/******************************************************** DirectShow Video decoder implementation Copyright 2000 Eugene Kuznetsov (divx@euro.ru) *********************************************************/ #include "config.h" #include "guids.h" #include "interfaces.h" #include "registry.h" #include "libwin32.h" #include "DS_Filter.h" struct DS_VideoDecoder { IVideoDecoder iv; DS_Filter* m_pDS_Filter; AM_MEDIA_TYPE m_sOurType, m_sDestType; VIDEOINFOHEADER* m_sVhdr; VIDEOINFOHEADER* m_sVhdr2; int m_Caps;//CAPS m_Caps; // capabilities of DirectShow decoder int m_iLastQuality; // remember last quality as integer int m_iMinBuffers; int m_iMaxAuto; int m_bIsDivX; // for speed int m_bIsDivX4; // for speed }; static SampleProcUserData sampleProcData; #include "DS_VideoDecoder.h" #include "wine/winerror.h" #ifdef WIN32_LOADER #include "ldt_keeper.h" #endif #include #include #include #include #ifdef HAVE_SYS_MMAN_H #include #endif #include #include // labs // strcmp((const char*)info.dll,...) is used instead of (... == ...) // so Arpi could use char* pointer in his simplified DS_VideoDecoder class #define false 0 #define true 1 int DS_VideoDecoder_GetCapabilities(DS_VideoDecoder *this) {return this->m_Caps;} typedef struct ct ct; struct ct { unsigned int bits; fourcc_t fcc; const GUID *subtype; int cap; }; static ct check[] = { {16, fccYUY2, &MEDIASUBTYPE_YUY2, CAP_YUY2}, {12, fccIYUV, &MEDIASUBTYPE_IYUV, CAP_IYUV}, {16, fccUYVY, &MEDIASUBTYPE_UYVY, CAP_UYVY}, {12, fccYV12, &MEDIASUBTYPE_YV12, CAP_YV12}, //{16, fccYV12, &MEDIASUBTYPE_YV12, CAP_YV12}, {16, fccYVYU, &MEDIASUBTYPE_YVYU, CAP_YVYU}, {12, fccI420, &MEDIASUBTYPE_I420, CAP_I420}, {9, fccYVU9, &MEDIASUBTYPE_YVU9, CAP_YVU9}, {0, 0, 0, 0}, }; DS_VideoDecoder * DS_VideoDecoder_Open(char* dllname, GUID* guid, BITMAPINFOHEADER * format, int flip, int maxauto) { DS_VideoDecoder *this; HRESULT result; ct* c; this = malloc(sizeof(DS_VideoDecoder)); memset( this, 0, sizeof(DS_VideoDecoder)); this->m_sVhdr2 = 0; this->m_iLastQuality = -1; this->m_iMaxAuto = maxauto; #ifdef WIN32_LOADER Setup_LDT_Keeper(); #endif //memset(&m_obh, 0, sizeof(m_obh)); //m_obh.biSize = sizeof(m_obh); /*try*/ { unsigned int bihs; bihs = (format->biSize < (int) sizeof(BITMAPINFOHEADER)) ? sizeof(BITMAPINFOHEADER) : format->biSize; this->iv.m_bh = malloc(bihs); memcpy(this->iv.m_bh, format, bihs); this->iv.m_bh->biSize = bihs; this->iv.m_State = STOP; //this->iv.m_pFrame = 0; this->iv.m_Mode = DIRECT; this->iv.m_iDecpos = 0; this->iv.m_iPlaypos = -1; this->iv.m_fQuality = 0.0f; this->iv.m_bCapable16b = true; bihs += sizeof(VIDEOINFOHEADER) - sizeof(BITMAPINFOHEADER); this->m_sVhdr = malloc(bihs); memset(this->m_sVhdr, 0, bihs); memcpy(&this->m_sVhdr->bmiHeader, this->iv.m_bh, this->iv.m_bh->biSize); this->m_sVhdr->rcSource.left = this->m_sVhdr->rcSource.top = 0; this->m_sVhdr->rcSource.right = this->m_sVhdr->bmiHeader.biWidth; this->m_sVhdr->rcSource.bottom = this->m_sVhdr->bmiHeader.biHeight; //this->m_sVhdr->rcSource.right = 0; //this->m_sVhdr->rcSource.bottom = 0; this->m_sVhdr->rcTarget = this->m_sVhdr->rcSource; this->m_sOurType.majortype = MEDIATYPE_Video; this->m_sOurType.subtype = MEDIATYPE_Video; this->m_sOurType.subtype.f1 = this->m_sVhdr->bmiHeader.biCompression; this->m_sOurType.formattype = FORMAT_VideoInfo; this->m_sOurType.bFixedSizeSamples = false; this->m_sOurType.bTemporalCompression = true; this->m_sOurType.pUnk = 0; this->m_sOurType.cbFormat = bihs; this->m_sOurType.pbFormat = (char*)this->m_sVhdr; this->m_sVhdr2 = malloc(sizeof(VIDEOINFOHEADER)+12); memcpy(this->m_sVhdr2, this->m_sVhdr, sizeof(VIDEOINFOHEADER)); memset((char*)this->m_sVhdr2 + sizeof(VIDEOINFOHEADER), 0, 12); this->m_sVhdr2->bmiHeader.biCompression = 0; this->m_sVhdr2->bmiHeader.biBitCount = 24; memset(&this->m_sDestType, 0, sizeof(this->m_sDestType)); this->m_sDestType.majortype = MEDIATYPE_Video; this->m_sDestType.subtype = MEDIASUBTYPE_RGB24; this->m_sDestType.formattype = FORMAT_VideoInfo; this->m_sDestType.bFixedSizeSamples = true; this->m_sDestType.bTemporalCompression = false; this->m_sDestType.lSampleSize = labs(this->m_sVhdr2->bmiHeader.biWidth*this->m_sVhdr2->bmiHeader.biHeight * ((this->m_sVhdr2->bmiHeader.biBitCount + 7) / 8)); this->m_sVhdr2->bmiHeader.biSizeImage = this->m_sDestType.lSampleSize; this->m_sDestType.pUnk = 0; this->m_sDestType.cbFormat = sizeof(VIDEOINFOHEADER); this->m_sDestType.pbFormat = (char*)this->m_sVhdr2; memset(&this->iv.m_obh, 0, sizeof(this->iv.m_obh)); memcpy(&this->iv.m_obh, this->iv.m_bh, sizeof(this->iv.m_obh) < (unsigned) this->iv.m_bh->biSize ? sizeof(this->iv.m_obh) : (unsigned) this->iv.m_bh->biSize); this->iv.m_obh.biBitCount=24; this->iv.m_obh.biSize = sizeof(BITMAPINFOHEADER); this->iv.m_obh.biCompression = 0; //BI_RGB //this->iv.m_obh.biHeight = labs(this->iv.m_obh.biHeight); this->iv.m_obh.biSizeImage = labs(this->iv.m_obh.biWidth * this->iv.m_obh.biHeight) * ((this->iv.m_obh.biBitCount + 7) / 8); this->m_pDS_Filter = DS_FilterCreate(dllname, guid, &this->m_sOurType, &this->m_sDestType,&sampleProcData); if (!this->m_pDS_Filter) { printf("Failed to create DirectShow filter\n"); return 0; } if (!flip) { this->iv.m_obh.biHeight *= -1; this->m_sVhdr2->bmiHeader.biHeight = this->iv.m_obh.biHeight; result = this->m_pDS_Filter->m_pOutputPin->vt->QueryAccept(this->m_pDS_Filter->m_pOutputPin, &this->m_sDestType); if (result) { printf("Decoder does not support upside-down RGB frames\n"); this->iv.m_obh.biHeight *= -1; this->m_sVhdr2->bmiHeader.biHeight = this->iv.m_obh.biHeight; } } memcpy( &this->iv.m_decoder, &this->iv.m_obh, sizeof(this->iv.m_obh) ); switch (this->iv.m_bh->biCompression) { #if 0 case fccDIV3: case fccDIV4: case fccDIV5: case fccDIV6: case fccMP42: case fccWMV2: //YV12 seems to be broken for DivX :-) codec // case fccIV50: //produces incorrect picture //m_Caps = (CAPS) (m_Caps & ~CAP_YV12); //m_Caps = CAP_UYVY;//CAP_YUY2; // | CAP_I420; //m_Caps = CAP_I420; this->m_Caps = (CAP_YUY2 | CAP_UYVY); break; #endif default: this->m_Caps = CAP_NONE; printf("Decoder