR | DMO_SET_TYPEF_TEST_ONLY)) {
            return E_INVALIDARG;
        }

        LockIt lck(static_cast<_DERIVED_ *>(this));

        if (dwFlags & DMO_SET_TYPEF_CLEAR) {
            MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
            m_OutputInfo[ulStreamIndex].fTypeSet = FALSE;
            if (!CheckTypesSet()) {
                Flush();
                FreeStreamingResources();
            }
            return NOERROR;
        }
        if (NULL == pmt) {
            return E_POINTER;
        }
        HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckOutputType)(ulStreamIndex, pmt);
        if (FAILED(hr)) {
           return hr;
        }

        if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
           return NOERROR;
        }


        // actually set the type
        DMO_MEDIA_TYPE mtTemp;
        if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
            // Free any previous mediatype
            if (OutputTypeSet(ulStreamIndex)) {
                MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
            }
            m_OutputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
            m_OutputInfo[ulStreamIndex].fTypeSet = TRUE;
            CheckTypesSet();
        } else {
            return E_OUTOFMEMORY;
        }

        return NOERROR;
    }
    STDMETHODIMP GetInputStatus(
        ULONG ulStreamIndex,
        DWORD *pdwStatus
    ) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }
        if (NULL == pdwStatus) {
            return E_POINTER;
        }
        *pdwStatus = 0;

        LockIt lck(static_cast<_DERIVED_ *>(this));

        if (!m_fTypesSet) {
            return DMO_E_TYPE_NOT_SET;
        }

        if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) == S_OK) {
           *pdwStatus |= DMO_INPUT_STATUSF_ACCEPT_DATA;
        }
        return NOERROR;
    }
    STDMETHODIMP GetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME *prtLatency) {

        if (prtLatency == NULL) {
            return E_POINTER;
        }
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }

        LockIt lck(static_cast<_DERIVED_ *>(this));

        return INTERNAL_CALL(_DERIVED_, GetInputMaxLatency)(ulStreamIndex, prtLatency);
    }
    STDMETHODIMP SetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME rtLatency) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }

        LockIt lck(static_cast<_DERIVED_ *>(this));

        return INTERNAL_CALL(_DERIVED_, SetInputMaxLatency)(ulStreamIndex, rtLatency);
    }
    STDMETHODIMP Discontinuity(ULONG ulStreamIndex) {
        if (ulStreamIndex >= NUMBEROFINPUTS) {
            return DMO_E_INVALIDSTREAMINDEX;
        }

        LockIt lck(static_cast<_DERIVED_ *>(this));

        if (!m_fTypesSet) {
            return DMO_E_TYPE_NOT_SET;
        }

        if (S_OK != INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex)) {
            return DMO_E_NOTACCEPTING;
        }

        return INTERNAL_CALL(_DERIVED_, Discontinuity)(ulStreamIndex);
    }

    STDMETHODIMP Flush()
    {
        LockIt lck(static_cast<_DERIVED_ *>(this));

        if (!m_fTypesSet) {
            return S_OK;
        }
        if (m_fFlushed) {
            return S_OK;
        }
        HRESULT hr =  INTERNAL_CALL(_DERIVED_, Flush)();
        m_fFlushed = true;
        return hr;
    }

    STDMETHODIMP AllocateStreamingResources() {
        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_

