Aegisub/vsfilter/basevideofilter/BaseVideoFilter.cpp

667 lines
18 KiB
C++

/*
* Copyright (C) 2003-2006 Gabest
* http://www.gabest.org
*
* This Program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This Program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU Make; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
* http://www.gnu.org/copyleft/gpl.html
*
*/
#include "StdAfx.h"
#include <mmintrin.h>
#include "BaseVideoFilter.h"
#include "../dsutil/DSUtil.h"
#include "../dsutil/MediaTypes.h"
#include <initguid.h>
#include "../include/moreuuids.h"
//
// CBaseVideoFilter
//
CBaseVideoFilter::CBaseVideoFilter(TCHAR* pName, LPUNKNOWN lpunk, HRESULT* phr, REFCLSID clsid, long cBuffers)
: CTransformFilter(pName, lpunk, clsid)
, m_cBuffers(cBuffers)
{
if(phr) *phr = S_OK;
if(!(m_pInput = new CBaseVideoInputPin(NAME("CBaseVideoInputPin"), this, phr, L"Video"))) *phr = E_OUTOFMEMORY;
if(FAILED(*phr)) return;
if(!(m_pOutput = new CBaseVideoOutputPin(NAME("CBaseVideoOutputPin"), this, phr, L"Output"))) *phr = E_OUTOFMEMORY;
if(FAILED(*phr)) {delete m_pInput, m_pInput = NULL; return;}
m_wout = m_win = m_w = 0;
m_hout = m_hin = m_h = 0;
m_arxout = m_arxin = m_arx = 0;
m_aryout = m_aryin = m_ary = 0;
}
CBaseVideoFilter::~CBaseVideoFilter()
{
}
int CBaseVideoFilter::GetPinCount()
{
return 2;
}
CBasePin* CBaseVideoFilter::GetPin(int n)
{
switch(n)
{
case 0: return m_pInput;
case 1: return m_pOutput;
}
return NULL;
}
HRESULT CBaseVideoFilter::Receive(IMediaSample* pIn)
{
_mm_empty(); // just for safety
CAutoLock cAutoLock(&m_csReceive);
HRESULT hr;
AM_SAMPLE2_PROPERTIES* const pProps = m_pInput->SampleProps();
if(pProps->dwStreamId != AM_STREAM_MEDIA)
return m_pOutput->Deliver(pIn);
AM_MEDIA_TYPE* pmt;
if(SUCCEEDED(pIn->GetMediaType(&pmt)) && pmt)
{
CMediaType mt(*pmt);
m_pInput->SetMediaType(&mt);
DeleteMediaType(pmt);
}
if(FAILED(hr = Transform(pIn)))
return hr;
return S_OK;
}
HRESULT CBaseVideoFilter::GetDeliveryBuffer(int w, int h, IMediaSample** ppOut)
{
CheckPointer(ppOut, E_POINTER);
HRESULT hr;
if(FAILED(hr = ReconnectOutput(w, h)))
return hr;
if(FAILED(hr = m_pOutput->GetDeliveryBuffer(ppOut, NULL, NULL, 0)))
return hr;
AM_MEDIA_TYPE* pmt;
if(SUCCEEDED((*ppOut)->GetMediaType(&pmt)) && pmt)
{
CMediaType mt = *pmt;
m_pOutput->SetMediaType(&mt);
DeleteMediaType(pmt);
}
(*ppOut)->SetDiscontinuity(FALSE);
(*ppOut)->SetSyncPoint(TRUE);
// FIXME: hell knows why but without this the overlay mixer starts very skippy
// (don't enable this for other renderers, the old for example will go crazy if you do)
if(GetCLSID(m_pOutput->GetConnected()) == CLSID_OverlayMixer)
(*ppOut)->SetDiscontinuity(TRUE);
return S_OK;
}
HRESULT CBaseVideoFilter::ReconnectOutput(int w, int h)
{
CMediaType& mt = m_pOutput->CurrentMediaType();
int w_org = m_w;
int h_org = m_h;
bool fForceReconnection = false;
