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427 lines
13 KiB
427 lines
13 KiB
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VOID WINAPI AVIPreloadFat (LPCAPSTREAM lpcs)
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{
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return;
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}
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// Add an index entry for an audio buffer
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// dwSize is the size of data ONLY, not including the chunk or junk
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// Returns: TRUE if index space is not exhausted
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//
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__inline STATICFN BOOL IndexAudio (LPCAPSTREAM lpcs, DWORD dwSize)
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{
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++lpcs->dwWaveChunkCount;
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return TRUE;
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}
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// Add an index entry for a video frame
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// dwSize is the size of data ONLY, not including the chunk or junk
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// Returns: TRUE if index space is not exhausted
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//
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__inline STATICFN BOOL IndexVideo (LPCAPSTREAM lpcs, DWORD dwSize, BOOL bKeyFrame)
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{
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++lpcs->dwVideoChunkCount;
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return TRUE;
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}
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STATICFN void AVIFileCleanup(LPCAPSTREAM lpcs)
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{
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if (lpcs->paudio)
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AVIStreamClose(lpcs->paudio), lpcs->paudio = NULL;
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if (lpcs->pvideo)
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AVIStreamClose(lpcs->pvideo), lpcs->pvideo = NULL;
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if (lpcs->pavifile)
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AVIFileClose(lpcs->pavifile), lpcs->pavifile = NULL;
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if (hmodKernel) {
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FreeLibrary(hmodKernel);
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pfnCreateIoCompletionPort = NULL;
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pfnGetQueuedCompletionStatus = NULL;
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hmodKernel = NULL;
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}
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}
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/*
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* CapFileInit
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*
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* Perform all initialization required to write a capture file.
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*
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* We take a slightly strange approach: We don't write
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* out the header until we're done capturing. For now,
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* we just seek 2K into the file, which is where all of
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* the real data will go.
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*
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* When we're done, we'll come back and write out the header,
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* because then we'll know all of the values we need.
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*
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* Also allocate and init the index.
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*/
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BOOL CapFileInit (
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LPCAPSTREAM lpcs)
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{
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AVISTREAMINFOW si;
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LPBYTE ptr = NULL;
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UINT cksize;
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RGBQUAD FAR * prgb;
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PALETTEENTRY aPalEntry[256];
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LPBITMAPINFO lpBitsInfoOut; // Possibly compressed output format
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LONG lRet;
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UINT ii;
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// No special video format given -- use the default
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//
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lpBitsInfoOut = lpcs->CompVars.lpbiOut;
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if (lpcs->CompVars.hic == NULL)
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lpBitsInfoOut = lpcs->lpBitsInfo;
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// use avifile to access the data
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// create the avifile object, create a video and audio stream and
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// set the format for each stream.
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assert(lpcs->pavifile == NULL);
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/* if the capture file has not been set then error */
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if (!(*lpcs->achFile))
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goto error_exit;
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// !!! how to avoid truncating the file if already created ?
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lRet = AVIFileOpen(&lpcs->pavifile,
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lpcs->achFile,
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OF_WRITE | OF_CREATE,
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NULL);
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if (lRet || !lpcs->pavifile)
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goto error_exit;
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// create video stream
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ZeroMemory (&si, sizeof(si));
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si.fccType = streamtypeVIDEO;
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if (lpcs->CompVars.hic)
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si.fccHandler = lpcs->CompVars.fccHandler;
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else
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si.fccHandler = lpBitsInfoOut->bmiHeader.biCompression;
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// A bit of history...
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// In VFW 1.0, we set fccHandler to 0 for BI_RLE8 formats
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// as a kludge to make Mplayer and Videdit play the files.
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// Just prior to 1.1 release, we found this broke Premiere,
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// so now (after AVICAP beta is on Compuserve), we change the
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// fccHandler to "MRLE". Just ask Todd...
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// And now, at RC1, we change it again to "RLE ", Just ask Todd...
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if (si.fccHandler == BI_RLE8)
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si.fccHandler = mmioFOURCC('R', 'L', 'E', ' ');
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// !!!need to change this after capture
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si.dwScale = lpcs->sCapParms.dwRequestMicroSecPerFrame;
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si.dwRate = 1000000L;
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si.dwStart = 0L;
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si.dwQuality = (DWORD) -1L; /* !!! ICQUALITY_DEFAULT */
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si.dwSampleSize = 0L;
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lRet = AVIFileCreateStream(lpcs->pavifile, &lpcs->pvideo, &si);
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if (lRet || !lpcs->pvideo)
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goto error_exit;
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// set format of video stream
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// !!! dont write palette for full color?