1	bearsoft	1.1	//------------------------------------------------------------------------------
2			// File: DMOImpl.h
3			//
4			// Desc: Classes to implement a DMO.
5			//
6			// Copyright (c) 2000, Microsoft Corporation. All rights reserved.
7			//------------------------------------------------------------------------------
8
9
10			#ifndef _dmoimpl_h_
11			#define _dmoimpl_h_
12
13			#ifdef _DEBUG
14			#include <crtdbg.h>
15			#endif
16
17			// Class to implement a DMO
18			//
19			//
20			// Assumes the number of input and output streams is fixed
21			// (these are template parameters)
22			//
23			// Provides following services:
24			//
25			// Basic parameter checking and locking
26			// Fully implements :
27			// GetStreamCount
28			// SetInputType
29			// SetOutputType
30			// GetCurrentInputType
31			// GetCurrentOutputType
32			//
33			// Checks if all types are set before streaming
34			// Automatically calls AllocateStreamingResources before streaming
35			// if it's not been called already
36			// Prevents streaming until the types on all non-optional streams
37			// have been set
38			//
39			//
40			// Derived class implements the following methods :
41			//
42			/*
43			HRESULT InternalGetInputStreamInfo(DWORD dwInputStreamIndex, DWORD *pdwFlags);
44			HRESULT InternalGetOutputStreamInfo(DWORD dwOutputStreamIndex, DWORD *pdwFlags);
45			HRESULT InternalCheckInputType(DWORD dwInputStreamIndex, const DMO_MEDIA_TYPE *pmt);
46			HRESULT InternalCheckOutputType(DWORD dwOutputStreamIndex, const DMO_MEDIA_TYPE *pmt);
47			HRESULT InternalGetInputType(DWORD dwInputStreamIndex, DWORD dwTypeIndex,
48			DMO_MEDIA_TYPE *pmt);
49			HRESULT InternalGetOutputType(DWORD dwOutputStreamIndex, DWORD dwTypeIndex,
50			DMO_MEDIA_TYPE *pmt);
51			HRESULT InternalGetInputSizeInfo(DWORD dwInputStreamIndex, DWORD *pcbSize,
52			DWORD pcbMaxLookahead, DWORD pcbAlignment);
53			HRESULT InternalGetOutputSizeInfo(DWORD dwOutputStreamIndex, DWORD *pcbSize,
54			DWORD *pcbAlignment);
55			HRESULT InternalGetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME *prtMaxLatency);
56			HRESULT InternalSetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME rtMaxLatency);
57			HRESULT InternalFlush();
58			HRESULT InternalDiscontinuity(DWORD dwInputStreamIndex);
59			HRESULT InternalAllocateStreamingResources();
60			HRESULT InternalFreeStreamingResources();
61			HRESULT InternalProcessInput(DWORD dwInputStreamIndex, IMediaBuffer *pBuffer,
62			DWORD dwFlags, REFERENCE_TIME rtTimestamp,
63			REFERENCE_TIME rtTimelength);
64			HRESULT InternalProcessOutput(DWORD dwFlags, DWORD cOutputBufferCount,
65			DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
66			DWORD *pdwStatus);
67			HRESULT InternalAcceptingInput(DWORD dwInputStreamIndex);
68			void Lock();
69			void Unlock();
70
71			Notes:
72			The derived class is meant to do most work to initialize streaming
73			in AllocateStreamingResources rather than when types are set.
74
75			This centralizes the work to one
76			clear place based on the types set for all streams.
77
78			The derived class implements locking.
79
80			The derived class implements the IUnknown methods
81
82			Usage example (1 input and 1 output) :
83			class CMyDMO : public IMediaObjectImpl<CMyDmo, 1, 1>,