if(w != m_w || h != m_h)
{
fForceReconnection = true;
m_w = w;
m_h = h;
}
HRESULT hr = S_OK;
if(fForceReconnection || m_w != m_wout || m_h != m_hout || m_arx != m_arxout || m_ary != m_aryout)
{
if(GetCLSID(m_pOutput->GetConnected()) == CLSID_VideoRenderer)
{
NotifyEvent(EC_ERRORABORT, 0, 0);
return E_FAIL;
}
BITMAPINFOHEADER* bmi = NULL;
if(mt.formattype == FORMAT_VideoInfo)
{
VIDEOINFOHEADER* vih = (VIDEOINFOHEADER*)mt.Format();
SetRect(&vih->rcSource, 0, 0, m_w, m_h);
SetRect(&vih->rcTarget, 0, 0, m_w, m_h);
bmi = &vih->bmiHeader;
bmi->biXPelsPerMeter = m_w * m_ary;
bmi->biYPelsPerMeter = m_h * m_arx;
}
else if(mt.formattype == FORMAT_VideoInfo2)
{
VIDEOINFOHEADER2* vih = (VIDEOINFOHEADER2*)mt.Format();
SetRect(&vih->rcSource, 0, 0, m_w, m_h);
SetRect(&vih->rcTarget, 0, 0, m_w, m_h);
bmi = &vih->bmiHeader;
vih->dwPictAspectRatioX = m_arx;
vih->dwPictAspectRatioY = m_ary;
}
bmi->biWidth = m_w;
bmi->biHeight = m_h;
bmi->biSizeImage = m_w*m_h*bmi->biBitCount>>3;
hr = m_pOutput->GetConnected()->QueryAccept(&mt);
ASSERT(SUCCEEDED(hr)); // should better not fail, after all "mt" is the current media type, just with a different resolution
HRESULT hr1 = 0, hr2 = 0;
CComPtr<IMediaSample> pOut;
if(SUCCEEDED(hr1 = m_pOutput->GetConnected()->ReceiveConnection(m_pOutput, &mt))
&& SUCCEEDED(hr2 = m_pOutput->GetDeliveryBuffer(&pOut, NULL, NULL, 0)))
{
AM_MEDIA_TYPE* pmt;
if(SUCCEEDED(pOut->GetMediaType(&pmt)) && pmt)
{
CMediaType mt = *pmt;
m_pOutput->SetMediaType(&mt);
DeleteMediaType(pmt);
}
else // stupid overlay mixer won't let us know the new pitch...
{
long size = pOut->GetSize();
bmi->biWidth = size / bmi->biHeight * 8 / bmi->biBitCount;
}
}
else
{
m_w = w_org;
m_h = h_org;
return E_FAIL;
}
m_wout = m_w;
m_hout = m_h;
m_arxout = m_arx;
m_aryout = m_ary;
// some renderers don't send this
NotifyEvent(EC_VIDEO_SIZE_CHANGED, MAKELPARAM(m_w, m_h), 0);
return S_OK;
}
return S_FALSE;
}
HRESULT CBaseVideoFilter::CopyBuffer(BYTE* pOut, BYTE* pIn, int w, int h, int pitchIn, const GUID& subtype, bool fInterlaced)
{
int abs_h = abs(h);
BYTE* pInYUV[3] = {pIn, pIn + pitchIn*abs_h, pIn + pitchIn*abs_h + (pitchIn>>1)*(abs_h>>1)};
return CopyBuffer(pOut, pInYUV, w, h, pitchIn, subtype, fInterlaced);
}
HRESULT CBaseVideoFilter::CopyBuffer(BYTE* pOut, BYTE** ppIn, int w, int h, int pitchIn, const GUID& subtype, bool fInterlaced)
{
BITMAPINFOHEADER bihOut;
ExtractBIH(&m_pOutput->CurrentMediaType(), &bihOut);
int pitchOut = 0;
if(bihOut.biCompression == BI_RGB || bihOut.biCompression == BI_BITFIELDS)
{
pitchOut = bihOut.biWidth*bihOut.biBitCount>>3;
if(bihOut.biHeight > 0)
{
pOut += pitchOut*(h-1);
pitchOut = -pitchOut;
if(h < 0) h = -h;
}
}
if(h < 0)
{
h = -h;
ppIn[0] += pitchIn*(h-1);
ppIn[1] += (pitchIn>>1)*((h>>1)-1);
ppIn[2] += (pitchIn>>1)*((h>>1)-1);
pitchIn = -pitchIn;
