/**************************************************************************** * * cappal.c * * Palette processing module. * * Microsoft Video for Windows Sample Capture Class * * Copyright (c) 1992, 1993 Microsoft Corporation. All Rights Reserved. * * You have a royalty-free right to use, modify, reproduce and * distribute the Sample Files (and/or any modified version) in * any way you find useful, provided that you agree that * Microsoft has no warranty obligations or liability for any * Sample Application Files which are modified. * ***************************************************************************/ #include #include #include #include #include #include "avicap.h" #include "avicapi.h" #include "cappal.h" #include "capdib.h" #include "dibmap.h" // // Allocate and initialize palette resources at Window create time // BOOL PalInit (LPCAPSTREAM lpcs) { return (PalGetPaletteFromDriver (lpcs)); } // // Release palette resources at Window destroy time // void PalFini (LPCAPSTREAM lpcs) { PalDeleteCurrentPalette (lpcs); } // // Delete our palette if it isn't the system default palette // void PalDeleteCurrentPalette (LPCAPSTREAM lpcs) { if (lpcs->hPalCurrent && (lpcs->hPalCurrent != GetStockObject(DEFAULT_PALETTE))) DeleteObject (lpcs->hPalCurrent); lpcs->hPalCurrent = NULL; } // // Get the current palette (from the driver) // Returns: TRUE if the driver can supply a palette // BOOL PalGetPaletteFromDriver (LPCAPSTREAM lpcs) { FCLOGPALETTE pal; PalDeleteCurrentPalette (lpcs); pal.palVersion = 0x0300; pal.palNumEntries = 256; lpcs->sCapDrvCaps.fDriverSuppliesPalettes = FALSE; // assume the worst if (lpcs->fHardwareConnected) { if (videoConfigure (lpcs->hVideoIn, DVM_PALETTE, VIDEO_CONFIGURE_GET | VIDEO_CONFIGURE_CURRENT, NULL, (LPVOID)&pal, sizeof(pal), NULL, NULL ) == DV_ERR_OK) { if (lpcs->hPalCurrent = CreatePalette ((LPLOGPALETTE) &pal)) lpcs->sCapDrvCaps.fDriverSuppliesPalettes = TRUE; } } if (!lpcs->hPalCurrent) lpcs->hPalCurrent = GetStockObject (DEFAULT_PALETTE); DibNewPalette (lpcs, lpcs->hPalCurrent); return (lpcs->sCapDrvCaps.fDriverSuppliesPalettes); } // // Set the current palette used for capture by sending a copy to the driver // and then copying the entries to out DIB. // Returns DV_ERR_OK on success, or DV_ERR... on failure. // DWORD PalSendPaletteToDriver (LPCAPSTREAM lpcs, HPALETTE hpal, LPBYTE lpXlateTable) { int nColors; FCLOGPALETTE pal; HCURSOR hOldCursor; // The following can take a while so repaint our parent UpdateWindow (GetParent (lpcs-> hwnd)); UpdateWindow (lpcs->hwnd); if (!hpal) return FALSE; PalDeleteCurrentPalette (lpcs); lpcs->hPalCurrent = hpal; GetObject(hpal, sizeof(int), (LPVOID)&nColors); if( nColors <= 1 ) { //!!