84			...
85			*/
86
87
88			#define INTERNAL_CALL(_T_, _X_) \
89			static_cast<_T_ *>(this)->Internal##_X_
90
91			template <class _DERIVED_, int NUMBEROFINPUTS, int NUMBEROFOUTPUTS>
92			class IMediaObjectImpl : public IMediaObject
93			{
94			private:
95			// Member variables
96			struct {
97			DWORD fTypeSet:1;
98			DWORD fIncomplete:1;
99			DMO_MEDIA_TYPE CurrentMediaType;
100			} m_InputInfo[NUMBEROFINPUTS], m_OutputInfo[NUMBEROFOUTPUTS];
101
102			bool m_fTypesSet;
103			bool m_fFlushed;
104			bool m_fResourcesAllocated;
105
106			protected:
107
108			// Helpers
109			bool InputTypeSet(DWORD ulInputStreamIndex) const
110			{
111			_ASSERTE(ulInputStreamIndex < NUMBEROFINPUTS);
112			return 0 != m_InputInfo[ulInputStreamIndex].fTypeSet;
113			}
114
115			bool OutputTypeSet(DWORD ulOutputStreamIndex) const
116			{
117			_ASSERTE(ulOutputStreamIndex < NUMBEROFOUTPUTS);
118			return 0 != m_OutputInfo[ulOutputStreamIndex].fTypeSet;
119			}
120			const DMO_MEDIA_TYPE *InputType(DWORD ulInputStreamIndex)
121			{
122			if (!InputTypeSet(ulInputStreamIndex)) {
123			return NULL;
124			}
125			return &m_InputInfo[ulInputStreamIndex].CurrentMediaType;
126			}
127			const DMO_MEDIA_TYPE *OutputType(DWORD ulOutputStreamIndex)
128			{
129			if (!OutputTypeSet(ulOutputStreamIndex)) {
130			return NULL;
131			}
132			return &m_OutputInfo[ulOutputStreamIndex].CurrentMediaType;
133			}
134
135
136			class LockIt
137			{
138			public:
139			LockIt(_DERIVED_ *p) : m_p(p)
140			{
141			static_cast<_DERIVED_ *>(m_p)->Lock();
142			}
143			~LockIt()
144			{
145			static_cast<_DERIVED_ *>(m_p)->Unlock();
146			}
147			_DERIVED_ *const m_p;
148			};
149
150			bool CheckTypesSet()
151			{
152			m_fTypesSet = false;
153			DWORD dw;
154			for (dw = 0; dw < NUMBEROFINPUTS; dw++) {
155			if (!InputTypeSet(dw)) {
156			return false;
157			}
158			}
159			for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
160			if (!OutputTypeSet(dw)) {
161			// Check if it's optional
162			DWORD dwFlags;
163			#ifdef _DEBUG
164			dwFlags = 0xFFFFFFFF;
165			#endif
166			INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(dw, &dwFlags);
167			_ASSERTE(0 == (dwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES \|
168			DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER \|
169			DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE \|
170			DMO_OUTPUT_STREAMF_DISCARDABLE \|
171			DMO_OUTPUT_STREAMF_OPTIONAL)));
172			if (!(dwFlags & DMO_OUTPUT_STREAMF_OPTIONAL)) {
173			return false;
174			}
175			}
176			}
177			m_fTypesSet = true;
178			return true;
179			}
180
181
182			IMediaObjectImpl() :
183			m_fTypesSet(false),
184			m_fFlushed(true),
185			m_fResourcesAllocated(false)
186			{
187			ZeroMemory(&m_InputInfo, sizeof(m_InputInfo));
188			ZeroMemory(&m_OutputInfo, sizeof(m_OutputInfo));
189			}
190
191			virtual ~IMediaObjectImpl() {
192			DWORD dwCurrentType;
193
194			for (dwCurrentType = 0; dwCurrentType < NUMBEROFINPUTS; dwCurrentType++) {
195			if(InputTypeSet(dwCurrentType)) {
196			MoFreeMediaType(&m_InputInfo[dwCurrentType].CurrentMediaType);
197			}
198			}
199
200			for (dwCurrentType = 0; dwCurrentType < NUMBEROFOUTPUTS; dwCurrentType++) {
201			if(OutputTypeSet(dwCurrentType)) {
