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Filters.cpp
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Filters.cpp
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#pragma warning(disable:4244)
#pragma warning(disable:4711)
#include <streams.h>
#include <stdio.h>
#include <olectl.h>
#include <dvdmedia.h>
#include "filters.h"
#ifdef __GNUC__
# include <vfwmsgs.h>
# define _uuidof(x) IID_ ## x
#endif
//////////////////////////////////////////////////////////////////////////
// CVCam is the source filter which masquerades as a capture device
//////////////////////////////////////////////////////////////////////////
CUnknown * WINAPI CVCam::CreateInstance(LPUNKNOWN lpunk, HRESULT *phr)
{
ASSERT(phr);
CUnknown *punk = new CVCam(lpunk, phr);
return punk;
}
CVCam::CVCam(LPUNKNOWN lpunk, HRESULT *phr) :
CSource(NAME("Virtual Cam"), lpunk, CLSID_VirtualCam)
{
ASSERT(phr);
CAutoLock cAutoLock(&m_cStateLock);
// Create the one and only output pin
m_paStreams = (CSourceStream **) new CVCamStream*[1];
m_paStreams[0] = new CVCamStream(phr, this, L"Virtual Cam");
}
HRESULT CVCam::QueryInterface(REFIID riid, void **ppv)
{
//Forward request for IAMStreamConfig & IKsPropertySet to the pin
if(riid == _uuidof(IAMStreamConfig) || riid == _uuidof(IKsPropertySet))
return m_paStreams[0]->QueryInterface(riid, ppv);
else
return CSource::QueryInterface(riid, ppv);
}
//////////////////////////////////////////////////////////////////////////
// CVCamStream is the one and only output pin of CVCam which handles
// all the stuff.
//////////////////////////////////////////////////////////////////////////
CVCamStream::CVCamStream(HRESULT *phr, CVCam *pParent, LPCWSTR pPinName) :
CSourceStream(NAME("Virtual Cam"),phr, pParent, pPinName), m_pParent(pParent)
{
// Set the default media type as 320x240x24@15
GetMediaType(4, &m_mt);
}
CVCamStream::~CVCamStream()
{
}
HRESULT CVCamStream::QueryInterface(REFIID riid, void **ppv)
{
// Standard OLE stuff
if(riid == _uuidof(IAMStreamConfig))
*ppv = (IAMStreamConfig*)this;
else if(riid == _uuidof(IKsPropertySet))
*ppv = (IKsPropertySet*)this;
else
return CSourceStream::QueryInterface(riid, ppv);
AddRef();
return S_OK;
}
//////////////////////////////////////////////////////////////////////////
// This is the routine where we create the data being output by the Virtual
// Camera device.
//////////////////////////////////////////////////////////////////////////
HRESULT CVCamStream::FillBuffer(IMediaSample *pms)
{
REFERENCE_TIME rtNow;
REFERENCE_TIME avgFrameTime = ((VIDEOINFOHEADER*)m_mt.pbFormat)->AvgTimePerFrame;
rtNow = m_rtLastTime;
m_rtLastTime += avgFrameTime;
pms->SetTime(&rtNow, &m_rtLastTime);
pms->SetSyncPoint(TRUE);
BYTE *pData;
long lDataLen;
pms->GetPointer(&pData);
lDataLen = pms->GetSize();
for(int i = 0; i < lDataLen; ++i)
pData[i] = rand();
return NOERROR;
} // FillBuffer
//
// Notify
// Ignore quality management messages sent from the downstream filter
STDMETHODIMP CVCamStream::Notify(IBaseFilter * pSender, Quality q)
{
return E_NOTIMPL;
} // Notify
//////////////////////////////////////////////////////////////////////////
// This is called when the output format has been negotiated
//////////////////////////////////////////////////////////////////////////
HRESULT CVCamStream::SetMediaType(const CMediaType *pmt)
{
DECLARE_PTR(VIDEOINFOHEADER, pvi, pmt->Format());
HRESULT hr = CSourceStream::SetMediaType(pmt);
return hr;
}
// See Directshow help topic for IAMStreamConfig for details on this method
HRESULT CVCamStream::GetMediaType(int iPosition, CMediaType *pmt)
{
if(iPosition < 0) return E_INVALIDARG;
if(iPosition > 8) return VFW_S_NO_MORE_ITEMS;
if(iPosition == 0)
{
*pmt = m_mt;
return S_OK;
}
DECLARE_PTR(VIDEOINFOHEADER, pvi, pmt->AllocFormatBuffer(sizeof(VIDEOINFOHEADER)));
ZeroMemory(pvi, sizeof(VIDEOINFOHEADER));
pvi->bmiHeader.biCompression = BI_RGB;
pvi->bmiHeader.biBitCount = 24;
pvi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
pvi->bmiHeader.biWidth = 80 * iPosition;
pvi->bmiHeader.biHeight = 60 * iPosition;
pvi->bmiHeader.biPlanes = 1;
pvi->bmiHeader.biSizeImage = GetBitmapSize(&pvi->bmiHeader);
pvi->bmiHeader.biClrImportant = 0;
pvi->AvgTimePerFrame = 1000000;
SetRectEmpty(&(pvi->rcSource)); // we want the whole image area rendered.
