1.å¦ä½è®¾è®¡èªå®ä¹çtransform filter
2.谁有通达信pvi和NVI源码
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1. VCä¸å¨Tools->Options->Directories 设置好DirectX SDKç头æ件ååºæ件路å¾
2. ç¼è¯äºåºç±»æºç ,统源天罚ddos源码çæstrmbasd.lib (debugç), strmbase.lib(releaseç)
3. VCå导æ°å»ºä¸ä¸ªwin DLLï¼emptyï¼å·¥ç¨
4. Setting->Link->Output file name: YUV2RGBfilter.ax
5. Setting->Linkå å ¥strmbasd.lib winmm.lib quartz.lib vfw.lib (注æè·¯å¾)
6. å®ä¹ä¸ä¸ªåå.defæ件ï¼å å ¥å°å·¥ç¨ï¼å 容å¦ä¸ï¼
LIBRARY YUV2RGBfilter.ax
EXPORTS
DllMain PRIVATE
DllGetClassObject PRIVATE
DllCanUnloadNow PRIVATE
DllRegisterServer PRIVATE
DllUnregisterServer PRIVATE
7.建ç«ä¸ä¸ªç±» YUV2RGBfilter 建ç«ä»çcppæ件åhæ件
8. å¨YUV2RGBfilter.cppä¸å®ä¹DLLçå ¥å£å½æ°å注å æ¾å¨cppæ件çæå
//
// DllEntryPoint
//
extern "C" BOOL WINAPI DllEntryPoint(HINSTANCE, ULONG, LPVOID);
BOOL APIENTRY DllMain(HANDLE hModule,
DWORD dwReason,
LPVOID lpReserved)
{
return DllEntryPoint((HINSTANCE)(hModule), dwReason, lpReserved);
}
////////////////////////////////////////////////////////////////////////
//
// Exported entry points for registration and unregistration
// (in this case they only call through to default implementations).
//
////////////////////////////////////////////////////////////////////////
STDAPI DllRegisterServer()
{
return AMovieDllRegisterServer2( TRUE );
}
STDAPI DllUnregisterServer()
{
return AMovieDllRegisterServer2( FALSE );
}
9. cppæ件ä¸è¦å å«ç头æ件
#include <streams.h>
#include <windows.h>
#include <initguid.h>
#include <olectl.h>
#if ( > _MSC_VER)
#include <olectlid.h>
#endif
#include "Y2Ruids.h" // our own public guids
#include "YUV2RGBfilter.h"
äº å¼åFilter
1. çæGUID( å½ä»¤è¡æ¨¡å¼ä¸è¿è¡guidgenå·¥å ·) 为ä»å»ºç«ä¸ä¸ªæ件Y2Ruids.h åç¬å¼ç¨
#include <initguid.h>
// YUV2toRGB Filter Object
// { FFC8FD-B1A6-b0-A-D6EDEAFDA}
DEFINE_GUID(CLSID_YUV2toRGB,
0xffc8fd, 0xb1a6, 0xb0, 0xa3, 0x8, 0xd6, 0xed, 0xea, 0xf4, 0x5, 0xda);
2. æé CYUV2RGBfilterç±» 继æ¿èªCTransformFilter åå¨TransformFilter.hä¸
// ----------------------------------------------------------------------------
// Class definitions of CYUV2RGBfilter
// ----------------------------------------------------------------------------
//
//
class CYUV2RGBfilter : public CTransformFilter
{
public:
static CUnknown * WINAPI CreateInstance(LPUNKNOWN punk, HRESULT *phr);
STDMETHODIMP NonDelegatingQueryInterface(REFIID riid, void ** ppv);
DECLARE_IUNKNOWN;
// override pure virtual function
HRESULT CheckInputType(const CMediaType *mtIn);
HRESULT CheckTransform(const CMediaType *mtIn, const CMediaType *mtOut);
HRESULT DecideBufferSize(IMemAllocator *pAlloc, ALLOCATOR_PROPERTIES *pProp);
HRESULT GetMediaType(int iPosition, CMediaType *pMediaType);
HRESULT Transform(IMediaSample *pIn, IMediaSample *pOut);
private:
//Constructor
CYUV2RGBfilter(TCHAR *tszName, LPUNKNOWN punk, HRESULT *phr);
// member function
VOID ChangeFormat(AM_MEDIA_TYPE* pAdjustedType);
DWORD ConvertYUV2toRGB(BYTE* yuv, BYTE* rgb, DWORD dsize);
// member variable
const long m_lBufferRequest;
CCritSec m_Y2RLock; // To serialise access.