202			MoFreeMediaType(&m_OutputInfo[dwCurrentType].CurrentMediaType);
203			}
204			}
205			}
206
207
208			// IMediaObject methods
209
210
211			//
212			// IMediaObject methods
213			//
214			STDMETHODIMP GetStreamCount(unsigned long pulNumberOfInputStreams, unsigned long pulNumberOfOutputStreams)
215			{
216			LockIt lck(static_cast<_DERIVED_ *>(this));
217			if (pulNumberOfInputStreams == NULL \|\|
218			pulNumberOfOutputStreams == NULL) {
219			return E_POINTER;
220			}
221			*pulNumberOfInputStreams = NUMBEROFINPUTS;
222			*pulNumberOfOutputStreams = NUMBEROFOUTPUTS;
223			return S_OK;
224			}
225			STDMETHODIMP GetInputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
226			{
227			LockIt lck(static_cast<_DERIVED_ *>(this));
228			if (ulStreamIndex >= NUMBEROFINPUTS) {
229			return DMO_E_INVALIDSTREAMINDEX;
230			}
231			if (pdwFlags == NULL) {
232			return E_POINTER;
233			}
234			HRESULT hr = INTERNAL_CALL(_DERIVED_, GetInputStreamInfo)(ulStreamIndex, pdwFlags);
235			_ASSERTE(0 == (*pdwFlags & ~(DMO_INPUT_STREAMF_WHOLE_SAMPLES \|
236			DMO_INPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER \|
237			DMO_INPUT_STREAMF_FIXED_SAMPLE_SIZE \|
238			DMO_INPUT_STREAMF_HOLDS_BUFFERS)));
239			return hr;
240			}
241			STDMETHODIMP GetOutputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
242			{
243			LockIt lck(static_cast<_DERIVED_ *>(this));
244			if (ulStreamIndex >= NUMBEROFOUTPUTS) {
245			return DMO_E_INVALIDSTREAMINDEX;
246			}
247			if (pdwFlags == NULL) {
248			return E_POINTER;
249			}
250			HRESULT hr = INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(ulStreamIndex, pdwFlags);
251			_ASSERTE(0 == (*pdwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES \|
252			DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER \|
253			DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE \|
254			DMO_OUTPUT_STREAMF_DISCARDABLE \|
255			DMO_OUTPUT_STREAMF_OPTIONAL)));
256			return hr;
257			}
258			STDMETHODIMP GetInputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
259			if (ulStreamIndex >= NUMBEROFINPUTS) {
260			return DMO_E_INVALIDSTREAMINDEX;
261			}
262			LockIt lck(static_cast<_DERIVED_ *>(this));
263			return INTERNAL_CALL(_DERIVED_, GetInputType)(ulStreamIndex, ulTypeIndex, pmt);
264			}
265			STDMETHODIMP GetOutputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
266			if (ulStreamIndex >= NUMBEROFOUTPUTS) {
267			return DMO_E_INVALIDSTREAMINDEX;
268			}
269			LockIt lck(static_cast<_DERIVED_ *>(this));
270			return INTERNAL_CALL(_DERIVED_, GetOutputType)(ulStreamIndex, ulTypeIndex, pmt);
271			}
272			STDMETHODIMP GetInputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
273			if (ulStreamIndex >= NUMBEROFINPUTS) {
274			return DMO_E_INVALIDSTREAMINDEX;
275			}
276			if (NULL == pmt) {
277			return E_POINTER;
278			}
279			LockIt lck(static_cast<_DERIVED_ *>(this));
280			if (InputTypeSet(ulStreamIndex))
281			return MoCopyMediaType(pmt,
282			&m_InputInfo[ulStreamIndex].CurrentMediaType);
283			else
284			return DMO_E_TYPE_NOT_SET;
285			}
286			STDMETHODIMP GetOutputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
287			if (ulStreamIndex >= NUMBEROFOUTPUTS) {
288			return DMO_E_INVALIDSTREAMINDEX;
289			}
290			if (NULL == pmt) {
291			return E_POINTER;