> return( FALSE ); } if (nColors > 256) //??? ; nColors = min(256, nColors); hOldCursor = SetCursor (lpcs-> hWaitCursor); statusUpdateStatus (lpcs, IDS_CAP_STAT_PALETTE_BUILD); pal.palVersion = 0x0300; pal.palNumEntries = nColors; GetPaletteEntries(hpal, 0, nColors, pal.palPalEntry); if (lpcs-> fHardwareConnected) { // first try to send both the xlate table and the palette if ((!lpXlateTable) || (videoConfigure( lpcs->hVideoIn, DVM_PALETTERGB555, VIDEO_CONFIGURE_SET, NULL, (LPLOGPALETTE)&pal, sizeof(pal), lpXlateTable, (DWORD) 0x8000) != 0)) { // else send just the palette and make the driver build the table videoConfigure( lpcs->hVideoIn, DVM_PALETTE, VIDEO_CONFIGURE_SET, NULL, (LPLOGPALETTE)&pal, sizeof(pal), NULL, NULL ); } } // Supermac wants us to get the palette again, they might have // mucked with it! PalGetPaletteFromDriver (lpcs); // Since the palette has changed, delete any existing compression // output format; this forces a new output format to be selected if (lpcs->CompVars.lpbiOut) { GlobalFreePtr (lpcs->CompVars.lpbiOut); lpcs->CompVars.lpbiOut = NULL; } if (lpcs->CompVars.hic) { if (ICSeqCompressFrameStart(&lpcs->CompVars, lpcs->lpBitsInfo) == NULL) { lpcs-> dwReturn = IDS_CAP_COMPRESSOR_ERROR; errorUpdateError (lpcs, IDS_CAP_COMPRESSOR_ERROR); } } InvalidateRect (lpcs->hwnd, NULL, TRUE); UpdateWindow (lpcs->hwnd); SetCursor (hOldCursor); statusUpdateStatus (lpcs, NULL); return (TRUE); } // // CopyPalette, makes a copy of a GDI logical palette // Returns: a handle to the newly created palette, or NULL if error // HPALETTE CopyPalette (HPALETTE hpal) { LPLOGPALETTE lppal; int nNumEntries; if (!hpal) return NULL; GetObject (hpal,sizeof(int),(LPVOID)&nNumEntries); if (nNumEntries == 0) return NULL; lppal = (LPLOGPALETTE) GlobalAllocPtr (GHND, sizeof(LOGPALETTE) + nNumEntries * sizeof(PALETTEENTRY)); if (!lppal) return NULL; lppal->palVersion = 0x300; lppal->palNumEntries = nNumEntries; GetPaletteEntries(hpal,0,nNumEntries,lppal->palPalEntry); hpal = CreatePalette(lppal); GlobalFreePtr (lppal); return hpal; } // // Allocate resources needed for palette capture // Returns DV_ERR_OK on success, or DV_ERR... on failure. // Note: if Init fails, you MUST call the Fini function to // release resources. // DWORD CapturePaletteInit (LPCAPSTREAM lpcs, LPCAPPAL lpcp) { DWORD dwError = DV_ERR_OK; lpcp->lpBits = NULL; lpcp->lp16to8 = NULL; lpcp->lpHistogram = NULL; lpcp->lpbiSave = NULL; lpcp->wNumFrames = 0; // Init an RGB16 header lpcp->bi16.biSize = sizeof(BITMAPINFOHEADER); lpcp->bi16.biWidth = lpcs->dxBits; lpcp->bi16.biHeight = lpcs->dyBits; lpcp->bi16.biPlanes = 1; lpcp->bi16.biBitCount = 16; lpcp->bi16.biCompression = BI_RGB; lpcp->bi16.biSizeImage = DIBWIDTHBYTES(lpcp->bi16) * lpcp->bi16.biHeight; lpcp->bi16.biXPelsPerMeter= 0; lpcp->bi16.biYPelsPerMeter= 0; lpcp->bi16.biClrUsed = 0; lpcp->bi16.biClrImportant = 0; // Allocate memory for the histogram, DIB, and XLate table lpcp->lpBits = GlobalAllocPtr (GHND, lpcp->bi16.biSizeImage); lpcp->lp16to8 = GlobalAllocPtr (GHND, 0x8000l); lpcp->lpHistogram = InitHistogram(NULL); if (!lpcp->lpBits || !lpcp->lp16to8 || !lpcp->lpHistogram) { dwError = DV_ERR_NOMEM; goto PalInitError; } // Init the video header lpcp->vHdr.lpData = lpcp->lpBits; lpcp->vHdr.dwBufferLength = lpcp->bi16.biSizeImage; lpcp->vHdr.dwUser = 0; lpcp->vHdr.dwFlags = 0; // Save the current format lpcp->lpbiSave = DibGetCurrentFormat (lpcs); // Make sure we can set the format to 16 bit RGB if(dwError = videoConfigure( lpcs->hVideoIn, DVM_FORMAT, VIDEO_CONFIGURE_SET, NULL, (LPBITMAPINFOHEADER)&lpcp->bi16, sizeof(BITMAPINFOHEADER), NULL, NULL ) ) { goto PalInitError; } // Put everything back the way it was if (dwError = videoConfigure( lpcs->hVideoIn, DVM_FORMAT, VIDEO_CONFIGURE_SET, NULL, (LPBITMAPINFOHEADER)lpcp->lpbiSave, lpcp->lpbiSave->bmiHeader.biSize, NULL, NULL )) { goto PalInitError; } PalInitError: return dwError; } // // Free resources used for palette capture // DWORD CapturePaletteFini (LPCAPSTREAM lpcs, LPCAPPAL lpcp) { if (lpcp->lpBits) GlobalFreePtr (lpcp->lpBits); if (lpcp->lp16to8) GlobalFreePtr (lpcp->lp16to8); if (lpcp->lpHistogram) FreeHistogram(lpcp->lpHistogram); if (lpcp->lpbiSave) GlobalFreePtr (lpcp->lpbiSave); return DV_ERR_OK; } // // CapturePaletteFrames() The workhorse of capture palette. // DWORD CapturePaletteFrames (LPCAPSTREAM lpcs, LPCAPPAL lpcp, int nCount) { int j; DWORD dwError; // switch to RGB16 format if (dwError = videoConfigure( lpcs->hVideoIn, DVM_FORMAT, VIDEO_CONFIGURE_SET, NULL, (LPBITMAPINFOHEADER)&lpcp->bi16, sizeof(BITMAPINFOHEADER), NULL, NULL )) goto CaptureFramesError; for (j = 0; j < nCount; j++){ // Get a frame dwError = videoFrame(lpcs->hVideoIn, &lpcp->vHdr); // Let the user see it InvalidateRect (lpcs->hwnd, NULL, TRUE); UpdateWindow (lpcs->hwnd); // Histogram it DibHistogram(&lpcp->bi16, lpcp->lpBits, 0, 0, -1, -1, lpcp->lpHistogram); lpcp->wNumFrames++; } dwError = videoConfigure( lpcs->hVideoIn, DVM_FORMAT, VIDEO_CONFIGURE_SET, NULL, (LPBITMAPINFOHEADER)lpcp->lpbiSave, lpcp->lpbiSave->bmiHeader.biSize, NULL, NULL ); // videoFrame( lpcs->hVideoIn, &lpcs->VidHdr ); CaptureFramesError: return dwError; } // // CapturePaletteAuto() capture a palette from the video source // without user intervention. // Returns TRUE on success, FALSE on error // BOOL CapturePaletteAuto (LPCAPSTREAM lpcs, int nCount, int nColors) { HPALETTE hpal; HCURSOR hOldCursor; DWORD dwError = DV_ERR_OK; CAPPAL cappal; LPCAPPAL lpcp; lpcp = &cappal; if (nColors == 0) nColors = 256; lpcp->wNumColors = min (nColors, 256); if (nCount <= 0) // Bug 175 nCount = 1; if (dwError = CapturePaletteInit (lpcs, lpcp)) goto PalAutoExit; hOldCursor = SetCursor(lpcs->hWaitCursor); CapturePaletteFrames (lpcs, lpcp, nCount); /* we grabbed a frame, time to compute a palette */ statusUpdateStatus(lpcs, IDS_CAP_STAT_OPTPAL_BUILD); // The HPALETTE returned in the following becomes // our "global" palette, hence is not deleted here. hpal = HistogramPalette(lpcp->lpHistogram, lpcp->lp16to8, lpcp->wNumColors); // Send driver both the pal and xlate table PalSendPaletteToDriver(lpcs, hpal, (LPBYTE)lpcp->lp16to8 ); videoFrame( lpcs->hVideoIn, &lpcs->VidHdr ); // Update the display with a new image SetCursor(hOldCursor); InvalidateRect(lpcs->hwnd, NULL, TRUE); UpdateWindow(lpcs->hwnd); lpcs->fUsingDefaultPalette = FALSE; PalAutoExit: CapturePaletteFini (lpcs, lpcp); statusUpdateStatus(lpcs, NULL); // If an error happened, display it if (dwError) errorDriverID (lpcs, dwError); return (dwError == DV_ERR_OK); } // // CapturePaletteManual() capture