};
3. ææ ¼å¼æ¹åæé å½æ°
//
// CNullInPlace::Constructor
//
CYUV2RGBfilter::CYUV2RGBfilter(TCHAR *tszName,LPUNKNOWN punk,HRESULT *phr) :
CTransformFilter(tszName, punk, CLSID_YUV2toRGB),
m_lBufferRequest(1)
{
ASSERT(tszName);
ASSERT(phr);
} // CYUV2RGBfilter
4. æ¹åCTransformFilteräºä¸ªçº¯èå½æ°ï¼æéè¦çå°æ¹ï¼
HRESULT CheckInputType(const CMediaType *mtIn);
HRESULT CheckTransform(const CMediaType *mtIn, const CMediaType *mtOut);
HRESULT DecideBufferSize(IMemAllocator *pAlloc, ALLOCATOR_PROPERTIES *pProp);
HRESULT GetMediaType(int iPosition, CMediaType *pMediaType);
HRESULT Transform(IMediaSample *pIn, IMediaSample *pOut);
5. 设计èªå·±çç§æå½æ° å®æä¸å®çåè½
6. 注åFilterä¿¡æ¯
// 注åä¿¡æ¯
//setup data
const AMOVIESETUP_MEDIATYPE
sudPinTypes = { &MEDIATYPE_Video // clsMajorType
, &MEDIASUBTYPE_NULL } ; // clsMinorType
const AMOVIESETUP_PIN
psudPins[] = { { L"Input" // strName
, FALSE // bRendered
, FALSE // bOutput
, FALSE // bZero
, FALSE // bMany
, &CLSID_NULL // clsConnectsToFilter
, L"Output" // strConnectsToPin
, 1 // nTypes
, &sudPinTypes } // lpTypes
, { L"Output" // strName
, FALSE // bRendered
, TRUE // bOutput
, FALSE // bZero
, FALSE // bMany
, &CLSID_NULL // clsConnectsToFilter
, L"Input" // strConnectsToPin
, 1 // nTypes
, &sudPinTypes } }; // lpTypes
const AMOVIESETUP_FILTER
sudYUV2RGB = { &CLSID_YUV2toRGB // clsID
, L"YUV2RGB" // strName
, MERIT_DO_NOT_USE // dwMerit
, 2 // nPins
, psudPins }; // lpPin
//
// Needed for the CreateInstance mechanism
//
CFactoryTemplate g_Templates[1]=
{ { L"YUV2RGB"
, &CLSID_YUV2toRGB
, CYUV2RGBfilter::CreateInstance
, NULL
, &sudYUV2RGB }
};
int g_cTemplates = sizeof(g_Templates)/sizeof(g_Templates[0]);
ç¼è¯æååçæGrayFilter.ax
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HRESULT CheckInputType(const CMediaType *mtIn);
HRESULT CheckTransform(const CMediaType *mtIn, const CMediaType *mtOut);
HRESULT DecideBufferSize(IMemAllocator *pAlloc, ALLOCATOR_PROPERTIES *pProp);
HRESULT GetMediaType(int iPosition, CMediaType *pMediaType);
HRESULT Transform(IMediaSample *pIn, IMediaSample *pOut);
è¿äºä¸ªå½æ°å ¨é¨æ¯é½çº¯èå½æ° ï¼æ¯CTransformFilter为æ们æä¾çæ¥å£ï¼å¿ é¡»éè½½ä»ä»¬æè½å®ä¾åã
åå¦è æ大çå°æ°è«è¿äºï¼æ¯è°è°ç¨äºè¿äºå½æ°ãè¿äºå½æ°è°ç¨çæ¶åå®åæ¯ä»åªæ¥çãæä¸å¼å§å°±è¢«è¿äºé®é¢å°æ°ãå ¶å®DXç帮å©ææ¡£é就讲çå¾æ¸ æ¥äºåªæ¯æä¸å¼å§æ²¡è®¤ççï¼
CheckInputTypeæ¯ç±tranformfiltrçè¾å ¥pinè°ç¨çç¨æ¥æ£æ¥æ¬Filterçè¾å ¥åªä½æ¯å¦åæ³ï¼
CheckTransformæ¯ç±tranformfiltrçè¾åºpinè°ç¨çç¨æ¥æ£æ¥æ¬filterçè¾åºæ¯å¦ååæ³ï¼
GetMediaTypeæ¯æç±tranformfiltrçè¾åºpinè°ç¨çç¨æ¥è·å该è¾åºç«¯å£æ¯æçåªä½æ ¼å¼ä¾ä¸æ¸¸filterçæ举