292			}
293			LockIt lck(static_cast<_DERIVED_ *>(this));
294			if (OutputTypeSet(ulStreamIndex))
295			return MoCopyMediaType(pmt,
296			&m_OutputInfo[ulStreamIndex].CurrentMediaType);
297			else
298			return DMO_E_TYPE_NOT_SET;
299			}
300			STDMETHODIMP GetInputSizeInfo(ULONG ulStreamIndex, ULONG pulSize, ULONG pcbMaxLookahead, ULONG *pulAlignment) {
301			if (ulStreamIndex >= NUMBEROFINPUTS) {
302			return DMO_E_INVALIDSTREAMINDEX;
303			}
304			if (NULL == pulSize \|\| NULL == pulAlignment \|\|
305			NULL == pcbMaxLookahead) {
306			return E_POINTER;
307			}
308			LockIt lck(static_cast<_DERIVED_ *>(this));
309			if (!InputTypeSet(ulStreamIndex)) {
310			return DMO_E_TYPE_NOT_SET;
311			}
312			return INTERNAL_CALL(_DERIVED_, GetInputSizeInfo)(ulStreamIndex, pulSize, pcbMaxLookahead, pulAlignment);
313			}
314			STDMETHODIMP GetOutputSizeInfo(ULONG ulStreamIndex, ULONG pulSize, ULONG pulAlignment) {
315			if (ulStreamIndex >= NUMBEROFOUTPUTS) {
316			return DMO_E_INVALIDSTREAMINDEX;
317			}
318			if (NULL == pulSize \|\| NULL == pulAlignment) {
319			return E_POINTER;
320			}
321			LockIt lck(static_cast<_DERIVED_ *>(this));
322			if (!m_fTypesSet \|\| !OutputTypeSet(ulStreamIndex)) {
323			return DMO_E_TYPE_NOT_SET;
324			}
325			return INTERNAL_CALL(_DERIVED_, GetOutputSizeInfo)(ulStreamIndex, pulSize, pulAlignment);
326			}
327			STDMETHODIMP SetInputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
328			if (ulStreamIndex >= NUMBEROFINPUTS) {
329			return DMO_E_INVALIDSTREAMINDEX;
330			}
331			if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR \| DMO_SET_TYPEF_TEST_ONLY)) {
332			return E_INVALIDARG;
333			}
334
335			LockIt lck(static_cast<_DERIVED_ *>(this));
336
337			if (dwFlags & DMO_SET_TYPEF_CLEAR) {
338			MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
339			m_InputInfo[ulStreamIndex].fTypeSet = FALSE;
340			if (!CheckTypesSet()) {
341			Flush();
342			FreeStreamingResources();
343			}
344			return NOERROR;
345			}
346			if (NULL == pmt) {
347			return E_POINTER;
348			}
349			HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckInputType)(ulStreamIndex, pmt);
350			if (FAILED(hr))
351			return hr;
352
353			if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
354			return NOERROR;
355			}
356
357
358			// actually set the type
359			DMO_MEDIA_TYPE mtTemp;
360			if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
361			// Free any previous mediatype
362			if (InputTypeSet(ulStreamIndex)) {
363			MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
364			}
365			m_InputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
366			m_InputInfo[ulStreamIndex].fTypeSet = TRUE;
367			CheckTypesSet();
368			} else {
369			return E_OUTOFMEMORY;
370			}
371
372			return NOERROR;
373			}
374
375			STDMETHODIMP SetOutputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
376			if (ulStreamIndex >= NUMBEROFOUTPUTS) {
377			return DMO_E_INVALIDSTREAMINDEX;
378			}
379			if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR \| DMO_SET_TYPEF_TEST_ONLY)) {
380			return E_INVALIDARG;
381			}
382
383			LockIt lck(static_cast<_DERIVED_ *>(this));
384
385			if (dwFlags & DMO_SET_TYPEF_CLEAR) {
386			MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