a palette from the video source // with user intervention. // fGrab is TRUE on all but the last frame captured // Returns TRUE on success, FALSE on error // BOOL CapturePaletteManual (LPCAPSTREAM lpcs, BOOL fGrab, int nColors) { HPALETTE hpal; HCURSOR hOldCursor; LPCAPPAL lpcp; DWORD dwError = DV_ERR_OK; hOldCursor = SetCursor(lpcs->hWaitCursor); // We're initializing for the first time, so alloc everything if (lpcs->lpCapPal == NULL) { if (lpcp = (LPCAPPAL) GlobalAllocPtr (GHND, sizeof(CAPPAL))) { lpcs->lpCapPal = lpcp; if (nColors == 0) nColors = 256; lpcp->wNumColors = min (nColors, 256); dwError = CapturePaletteInit (lpcs, lpcp); } else dwError = IDS_CAP_OUTOFMEM; } lpcp = lpcs->lpCapPal; if (dwError != DV_ERR_OK) goto PalManualExit; // Add a frame to the histogram // Handle the case of telling us to stop before we ever started if (fGrab || !fGrab && (lpcp->wNumFrames == 0)) { CapturePaletteFrames (lpcs, lpcp, 1); lpcs->fUsingDefaultPalette = FALSE; } // All done, send the new palette to the driver if (!fGrab) { statusUpdateStatus(lpcs, IDS_CAP_STAT_OPTPAL_BUILD); // The HPALETTE returned in the following becomes // our "global" palette, hence is not deleted here. hpal = HistogramPalette(lpcp->lpHistogram, lpcp->lp16to8, lpcp->wNumColors); // Send driver both the pal and xlate table PalSendPaletteToDriver(lpcs, hpal, (LPBYTE)lpcp->lp16to8 ); } videoFrame( lpcs->hVideoIn, &lpcs->VidHdr ); // Update the display with a new image InvalidateRect(lpcs->hwnd, NULL, TRUE); UpdateWindow(lpcs->hwnd); PalManualExit: if (!fGrab || (dwError != DV_ERR_OK)) { if (lpcp != NULL) { CapturePaletteFini (lpcs, lpcp); GlobalFreePtr (lpcp); lpcs->lpCapPal = NULL; } } SetCursor(hOldCursor); statusUpdateStatus(lpcs, NULL); // If an error happened, display it if (dwError) { errorUpdateError (lpcs, (WORD) dwError); lpcs-> dwReturn = dwError; } return (dwError == DV_ERR_OK); } /*--------------------------------------------------------------+ | fileSavePalette - save the current palette in a file | | | +--------------------------------------------------------------*/ BOOL FAR PASCAL fileSavePalette(LPCAPSTREAM lpcs, LPSTR lpszFileName) { HPALETTE hpal; HMMIO hmmio; WORD w; HCURSOR hOldCursor; MMCKINFO ckRiff; MMCKINFO ck; int nColors; FCLOGPALETTE pal; BOOL fOK = FALSE; if ((hpal = lpcs->hPalCurrent) == NULL) return FALSE; hmmio = mmioOpen(lpszFileName, NULL, MMIO_WRITE); if( !hmmio ) { /* try and create */ hmmio = mmioOpen(lpszFileName, NULL, MMIO_CREATE | MMIO_WRITE); if( !hmmio ) { /* find out if the file was read only or we are just */ /* totally hosed up here. */ hmmio = mmioOpen(lpszFileName, NULL, MMIO_READ); if (hmmio){ /* file was read only, error on it */ errorUpdateError (lpcs, IDS_CAP_READONLYFILE, (LPSTR)lpszFileName); mmioClose(hmmio, 0); return FALSE; } else { /* even weirder error has occured here, give CANTOPEN */ errorUpdateError (lpcs, IDS_CAP_CANTOPEN, (LPSTR) lpszFileName); return FALSE; } } } hOldCursor = SetCursor( lpcs-> hWaitCursor ); /* Seek to beginning of file, so we can write the header. */ mmioSeek(hmmio, 