DecideBufferSizeæ¯ç±tranformfiltrçè¾åºpinè°ç¨çæ¥ç¡®å®bufferçæ°éå大å°
ä¸æ¸¸filteréè¿è°ç¨filterä¸è¾å ¥pinä¸çIMemInputPin::Receiveæ¹æ³ï¼å°sampleä¼ éå°filterï¼filterè°ç¨CTransformFilter::Transformæ¹æ³æ¥å¤çæ°æ®
æ´ä¸ªè¿ç¨å°±æ¯
è¾å ¥pinè°ç¨CheckInputTypeæ¥çéä¸æ¸¸è¿æ¥çåªä½ç±»åï¼å¦æå¯ä»¥æ¥å å°±æè¾åºpinéGetMediaTypeæ¥æ举è¾åºåªä½ç±»åï¼è¿ä¸æ¥éè¿è¾åºpinçCheckTransformæ¥æ¾å°ä¸è¾å ¥åªä½ç±»åç¸èåçè¾åºåª ä½ç±»å并éä¸ãå¨éè¿DecideBufferSizeç¡®å®è¾åºbufferçå±æ§ï¼ææçæ£æ¥åçééè¿ä»¥åå°±å¯ä»¥è¿æ¥äºï¼ 并éè¿tranform å°è¾å ¥pinä¸çsample ä¼ ä¸ªè¾åºpinè¾åºåªä½çç±»åæ¯ç±GetMediaTypeæ¥ç¡®å®çï¼ åªè¦åªä½ç±»å对åºäºå°±å¯ä»¥æåè¿æ¥ä½æ¯æ°æ®çä¼ éè¿æ¯è¦éè¿transformæ¥å®ç°ãç论ä¸å¯¹äºæ²¡æå缩çè§é¢ï¼ ä¸ä¸ªsampleå°±æ¯ä¸å¸§çæ°æ®ï¼å¯ä»¥ç²¾ç¡®çéåå¤çã
è¦å®ç°è¾åºpinä¸åªä½æ ¼å¼ç转å å°±å¿ é¡»å¨å¨GetMediaTypeå½æ°ä¸ä¿®æ¹æ°çåªä½æ ¼å¼ï¼ç¶åå¨checkTransformä¸ç¡®è®¤ è¾åºçåªä½æ ¼å¼æ¯ä¸æ¯ææçè¾åºãä¾å¦ è¦å°YUY2 bitçåªä½æ ¼å¼æ¹ä¸ºRGB8 8bitçåªä½æ ¼å¼ å°±è¦åå¦ä¸ä¿®æ¹ï¼
å¨GetMediaTypeä¸
CheckPointer(pMediaType,E_POINTER);
VIDEOINFO vih;
memset(&vih, 0, sizeof(vih));
vih.bmiHeader.biCompression = 0;
vih.bmiHeader.biBitCount = 8;
vih.bmiHeader.biSize = ;
vih.bmiHeader.biWidth = ;
vih.bmiHeader.biHeight = ;
vih.bmiHeader.biPlanes = 1;
vih.bmiHeader.biSizeImage = ;
vih.bmiHeader.biClrImportant = 0;
vih.bmiHeader.biClrUsed = ;
//alter the pallete
for (UINT i=0; i<; i++)
{
vih.bmiColors[i].rgbBlue=(BYTE)i;
vih.bmiColors[i].rgbRed=(BYTE)i;
vih.bmiColors[i].rgbGreen=(BYTE)i;
vih.bmiColors[i].rgbReserved=(BYTE)0;
}
pMediaType->SetType(&MEDIATYPE_Video);
pMediaType->SetFormatType(&FORMAT_VideoInfo);
pMediaType->SetFormat((BYTE*)&vih, sizeof(vih));
pMediaType->SetSubtype(&MEDIASUBTYPE_RGB8);
pMediaType->SetSampleSize();
return NOERROR;
ç¶åå¨checkTransformä¸ç¡®è®¤æ¯å¦æ¯ææçè¾åº
BITMAPINFOHEADER *pNewType = HEADER(mtOut->Format());
if ((pNewType->biPlanes==1)
&&(pNewType->biBitCount==8)
&&(pNewType->biWidth==)
&&(pNewType->biHeight==)
&&(pNewType->biClrUsed==)
&&(pNewType->biSizeImage==))
{
return S_OK;
}
æçå®ç°è¿ç¨å¦ä¸
// GetMediaType
//
// I support one type, namely the type of the input pin
// We must be connected to support the single output type
//
HRESULT CYUV2RGBfilter::GetMediaType(int iPosition, CMediaType *pMediaType)
{
// Is the input pin connected
if(m_pInput->IsConnected() == FALSE)
{
return E_UNEXPECTED;
}
// This should never happen
if(iPosition < 0)
{
return E_INVALIDARG;
}
// Do we have more items to offer
if(iPosition > 0)
{
return VFW_S_NO_MORE_ITEMS;
}
CheckPointer(pMediaType,E_POINTER);