}
if(subtype == MEDIASUBTYPE_I420 || subtype == MEDIASUBTYPE_IYUV || subtype == MEDIASUBTYPE_YV12)
{
BYTE* pIn = ppIn[0];
BYTE* pInU = ppIn[1];
BYTE* pInV = ppIn[2];
if(subtype == MEDIASUBTYPE_YV12) {BYTE* tmp = pInU; pInU = pInV; pInV = tmp;}
BYTE* pOutU = pOut + bihOut.biWidth*h;
BYTE* pOutV = pOut + bihOut.biWidth*h*5/4;
if(bihOut.biCompression == '21VY') {BYTE* tmp = pOutU; pOutU = pOutV; pOutV = tmp;}
ASSERT(w <= abs(pitchIn));
if(bihOut.biCompression == '2YUY')
{
BitBltFromI420ToYUY2(w, h, pOut, bihOut.biWidth*2, pIn, pInU, pInV, pitchIn, fInterlaced);
}
else if(bihOut.biCompression == '024I' || bihOut.biCompression == 'VUYI' || bihOut.biCompression == '21VY')
{
BitBltFromI420ToI420(w, h, pOut, pOutU, pOutV, bihOut.biWidth, pIn, pInU, pInV, pitchIn);
}
else if(bihOut.biCompression == BI_RGB || bihOut.biCompression == BI_BITFIELDS)
{
if(!BitBltFromI420ToRGB(w, h, pOut, pitchOut, bihOut.biBitCount, pIn, pInU, pInV, pitchIn))
{
for(DWORD y = 0; y < h; y++, pOut += pitchOut)
memset(pOut, 0, pitchOut);
}
}
}
else if(subtype == MEDIASUBTYPE_YUY2)
{
if(bihOut.biCompression == '2YUY')
{
BitBltFromYUY2ToYUY2(w, h, pOut, bihOut.biWidth*2, ppIn[0], pitchIn);
}
else if(bihOut.biCompression == BI_RGB || bihOut.biCompression == BI_BITFIELDS)
{
if(!BitBltFromYUY2ToRGB(w, h, pOut, pitchOut, bihOut.biBitCount, ppIn[0], pitchIn))
{
for(DWORD y = 0; y < h; y++, pOut += pitchOut)
memset(pOut, 0, pitchOut);
}
}
}
else if(subtype == MEDIASUBTYPE_ARGB32 || subtype == MEDIASUBTYPE_RGB32 || subtype == MEDIASUBTYPE_RGB24 || subtype == MEDIASUBTYPE_RGB565)
{
int sbpp =
subtype == MEDIASUBTYPE_ARGB32 || subtype == MEDIASUBTYPE_RGB32 ? 32 :
subtype == MEDIASUBTYPE_RGB24 ? 24 :
subtype == MEDIASUBTYPE_RGB565 ? 16 : 0;
if(bihOut.biCompression == '2YUY')
{
// TODO
// BitBltFromRGBToYUY2();
}
else if(bihOut.biCompression == BI_RGB || bihOut.biCompression == BI_BITFIELDS)
{
if(!BitBltFromRGBToRGB(w, h, pOut, pitchOut, bihOut.biBitCount, ppIn[0], pitchIn, sbpp))
{
for(DWORD y = 0; y < h; y++, pOut += pitchOut)
memset(pOut, 0, pitchOut);
}
}
}
else
{
return VFW_E_TYPE_NOT_ACCEPTED;
}
return S_OK;
}
HRESULT CBaseVideoFilter::CheckInputType(const CMediaType* mtIn)
{
BITMAPINFOHEADER bih;
ExtractBIH(mtIn, &bih);
return mtIn->majortype == MEDIATYPE_Video
&& (mtIn->subtype == MEDIASUBTYPE_YV12
|| mtIn->subtype == MEDIASUBTYPE_I420
|| mtIn->subtype == MEDIASUBTYPE_IYUV
|| mtIn->subtype == MEDIASUBTYPE_YUY2
|| mtIn->subtype == MEDIASUBTYPE_ARGB32
|| mtIn->subtype == MEDIASUBTYPE_RGB32
|| mtIn->subtype == MEDIASUBTYPE_RGB24
|| mtIn->subtype == MEDIASUBTYPE_RGB565)
&& (mtIn->formattype == FORMAT_VideoInfo
|| mtIn->formattype == FORMAT_VideoInfo2)
&& bih.biHeight > 0
? S_OK
: VFW_E_TYPE_NOT_ACCEPTED;
}
HRESULT CBaseVideoFilter::CheckTransform(const CMediaType* mtIn, const CMediaType* mtOut)
{