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if (lpBitsInfoOut->bmiHeader.biBitCount > 8)
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lpBitsInfoOut->bmiHeader.biClrUsed = 0;
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// need to alloc a single block that we can fill with hdr + palette
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cksize = lpBitsInfoOut->bmiHeader.biSize
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+ lpBitsInfoOut->bmiHeader.biClrUsed * sizeof(RGBQUAD);
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ptr = GlobalAllocPtr(GPTR, cksize);
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if (!ptr)
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goto error_exit;
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CopyMemory (ptr, (LPBYTE)&lpBitsInfoOut->bmiHeader,
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lpBitsInfoOut->bmiHeader.biSize);
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prgb = (RGBQUAD FAR *) &ptr[lpBitsInfoOut->bmiHeader.biSize];
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if (lpBitsInfoOut->bmiHeader.biClrUsed > 0) {
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// Get Palette info
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UINT nPalEntries = GetPaletteEntries(lpcs->hPalCurrent, 0,
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lpBitsInfoOut->bmiHeader.biClrUsed,
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aPalEntry);
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if (nPalEntries != lpBitsInfoOut->bmiHeader.biClrUsed)
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goto error_exit;
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for (ii = 0; ii < lpBitsInfoOut->bmiHeader.biClrUsed; ++ii) {
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prgb[ii].rgbRed = aPalEntry[ii].peRed;
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prgb[ii].rgbGreen = aPalEntry[ii].peGreen;
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prgb[ii].rgbBlue = aPalEntry[ii].peBlue;
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}
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}
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if (AVIStreamSetFormat(lpcs->pvideo, 0, ptr, cksize))
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goto error_exit;
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GlobalFreePtr(ptr), ptr = NULL;
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// create audio stream if sound capture enabled
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if (lpcs->sCapParms.fCaptureAudio) {
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ZeroMemory (&si, sizeof(si));
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si.fccType = streamtypeAUDIO;
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si.fccHandler = 0L;
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si.dwScale = lpcs->lpWaveFormat->nBlockAlign;
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si.dwRate = lpcs->lpWaveFormat->nAvgBytesPerSec;
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si.dwStart = 0L;
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si.dwLength = lpcs->dwWaveBytes / lpcs->lpWaveFormat->nBlockAlign;
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si.dwQuality = (DWORD)-1L; /* !!! ICQUALITY_DEFAULT */
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si.dwSampleSize = lpcs->lpWaveFormat->nBlockAlign;
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lRet = AVIFileCreateStream(lpcs->pavifile, &lpcs->paudio, &si);
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if (lRet || !lpcs->paudio)
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goto error_exit;
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// write wave stream format
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cksize = GetSizeOfWaveFormat (lpcs->lpWaveFormat);
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if (AVIStreamSetFormat(lpcs->paudio, 0, lpcs->lpWaveFormat, cksize))
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goto error_exit;
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}
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// start streaming
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//
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// parameters are random for now, and are not used at all by current impl.
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// probably covered by above call but you never know
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//
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AVIStreamBeginStreaming(lpcs->pvideo, 0, 32000, 1000);
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if (lpcs->sCapParms.fCaptureAudio)
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AVIStreamBeginStreaming(lpcs->paudio, 0, 32000, 1000);
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// this is used for timing calcs, not just indexing
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//
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lpcs->dwVideoChunkCount = 0;
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lpcs->dwWaveChunkCount = 0;
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// !!! write info chunks here
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return TRUE;
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error_exit:
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if (ptr) {
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GlobalFreePtr(ptr); ptr = NULL;
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}
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AVIFileCleanup (lpcs);
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return FALSE;
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}
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/*
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* AVIFileFini
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*
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* Write out the index, deallocate the index, and close the file.
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*
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*/
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BOOL AVIFileFini (LPCAPSTREAM lpcs, BOOL fWroteJunkChunks, BOOL fAbort)
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{
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AVISTREAMINFOW si;
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DPF("AVICap32: Start of AVIFileFini\n");
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AVIStreamEndStreaming(lpcs->pvideo);
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if (lpcs->sCapParms.fCaptureAudio)
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AVIStreamEndStreaming(lpcs->paudio);
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// if we got a good file, allow editing of it
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lpcs->fFileCaptured = !fAbort;
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// -----------------------------------------------------------
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// adjust audio & video streams to be the same length
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// -----------------------------------------------------------
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#if 0 // old technique - match video to audio unconditionally
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// share the captured frames out evenly over the captured audio
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if (lpcs->sCapParms.fCaptureAudio && lpcs->dwVideoChunkCount &&
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(lpcs->dwWaveBytes > 0)) {
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/* HACK HACK */
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/* Set rate that was captured based on length of audio data */
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lpcs->dwActualMicroSecPerFrame = (DWORD)
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MulDiv((LONG)lpcs->dwWaveBytes,
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1000000,
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(LONG)(lpcs->lpWaveFormat->nAvgBytesPerSec * lpcs->dwVideoChunkCount));
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} else {
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lpcs->dwActualMicroSecPerFrame = lpcs->sCapParms.dwRequestMicroSecPerFrame;
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}
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#else // new technique for stream length munging
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//
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// Init a value in case we're not capturing audio
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//
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lpcs->dwActualMicroSecPerFrame = lpcs->sCapParms.dwRequestMicroSecPerFrame;
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switch (lpcs->sCapParms.AVStreamMaster) {
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case AVSTREAMMASTER_NONE:
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lpcs->dwActualMicroSecPerFrame = lpcs->sCapParms.dwRequestMicroSecPerFrame;
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break;
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case AVSTREAMMASTER_AUDIO:
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default:
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// VFW 1.0 and 1.1 ALWAYS munged frame rate to match audio
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// duration.
