unit VFW; interface uses Windows, MMSystem, Messages, CommDlg, Ole2; {== General ==================================================================} type PDWORD = ^DWORD; PLONG = PDWORD; UDWORD = DWORD; PVOID = Pointer; int = Integer; {-- Returns version of VFW ---------------------------------------------------} function VideoForWindowsVersion: DWord; pascal; {-- Call these to start stop using VfW from your app -------------------------} { TODO: Where are these functions? } // function InitVFW: DWORD; stdcall; // function TermVFW: DWORD; stdcall; {-- Macros -------------------------------------------------------------------} function MKFOURCC(ch0, ch1, ch2, ch3: Char): FOURCC; {== COMPMAN - Installable Compression Manager ================================} const ICVERSION = $0104 ; type HIC = THandle; // Handle to an Installable Compressor // // this code in biCompression means the DIB must be accesed via // 48 bit pointers! using *ONLY* the selector given. // const BI_1632 = $32333631; // '1632' function mmioFOURCC(ch0, ch1, ch2, ch3: Char): FOURCC; type TWOCC = Word; function aviTWOCC(ch0, ch1: Char): TWOCC; const ICTYPE_VIDEO = $63646976; // mmioFOURCC('v', 'i', 'd', 'c') ICTYPE_AUDIO = $63647561; // mmioFOURCC('a', 'u', 'd', 'c') const ICERR_OK = 0 ; ICERR_DONTDRAW = 1 ; ICERR_NEWPALETTE = 2 ; ICERR_GOTOKEYFRAME = 3 ; ICERR_STOPDRAWING = 4 ; ICERR_UNSUPPORTED = -1 ; ICERR_BADFORMAT = -2 ; ICERR_MEMORY = -3 ; ICERR_INTERNAL = -4 ; ICERR_BADFLAGS = -5 ; ICERR_BADPARAM = -6 ; ICERR_BADSIZE = -7 ; ICERR_BADHANDLE = -8 ; ICERR_CANTUPDATE = -9 ; ICERR_ABORT = -10 ; ICERR_ERROR = -100 ; ICERR_BADBITDEPTH = -200 ; ICERR_BADIMAGESIZE = -201 ; ICERR_CUSTOM = -400 ; // errors less than ICERR_CUSTOM... {-- Values for dwFlags of ICOpen() -------------------------------------------} ICMODE_COMPRESS = 1 ; ICMODE_DECOMPRESS = 2 ; ICMODE_FASTDECOMPRESS = 3 ; ICMODE_QUERY = 4 ; ICMODE_FASTCOMPRESS = 5 ; ICMODE_DRAW = 8 ; {-- Flags for AVI file index -------------------------------------------------} AVIIF_LIST = $00000001 ; AVIIF_TWOCC = $00000002 ; AVIIF_KEYFRAME = $00000010 ; {-- quality flags ------------------------------------------------------------} ICQUALITY_LOW = 0 ; ICQUALITY_HIGH = 10000 ; ICQUALITY_DEFAULT = -1 ; {-----------------------------------------------------------------------------} ICM_USER = (DRV_USER+$0000) ; ICM_RESERVED_LOW = (DRV_USER+$1000) ; ICM_RESERVED_HIGH = (DRV_USER+$2000) ; ICM_RESERVED = ICM_RESERVED_LOW ; {-- Messages -----------------------------------------------------------------} ICM_GETSTATE = (ICM_RESERVED+0) ; // Get compressor state ICM_SETSTATE = (ICM_RESERVED+1) ; // Set compressor state ICM_GETINFO = (ICM_RESERVED+2) ; // Query info about the compressor ICM_CONFIGURE = (ICM_RESERVED+10); // show the configure dialog ICM_ABOUT = (ICM_RESERVED+11); // show the about box ICM_GETDEFAULTQUALITY = (ICM_RESERVED+30); // get the default value for quality ICM_GETQUALITY = (ICM_RESERVED+31); // get the current value for quality ICM_SETQUALITY = (ICM_RESERVED+32); // set the default value for quality ICM_SET = (ICM_RESERVED+40); // Tell the driver something ICM_GET = (ICM_RESERVED+41); // Ask the driver something {-- Constants for ICM_SET: ---------------------------------------------------} ICM_FRAMERATE = $526D7246; // mmioFOURCC('F','r','m','R') ICM_KEYFRAMERATE = $5279654B; // mmioFOURCC('K','e','y','R') {-- ICM specific messages ----------------------------------------------------} ICM_COMPRESS_GET_FORMAT = (ICM_USER+4) ; // get compress format or size ICM_COMPRESS_GET_SIZE = (ICM_USER+5) ; // get output size ICM_COMPRESS_QUERY = (ICM_USER+6) ; // query support for compress ICM_COMPRESS_BEGIN = (ICM_USER+7) ; // begin a series of compress calls. ICM_COMPRESS = (ICM_USER+8) ; // compress a frame ICM_COMPRESS_END = (ICM_USER+9) ; // end of a series of compress calls. ICM_DECOMPRESS_GET_FORMAT = (ICM_USER+10) ; // get decompress format or size ICM_DECOMPRESS_QUERY = (ICM_USER+11) ; // query support for dempress ICM_DECOMPRESS_BEGIN = (ICM_USER+12) ; // start a series of decompress calls ICM_DECOMPRESS = (ICM_USER+13) ; // decompress a frame ICM_DECOMPRESS_END = (ICM_USER+14) ; // end a series of decompress calls ICM_DECOMPRESS_SET_PALETTE = (ICM_USER+29) ; // fill in the DIB color table ICM_DECOMPRESS_GET_PALETTE = (ICM_USER+30) ; // fill in the DIB color table ICM_DRAW_QUERY = (ICM_USER+31) ; // query support for dempress ICM_DRAW_BEGIN = (ICM_USER+15) ; // start a series of draw calls ICM_DRAW_GET_PALETTE = (ICM_USER+16) ; // get the palette needed for drawing ICM_DRAW_START = (ICM_USER+18) ; // start decompress clock ICM_DRAW_STOP = (ICM_USER+19) ; // stop decompress clock ICM_DRAW_END = (ICM_USER+21) ; // end a series of draw calls ICM_DRAW_GETTIME = (ICM_USER+32) ; // get value of decompress clock ICM_DRAW = (ICM_USER+33) ; // generalized "render" message ICM_DRAW_WINDOW = (ICM_USER+34) ; // drawing window has moved or hidden ICM_DRAW_SETTIME = (ICM_USER+35) ; // set correct value for decompress clock ICM_DRAW_REALIZE = (ICM_USER+36) ; // realize palette for drawing ICM_DRAW_FLUSH = (ICM_USER+37) ; // clear out buffered frames ICM_DRAW_RENDERBUFFER = (ICM_USER+38) ; // draw undrawn things in queue ICM_DRAW_START_PLAY = (ICM_USER+39) ; // start of a play ICM_DRAW_STOP_PLAY = (ICM_USER+40) ; // end of a play ICM_DRAW_SUGGESTFORMAT = (ICM_USER+50) ; // Like ICGetDisplayFormat ICM_DRAW_CHANGEPALETTE = (ICM_USER+51) ; // for animating palette ICM_GETBUFFERSWANTED = (ICM_USER+41) ; // ask about prebuffering ICM_GETDEFAULTKEYFRAMERATE = (ICM_USER+42) ; // get the default value for key frames ICM_DECOMPRESSEX_BEGIN = (ICM_USER+60) ; // start a series of decompress calls ICM_DECOMPRESSEX_QUERY = (ICM_USER+61) ; // start a series of decompress calls ICM_DECOMPRESSEX = (ICM_USER+62) ; // decompress a frame ICM_DECOMPRESSEX_END = (ICM_USER+63) ; // end a series of decompress calls ICM_COMPRESS_FRAMES_INFO = (ICM_USER+70) ; // tell