SetRectEmpty(&(pvi->rcTarget)); // no particular destination rectangle
pmt->SetType(&MEDIATYPE_Video);
pmt->SetFormatType(&FORMAT_VideoInfo);
pmt->SetTemporalCompression(FALSE);
// Work out the GUID for the subtype from the header info.
const GUID SubTypeGUID = GetBitmapSubtype(&pvi->bmiHeader);
pmt->SetSubtype(&SubTypeGUID);
pmt->SetSampleSize(pvi->bmiHeader.biSizeImage);
return NOERROR;
} // GetMediaType
// This method is called to see if a given output format is supported
HRESULT CVCamStream::CheckMediaType(const CMediaType *pMediaType)
{
VIDEOINFOHEADER *pvi = (VIDEOINFOHEADER *)(pMediaType->Format());
if(*pMediaType != m_mt)
return E_INVALIDARG;
return S_OK;
} // CheckMediaType
// This method is called after the pins are connected to allocate buffers to stream data
HRESULT CVCamStream::DecideBufferSize(IMemAllocator *pAlloc, ALLOCATOR_PROPERTIES *pProperties)
{
CAutoLock cAutoLock(m_pFilter->pStateLock());
HRESULT hr = NOERROR;
VIDEOINFOHEADER *pvi = (VIDEOINFOHEADER *) m_mt.Format();
pProperties->cBuffers = 1;
pProperties->cbBuffer = pvi->bmiHeader.biSizeImage;
ALLOCATOR_PROPERTIES Actual;
hr = pAlloc->SetProperties(pProperties,&Actual);
if(FAILED(hr)) return hr;
if(Actual.cbBuffer < pProperties->cbBuffer) return E_FAIL;
return NOERROR;
} // DecideBufferSize
// Called when graph is run
HRESULT CVCamStream::OnThreadCreate()
{
m_rtLastTime = 0;
return NOERROR;
} // OnThreadCreate
//////////////////////////////////////////////////////////////////////////
// IAMStreamConfig
//////////////////////////////////////////////////////////////////////////
HRESULT STDMETHODCALLTYPE CVCamStream::SetFormat(AM_MEDIA_TYPE *pmt)
{
DECLARE_PTR(VIDEOINFOHEADER, pvi, m_mt.pbFormat);
m_mt = *pmt;
IPin* pin;
ConnectedTo(&pin);
if(pin)
{
IFilterGraph *pGraph = m_pParent->GetGraph();
pGraph->Reconnect(this);
}
return S_OK;
}
HRESULT STDMETHODCALLTYPE CVCamStream::GetFormat(AM_MEDIA_TYPE **ppmt)
{
*ppmt = CreateMediaType(&m_mt);
return S_OK;
}
HRESULT STDMETHODCALLTYPE CVCamStream::GetNumberOfCapabilities(int *piCount, int *piSize)
{
*piCount = 8;
*piSize = sizeof(VIDEO_STREAM_CONFIG_CAPS);
return S_OK;
}
HRESULT STDMETHODCALLTYPE CVCamStream::GetStreamCaps(int iIndex, AM_MEDIA_TYPE **pmt, BYTE *pSCC)
{
*pmt = CreateMediaType(&m_mt);
DECLARE_PTR(VIDEOINFOHEADER, pvi, (*pmt)->pbFormat);
if (iIndex == 0) iIndex = 4;
pvi->bmiHeader.biCompression = BI_RGB;
pvi->bmiHeader.biBitCount = 24;
pvi->bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
pvi->bmiHeader.biWidth = 80 * iIndex;
pvi->bmiHeader.biHeight = 60 * iIndex;
pvi->bmiHeader.biPlanes = 1;
pvi->bmiHeader.biSizeImage = GetBitmapSize(&pvi->bmiHeader);
pvi->bmiHeader.biClrImportant = 0;
SetRectEmpty(&(pvi->rcSource)); // we want the whole image area rendered.