supports the following YUV formats: "); for (c = check; c->bits; c++) { this->m_sVhdr2->bmiHeader.biBitCount = c->bits; this->m_sVhdr2->bmiHeader.biCompression = c->fcc; this->m_sDestType.subtype = *c->subtype; result = this->m_pDS_Filter->m_pOutputPin->vt->QueryAccept(this->m_pDS_Filter->m_pOutputPin, &this->m_sDestType); if (!result) { this->m_Caps = (this->m_Caps | c->cap); printf("%.4s ", (char *)&c->fcc); } } printf("\n"); } if (this->m_Caps != CAP_NONE) printf("Decoder is capable of YUV output (flags 0x%x)\n", (int)this->m_Caps); this->m_sVhdr2->bmiHeader.biBitCount = 24; this->m_sVhdr2->bmiHeader.biCompression = 0; this->m_sDestType.subtype = MEDIASUBTYPE_RGB24; this->m_iMinBuffers = this->iv.VBUFSIZE; this->m_bIsDivX = (strcmp(dllname, "divxcvki.ax") == 0 || strcmp(dllname, "divx_c32.ax") == 0 || strcmp(dllname, "wmvds32.ax") == 0 || strcmp(dllname, "wmv8ds32.ax") == 0); this->m_bIsDivX4 = (strcmp(dllname, "divxdec.ax") == 0); if (this->m_bIsDivX) this->iv.VBUFSIZE += 7; else if (this->m_bIsDivX4) this->iv.VBUFSIZE += 9; } /*catch (FatalError& error) { delete[] m_sVhdr; delete[] m_sVhdr2; delete m_pDS_Filter; throw; }*/ return this; } void DS_VideoDecoder_Destroy(DS_VideoDecoder *this) { DS_VideoDecoder_StopInternal(this); this->iv.m_State = STOP; free(this->m_sVhdr); free(this->m_sVhdr2); DS_Filter_Destroy(this->m_pDS_Filter); } void DS_VideoDecoder_StartInternal(DS_VideoDecoder *this) { Debug printf("DS_VideoDecoder_StartInternal\n"); //cout << "DSSTART" << endl; this->m_pDS_Filter->m_pAll->vt->Commit(this->m_pDS_Filter->m_pAll); this->m_pDS_Filter->Start(this->m_pDS_Filter); this->iv.m_State = START; } void DS_VideoDecoder_StopInternal(DS_VideoDecoder *this) { this->m_pDS_Filter->Stop(this->m_pDS_Filter); //??? why was this here ??? m_pOurOutput->SetFramePointer(0); } int DS_VideoDecoder_DecodeInternal(DS_VideoDecoder *this, const void* src, int size, int is_keyframe, char* pImage) { IMediaSample* sample = 0; char* ptr; int result; Debug printf("DS_VideoDecoder_DecodeInternal(%p,%p,%d,%d,%p)\n",this,src,size,is_keyframe,pImage); this->m_pDS_Filter->m_pAll->vt->GetBuffer(this->m_pDS_Filter->m_pAll, &sample, 0, 0, 0); if (!sample) { Debug printf("ERROR: null sample\n"); return -1; } //cout << "DECODE " << (void*) pImage << " d: " << (void*) pImage->Data() << endl; sample->vt->SetActualDataLength(sample, size); sample->vt->GetPointer(sample, (BYTE **)&ptr); memcpy(ptr, src, size); sample->vt->SetSyncPoint(sample, is_keyframe); sample->vt->SetPreroll(sample, pImage ? 0 : 1); // sample->vt->SetMediaType(sample, &m_sOurType); // FIXME: - crashing with YV12 at this place decoder will crash // while doing this call // %FS register was not setup for calling into win32 dll. Are all // crashes inside ...->Receive() fixed now? // // nope - but this is surely helpfull - I'll try some more experiments #ifdef WIN32_LOADER Setup_FS_Segment(); #endif #if 0 if (!this->m_pDS_Filter || !this->m_pDS_Filter->m_pImp || !this->m_pDS_Filter->m_pImp->vt || !this->m_pDS_Filter->m_pImp->vt->Receive) printf("DecodeInternal ERROR???