about compress to come ICM_SET_STATUS_PROC = (ICM_USER+72) ; // set status callback {-----------------------------------------------------------------------------} type PICOPEN = ^TICOPEN; TICOPEN = record dwSize : DWORD ; // sizeof(ICOPEN) fccType : DWORD ; // 'vidc' fccHandler : DWORD ; // dwVersion : DWORD ; // version of compman opening you dwFlags : DWORD ; // LOWORD is type specific dwError : DWORD ; // error return. pV1Reserved : PVOID ; // Reserved pV2Reserved : PVOID ; // Reserved dnDevNode : DWORD ; // Devnode for PnP devices end; {-----------------------------------------------------------------------------} PICINFO = ^TICINFO ; TICINFO = record dwSize : DWORD; // sizeof(ICINFO) fccType : DWORD; // compressor type 'vidc' 'audc' fccHandler : DWORD; // compressor sub-type 'rle ' 'jpeg' 'pcm ' dwFlags : DWORD; // flags LOWORD is type specific dwVersion : DWORD; // version of the driver dwVersionICM : DWORD; // version of the ICM used // // under Win32, the driver always returns UNICODE strings. // szName : array[0..15] of WideChar ; // short name szDescription : array[0..127] of WideChar ; // DWORD name szDriver : array[0..127] of WideChar ; // driver that contains compressor end; {-- Flags for the field of the structure. -----------------} const VIDCF_QUALITY = $0001 ; // supports quality VIDCF_CRUNCH = $0002 ; // supports crunching to a frame size VIDCF_TEMPORAL = $0004 ; // supports inter-frame compress VIDCF_COMPRESSFRAMES = $0008 ; // wants the compress all frames message VIDCF_DRAW = $0010 ; // supports drawing VIDCF_FASTTEMPORALC = $0020 ; // does not need prev frame on compress VIDCF_FASTTEMPORALD = $0080 ; // does not need prev frame on decompress //VIDCF_QUALITYTIME = $0040 ; // supports temporal quality //VIDCF_FASTTEMPORAL = (VIDCF_FASTTEMPORALC or VIDCF_FASTTEMPORALD) {-----------------------------------------------------------------------------} ICCOMPRESS_KEYFRAME = $00000001; type PICCOMPRESS = ^TICCOMPRESS; TICCOMPRESS = record dwFlags : DWORD; // flags lpbiOutput : PBITMAPINFOHEADER ; // output format lpOutput : PVOID ; // output data lpbiInput : PBITMAPINFOHEADER ; // format of frame to compress lpInput : PVOID ; // frame data to compress lpckid : PDWORD ; // ckid for data in AVI file lpdwFlags : PDWORD; // flags in the AVI index. lFrameNum : DWORD ; // frame number of seq. dwFrameSize : DWORD ; // reqested size in bytes. (if non zero) dwQuality : DWORD ; // quality // these are new fields lpbiPrev : PBITMAPINFOHEADER ; // format of previous frame lpPrev : PVOID ; // previous frame end; {-----------------------------------------------------------------------------} const ICCOMPRESSFRAMES_PADDING = $00000001 ; type TICCompressProc = function(lInput: LPARAM; lFrame: DWORD; lpBits: PVOID; len: DWORD): DWORD; stdcall; PICCOMPRESSFRAMES = ^TICCOMPRESSFRAMES; TICCOMPRESSFRAMES = record dwFlags : DWORD ; // flags lpbiOutput : PBITMAPINFOHEADER ; // output format lOutput : LPARAM ; // output identifier lpbiInput : PBITMAPINFOHEADER ; // format of frame to compress lInput : LPARAM ; // input identifier lStartFrame : DWORD ; // start frame lFrameCount : DWORD ; // # of frames lQuality : DWORD ; // quality lDataRate : DWORD ; // data rate lKeyRate : DWORD ; // key frame rate dwRate : DWORD ; // frame rate, as always dwScale : DWORD ; dwOverheadPerFrame : DWORD ; dwReserved2 : DWORD ; GetData : TICCompressProc; PutData : TICCompressProc; end; {-- Messages for Status callback ---------------------------------------------} const ICSTATUS_START = 0 ; ICSTATUS_STATUS = 1 ; // l = % done ICSTATUS_END = 2 ; ICSTATUS_ERROR = 3 ; // l = error string (LPSTR) ICSTATUS_YIELD = 4 ; type // return nonzero means abort operation in progress TICStatusProc = function(lParam: LPARAM; message: UINT; l: DWORD): DWORD; stdcall; PICSETSTATUSPROC = ^TICSETSTATUSPROC; TICSETSTATUSPROC = record dwFlags : DWORD ; lParam : LPARAM ; Status : TICStatusProc; end; {-----------------------------------------------------------------------------} const ICDECOMPRESS_HURRYUP = $80000000 ; // don't draw just buffer (hurry up!) ICDECOMPRESS_UPDATE = $40000000 ; // don't draw just update screen ICDECOMPRESS_PREROLL = $20000000 ; // this frame is before real start ICDECOMPRESS_NULLFRAME = $10000000 ; // repeat last frame ICDECOMPRESS_NOTKEYFRAME = $08000000 ; // this frame is not a key frame type PICDECOMPRESS = ^TICDECOMPRESS; TICDECOMPRESS = record dwFlags : DWORD ; // flags (from AVI index...) lpbiInput : PBITMAPINFOHEADER ; // BITMAPINFO of compressed data // biSizeImage has the chunk size lpInput : PVOID ; // compressed data lpbiOutput : PBITMAPINFOHEADER ; // DIB to decompress to lpOutput : PVOID ; ckid : DWORD ; // ckid from AVI file end; PICDECOMPRESSEX = ^TICDECOMPRESSEX; TICDECOMPRESSEX = record // // same as ICM_DECOMPRESS // dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; // BITMAPINFO of compressed data lpSrc : PVOID; // compressed data lpbiDst : PBITMAPINFOHEADER; // DIB to decompress to lpDst : PVOID; // output data // // new for ICM_DECOMPRESSEX // xDst : int ; // destination rectangle yDst : int ; dxDst : int ; dyDst : int ; xSrc : int ; // source rectangle ySrc : int ; dxSrc : int ; dySrc : int ; end; {-----------------------------------------------------------------------------} const ICDRAW_QUERY = $00000001 ; // test for support ICDRAW_FULLSCREEN = $00000002 ; // draw to full screen ICDRAW_HDC = $00000004 ; // draw to a HDC/HWND ICDRAW_ANIMATE = $00000008 ; // expect palette animation ICDRAW_CONTINUE = $00000010 ; // draw is a continuation of previous draw ICDRAW_MEMORYDC = $00000020 ; // DC is offscreen, by the way ICDRAW_UPDATING = $00000040 ; // We're updating, as opposed to playing ICDRAW_RENDER = $00000080 ; // used to render data not draw it ICDRAW_BUFFER = $00000100 ; // please buffer this data offscreen, we will need to update it type PICDRAWBEGIN = ^TICDRAWBEGIN; TICDRAWBEGIN = record dwFlags : DWORD ; // flags hpal : HPALETTE ; // palette