if(FAILED(CheckInputType(mtIn)) || mtOut->majortype != MEDIATYPE_Video)
return VFW_E_TYPE_NOT_ACCEPTED;
if(mtIn->majortype == MEDIATYPE_Video
&& (mtIn->subtype == MEDIASUBTYPE_YV12
|| mtIn->subtype == MEDIASUBTYPE_I420
|| mtIn->subtype == MEDIASUBTYPE_IYUV))
{
if(mtOut->subtype != MEDIASUBTYPE_YV12
&& mtOut->subtype != MEDIASUBTYPE_I420
&& mtOut->subtype != MEDIASUBTYPE_IYUV
&& mtOut->subtype != MEDIASUBTYPE_YUY2
&& mtOut->subtype != MEDIASUBTYPE_ARGB32
&& mtOut->subtype != MEDIASUBTYPE_RGB32
&& mtOut->subtype != MEDIASUBTYPE_RGB24
&& mtOut->subtype != MEDIASUBTYPE_RGB565)
return VFW_E_TYPE_NOT_ACCEPTED;
}
else if(mtIn->majortype == MEDIATYPE_Video
&& (mtIn->subtype == MEDIASUBTYPE_YUY2))
{
if(mtOut->subtype != MEDIASUBTYPE_YUY2
&& mtOut->subtype != MEDIASUBTYPE_ARGB32
&& mtOut->subtype != MEDIASUBTYPE_RGB32
&& mtOut->subtype != MEDIASUBTYPE_RGB24
&& mtOut->subtype != MEDIASUBTYPE_RGB565)
return VFW_E_TYPE_NOT_ACCEPTED;
}
else if(mtIn->majortype == MEDIATYPE_Video
&& (mtIn->subtype == MEDIASUBTYPE_ARGB32
|| mtIn->subtype == MEDIASUBTYPE_RGB32
|| mtIn->subtype == MEDIASUBTYPE_RGB24
|| mtIn->subtype == MEDIASUBTYPE_RGB565))
{
if(mtOut->subtype != MEDIASUBTYPE_ARGB32
&& mtOut->subtype != MEDIASUBTYPE_RGB32
&& mtOut->subtype != MEDIASUBTYPE_RGB24
&& mtOut->subtype != MEDIASUBTYPE_RGB565)
return VFW_E_TYPE_NOT_ACCEPTED;
}
return S_OK;
}
HRESULT CBaseVideoFilter::CheckOutputType(const CMediaType& mtOut)
{
int wout = 0, hout = 0, arxout = 0, aryout = 0;
return ExtractDim(&mtOut, wout, hout, arxout, aryout)
&& m_h == abs((int)hout)
&& mtOut.subtype != MEDIASUBTYPE_ARGB32
? S_OK
: VFW_E_TYPE_NOT_ACCEPTED;
}
HRESULT CBaseVideoFilter::DecideBufferSize(IMemAllocator* pAllocator, ALLOCATOR_PROPERTIES* pProperties)
{
if(m_pInput->IsConnected() == FALSE) return E_UNEXPECTED;
BITMAPINFOHEADER bih;
ExtractBIH(&m_pOutput->CurrentMediaType(), &bih);
long cBuffers = m_pOutput->CurrentMediaType().formattype == FORMAT_VideoInfo ? 1 : m_cBuffers;
pProperties->cBuffers = m_cBuffers;
pProperties->cbBuffer = bih.biSizeImage;
pProperties->cbAlign = 1;
pProperties->cbPrefix = 0;
HRESULT hr;
ALLOCATOR_PROPERTIES Actual;
if(FAILED(hr = pAllocator->SetProperties(pProperties, &Actual)))
return hr;
return pProperties->cBuffers > Actual.cBuffers || pProperties->cbBuffer > Actual.cbBuffer
? E_FAIL
: NOERROR;
}
HRESULT CBaseVideoFilter::GetMediaType(int iPosition, CMediaType* pmt)
{
if(m_pInput->IsConnected() == FALSE) return E_UNEXPECTED;
struct {const GUID* subtype; WORD biPlanes, biBitCount; DWORD biCompression;} fmts[] =
{
{&MEDIASUBTYPE_YV12, 3, 12, '21VY'},
{&MEDIASUBTYPE_I420, 3, 12, '024I'},
{&MEDIASUBTYPE_IYUV, 3, 12, 'VUYI'},
{&MEDIASUBTYPE_YUY2, 1, 16, '2YUY'},
{&MEDIASUBTYPE_ARGB32, 1, 32, BI_RGB},
{&MEDIASUBTYPE_RGB32, 1, 32, BI_RGB},
{&MEDIASUBTYPE_RGB24, 1, 24, BI_RGB},
{&MEDIASUBTYPE_RGB565, 1, 16, BI_RGB},