if (iPosition == 0)
{
HRESULT hr = m_pInput->ConnectionMediaType(pMediaType);
if (FAILED(hr))
{
return hr;
}
}
// make some appropriate change
ASSERT(pMediaType->formattype == FORMAT_VideoInfo);
pMediaType->subtype = MEDIASUBTYPE_RGB;
VIDEOINFOHEADER *pVih =
reinterpret_cast<VIDEOINFOHEADER*>(pMediaType->pbFormat);
pVih->bmiHeader.biCompression = 0;
pVih->bmiHeader.biSizeImage = DIBSIZE(pVih->bmiHeader);
pVih->bmiHeader.biBitCount = ;
pVih->bmiHeader.biHeight = ;
pVih->bmiHeader.biWidth = ;
return S_OK;
} // GetMediaType
//
// CheckInputType
//
// Check the input type is OK, return an error otherwise
//
HRESULT CYUV2RGBfilter::CheckInputType(const CMediaType *mtIn)
{
CheckPointer(mtIn,E_POINTER);
// Check this is a VIDEOINFO type
if(*mtIn->FormatType() != FORMAT_VideoInfo)
{
return E_INVALIDARG;
}
if((IsEqualGUID(*mtIn->Type(), MEDIATYPE_Video)) &&
(IsEqualGUID(*mtIn->Subtype(), MEDIASUBTYPE_YUY2)))
{
VIDEOINFO *pvi = (VIDEOINFO *) mtIn->Format();
if ((pvi->bmiHeader.biBitCount == )
&&(pvi->bmiHeader.biCompression==0))
return S_OK;
else
return FALSE;
}
else
{
return FALSE;
}
} // CheckInputType
// CheckTransform
//
// To be able to transform the formats must be compatible
//mtIn YUV2 bit
//mtOut RGB bit
HRESULT CYUV2RGBfilter::CheckTransform(const CMediaType *mtIn, const CMediaType *mtOut)
{
CheckPointer(mtIn,E_POINTER);
CheckPointer(mtOut,E_POINTER);
HRESULT hr;
if(FAILED(hr = CheckInputType(mtIn)))
{
return hr;
}
// format must be a VIDEOINFOHEADER
if((*mtOut->FormatType() != FORMAT_VideoInfo)
||(mtOut->cbFormat<sizeof(VIDEOINFOHEADER ))
||(mtOut->subtype!=MEDIASUBTYPE_RGB))
{
return E_INVALIDARG;
}
BITMAPINFOHEADER *pBmiOut = HEADER(mtOut->pbFormat);
if ((pBmiOut->biPlanes!=1)
||(pBmiOut->biBitCount!=)
||(pBmiOut->biCompression!=0)
||(pBmiOut->biWidth!=)
||(pBmiOut->biHeight!=))
{
return E_INVALIDARG;
}
return S_OK;
}
// CheckTransform
HRESULT CYUV2RGBfilter::DecideBufferSize(IMemAllocator *pAlloc, ALLOCATOR_PROPERTIES *pProperties)
{
CheckPointer(pAlloc,E_POINTER);
CheckPointer(pProperties,E_POINTER);
// Is the input pin connected
if(m_pInput->IsConnected() == FALSE)
{
return E_UNEXPECTED;
}
HRESULT hr = NOERROR;
pProperties->cBuffers = 1;
pProperties->cbBuffer = m_pInput->CurrentMediaType().GetSampleSize()*2; //output is double of the input samples
ASSERT(pProperties->cbBuffer);
// If we don't have fixed sized samples we must guess some size
if(!m_pInput->CurrentMediaType().bFixedSizeSamples)
{
if(pProperties->cbBuffer < )
{
// nothing more than a guess!!