to draw with hwnd : HWND ; // window to draw to hdc : HDC ; // HDC to draw to xDst : int ; // destination rectangle yDst : int ; dxDst : int ; dyDst : int ; lpbi : PBITMAPINFOHEADER ; // format of frame to draw xSrc : int ; // source rectangle ySrc : int ; dxSrc : int ; dySrc : int ; dwRate : DWORD ; // frames/second = (dwRate/dwScale) dwScale : DWORD ; end; {-----------------------------------------------------------------------------} const ICDRAW_HURRYUP = $80000000 ; // don't draw just buffer (hurry up!) ICDRAW_UPDATE = $40000000 ; // don't draw just update screen ICDRAW_PREROLL = $20000000 ; // this frame is before real start ICDRAW_NULLFRAME = $10000000 ; // repeat last frame ICDRAW_NOTKEYFRAME = $08000000 ; // this frame is not a key frame type PICDRAW = ^TICDRAW; TICDRAW = record dwFlags : DWORD ; // flags lpFormat : PVOID ; // format of frame to decompress lpData : PVOID ; // frame data to decompress cbData : DWORD ; lTime : DWORD ; // time in drawbegin units (see dwRate and dwScale) end; PICDRAWSUGGEST = ^TICDRAWSUGGEST; TICDRAWSUGGEST = record lpbiIn : PBITMAPINFOHEADER ; // format to be drawn lpbiSuggest : PBITMAPINFOHEADER ; // location for suggested format (or NULL to get size) dxSrc : int ; // source extent or 0 dySrc : int ; dxDst : int ; // dest extent or 0 dyDst : int ; hicDecompressor : HIC ; // decompressor you can talk to end; {-----------------------------------------------------------------------------} PICPALETTE = ^TICPALETTE; TICPALETTE = record dwFlags : DWORD ; // flags (from AVI index...) iStart : int ; // first palette to change iLen : int ; // count of entries to change. lppe : PPALETTEENTRY ; // palette end; {-- ICM function declarations ------------------------------------------------} function ICInfo(fccType, fccHandler: DWORD; lpicinfo: PICINFO) : BOOL ; stdcall ; function ICInstall(fccType, fccHandler: DWORD; lParam: LPARAM; szDesc: LPSTR; wFlags: UINT) : BOOL ; stdcall ; function ICRemove(fccType, fccHandler: DWORD; wFlags: UINT) : BOOL ; stdcall ; function ICGetInfo(hic: HIC; picinfo: PICINFO; cb: DWORD) : DWORD ; stdcall ; function ICOpen(fccType, fccHandler: DWORD; wMode: UINT) : HIC ; stdcall ; function ICOpenFunction(fccType, fccHandler: DWORD; wMode: UINT; lpfnHandler: TFarProc) : HIC ; stdcall ; function ICClose(hic: HIC) : DWORD; stdcall ; function ICSendMessage(hic: HIC; msg: UINT; dw1, dw2: DWORD) : DWORD ; stdcall ; {-- Values for wFlags of ICInstall -------------------------------------------} const ICINSTALL_UNICODE = $8000 ; ICINSTALL_FUNCTION = $0001 ; // lParam is a DriverProc (function ptr) ICINSTALL_DRIVER = $0002 ; // lParam is a driver name (string) ICINSTALL_HDRV = $0004 ; // lParam is a HDRVR (driver handle) ICINSTALL_DRIVERW = $8002 ; // lParam is a unicode driver name {-- Query macros -------------------------------------------------------------} ICMF_CONFIGURE_QUERY = $00000001 ; ICMF_ABOUT_QUERY = $00000001 ; function ICQueryAbout(hic: HIC): BOOL; function ICAbout(hic: HIC; hwnd: HWND): DWORD; function ICQueryConfigure(hic: HIC): BOOL; function ICConfigure(hic: HIC; hwnd: HWND): DWORD; {-- Get/Set state macros -----------------------------------------------------} function ICGetState(hic: HIC; pv: PVOID; cb: DWORD): DWORD; function ICSetState(hic: HIC; pv: PVOID; cb: DWORD): DWORD; function ICGetStateSize(hic: HIC): DWORD; {-- Get value macros ---------------------------------------------------------} function ICGetDefaultQuality(hic: HIC): DWORD; function ICGetDefaultKeyFrameRate(hic: HIC): DWORD; {-- Draw window macro --------------------------------------------------------} function ICDrawWindow(hic: HIC; prc: PRECT): DWORD; {== Compression functions ====================================================} {-- ICCompress() - compress a single frame -----------------------------------} function ICCompress( hic : HIC; dwFlags : DWORD; // flags lpbiOutput : PBITMAPINFOHEADER; // output format lpData : PVOID; // output data lpbiInput : PBITMAPINFOHEADER; // format of frame to compress lpBits : PVOID; // frame data to compress lpckid : PDWORD; // ckid for data in AVI file lpdwFlags : PDWORD; // flags in the AVI index. lFrameNum : DWORD; // frame number of seq. dwFrameSize : DWORD; // reqested size in bytes. (if non zero) dwQuality : DWORD; // quality within one frame lpbiPrev : PBITMAPINFOHEADER; // format of previous frame lpPrev : PVOID // previous frame ) : DWORD; cdecl; {-- ICCompressBegin() - start compression from a source fmt to a dest fmt ----} function ICCompressBegin(hic: HIC; lpbiInput: PBITMAPINFOHEADER; lpbiOutput: PBITMAPINFOHEADER): DWORD; {-- ICCompressQuery() - determines if compression from src to dst is supp ----} function ICCompressQuery(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; {-- ICCompressGetFormat() - get the output format (fmt of compressed) --------} // if lpbiOutput is nil return the size in bytes needed for format. function ICCompressGetFormat(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; function ICCompressGetFormatSize(hic: HIC; lpbi: PBITMAPINFOHEADER): DWORD; {-- ICCompressSize() - return the maximal size of a compressed frame ---------} function ICCompressGetSize(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; function ICCompressEnd(hic: HIC): DWORD; {== Decompression functions ==================================================} {-- ICDecompress() - decompress a single frame -------------------------------} function ICDecompress( hic : HIC; dwFlags : DWORD; // flags (from AVI index...) lpbiFormat : PBITMAPINFOHEADER; // BITMAPINFO of compressed data // biSizeImage has the chunk size lpData : PVOID; // data lpbi : PBITMAPINFOHEADER; // DIB to decompress to lpBits : PVOID ): DWORD; cdecl; {-- ICDecompressBegin() - start compression from src fmt to a dest fmt -------} function ICDecompressBegin(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; {-- ICDecompressQuery() - determines if compression is supported -------------} function