{&MEDIASUBTYPE_RGB555, 1, 16, BI_RGB},
{&MEDIASUBTYPE_ARGB32, 1, 32, BI_BITFIELDS},
{&MEDIASUBTYPE_RGB32, 1, 32, BI_BITFIELDS},
{&MEDIASUBTYPE_RGB24, 1, 24, BI_BITFIELDS},
{&MEDIASUBTYPE_RGB565, 1, 16, BI_BITFIELDS},
{&MEDIASUBTYPE_RGB555, 1, 16, BI_BITFIELDS},
};
// this will make sure we won't connect to the old renderer in dvd mode
// that renderer can't switch the format dynamically
bool fFoundDVDNavigator = false;
CComPtr<IBaseFilter> pBF = this;
CComPtr<IPin> pPin = m_pInput;
for(; !fFoundDVDNavigator && (pBF = GetUpStreamFilter(pBF, pPin)); pPin = GetFirstPin(pBF))
fFoundDVDNavigator = GetCLSID(pBF) == CLSID_DVDNavigator;
if(fFoundDVDNavigator || m_pInput->CurrentMediaType().formattype == FORMAT_VideoInfo2)
iPosition = iPosition*2;
//
if(iPosition < 0) return E_INVALIDARG;
if(iPosition >= 2*countof(fmts)) return VFW_S_NO_MORE_ITEMS;
pmt->majortype = MEDIATYPE_Video;
pmt->subtype = *fmts[iPosition/2].subtype;
int w = m_win, h = m_hin, arx = m_arxin, ary = m_aryin;
GetOutputSize(w, h, arx, ary);
BITMAPINFOHEADER bihOut;
memset(&bihOut, 0, sizeof(bihOut));
bihOut.biSize = sizeof(bihOut);
bihOut.biWidth = w;
bihOut.biHeight = h;
bihOut.biPlanes = fmts[iPosition/2].biPlanes;
bihOut.biBitCount = fmts[iPosition/2].biBitCount;
bihOut.biCompression = fmts[iPosition/2].biCompression;
bihOut.biSizeImage = w*h*bihOut.biBitCount>>3;
if(iPosition&1)
{
pmt->formattype = FORMAT_VideoInfo;
VIDEOINFOHEADER* vih = (VIDEOINFOHEADER*)pmt->AllocFormatBuffer(sizeof(VIDEOINFOHEADER));
memset(vih, 0, sizeof(VIDEOINFOHEADER));
vih->bmiHeader = bihOut;
vih->bmiHeader.biXPelsPerMeter = vih->bmiHeader.biWidth * ary;
vih->bmiHeader.biYPelsPerMeter = vih->bmiHeader.biHeight * arx;
}
else
{
pmt->formattype = FORMAT_VideoInfo2;
VIDEOINFOHEADER2* vih = (VIDEOINFOHEADER2*)pmt->AllocFormatBuffer(sizeof(VIDEOINFOHEADER2));
memset(vih, 0, sizeof(VIDEOINFOHEADER2));
vih->bmiHeader = bihOut;
vih->dwPictAspectRatioX = arx;
vih->dwPictAspectRatioY = ary;
if(IsVideoInterlaced()) vih->dwInterlaceFlags = AMINTERLACE_IsInterlaced;
}
CMediaType& mt = m_pInput->CurrentMediaType();
// these fields have the same field offset in all four structs
((VIDEOINFOHEADER*)pmt->Format())->AvgTimePerFrame = ((VIDEOINFOHEADER*)mt.Format())->AvgTimePerFrame;
((VIDEOINFOHEADER*)pmt->Format())->dwBitRate = ((VIDEOINFOHEADER*)mt.Format())->dwBitRate;
((VIDEOINFOHEADER*)pmt->Format())->dwBitErrorRate = ((VIDEOINFOHEADER*)mt.Format())->dwBitErrorRate;
CorrectMediaType(pmt);
return S_OK;
}
HRESULT CBaseVideoFilter::SetMediaType(PIN_DIRECTION dir, const CMediaType* pmt)
{
if(dir == PINDIR_INPUT)
{
m_w = m_h = m_arx = m_ary = 0;
ExtractDim(pmt, m_w, m_h, m_arx, m_ary);
m_win = m_w;
m_hin = m_h;
m_arxin = m_arx;
m_aryin = m_ary;
GetOutputSize(m_w, m_h, m_arx, m_ary);
}
else if(dir == PINDIR_OUTPUT)
{