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if (lpcs->sCapParms.fCaptureAudio && lpcs->dwVideoChunkCount) {
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// Modify the video framerate based on audio duration
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lpcs->dwActualMicroSecPerFrame = (DWORD)
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((double)lpcs->dwWaveBytes * 1000000. /
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((double)lpcs->lpWaveFormat->nAvgBytesPerSec *
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lpcs->dwVideoChunkCount + 0.5));
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}
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break;
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}
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#endif
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// ------------------------------------------------------------
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// write corrected stream timing back to the file
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// ------------------------------------------------------------
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#ifdef CHICAGO
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AVIStreamInfo (lpcs->pvideo, (LPAVISTREAMINFOA) &si, sizeof(si));
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#else
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AVIStreamInfo (lpcs->pvideo, &si, sizeof(si));
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#endif
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si.dwRate = 1000000L;
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si.dwScale = lpcs->dwActualMicroSecPerFrame;
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// no api for this- have to call the member directly!
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//
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lpcs->pvideo->lpVtbl->SetInfo(lpcs->pvideo, &si, sizeof(si));
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// Add the info chunks
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// This includes the capture card driver name, client app, date and time
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if (lpcs->lpInfoChunks) {
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LPBYTE lpInfo;
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DWORD cbData;
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lpInfo = lpcs->lpInfoChunks;
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while (lpInfo < (LPBYTE) lpcs->lpInfoChunks + lpcs->cbInfoChunks) {
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cbData = * (LPDWORD) (lpInfo + sizeof(DWORD));
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AVIFileWriteData (lpcs->pavifile,
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(DWORD) * (LPDWORD) lpInfo, // FOURCC
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lpInfo + sizeof (DWORD) * 2, // lpData
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cbData); // cbData
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lpInfo += cbData + sizeof (DWORD) * 2;
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}
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}
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AVIFileCleanup(lpcs);
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return lpcs->fFileCaptured;
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}
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//
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// Prepends dummy frame entries to the current valid video frame.
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// Bumps the index, but does not actually trigger a write operation.
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// nCount is a count of the number of frames to write
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// Returns: TRUE on a successful write
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BOOL WINAPI AVIWriteDummyFrames (
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LPCAPSTREAM lpcs,
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UINT nCount,
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LPUINT lpuError,
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LPBOOL lpbPending)
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{
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LONG lRet;
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lpcs->dwVideoChunkCount += nCount;
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lRet = AVIStreamWrite(lpcs->pvideo,
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-1, // current position
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nCount, // this many samples
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NULL, // no actual data
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0, // no data
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0, // not keyframe
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NULL, NULL); // no return of samples or bytes
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*lpbPending = FALSE;
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*lpuError = 0;
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if (lRet)
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*lpuError = IDS_CAP_FILE_WRITE_ERROR;
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return !(*lpuError);
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}
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// Writes compressed or uncompressed frames to the AVI file
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// returns TRUE if no error, FALSE if end of file.
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BOOL WINAPI AVIWriteVideoFrame (
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LPCAPSTREAM lpcs,
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LPBYTE lpData,
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DWORD dwBytesUsed,
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BOOL fKeyFrame,
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UINT uIndex,
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UINT nDropped,
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LPUINT lpuError,
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LPBOOL lpbPending)
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{
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LONG lRet;
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lRet = AVIStreamWrite(lpcs->pvideo, // write to video stream
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-1, // next sample
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1, // 1 sample only
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lpData, // video buffer (no riff header)
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dwBytesUsed, // length of data
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fKeyFrame ? AVIIF_KEYFRAME : 0,
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NULL, NULL); // no return of sample or byte count
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*lpbPending = FALSE;
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*lpuError = 0;
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if (lRet)
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{
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dprintf("AVIStreamWrite returned 0x%x", lRet);
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*lpuError = IDS_CAP_FILE_WRITE_ERROR;
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}
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else
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{
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++lpcs->dwVideoChunkCount;
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if (nDropped)
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AVIWriteDummyFrames (lpcs, nDropped, lpuError, lpbPending);
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}
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return !(*lpuError);
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}
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BOOL WINAPI AVIWriteAudio (
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LPCAPSTREAM lpcs,
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LPWAVEHDR lpWaveHdr,
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UINT uIndex,
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LPUINT lpuError,
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LPBOOL lpbPending)
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{
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LONG lRet;
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lRet = AVIStreamWrite(lpcs->paudio,
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-1, // next sample
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lpWaveHdr->dwBytesRecorded /
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lpcs->lpWaveFormat->nBlockAlign, // nr samples
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lpWaveHdr->lpData,
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lpWaveHdr->dwBytesRecorded,
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0,
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NULL,
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NULL);
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*lpbPending = FALSE;
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*lpuError = 0;
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if (lRet)
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{
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dprintf("AVIStreamWrite returned 0x%x", lRet);
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*lpuError = IDS_CAP_FILE_WRITE_ERROR;
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}
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else
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++lpcs->dwWaveChunkCount;
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return !(*lpuError);
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}
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