387			m_OutputInfo[ulStreamIndex].fTypeSet = FALSE;
388			if (!CheckTypesSet()) {
389			Flush();
390			FreeStreamingResources();
391			}
392			return NOERROR;
393			}
394			if (NULL == pmt) {
395			return E_POINTER;
396			}
397			HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckOutputType)(ulStreamIndex, pmt);
398			if (FAILED(hr)) {
399			return hr;
400			}
401
402			if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
403			return NOERROR;
404			}
405
406
407			// actually set the type
408			DMO_MEDIA_TYPE mtTemp;
409			if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
410			// Free any previous mediatype
411			if (OutputTypeSet(ulStreamIndex)) {
412			MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
413			}
414			m_OutputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
415			m_OutputInfo[ulStreamIndex].fTypeSet = TRUE;
416			CheckTypesSet();
417			} else {
418			return E_OUTOFMEMORY;
419			}
420
421			return NOERROR;
422			}
423			STDMETHODIMP GetInputStatus(
424			ULONG ulStreamIndex,
425			DWORD *pdwStatus
426			) {
427			if (ulStreamIndex >= NUMBEROFINPUTS) {
428			return DMO_E_INVALIDSTREAMINDEX;
429			}
430			if (NULL == pdwStatus) {
431			return E_POINTER;
432			}
433			*pdwStatus = 0;
434
435			LockIt lck(static_cast<_DERIVED_ *>(this));
436
437			if (!m_fTypesSet) {
438			return DMO_E_TYPE_NOT_SET;
439			}
440
441			if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) == S_OK) {
442			*pdwStatus \|= DMO_INPUT_STATUSF_ACCEPT_DATA;
443			}
444			return NOERROR;
445			}
446			STDMETHODIMP GetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME *prtLatency) {
447
448			if (prtLatency == NULL) {
449			return E_POINTER;
450			}
451			if (ulStreamIndex >= NUMBEROFINPUTS) {
452			return DMO_E_INVALIDSTREAMINDEX;
453			}
454
455			LockIt lck(static_cast<_DERIVED_ *>(this));
456
457			return INTERNAL_CALL(_DERIVED_, GetInputMaxLatency)(ulStreamIndex, prtLatency);
458			}
459			STDMETHODIMP SetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME rtLatency) {
460			if (ulStreamIndex >= NUMBEROFINPUTS) {
461			return DMO_E_INVALIDSTREAMINDEX;
462			}
463
464			LockIt lck(static_cast<_DERIVED_ *>(this));
465
466			return INTERNAL_CALL(_DERIVED_, SetInputMaxLatency)(ulStreamIndex, rtLatency);
467			}
468			STDMETHODIMP Discontinuity(ULONG ulStreamIndex) {
469			if (ulStreamIndex >= NUMBEROFINPUTS) {
470			return DMO_E_INVALIDSTREAMINDEX;
471			}
472
473			LockIt lck(static_cast<_DERIVED_ *>(this));
474
475			if (!m_fTypesSet) {
476			return DMO_E_TYPE_NOT_SET;
477			}
478
479			if (S_OK != INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex)) {
480			return DMO_E_NOTACCEPTING;
481			}
482
483			return INTERNAL_CALL(_DERIVED_, Discontinuity)(ulStreamIndex);
484			}
485
486			STDMETHODIMP Flush()
487			{
488			LockIt lck(static_cast<_DERIVED_ *>(this));
489
490			if (!m_fTypesSet) {
491			return S_OK;
492			}
493			if (m_fFlushed) {
494			return S_OK;
495			}
496			HRESULT hr = INTERNAL_CALL(_DERIVED_, Flush)();
497			m_fFlushed = true;
498			return hr;
499			}
500
501			STDMETHODIMP AllocateStreamingResources() {
502			LockIt lck(static_cast<_DERIVED_ *>(this));
503			if (!m_fTypesSet) {
504			return DMO_E_TYPE_NOT_SET;
505			}
506			if (m_fResourcesAllocated) {
507			return S_OK;
508			}