int wout = 0, hout = 0, arxout = 0, aryout = 0;
ExtractDim(pmt, wout, hout, arxout, aryout);
if(m_w == wout && m_h == hout && m_arx == arxout && m_ary == aryout)
{
m_wout = wout;
m_hout = hout;
m_arxout = arxout;
m_aryout = aryout;
}
}
return __super::SetMediaType(dir, pmt);
}
//
// CBaseVideoInputAllocator
//
CBaseVideoInputAllocator::CBaseVideoInputAllocator(HRESULT* phr)
: CMemAllocator(NAME("CBaseVideoInputAllocator"), NULL, phr)
{
if(phr) *phr = S_OK;
}
void CBaseVideoInputAllocator::SetMediaType(const CMediaType& mt)
{
m_mt = mt;
}
STDMETHODIMP CBaseVideoInputAllocator::GetBuffer(IMediaSample** ppBuffer, REFERENCE_TIME* pStartTime, REFERENCE_TIME* pEndTime, DWORD dwFlags)
{
if(!m_bCommitted)
return VFW_E_NOT_COMMITTED;
HRESULT hr = __super::GetBuffer(ppBuffer, pStartTime, pEndTime, dwFlags);
if(SUCCEEDED(hr) && m_mt.majortype != GUID_NULL)
{
(*ppBuffer)->SetMediaType(&m_mt);
m_mt.majortype = GUID_NULL;
}
return hr;
}
//
// CBaseVideoInputPin
//
CBaseVideoInputPin::CBaseVideoInputPin(TCHAR* pObjectName, CBaseVideoFilter* pFilter, HRESULT* phr, LPCWSTR pName)
: CTransformInputPin(pObjectName, pFilter, phr, pName)
, m_pAllocator(NULL)
{
}
CBaseVideoInputPin::~CBaseVideoInputPin()
{
delete m_pAllocator;
}
STDMETHODIMP CBaseVideoInputPin::GetAllocator(IMemAllocator** ppAllocator)
{
CheckPointer(ppAllocator, E_POINTER);
if(m_pAllocator == NULL)
{
HRESULT hr = S_OK;
m_pAllocator = new CBaseVideoInputAllocator(&hr);
m_pAllocator->AddRef();
}
(*ppAllocator = m_pAllocator)->AddRef();
return S_OK;
}
STDMETHODIMP CBaseVideoInputPin::ReceiveConnection(IPin* pConnector, const AM_MEDIA_TYPE* pmt)
{
CAutoLock cObjectLock(m_pLock);
if(m_Connected)
{
CMediaType mt(*pmt);
if(FAILED(CheckMediaType(&mt)))
return VFW_E_TYPE_NOT_ACCEPTED;
ALLOCATOR_PROPERTIES props, actual;
CComPtr<IMemAllocator> pMemAllocator;
if(FAILED(GetAllocator(&pMemAllocator))
|| FAILED(pMemAllocator->Decommit())
|| FAILED(pMemAllocator->GetProperties(&props)))
return E_FAIL;
BITMAPINFOHEADER bih;
if(ExtractBIH(pmt, &bih) && bih.biSizeImage)
props.cbBuffer = bih.biSizeImage;
if(FAILED(pMemAllocator->SetProperties(&props, &actual))
|| FAILED(pMemAllocator->Commit())
|| props.cbBuffer != actual.cbBuffer)
return E_FAIL;
if(m_pAllocator)
m_pAllocator->SetMediaType(mt);
return SetMediaType(&mt) == S_OK
? S_OK
: VFW_E_TYPE_NOT_ACCEPTED;
}
return __super::ReceiveConnection(pConnector, pmt);
}
//
// CBaseVideoOutputPin
//
CBaseVideoOutputPin::CBaseVideoOutputPin(TCHAR* pObjectName, CBaseVideoFilter* pFilter, HRESULT* phr, LPCWSTR pName)
: CTransformOutputPin(pObjectName, pFilter, phr, pName)
{
}
HRESULT CBaseVideoOutputPin::CheckMediaType(const CMediaType* mtOut)
{
if(IsConnected())
{
HRESULT hr = ((CBaseVideoFilter*)m_pFilter)->CheckOutputType(*mtOut);
if(FAILED(hr)) return hr;
}
return __super::CheckMediaType(mtOut);
}