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Diffstat (limited to 'sdk/dx8sdk/Include/dmoimpl.h')
| -rw-r--r-- | sdk/dx8sdk/Include/dmoimpl.h | 645 |
1 files changed, 645 insertions, 0 deletions
diff --git a/sdk/dx8sdk/Include/dmoimpl.h b/sdk/dx8sdk/Include/dmoimpl.h new file mode 100644 index 00000000..8ba6e3a8 --- /dev/null +++ b/sdk/dx8sdk/Include/dmoimpl.h @@ -0,0 +1,645 @@ +//------------------------------------------------------------------------------ +// File: DMOImpl.h +// +// Desc: Classes to implement a DMO. +// +// Copyright (c) 2000-2001, 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_ + |