509			HRESULT hr = INTERNAL_CALL(_DERIVED_, AllocateStreamingResources)();
510			if (SUCCEEDED(hr)) {
511			m_fResourcesAllocated = true;
512			}
513			return hr;
514			}
515			STDMETHODIMP FreeStreamingResources()
516			{
517			LockIt lck(static_cast<_DERIVED_ *>(this));
518			if (m_fResourcesAllocated) {
519			m_fResourcesAllocated = false;
520			INTERNAL_CALL(_DERIVED_, Flush)();
521			return INTERNAL_CALL(_DERIVED_, FreeStreamingResources)();
522			}
523			return S_OK;
524			}
525
526			//
527			// Processing methods - public entry points
528			//
529			STDMETHODIMP ProcessInput(
530			DWORD ulStreamIndex,
531			IMediaBuffer *pBuffer, // [in], must not be NULL
532			DWORD dwFlags, // [in] - discontinuity, timestamp, etc.
533			REFERENCE_TIME rtTimestamp, // [in], valid if flag set
534			REFERENCE_TIME rtTimelength // [in], valid if flag set
535			) {
536			if (!pBuffer) {
537			return E_POINTER;
538			}
539			if (ulStreamIndex >= NUMBEROFINPUTS) {
540			return DMO_E_INVALIDSTREAMINDEX;
541			}
542			if (dwFlags & ~(DMO_INPUT_DATA_BUFFERF_SYNCPOINT \|
543			DMO_INPUT_DATA_BUFFERF_TIME \|
544			DMO_INPUT_DATA_BUFFERF_TIMELENGTH)) {
545			return E_INVALIDARG;
546			}
547
548			LockIt lck(static_cast<_DERIVED_ *>(this));
549
550			// Make sure all streams have media types set and resources are allocated
551			HRESULT hr = AllocateStreamingResources();
552			if (FAILED(hr)) {
553			return hr;
554			}
555			if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) != S_OK) {
556			return DMO_E_NOTACCEPTING;
557			}
558
559			m_fFlushed = false;
560
561			return INTERNAL_CALL(_DERIVED_, ProcessInput)(
562			ulStreamIndex,
563			pBuffer,
564			dwFlags,
565			rtTimestamp,
566			rtTimelength);
567			}
568
569			STDMETHODIMP ProcessOutput(
570			DWORD dwFlags,
571			DWORD ulOutputBufferCount,
572			DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
573			DWORD *pdwStatus)
574			{
575			if (pdwStatus == NULL) {
576			return E_POINTER;
577			}
578
579
580			if (ulOutputBufferCount != NUMBEROFOUTPUTS \|\| (dwFlags & ~DMO_PROCESS_OUTPUT_DISCARD_WHEN_NO_BUFFER)) {
581			return E_INVALIDARG;
582			}
583
584			if (NUMBEROFOUTPUTS != 0 && pOutputBuffers == NULL) {
585			return E_POINTER;
586			}
587
588			*pdwStatus = 0;
589
590			LockIt lck(static_cast<_DERIVED_ *>(this));
591
592			HRESULT hr = AllocateStreamingResources();
593			if (FAILED(hr)) {
594			return hr;
595			}
596
597			for (DWORD dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
598			pOutputBuffers[dw].dwStatus = 0;
599			}
600
601			hr = INTERNAL_CALL(_DERIVED_, ProcessOutput)(
602			dwFlags,
603			ulOutputBufferCount,
604			pOutputBuffers,
605			pdwStatus);
606
607			// remember the DMO's incomplete status
608			for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
609			if (pOutputBuffers[dw].dwStatus & DMO_OUTPUT_DATA_BUFFERF_INCOMPLETE) {
610			m_OutputInfo[dw].fIncomplete = TRUE;
611			} else {
612			m_OutputInfo[dw].fIncomplete = FALSE;
613			}
614			}
615
616			return hr;
617			}
618
619			STDMETHODIMP DMOLock(LONG lLock)
620			{
621			if (lLock) {
622			static_cast<_DERIVED_ *>(this)->Lock();
623			} else {
624			static_cast<_DERIVED_ *>(this)->Unlock();
625			}
626			return S_OK;
627			}
628			};
629
630			#endif // _dmoimpl_h_
631