\n"); #endif result = this->m_pDS_Filter->m_pImp->vt->Receive(this->m_pDS_Filter->m_pImp, sample); if (result) { Debug printf("DS_VideoDecoder::DecodeInternal() error putting data into input pin %x\n", result); } if (pImage) { memcpy(pImage, sampleProcData.frame_pointer, sampleProcData.frame_size); } sample->vt->Release((IUnknown*)sample); #if 0 if (this->m_bIsDivX) { int q; IHidden* hidden=(IHidden*)((int)this->m_pDS_Filter->m_pFilter + 0xb8); // always check for actual value // this seems to be the only way to know the actual value hidden->vt->GetSmth2(hidden, &this->m_iLastQuality); if (this->m_iLastQuality > 9) this->m_iLastQuality -= 10; if (this->m_iLastQuality < 0) this->m_iLastQuality = 0; else if (this->m_iLastQuality > this->m_iMaxAuto) this->m_iLastQuality = this->m_iMaxAuto; //cout << " Qual: " << this->m_iLastQuality << endl; this->iv.m_fQuality = this->m_iLastQuality / 4.0; } else if (this->m_bIsDivX4) { // maybe access methods directly to safe some cpu cycles... DS_VideoDecoder_GetValue(this, "Postprocessing", this->m_iLastQuality); if (this->m_iLastQuality < 0) this->m_iLastQuality = 0; else if (this->m_iLastQuality > this->m_iMaxAuto) this->m_iLastQuality = this->m_iMaxAuto; //cout << " Qual: " << m_iLastQuality << endl; this->iv.m_fQuality = this->m_iLastQuality / 6.0; } if (this->iv.m_Mode == -1 ) // ???BUFFERED_QUALITY_AUTO) { // adjust Quality - depends on how many cached frames we have int buffered = this->iv.m_iDecpos - this->iv.m_iPlaypos; if (this->m_bIsDivX || this->m_bIsDivX4) { int to = buffered - this->m_iMinBuffers; if (to < 0) to = 0; if (to != this->m_iLastQuality) { if (to > this->m_iMaxAuto) to = this->m_iMaxAuto; if (this->m_iLastQuality != to) { if (this->m_bIsDivX) { IHidden* hidden=(IHidden*)((int)this->m_pDS_Filter->m_pFilter + 0xb8); hidden->vt->SetSmth(hidden, to, 0); } else DS_VideoDecoder_SetValue(this, "Postprocessing", to); #ifndef QUIET //printf("Switching quality %d -> %d b:%d\n",m_iLastQuality, to, buffered); #endif } } } } #endif return 0; } /* * bits == 0 - leave unchanged */ //int SetDestFmt(DS_VideoDecoder * this, int bits = 24, fourcc_t csp = 0); int DS_VideoDecoder_SetDestFmt(DS_VideoDecoder *this, int bits, unsigned int csp) { HRESULT result; ALLOCATOR_PROPERTIES props,props1; int should_test=1; int stopped = 0; Debug printf("DS_VideoDecoder_SetDestFmt (%p, %d, %d)\n",this,bits,(int)csp); /* if (!CImage::Supported(csp, bits)) return -1; */ // BitmapInfo temp = m_obh; if (!csp) // RGB { int ok = true; switch (bits) { case 15: this->m_sDestType.subtype = MEDIASUBTYPE_RGB555; break; case 16: this->m_sDestType.subtype = MEDIASUBTYPE_RGB565; break; case 24: this->m_sDestType.subtype = MEDIASUBTYPE_RGB24; break; case 32: this->m_sDestType.subtype = MEDIASUBTYPE_RGB32; break; default: ok = false; break; } if (ok) { if (bits == 15) this->iv.m_obh.biBitCount=16; else this->iv.m_obh.biBitCount=bits; if( bits == 15 || bits == 16 ) { this->iv.m_obh.biSize=sizeof(BITMAPINFOHEADER)+12; this->iv.m_obh.biCompression=3;//BI_BITFIELDS this->iv.m_obh.biSizeImage=abs((int)(2*this->iv.m_obh.biWidth*this->iv.m_obh.biHeight)); } if( bits == 16 ) { this->iv.m_obh.colors[0]=0xF800; this->iv.m_obh.colors[1]=0x07E0; this->iv.m_obh.colors[2]=0x001F; } else if ( bits == 15 ) { this->iv.m_obh.colors[0]=0x7C00; this->iv.m_obh.colors[1]=0x03E0; this->iv.m_obh.colors[2]=0x001F; } else { this->iv.m_obh.biSize = sizeof(BITMAPINFOHEADER); this->iv.m_obh.biCompression = 0; //BI_RGB //this->iv.m_obh.biHeight = labs(this->iv.m_obh.biHeight); this->iv.m_obh.biSizeImage = labs(this->iv.m_obh.biWidth * this->iv.m_obh.biHeight) * ((this->iv.m_obh.biBitCount + 7) / 8); } } //.biSizeImage=abs(temp.biWidth*temp.biHeight*((temp.biBitCount+7)/8)); } else { // YUV int ok = true; switch (csp) { case fccYUY2: this->m_sDestType.subtype = MEDIASUBTYPE_YUY2; break; case fccYV12: this->m_sDestType.subtype = MEDIASUBTYPE_YV12; break; case fccIYUV: this->m_sDestType.subtype = MEDIASUBTYPE_IYUV; break; case fccI420: this->m_sDestType.subtype = MEDIASUBTYPE_I420; break; case fccUYVY: this->m_sDestType.subtype = MEDIASUBTYPE_UYVY; break; case fccYVYU: this->m_sDestType.subtype = MEDIASUBTYPE_YVYU; break; case fccYVU9: this->m_sDestType.subtype = MEDIASUBTYPE_YVU9; default: ok = false; break; } if (ok) { if (csp != 0 && csp != 3 && this->iv.m_obh.biHeight > 0) this->iv.m_obh.biHeight *= -1; // YUV formats uses should have height < 0 this->iv.m_obh.biSize = sizeof(BITMAPINFOHEADER); this->iv.m_obh.biCompression=csp; this->iv.m_obh.biBitCount=bits; this->iv.m_obh.biSizeImage=labs(this->iv.m_obh.biBitCount* this->iv.m_obh.biWidth*this->iv.m_obh.biHeight)>>3; } } this->m_sDestType.lSampleSize = this->iv.m_obh.biSizeImage; memcpy(&(this->m_sVhdr2->bmiHeader), &this->iv.m_obh, sizeof(this->iv.m_obh)); this->m_sVhdr2->bmiHeader.biSize = sizeof(BITMAPINFOHEADER); if (this->m_sVhdr2->bmiHeader.biCompression == 3) this->m_sDestType.cbFormat = sizeof(VIDEOINFOHEADER) + 12; else this->m_sDestType.cbFormat = sizeof(VIDEOINFOHEADER); switch(csp) { case fccYUY2: if(!(this->m_Caps & CAP_YUY2)) should_test=false; break; case fccYV12: if(!(this->m_Caps & CAP_YV12)) should_test=false; break; case fccIYUV: if(!(this->m_Caps & CAP_IYUV)) should_test=false; break; case fccI420: if(!(this->m_Caps & CAP_I420)) should_test=false; break; case fccUYVY: if(!(this->m_Caps & CAP_UYVY)) should_test=false; break; case fccYVYU: if(!(this->m_Caps & CAP_YVYU)) should_test=false; break; case fccYVU9: if(!(this->m_Caps & CAP_YVU9)) should_test=false; break; } if(should_test) result = this->m_pDS_Filter->m_pOutputPin->vt->QueryAccept(this->m_pDS_Filter->m_pOutputPin, &this->m_sDestType); else result = -1; if (result != 0) { if (csp) printf("Warning: unsupported color space\n"); else printf("Warning: unsupported bit depth\n"); this->m_sDestType.lSampleSize = this->iv.m_decoder.biSizeImage; memcpy(&(this->m_sVhdr2->bmiHeader), &this->iv.m_decoder, sizeof(this->iv.m_decoder)); this->m_sVhdr2->bmiHeader.biSize = sizeof(BITMAPINFOHEADER); if (this->m_sVhdr2->bmiHeader.biCompression == 3) this->m_sDestType.cbFormat = sizeof(VIDEOINFOHEADER) + 12; else this->m_sDestType.cbFormat = sizeof(VIDEOINFOHEADER); return -1; } memcpy( &this->iv.m_decoder, &this->iv.m_obh, sizeof(this->iv.m_obh)); // m_obh=temp; // if(csp) // m_obh.biBitCount=BitmapInfo::BitCount(csp); this->iv.m_bh->biBitCount = bits; //DS_VideoDecoder_Restart(this); if (this->iv.m_State == START) { DS_VideoDecoder_StopInternal(this); this->iv.m_State = STOP; stopped = true; } this->m_pDS_Filter->m_pInputPin->vt->Disconnect(this->m_pDS_Filter->m_pInputPin); this->m_pDS_Filter->m_pOutputPin->vt->Disconnect(this->m_pDS_Filter->m_pOutputPin); this->m_pDS_Filter->m_pOurOutput->SetNewFormat(this->m_pDS_Filter->m_pOurOutput,&this->m_sDestType); result = this->m_pDS_Filter->m_pInputPin->vt->ReceiveConnection(this->m_pDS_Filter->m_pInputPin, this->m_pDS_Filter->m_pOurInput, &this->m_sOurType); if (result) { printf("Error reconnecting input pin 0x%x\n", (int)result); return -1; } if(this->m_pDS_Filter->m_pAll) this->m_pDS_Filter->m_pAll->vt->Release(this->m_pDS_Filter->m_pAll); this->m_pDS_Filter->m_pAll=MemAllocatorCreate(); if (!this->m_pDS_Filter->m_pAll) { printf("Call to MemAllocatorCreate failed\n"); return -1; } //Seting allocator property according to our media type props.cBuffers=1; props.cbBuffer=this->m_sDestType.lSampleSize; props.cbAlign=1; props.cbPrefix=0; this->m_pDS_Filter->m_pAll->vt->SetProperties(this->m_pDS_Filter->m_pAll, &props, &props1); //Notify remote pin about choosed allocator this->m_pDS_Filter->m_pImp->vt->NotifyAllocator(this->m_pDS_Filter->m_pImp, this->m_pDS_Filter->m_pAll, 0); result = this->m_pDS_Filter->m_pOutputPin->vt->ReceiveConnection(this->m_pDS_Filter->m_pOutputPin, (IPin *)this->m_pDS_Filter->m_pOurOutput, &this->m_sDestType); if (result) { printf("Error reconnecting output pin 0x%x\n", (int)result); return -1; } if (stopped) { DS_VideoDecoder_StartInternal(this); this->iv.m_State = START; } return 0; } int DS_VideoDecoder_SetDirection(DS_VideoDecoder *this, int d) { this->iv.m_obh.biHeight = (d) ? this->iv.m_bh->biHeight : -this->iv.m_bh->biHeight; this->m_sVhdr2->bmiHeader.biHeight = this->iv.m_obh.biHeight; return 0; } int DS_VideoDecoder_GetValue(DS_VideoDecoder *this, const char* name, int* value) { /* if (m_bIsDivX4) { IDivxFilterInterface* pIDivx; if (m_pDS_Filter->m_pFilter->vt->QueryInterface((IUnknown*)m_pDS_Filter->m_pFilter, &IID_IDivxFilterInterface, (void**)&pIDivx)) { Debug printf("No such interface\n"); return -1; } if (strcmp(name, "Postprocessing") == 0) { pIDivx->vt->get_PPLevel(pIDivx, &value); value /= 10; } else if (strcmp(name, "Brightness") == 0) pIDivx->vt->get_Brightness(pIDivx, &value); else if (strcmp(name, "Contrast") == 0) pIDivx->vt->get_Contrast(pIDivx, &value); else if (strcmp(name, "Saturation") == 0) pIDivx->vt->get_Saturation(pIDivx, &value); else if (strcmp(name, "MaxAuto") == 0) value = m_iMaxAuto; pIDivx->vt->Release((IUnknown*)pIDivx); return 