ICDecompressQuery(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; {-- ICDecompressGetFormat - get the output fmt (fmt of uncompressed data) ----} // if lpbiOutput is NULL return the size in bytes needed for format. function ICDecompressGetFormat(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; function ICDecompressGetFormatSize(hic: HIC; lpbi: PBITMAPINFOHEADER): DWORD; {-- ICDecompressGetPalette() - get the output palette ------------------------} function ICDecompressGetPalette(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; function ICDecompressSetPalette(hic: HIC; lpbiPalette: PBITMAPINFOHEADER): DWORD; function ICDecompressEnd(hic: HIC): DWORD; {== Decompression(ex) functions ==============================================} // // on Win16 these functions are macros that call ICMessage. ICMessage will // not work on NT. rather than add new entrypoints we have given // them as static inline functions // {-- ICDecompressEx() - decompress a single frame -----------------------------} function ICDecompressEx( hic : HIC; dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; lpSrc : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; lpbiDst : PBITMAPINFOHEADER; lpDst : PVOID; xDst : int; yDst : int; dxDst : int; dyDst : int ): DWORD; stdcall; {-- ICDecompressExBegin() - start compression from a src fmt to a dest fmt ---} function ICDecompressExBegin( hic : HIC; dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; lpSrc : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; lpbiDst : PBITMAPINFOHEADER; lpDst : PVOID; xDst : int; yDst : int; dxDst : int; dyDst : int ): DWORD; stdcall; {-- ICDecompressExQuery() ----------------------------------------------------} function ICDecompressExQuery( hic : HIC; dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; lpSrc : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; lpbiDst : PBITMAPINFOHEADER; lpDst : PVOID; xDst : int; yDst : int; dxDst : int; dyDst : int ): DWORD; stdcall; function ICDecompressExEnd(hic: HIC): DWORD; {== Drawing functions ========================================================} {-- ICDrawBegin() - start decompressing data with fmt directly to screen -----} // return zero if the decompressor supports drawing. function ICDrawBegin( hic : HIC; dwFlags : DWORD; // flags hpal : HPALETTE; // palette to draw with hwnd : HWND; // window to draw to hdc : HDC; // HDC to draw to xDst : int; // destination rectangle yDst : int; dxDst : int; dyDst : int; lpbi : PBITMAPINFOHEADER; // format of frame to draw xSrc : int; // source rectangle ySrc : int; dxSrc : int; dySrc : int; dwRate : DWORD; // frames/second = (dwRate/dwScale) dwScale : DWORD ): DWORD; cdecl; {-- ICDraw() - decompress data directly to the screen ------------------------} function ICDraw( hic : HIC; dwFlags : DWORD; // flags lpFormat : PVOID; // format of frame to decompress lpData : PVOID; // frame data to decompress cbData : DWORD; // size of data lTime : DWORD // time to draw this frame ): DWORD; cdecl; // ICMessage is not supported on Win32, so provide a static inline function // to do the same job function ICDrawSuggestFormat( hic : HIC; lpbiIn : PBITMAPINFOHEADER; lpbiOut : PBITMAPINFOHEADER; dxSrc : int; dySrc : int; dxDst : int; dyDst : int; hicDecomp : HIC ): DWORD; stdcall; {-- ICDrawQuery() - determines if the compressor is willing to render fmt ----} function ICDrawQuery(hic: HIC; lpbiInput: PBITMAPINFOHEADER): DWORD; function ICDrawChangePalette(hic: HIC; lpbiInput: PBITMAPINFOHEADER): DWORD; function ICGetBuffersWanted(hic: HIC; lpdwBuffers: PDWORD): DWORD; function ICDrawEnd(hic: HIC): DWORD; function ICDrawStart(hic: HIC): DWORD; function ICDrawStartPlay(hic: HIC; lFrom, lTo: DWORD): DWORD; function ICDrawStop(hic: HIC): DWORD; function ICDrawStopPlay(hic: HIC): DWORD; function ICDrawGetTime(hic: HIC; lplTime: PDWORD): DWORD; function ICDrawSetTime(hic: HIC; lTime: DWORD): DWORD; function ICDrawRealize(hic: HIC; hdc: HDC; fBackground: BOOL): DWORD; function ICDrawFlush(hic: HIC): DWORD; function ICDrawRenderBuffer(hic: HIC): DWORD; {== Status callback functions ================================================} {-- ICSetStatusProc() - Set the status callback function ---------------------} // ICMessage is not supported on NT function ICSetStatusProc( hic : HIC; dwFlags : DWORD; lParam : DWORD; fpfnStatus : TICStatusProc ): DWORD; stdcall; {== Helper routines for DrawDib and MCIAVI... ================================} function ICLocate(fccType, fccHandler: DWORD; lpbiIn, lpbiOut: PBITMAPINFOHEADER; wFlags: WORD): HIC; stdcall; function ICGetDisplayFormat(hic: HIC; lpbiIn, lpbiOut: PBITMAPINFOHEADER; BitDepth: int; dx, dy: int): HIC; stdcall; function ICDecompressOpen(fccType, fccHandler: DWORD; lpbiIn, lpbiOut: PBITMAPINFOHEADER): HIC; function ICDrawOpen(fccType, fccHandler: DWORD; lpbiIn: PBITMAPINFOHEADER): HIC; {== Higher level functions ===================================================} function ICImageCompress( hic : HIC; // compressor to use uiFlags : UINT; // flags (none yet) lpbiIn : PBITMAPINFO; // format to compress from lpBits : PVOID; // data to compress lpbiOut : PBITMAPINFO; // compress to this (NULL ==> default) lQuality : DWORD; // quality to use plSize : PDWORD // compress to this size (0=whatever) ): THANDLE; stdcall; function ICImageDecompress( hic : HIC; // compressor to use uiFlags : UINT; // flags (none yet) lpbiIn : PBITMAPINFO; // format to decompress from lpBits : PVOID; // data to decompress lpbiOut : PBITMAPINFO // decompress to this (NULL ==> default) ): THANDLE; stdcall; {-- TCompVars ----------------------------------------------------------------} // // Structure used by ICSeqCompressFrame and ICCompressorChoose routines // Make sure this matches the autodoc in icm.c! // type PCOMPVARS = ^TCOMPVARS; TCOMPVARS = record cbSize : DWORD; // set to sizeof(COMPVARS) before // calling ICCompressorChoose dwFlags : DWORD; // see below... hic : HIC; // HIC of