0, SEEK_SET); /* Create RIFF chunk */ ckRiff.fccType = mmioFOURCC('P','A','L',' '); if(mmioCreateChunk (hmmio,&ckRiff,MMIO_CREATERIFF)) { goto FileError; } /* Create Palette chunk */ ck.cksize = 0; ck.ckid = mmioFOURCC('d','a','t','a'); if(mmioCreateChunk(hmmio,&ck,0)) { goto FileError; } // Get the palette data here GetObject(hpal, sizeof(int), (LPVOID)&nColors); pal.palVersion = 0x0300; pal.palNumEntries = nColors; GetPaletteEntries(hpal, 0, nColors, pal.palPalEntry); // Calc the size of the logpalette // which is the sizeof palVersion + sizeof palNumEntries + colors w = sizeof (WORD) + sizeof (WORD) + nColors * sizeof (PALETTEENTRY); // Write out the palette if(mmioWrite(hmmio, (LPSTR)&pal, (DWORD) w) != (LONG) w) { goto FileError; } if(mmioAscend(hmmio, &ck, 0)) { goto FileError; } if(mmioAscend(hmmio, &ckRiff, 0)) { goto FileError; } fOK = TRUE; FileError: mmioClose( hmmio, 0 ); SetCursor( hOldCursor ); if (!fOK) errorUpdateError (lpcs, IDS_CAP_ERRORPALSAVE, (LPSTR) lpszFileName); return fOK; } /*--------------------------------------------------------------+ | fileOpenPalette - use a new palette from the specified file | | | +--------------------------------------------------------------*/ BOOL FAR PASCAL fileOpenPalette(LPCAPSTREAM lpcs, LPSTR lpszFileName) { HPALETTE hpal; HMMIO hmmio; WORD w; HCURSOR hOldCursor; MMCKINFO ckRiff; MMCKINFO ck; FCLOGPALETTE pal; BOOL fOK = FALSE; if ((hpal = lpcs->hPalCurrent) == NULL) return FALSE; hmmio = mmioOpen(lpszFileName, NULL, MMIO_READ); if( !hmmio ) { errorUpdateError (lpcs, IDS_CAP_ERRORPALOPEN, (LPSTR) lpszFileName); return FALSE; } hOldCursor = SetCursor( lpcs-> hWaitCursor ); /* Seek to beginning of file, so we can read the header. */ mmioSeek(hmmio, 0, SEEK_SET); /* Find the RIFF chunk */ ckRiff.fccType = mmioFOURCC('P','A','L',' '); if(mmioDescend (hmmio, &ckRiff, NULL, MMIO_FINDRIFF)) { goto PalOpenError; } /* Find the data chunk */ ck.cksize = 0; ck.ckid = mmioFOURCC('d','a','t','a'); if(mmioDescend (hmmio, &ck, &ckRiff, MMIO_FINDCHUNK)) { goto PalOpenError; } // First read just the Version and number of entries // which is the sizeof palVersion + sizeof palNumEntries w = sizeof (WORD) + sizeof (WORD); if(mmioRead(hmmio, (LPSTR)&pal, (DWORD) w) != (LONG) w) { goto PalOpenError; } // Do a bit of checking if ((pal.palVersion != 0x0300) || (pal.palNumEntries > 256)) goto PalOpenError; // Now get the actual palette data // which is the sizeof palVersion + sizeof palNumEntries w = pal.palNumEntries * sizeof (PALETTEENTRY); if(mmioRead(hmmio, (LPSTR)&pal.palPalEntry, (DWORD) w) != (LONG) w) { goto PalOpenError; } if (hpal = CreatePalette ((LPLOGPALETTE) &pal)) { PalSendPaletteToDriver (lpcs, hpal, NULL /*lpXlateTable */); fOK = TRUE; } videoFrame( lpcs->hVideoIn, &lpcs->VidHdr ); // grab a new frame PalOpenError: mmioClose( hmmio, 0 ); SetCursor( hOldCursor ); InvalidateRect(lpcs->hwnd, NULL, TRUE); UpdateWindow(lpcs->hwnd); // update the display with new frame if (!fOK) errorUpdateError (lpcs, IDS_CAP_ERRORPALOPEN, (LPSTR) lpszFileName); else lpcs->fUsingDefaultPalette = FALSE; return fOK; }