0; } else if (m_bIsDivX) { if (m_State != START) return VFW_E_NOT_RUNNING; // brightness 87 // contrast 74 // hue 23 // saturation 20 // post process mode 0 // get1 0x01 // get2 10 // get3=set2 86 // get4=set3 73 // get5=set4 19 // get6=set5 23 IHidden* hidden=(IHidden*)((int)m_pDS_Filter->m_pFilter+0xb8); if (strcmp(name, "Quality") == 0) { #warning NOT SURE int r = hidden->vt->GetSmth2(hidden, &value); if (value >= 10) value -= 10; return 0; } if (strcmp(name, "Brightness") == 0) return hidden->vt->GetSmth3(hidden, &value); if (strcmp(name, "Contrast") == 0) return hidden->vt->GetSmth4(hidden, &value); if (strcmp(name, "Hue") == 0) return hidden->vt->GetSmth6(hidden, &value); if (strcmp(name, "Saturation") == 0) return hidden->vt->GetSmth5(hidden, &value); if (strcmp(name, "MaxAuto") == 0) { value = m_iMaxAuto; return 0; } } else if (strcmp((const char*)record.dll, "ir50_32.dll") == 0) { IHidden2* hidden = 0; if (m_pDS_Filter->m_pFilter->vt->QueryInterface((IUnknown*)m_pDS_Filter->m_pFilter, &IID_Iv50Hidden, (void**)&hidden)) { Debug printf("No such interface\n"); return -1; } #warning FIXME int recordpar[30]; recordpar[0]=0x7c; recordpar[1]=fccIV50; recordpar[2]=0x10005; recordpar[3]=2; recordpar[4]=1; recordpar[5]=0x80000000; if (strcmp(name, "Brightness") == 0) recordpar[5]|=0x20; else if (strcmp(name, "Saturation") == 0) recordpar[5]|=0x40; else if (strcmp(name, "Contrast") == 0) recordpar[5]|=0x80; if (!recordpar[5]) { hidden->vt->Release((IUnknown*)hidden); return -1; } if (hidden->vt->DecodeSet(hidden, recordpar)) return -1; if (strcmp(name, "Brightness") == 0) value = recordpar[18]; else if (strcmp(name, "Saturation") == 0) value = recordpar[19]; else if (strcmp(name, "Contrast") == 0) value = recordpar[20]; hidden->vt->Release((IUnknown*)hidden); } */ return 0; } int DS_VideoDecoder_SetValue(DS_VideoDecoder *this, const char* name, int value) { if (this->m_bIsDivX4) { IDivxFilterInterface* pIDivx=NULL; // printf("DS_SetValue for DIVX4, name=%s value=%d\n",name,value); if (this->m_pDS_Filter->m_pFilter->vt->QueryInterface((IUnknown*)this->m_pDS_Filter->m_pFilter, &IID_IDivxFilterInterface, (void**)&pIDivx)) { printf("No such interface\n"); return -1; } if (strcasecmp(name, "Postprocessing") == 0) pIDivx->vt->put_PPLevel(pIDivx, value * 10); else if (strcasecmp(name, "Brightness") == 0) pIDivx->vt->put_Brightness(pIDivx, value); else if (strcasecmp(name, "Contrast") == 0) pIDivx->vt->put_Contrast(pIDivx, value); else if (strcasecmp(name, "Saturation") == 0) pIDivx->vt->put_Saturation(pIDivx, value); else if (strcasecmp(name, "MaxAuto") == 0) this->m_iMaxAuto = value; pIDivx->vt->Release((IUnknown*)pIDivx); //printf("Set %s %d\n", name, value); return 0; } if (this->m_bIsDivX) { IHidden* hidden; if (this->iv.m_State != START) return VFW_E_NOT_RUNNING; //cout << "set value " << name << " " << value << endl; // brightness 87 // contrast 74 // hue 23 // saturation 20 // post process mode 0 // get1 0x01 // get2 10 // get3=set2 86 // get4=set3 73 // get5=set4 19 // get6=set5 23 hidden = (IHidden*)((int)this->m_pDS_Filter->m_pFilter + 0xb8); //printf("DS_SetValue for DIVX, name=%s value=%d\n",name,value); if (strcasecmp(name, "Quality") == 0) { this->m_iLastQuality = value; return hidden->vt->SetSmth(hidden, value, 0); } if (strcasecmp(name, "Brightness") == 0) return hidden->vt->SetSmth2(hidden, value, 0); if (strcasecmp(name, "Contrast") == 0) return hidden->vt->SetSmth3(hidden, value, 0); if (strcasecmp(name, "Saturation") == 0) return hidden->vt->SetSmth4(hidden, value, 0); if (strcasecmp(name, "Hue") == 0) return hidden->vt->SetSmth5(hidden, value, 0); if (strcasecmp(name, "MaxAuto") == 0) { this->m_iMaxAuto = value; } return 0; } #if 0 if (strcmp((const char*)record.dll, "ir50_32.dll") == 0) { IHidden2* hidden = 0; if (m_pDS_Filter->m_pFilter->vt->QueryInterface((IUnknown*)m_pDS_Filter->m_pFilter, &IID_Iv50Hidden, (void**)&hidden)) { Debug printf("No such interface\n"); return -1; } int recordpar[30]; recordpar[0]=0x7c; recordpar[1]=fccIV50; recordpar[2]=0x10005; recordpar[3]=2; recordpar[4]=1; recordpar[5]=0x80000000; if (strcmp(name, "Brightness") == 0) { recordpar[5]|=0x20; recordpar[18]=value; } else if (strcmp(name, "Saturation") == 0) { recordpar[5]|=0x40; recordpar[19]=value; } else if (strcmp(name, "Contrast") == 0) { recordpar[5]|=0x80; recordpar[20]=value; } if(!recordpar[5]) { hidden->vt->Release((IUnknown*)hidden); return -1; } HRESULT result = hidden->vt->DecodeSet(hidden, recordpar); hidden->vt->Release((IUnknown*)hidden); return result; } #endif // printf("DS_SetValue for ????, name=%s value=%d\n",name,value); return 0; } /* vim: vi* sux. */ int DS_SetAttr_DivX(char* attribute, int value){ int result, status, newkey; if(strcasecmp(attribute, "Quality")==0){ char* keyname="SOFTWARE\\Microsoft\\Scrunch"; result=RegCreateKeyExA(HKEY_CURRENT_USER, keyname, 0, 0, 0, 0, 0, &newkey, &status); if(result!=0) { printf("VideoDecoder::SetExtAttr: registry failure\n"); return -1; } result=RegSetValueExA(newkey, "Current Post Process Mode", 0, REG_DWORD, &value, 4); if(result!=0) { printf("VideoDecoder::SetExtAttr: error writing value\n"); return -1; } value=-1; result=RegSetValueExA(newkey, "Force Post Process Mode", 0, REG_DWORD, &value, 4); if(result!=0) { printf("VideoDecoder::SetExtAttr: error writing value\n"); return -1; } RegCloseKey(newkey); return 0; } if( (strcasecmp(attribute, "Saturation")==0) || (strcasecmp(attribute, "Hue")==0) || (strcasecmp(attribute, "Contrast")==0) || (strcasecmp(attribute, "Brightness")==0) ) { char* keyname="SOFTWARE\\Microsoft\\Scrunch\\Video"; result=RegCreateKeyExA(HKEY_CURRENT_USER, keyname, 0, 0, 0, 0, 0, &newkey, &status); if(result!=0) { printf("VideoDecoder::SetExtAttr: registry failure\n"); return -1; } result=RegSetValueExA(newkey, attribute, 0, REG_DWORD, &value, 4); if(result!=0) { printf("VideoDecoder::SetExtAttr: error writing value\n"); return -1; } RegCloseKey(newkey); return 0; } printf("Unknown attribute!\n"); return -200; }