chosen compressor fccType : DWORD; // basically ICTYPE_VIDEO fccHandler : DWORD; // handler of chosen compressor or // "" or "DIB " lpbiIn : PBITMAPINFO; // input format lpbiOut : PBITMAPINFO; // output format - will compress to this lpBitsOut : PVOID; lpBitsPrev : PVOID; lFrame : DWORD; lKey : DWORD; // key frames how often? lDataRate : DWORD; // desired data rate KB/Sec lQ : DWORD; // desired quality lKeyCount : DWORD; lpState : PVOID; // state of compressor cbState : DWORD; // size of the state end; // FLAGS for dwFlags element of COMPVARS structure: // set this flag if you initialize COMPVARS before calling ICCompressorChoose const ICMF_COMPVARS_VALID = $00000001; // COMPVARS contains valid data {-- ICCompressorChoose() - allows user to choose compressor, quality etc... --} function ICCompressorChoose( hwnd : HWND; // parent window for dialog uiFlags : UINT; // flags pvIn : PVOID; // input format (optional) lpData : PVOID; // input data (optional) pc : PCOMPVARS; // data about the compressor/dlg lpszTitle : LPSTR // dialog title (optional) ): BOOL; stdcall; // defines for uiFlags const ICMF_CHOOSE_KEYFRAME = $0001; // show KeyFrame Every box ICMF_CHOOSE_DATARATE = $0002; // show DataRate box ICMF_CHOOSE_PREVIEW = $0004; // allow expanded preview dialog ICMF_CHOOSE_ALLCOMPRESSORS = $0008; // don't only show those that // can handle the input format // or input data function ICSeqCompressFrameStart(pc: PCOMPVARS; lpbiIn: PBITMAPINFO): BOOL; stdcall; procedure ICSeqCompressFrameEnd(pc: PCOMPVARS); stdcall; function ICSeqCompressFrame( pc : PCOMPVARS; // set by ICCompressorChoose uiFlags : UINT; // flags lpBits : PVOID; // input DIB bits pfKey : PBOOL; // did it end up being a key frame? plSize : PDWORD // size to compress to/of returned image ): PVOID; stdcall; procedure ICCompressorFree(pc: PCOMPVARS); stdcall; {== DRAWDIB - Routines for drawing to the display ============================} type HDRAWDIB = THandle; // hdd {== DrawDib Flags ============================================================} const DDF_UPDATE = $0002; // re-draw the last DIB DDF_SAME_HDC = $0004; // HDC same as last call (all setup) DDF_SAME_DRAW = $0008; // draw params are the same DDF_DONTDRAW = $0010; // dont draw frame, just decompress DDF_ANIMATE = $0020; // allow palette animation DDF_BUFFER = $0040; // always buffer image DDF_JUSTDRAWIT = $0080; // just draw it with GDI DDF_FULLSCREEN = $0100; // use DisplayDib DDF_BACKGROUNDPAL = $0200; // Realize palette in background DDF_NOTKEYFRAME = $0400; // this is a partial frame update, hint DDF_HURRYUP = $0800; // hurry up please! DDF_HALFTONE = $1000; // always halftone DDF_PREROLL = DDF_DONTDRAW; // Builing up a non-keyframe DDF_SAME_DIB = DDF_SAME_DRAW; DDF_SAME_SIZE = DDF_SAME_DRAW; {== DrawDib functions ========================================================} {-- DrawDibOpen() ------------------------------------------------------------} function DrawDibOpen: HDRAWDIB; stdcall; {-- DrawDibClose() -----------------------------------------------------------} function DrawDibClose(hdd: HDRAWDIB): BOOL; stdcall; {-- DrawDibGetBuffer() -------------------------------------------------------} function DrawDibGetBuffer(hdd: HDRAWDIB; lpbi: PBITMAPINFOHEADER; dwSize: DWORD; dwFlags: DWORD): PVOID; stdcall; {-- DrawDibGetPalette() - get the palette used for drawing DIBs --------------} function DrawDibGetPalette(hdd: HDRAWDIB): HPALETTE; stdcall; {-- DrawDibSetPalette() - set the palette used for drawing DIBs --------------} function DrawDibSetPalette(hdd: HDRAWDIB; hpal: HPALETTE): BOOL; stdcall; {-- DrawDibChangePalette() ---------------------------------------------------} function DrawDibChangePalette(hdd: HDRAWDIB; iStart, iLen: int; lppe: PPALETTEENTRY): BOOL; stdcall; {-- DrawDibRealize() - realize the palette in a HDD --------------------------} function DrawDibRealize(hdd: HDRAWDIB; hdc: HDC; fBackground: BOOL): UINT; stdcall; {-- DrawDibStart() - start of streaming playback -----------------------------} function DrawDibStart(hdd: HDRAWDIB; rate: DWORD): BOOL; stdcall; {-- DrawDibStop() - start of streaming playback ------------------------------} function DrawDibStop(hdd: HDRAWDIB): BOOL; stdcall; {-- DrawDibBegin() - prepare to draw -----------------------------------------} function DrawDibBegin( hdd : HDRAWDIB; hdc : HDC; dxDst : int; dyDst : int; lpbi : PBITMAPINFOHEADER; dxSrc : int; dySrc : int; wFlags : UINT ): BOOL; stdcall; {-- DrawDibDraw() - actually draw a DIB to the screen ------------------------} function DrawDibDraw( hdd : HDRAWDIB; hdc : HDC; xDst : int; yDst : int; dxDst : int; dyDst : int; lpbi : PBITMAPINFOHEADER; lpBits : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; wFlags : UINT ): BOOL; stdcall; {-- DrawDibUpdate() - redraw last image (may only be valid with DDF_BUFFER) --} function DrawDibUpdate(hdd: HDRAWDIB; hdc: HDC; x, y: int): BOOL; {-- DrawDibEnd() -------------------------------------------------------------} function DrawDibEnd(hdd: HDRAWDIB): BOOL; stdcall; {-- DrawDibTime() - for debugging purposes only ------------------------------} type PDRAWDIBTIME = ^TDRAWDIBTIME; TDRAWDIBTIME = record timeCount : DWORD; timeDraw : DWORD; timeDecompress : DWORD; timeDither : DWORD; timeStretch : DWORD; timeBlt : DWORD; timeSetDIBits : DWORD; end; function DrawDibTime(hdd: HDRAWDIB; lpddtime: PDRAWDIBTIME): BOOL; stdcall; {-- Display profiling --------------------------------------------------------} const PD_CAN_DRAW_DIB = $0001; // if you can draw at all PD_CAN_STRETCHDIB = $0002; // basicly RC_STRETCHDIB PD_STRETCHDIB_1_1_OK = $0004; // is it fast? PD_STRETCHDIB_1_2_OK = $0008; // ... PD_STRETCHDIB_1_N_OK = $0010; // ... function DrawDibProfileDisplay(lpbi: PBITMAPINFOHEADER): DWORD; stdcall; {== AVIFMT - AVI file format definitions =====================================} // // The following is a short description of the AVI file format. Please // see the accompanying documentation for