SetRectEmpty(&(pvi->rcTarget)); // no particular destination rectangle
(*pmt)->majortype = MEDIATYPE_Video;
(*pmt)->subtype = MEDIASUBTYPE_RGB24;
(*pmt)->formattype = FORMAT_VideoInfo;
(*pmt)->bTemporalCompression = FALSE;
(*pmt)->bFixedSizeSamples= FALSE;
(*pmt)->lSampleSize = pvi->bmiHeader.biSizeImage;
(*pmt)->cbFormat = sizeof(VIDEOINFOHEADER);
DECLARE_PTR(VIDEO_STREAM_CONFIG_CAPS, pvscc, pSCC);
pvscc->guid = FORMAT_VideoInfo;
pvscc->VideoStandard = AnalogVideo_None;
pvscc->InputSize.cx = 640;
pvscc->InputSize.cy = 480;
pvscc->MinCroppingSize.cx = 80;
pvscc->MinCroppingSize.cy = 60;
pvscc->MaxCroppingSize.cx = 640;
pvscc->MaxCroppingSize.cy = 480;
pvscc->CropGranularityX = 80;
pvscc->CropGranularityY = 60;
pvscc->CropAlignX = 0;
pvscc->CropAlignY = 0;
pvscc->MinOutputSize.cx = 80;
pvscc->MinOutputSize.cy = 60;
pvscc->MaxOutputSize.cx = 640;
pvscc->MaxOutputSize.cy = 480;
pvscc->OutputGranularityX = 0;
pvscc->OutputGranularityY = 0;
pvscc->StretchTapsX = 0;
pvscc->StretchTapsY = 0;
pvscc->ShrinkTapsX = 0;
pvscc->ShrinkTapsY = 0;
pvscc->MinFrameInterval = 200000; //50 fps
pvscc->MaxFrameInterval = 50000000; // 0.2 fps
pvscc->MinBitsPerSecond = (80 * 60 * 3 * 8) / 5;
pvscc->MaxBitsPerSecond = 640 * 480 * 3 * 8 * 50;
return S_OK;
}
//////////////////////////////////////////////////////////////////////////
// IKsPropertySet
//////////////////////////////////////////////////////////////////////////
HRESULT CVCamStream::Set(REFGUID guidPropSet, DWORD dwID, void *pInstanceData,
DWORD cbInstanceData, void *pPropData, DWORD cbPropData)
{// Set: Cannot set any properties.
return E_NOTIMPL;
}
// Get: Return the pin category (our only property).
HRESULT CVCamStream::Get(
REFGUID guidPropSet, // Which property set.
DWORD dwPropID, // Which property in that set.
void *pInstanceData, // Instance data (ignore).
DWORD cbInstanceData, // Size of the instance data (ignore).
void *pPropData, // Buffer to receive the property data.
DWORD cbPropData, // Size of the buffer.
DWORD *pcbReturned // Return the size of the property.
)
{
if (guidPropSet != AMPROPSETID_Pin) return E_PROP_SET_UNSUPPORTED;
if (dwPropID != AMPROPERTY_PIN_CATEGORY) return E_PROP_ID_UNSUPPORTED;
if (pPropData == NULL && pcbReturned == NULL) return E_POINTER;
if (pcbReturned) *pcbReturned = sizeof(GUID);
if (pPropData == NULL) return S_OK; // Caller just wants to know the size.
if (cbPropData < sizeof(GUID)) return E_UNEXPECTED;// The buffer is too small.
*(GUID *)pPropData = PIN_CATEGORY_CAPTURE;
return S_OK;
}
// QuerySupported: Query whether the pin supports the specified property.
HRESULT CVCamStream::QuerySupported(REFGUID guidPropSet, DWORD dwPropID, DWORD *pTypeSupport)
{
if (guidPropSet != AMPROPSETID_Pin) return E_PROP_SET_UNSUPPORTED;
if (dwPropID != AMPROPERTY_PIN_CATEGORY) return E_PROP_ID_UNSUPPORTED;
// We support getting this property, but not setting it.
if (pTypeSupport) *pTypeSupport = KSPROPERTY_SUPPORT_GET;
return S_OK;
}