pProperties->cbBuffer = ;
}
}
// Ask the allocator to reserve us some sample memory, NOTE the function
// can succeed (that is return NOERROR) but still not have allocated the
// memory that we requested, so we must check we got whatever we wanted
ALLOCATOR_PROPERTIES Actual;
hr = pAlloc->SetProperties(pProperties,&Actual);
if(FAILED(hr))
{
return hr;
}
ASSERT(Actual.cBuffers == 1);
if(pProperties->cBuffers > Actual.cBuffers ||
pProperties->cbBuffer > Actual.cbBuffer)
{
return E_FAIL;
}
return NOERROR;
} // DecideBufferSize
//
// Transform
//
// Copy the input sample into the output sample
//
//
HRESULT CYUV2RGBfilter::Transform(IMediaSample *pIn, IMediaSample *pOut)
{
CheckPointer(pIn,E_POINTER);
CheckPointer(pOut,E_POINTER);
// Copy the sample data
BYTE *pSourceBuffer, *pDestBuffer;
long lSourceSize = pIn->GetActualDataLength();
long lDestSize = (long)(lSourceSize*1.5);
pIn->GetPointer(&pSourceBuffer);
pOut->GetPointer(&pDestBuffer);
//change data
ConvertYUV2toRGB(pSourceBuffer,pDestBuffer,lSourceSize);
//memset(pDestBuffer,,lDestSize);
REFERENCE_TIME TimeStart, TimeEnd;
if(NOERROR == pIn->GetTime(&TimeStart, &TimeEnd))
{
pOut->SetTime(&TimeStart, &TimeEnd);
}
LONGLONG MediaStart, MediaEnd;
if(pIn->GetMediaTime(&MediaStart,&MediaEnd) == NOERROR)
{
pOut->SetMediaTime(&MediaStart,&MediaEnd);
}
// Copy the Sync point property
HRESULT hr = pIn->IsSyncPoint();
if(hr == S_OK)
{
pOut->SetSyncPoint(TRUE);
}
else if(hr == S_FALSE)
{
pOut->SetSyncPoint(FALSE);
}
else
{ // an unexpected error has occured...
return E_UNEXPECTED;
}
//
AM_MEDIA_TYPE* pMediaType;
pIn->GetMediaType(&pMediaType);
ChangeFormat(pMediaType);
// Copy the media type
pOut->SetMediaType(pMediaType);
// Copy the preroll property
hr = pIn->IsPreroll();
if(hr == S_OK)
{
pOut->SetPreroll(TRUE);
}
else if(hr == S_FALSE)
{
pOut->SetPreroll(FALSE);
}
else
{ // an unexpected error has occured...
return E_UNEXPECTED;
}
// Copy the discontinuity property
hr = pIn->IsDiscontinuity();
if(hr == S_OK)
{
pOut->SetDiscontinuity(TRUE);
}
else if(hr == S_FALSE)
{
pOut->SetDiscontinuity(FALSE);
}
else
{ // an unexpected error has occured...
return E_UNEXPECTED;
}
// Copy the actual data length
//KASSERT((long)lDestSize <= pOut->GetSize());
pOut->SetActualDataLength(lDestSize);
return S_OK;
} // Transform
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åºèªï¼/s/blog_vusf.html
谁有通达信pvi和NVI源码
正负成交量指标系统源码的我没有我有自己编的和系统数值不同但现实效果一样
{ NVI负成交量}
A:=(CLOSE-REF(CLOSE,1))/REF(CLOSE,1);
PVIX:=IF(V>REF(V,1),A,0);
NVIX:=IF(V<REF(V,1),A,0);
ZNL:=SUM(PVIX,);
FNLL:SUM(NVIX,0);
MA(FNLL,);
{ PVI正成交量}
A:=(CLOSE-REF(CLOSE,1))/REF(CLOSE,1);
PVIX:=IF(V>REF(V,1),A,0);
B:SUM(PVIX,0);
CC:MA(B,);
2024-12-29 00:48
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