a full explanation. // // An AVI file is the following RIFF form: // // RIFF('AVI' // LIST('hdrl' // avih() // LIST ('strl' // strh() // strf() // ... additional header data // LIST('movi' // { LIST('rec' // SubChunk... // ) // | SubChunk } .... // ) // [ ] // ) // // The main file header specifies how many streams are present. For // each one, there must be a stream header chunk and a stream format // chunk, enlosed in a 'strl' LIST chunk. The 'strf' chunk contains // type-specific format information; for a video stream, this should // be a BITMAPINFO structure, including palette. For an audio stream, // this should be a WAVEFORMAT (or PCMWAVEFORMAT) structure. // // The actual data is contained in subchunks within the 'movi' LIST // chunk. The first two characters of each data chunk are the // stream number with which that data is associated. // // Some defined chunk types: // Video Streams: // ##db: RGB DIB bits // ##dc: RLE8 compressed DIB bits // ##pc: Palette Change // // Audio Streams: // ##wb: waveform audio bytes // // The grouping into LIST 'rec' chunks implies only that the contents of // the chunk should be read into memory at the same time. This // grouping is used for files specifically intended to be played from // CD-ROM. // // The index chunk at the end of the file should contain one entry for // each data chunk in the file. // // Limitations for the current software: // Only one video stream and one audio stream are allowed. // The streams must start at the beginning of the file. // // // To register codec types please obtain a copy of the Multimedia // Developer Registration Kit from: // // Microsoft Corporation // Multimedia Systems Group // Product Marketing // One Microsoft Way // Redmond, WA 98052-6399 // {-- form types, list types and chunk types -----------------------------------} const formtypeAVI = $20495641; // mmioFOURCC('A', 'V', 'I', ' ') listtypeAVIHEADER = $6C726468; // mmioFOURCC('h', 'd', 'r', 'l') ckidAVIMAINHDR = $68697661; // mmioFOURCC('a', 'v', 'i', 'h') listtypeSTREAMHEADER = $6C727473; // mmioFOURCC('s', 't', 'r', 'l') ckidSTREAMHEADER = $68727473; // mmioFOURCC('s', 't', 'r', 'h') ckidSTREAMFORMAT = $66727473; // mmioFOURCC('s', 't', 'r', 'f') ckidSTREAMHANDLERDATA = $64727473; // mmioFOURCC('s', 't', 'r', 'd') ckidSTREAMNAME = $6E727473; // mmioFOURCC('s', 't', 'r', 'n') listtypeAVIMOVIE = $69766F6D; // mmioFOURCC('m', 'o', 'v', 'i') listtypeAVIRECORD = $20636572; // mmioFOURCC('r', 'e', 'c', ' ') ckidAVINEWINDEX = $31786469; // mmioFOURCC('i', 'd', 'x', '1') {-- Stream types for the field of the stream header ----------------} streamtypeVIDEO = $73646976; // mmioFOURCC('v', 'i', 'd', 's') streamtypeAUDIO = $73647561; // mmioFOURCC('a', 'u', 'd', 's') streamtypeMIDI = $7364696D; // mmioFOURCC('m', 'i', 'd', 's') streamtypeTEXT = $73747874; // mmioFOURCC('t', 'x', 't', 's') {-- Basic chunk types --------------------------------------------------------} cktypeDIBbits = $6264; // aviTWOCC('d', 'b') cktypeDIBcompressed = $6364; // aviTWOCC('d', 'c') cktypePALchange = $6370; // aviTWOCC('p', 'c') cktypeWAVEbytes = $6277; // aviTWOCC('w', 'b') {-- Chunk id to use for extra chunks for padding -----------------------------} ckidAVIPADDING = $4B4E554A; // mmioFOURCC('J', 'U', 'N', 'K') {== Useful macros ============================================================} {-- Macro to get stream number out of a FOURCC ckid --------------------------} function FromHex(n: BYTE): BYTE; function StreamFromFOURCC(fcc: DWORD): BYTE; {-- Macro to get TWOCC chunk type out of a FOURCC ckid -----------------------} function TWOCCFromFOURCC(fcc: DWORD): WORD; {-- Macro to make a ckid for a chunk out of a TWOCC and a stream num (0-255) -} function ToHex(n: BYTE): BYTE; function MAKEAVICKID(tcc: WORD; stream: BYTE): DWORD; {-- Main AVI file header -----------------------------------------------------} {-- flags for use in in AVIFileHdr ---------------------------------} const AVIF_HASINDEX = $00000010; // Index at end of file? AVIF_MUSTUSEINDEX = $00000020; AVIF_ISINTERLEAVED = $00000100; AVIF_TRUSTCKTYPE = $00000800; // Use CKType to find key frames? AVIF_WASCAPTUREFILE = $00010000; AVIF_COPYRIGHTED = $00020000; {-- The AVI File Header LIST chunk should be padded to this size -------------} const AVI_HEADERSIZE = 2048; // size of AVI header list type PMainAVIHeader = ^TMainAVIHeader; TMainAVIHeader = record dwMicroSecPerFrame : DWORD; // frame display rate (or 0L) dwMaxBytesPerSec : DWORD; // max. transfer rate dwPaddingGranularity : DWORD; // pad to multiples of this // size; normally 2K. dwFlags : DWORD; // the ever-present flags dwTotalFrames : DWORD; // # frames in file dwInitialFrames : DWORD; dwStreams : DWORD; dwSuggestedBufferSize : DWORD; dwWidth : DWORD; dwHeight : DWORD; dwReserved : array[0..3] of DWORD; end; {-- Stream header ------------------------------------------------------------} const AVISF_DISABLED = $00000001; AVISF_VIDEO_PALCHANGES = $00010000; type PAVIStreamHeader = ^TAVIStreamHeader; TAVIStreamHeader = record fccType : FOURCC; fccHandler : FOURCC; dwFlags : DWORD; // Contains AVITF_* flags wPriority : WORD; wLanguage : WORD; dwInitialFrames : DWORD; dwScale : DWORD; dwRate : DWORD; // dwRate / dwScale == samples/second dwStart : DWORD; dwLength : DWORD; // In units above... dwSuggestedBufferSize : DWORD; dwQuality : DWORD; dwSampleSize : DWORD; rcFrame : TRECT; end; {-- Flags for index ----------------------------------------------------------} const AVIIF_NOTIME = $00000100; // this frame doesn't take any time AVIIF_COMPUSE = $0FFF0000; // these bits are for compressor use type PAVIINDEXENTRY = ^TAVIINDEXENTRY; TAVIINDEXENTRY = record ckid : DWORD; dwFlags : DWORD; dwChunkOffset : DWORD; // Position of chunk dwChunkLength : DWORD; // Length of chunk end; {-- Palette change chunk (used in video streams) -----------------------------} PAVIPALCHANGE = ^TAVIPALCHANGE; TAVIPALCHANGE = record bFirstEntry : BYTE; // first entry to change bNumEntries : BYTE; // # entries to change (0 if 256) wFlags : WORD; // Mostly to preserve alignment... // peNew : array[0..-1] of PALETTEENTRY ; // New color specifications end; {== AVIFile - routines for reading/writing standard AVI files ================} // // Ansi - Unicode thunking. // // Unicode or Ansi-only apps can call the avifile APIs. // any Win32 app who wants to use // any of the AVI COM interfaces must be UNICODE - the AVISTREAMINFO and // AVIFILEINFO structures used in the Info methods of these interfaces are // the unicode variants, and no thunking to or from ansi takes place // except in the AVIFILE api entrypoints. // // For Ansi/Unicode thunking: for each entrypoint or structure that // uses chars or strings, two versions are declared in the Win32 version, // ApiNameW and ApiNameA. The default name ApiName is #defined to one or // other of these depending on whether UNICODE is defined (during // compilation of the app that is including this header). The source will // contain ApiName and ApiNameA (with ApiName being the Win16 implementation, // and also #defined to ApiNameW, and ApiNameA being the thunk entrypoint). // // For GetFrame::SetFormat - use the best format for the display const AVIGETFRAMEF_BESTDISPLAYFMT = 1; // // Structures used by AVIStreamInfo & AVIFileInfo. // // These are related to, but not identical to, the header chunks // in an AVI file. // {-- AVISTREAMINFO ------------------------------------------------------------} // for Unicode/Ansi thunking we need to declare three versions of this! type PAVISTREAMINFOW = ^TAVISTREAMINFOW; TAVISTREAMINFOW = record fccType : DWORD; fccHandler : DWORD; dwFlags : DWORD; // Contains AVITF_* flags dwCaps : DWORD; wPriority : WORD; wLanguage : WORD; dwScale : DWORD; dwRate : DWORD; // dwRate / dwScale == samples/second dwStart : DWORD; dwLength : DWORD; // In units above... dwInitialFrames : DWORD; dwSuggestedBufferSize : DWORD; dwQuality : DWORD; dwSampleSize : DWORD; rcFrame : TRECT ; dwEditCount : DWORD; dwFormatChangeCount : DWORD; szName : array[0..63] of WideChar; end; PAVISTREAMINFOA = ^TAVISTREAMINFOA; TAVISTREAMINFOA = record fccType : DWORD; fccHandler : DWORD; dwFlags : DWORD; // Contains AVITF_* flags dwCaps : DWORD; wPriority : WORD; wLanguage : WORD; dwScale : DWORD; dwRate : DWORD; // dwRate / dwScale == samples/second dwStart : DWORD; dwLength : DWORD; // In units above... dwInitialFrames : DWORD; dwSuggestedBufferSize : DWORD; dwQuality : DWORD; dwSampleSize : DWORD; rcFrame : TRECT ; dwEditCount : DWORD; dwFormatChangeCount : DWORD; szName : array[0..63] of AnsiChar; end; TAVISTREAMINFO = TAVISTREAMINFOA; PAVISTREAMINFO = PAVISTREAMINFOA; const AVISTREAMINFO_DISABLED = $00000001; AVISTREAMINFO_FORMATCHANGES = $00010000; {-- AVIFILEINFO --------------------------------------------------------------} type PAVIFILEINFOW = ^TAVIFILEINFOW; TAVIFILEINFOW = record dwMaxBytesPerSec : DWORD; // max. transfer rate dwFlags : DWORD; // the ever-present flags dwCaps : DWORD; dwStreams : DWORD; dwSuggestedBufferSize : DWORD; dwWidth : DWORD; dwHeight : DWORD; dwScale : DWORD; dwRate : DWORD; // dwRate / dwScale == samples/second dwLength : DWORD; dwEditCount : DWORD; szFileType : array[0..63] of WideChar; // descriptive string for file type? end; PAVIFILEINFOA = ^TAVIFILEINFOA; TAVIFILEINFOA = record dwMaxBytesPerSec : DWORD; // max. transfer rate dwFlags : DWORD; // the ever-present flags dwCaps : DWORD; dwStreams : DWORD; dwSuggestedBufferSize : DWORD; dwWidth : DWORD; dwHeight : DWORD; dwScale : DWORD; dwRate : DWORD; // dwRate / dwScale == samples/second dwLength : DWORD; dwEditCount : DWORD; szFileType : array[0..63] of AnsiChar; // descriptive string for file type? end; TAVIFILEINFO = TAVIFILEINFOA; PAVIFILEINFO = PAVIFILEINFOA; {-- Flags for dwFlags --------------------------------------------------------} const AVIFILEINFO_HASINDEX = $00000010; AVIFILEINFO_MUSTUSEINDEX = $00000020; AVIFILEINFO_ISINTERLEAVED = $00000100; AVIFILEINFO_WASCAPTUREFILE = $00010000; AVIFILEINFO_COPYRIGHTED = $00020000; {-- Flags for dwCaps ---------------------------------------------------------} AVIFILECAPS_CANREAD = $00000001; AVIFILECAPS_CANWRITE = $00000002; AVIFILECAPS_ALLKEYFRAMES = $00000010; AVIFILECAPS_NOCOMPRESSION = $00000020; type TAVISAVECALLBACK = function(i: int): BOOL; pascal; {-- AVICOMPRESSOPTIONS -------------------------------------------------------} // Make sure it matches the AutoDoc in avisave.c !!! type PAVICOMPRESSOPTIONS = ^TAVICOMPRESSOPTIONS; TAVICOMPRESSOPTIONS = record fccType : DWORD; // stream type, for consistency fccHandler : DWORD; // compressor dwKeyFrameEvery : DWORD; // keyframe rate dwQuality : DWORD; // compress quality 0-10,000 dwBytesPerSecond : DWORD; // bytes per second dwFlags : DWORD; // flags... see below lpFormat : PVOID; // save format cbFormat : DWORD; lpParms : PVOID; // compressor options cbParms : DWORD; dwInterleaveEvery : DWORD; // for non-video streams only end; // // Defines for the dwFlags field of the AVICOMPRESSOPTIONS struct // Each of these flags determines if the appropriate field in the structure // (dwInterleaveEvery, dwBytesPerSecond, and dwKeyFrameEvery) is payed // attention to. See the autodoc in avisave.c for details. // const AVICOMPRESSF_INTERLEAVE = $00000001; // interleave AVICOMPRESSF_DATARATE = $00000002; // use a data rate AVICOMPRESSF_KEYFRAMES = $00000004; // use keyframes AVICOMPRESSF_VALID = $00000008; // has valid data? {== AVI interfaces ===========================================================} {-- AVIStream ----------------------------------------------------------------} type PAVIStream = ^IAVIStream; IAVIStream = class(IUnknown) public function Create(lParam1, lParam2: LPARAM): HResult; virtual; stdcall; abstract; function Info(psi: PAVISTREAMINFOW; lSize: DWORD): HResult; virtual; stdcall; abstract; function FindSample(lPos: DWORD; lFlags: DWORD): DWORD; virtual; stdcall; abstract; function ReadFormat(lPos: DWORD; lpFormat: PVOID; lpcbFormat: PDWORD): HResult; virtual; stdcall; abstract; function SetFormat(lPos: DWORD; lpFormat: PVOID; cbFormat: DWORD): HResult; virtual; stdcall; abstract; function Read(lStart: DWORD; lSamples: DWORD; lpBuffer: PVOID; cbBuffer: DWORD; plBytes, plSamples: PDWORD): HResult; virtual; stdcall; abstract; function Write(lStart: DWORD; lSamples: DWORD; lpBuffer: PVOID; cbBuffer: DWORD; dwFlags: DWORD; plSampWritten, plBytesWritten: PDWORD): HResult; virtual; stdcall; abstract; function Delete(lStart: DWORD; lSamples: DWORD): HResult; virtual; stdcall; abstract; function ReadData(fcc: DWORD; lp: PVOID; lpcb: PDWORD): HResult; virtual; stdcall; abstract; function WriteData(fcc: DWORD; lp: PVOID; cb: DWORD): HResult; virtual; stdcall; abstract; function SetInfo(lpInfo: PAVISTREAMINFOW; cbInfo: DWORD): HResult; virtual; stdcall; abstract; end; PAVIStreaming = ^IAVIStreaming; IAVIStreaming = class(IUnknown) public function _Begin( lStart, // start of what we expect to play lEnd : DWORD; // expected end, or -1 lRate : DWORD // Should this be a float? ): HResult; virtual; stdcall; abstract; function _End: HResult; virtual; stdcall; abstract; end; PAVIEditStream = ^IAVIEditStream; IAVIEditStream = class(IUnknown) public function Cut(plStart, plLength: PDWORD; var ppResult: PAVISTREAM): HResult; virtual; stdcall; abstract; function Copy(plStart, plLength: PDWORD; var ppResult: PAVISTREAM): HResult; virtual; stdcall; abstract; function Paste(plPos: PDWORD; plLength: PDWORD; pstream: PAVISTREAM; lStart, lEnd: DWORD): HResult; virtual; stdcall; abstract; function Clone(var ppResult: PAVISTREAM): HResult; virtual; stdcall; abstract; function SetInfo(lpInfo: PAVISTREAMINFOW; cbInfo: DWORD): HResult; virtual; stdcall; abstract; end; {-- AVIFile ------------------------------------------------------------------} PAVIFile = ^IAVIFile; IAVIFile = class(IUnknown) function Info(pfi: PAVIFILEINFOW; lSize: DWORD): HResult; virtual; stdcall; abstract; function GetStream(var ppStream: PAVISTREAM; fccType: DWORD; lParam: DWORD): HResult; virtual; stdcall; abstract; function CreateStream(var ppStream: PAVISTREAM; psi: PAVISTREAMINFOW): HResult; virtual; stdcall; abstract; function WriteData(ckid: DWORD; lpData: PVOID; cbData: DWORD): HResult; virtual; stdcall; abstract; function ReadData(ckid: DWORD; lpData: PVOID; lpcbData: PDWORD): HResult; virtual; stdcall; abstract; function EndRecord: HResult; virtual; stdcall; abstract; function DeleteStream(fccType: DWORD; lParam: DWORD): HResult; virtual; stdcall; abstract; end; {-- GetFrame -----------------------------------------------------------------} PGetFrame = ^IGetFrame; IGetFrame = class(IUnknown) public function GetFrame(lPos: DWORD): PVOID; virtual; stdcall; abstract; function _Begin(lStart, lEnd: DWORD; lRate: DWORD): HResult; virtual; stdcall; abstract; function _End: HResult; virtual; stdcall; abstract; function SetFormat(lpbi: PBITMAPINFOHEADER; lpBits: PVOID; x, y, dx, dy: int): HResult; virtual; stdcall; abstract; // STDMETHOD(DrawFrameStart) (THIS) PURE; // STDMETHOD(DrawFrame) (THIS_ DWORD lPos, HDC hdc, int x, int y, int dx, int dy) PURE; // STDMETHOD(DrawFrameEnd) (THIS) PURE; end; {-- GUIDs --------------------------------------------------------------------} const IID_IAVIFile : TGUID = (D1: $00020020; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); IID_IAVIStream : TGUID = (D1: $00020021; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); IID_IAVIStreaming : TGUID = (D1: $00020022; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); IID_IGetFrame : TGUID = (D1: $00020023; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); IID_IAVIEditStream : TGUID = (D1: $00020024; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); CLSID_AVISimpleUnMarshal : TGUID = (D1: $00020009; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); CLSID_AVIFile : TGUID = (D1: $00020000; D2: $0; D3: $0; D4:($C0,$0,$0,$0,$0,$0,$0,$46)); AVIFILEHANDLER_CANREAD = $0001; AVIFILEHANDLER_CANWRITE = $0002; AVIFILEHANDLER_CANACCEPTNONRGB = $0004; {-- Functions ----------------------------------------------------------------} procedure AVIFileInit; stdcall; // Call this first! procedure AVIFileExit; stdcall; function AVIFileAddRef(pfile: PAVIFILE): UDWORD; stdcall; function AVIFileRelease(pfile: PAVIFILE): UDWORD; stdcall; function AVIFileOpenA(var ppfile: PAVIFILE; szFile: LPCSTR; uMode: UINT; lpHandler: PCLSID): HResult; stdcall; function AVIFileOpenW(var ppfile: PAVIFILE; szFile: LPCWSTR; uMode: UINT; lpHandler: PCLSID): HResult; stdcall; function AVIFileOpen(var ppfile: PAVIFILE; szFile: LPCSTR; uMode: UINT; lpHandler: PCLSID): HResult; stdcall; // AVIFileOpenA function AVIFileInfoW(pfile: PAVIFILE; pfi: PAVIFILEINFOW; lSize: DWORD): HResult; stdcall; function AVIFileInfoA(pfile: PAVIFILE; pfi: PAVIFILEINFOA; lSize: DWORD): HResult; stdcall; function AVIFileInfo(pfile: PAVIFILE; pfi: PAVIFILEINFOA; lSize: DWORD): HResult; stdcall; // AVIFileInfoA function AVIFileGetStream(pfile: PAVIFILE; var ppavi: PAVISTREAM; fccType: DWORD; lParam: DWORD): HResult; stdcall; function AVIFileCreateStreamW(pfile: PAVIFILE; var ppavi: PAVISTREAM; psi: PAVISTREAMINFOW): HResult; stdcall; function AVIFileCreateStreamA(pfile: PAVIFILE; var ppavi: PAVISTREAM; psi: PAVISTREAMINFOA): HResult; stdcall; function AVIFileCreateStream(pfile: PAVIFILE; var ppavi: PAVISTREAM; psi: PAVISTREAMINFOA): HResult; stdcall; // AVIFileCreateStreamA function AVIFileWriteData(pfile: PAVIFILE; ckid: DWORD; lpData: PVOID; cbData: DWORD): HResult; stdcall; function AVIFileReadData(pfile: PAVIFILE; ckid: DWORD; lpData: PVOID; lpcbData: PDWORD): HResult; stdcall; function AVIFileEndRecord(pfile: PAVIFILE): HResult; stdcall; function AVIStreamAddRef(pavi: PAVISTREAM): UDWORD; stdcall; function AVIStreamRelease(pavi: PAVISTREAM): UDWORD; stdcall; function AVIStreamInfoW (pavi: PAVISTREAM; psi: PAVISTREAMINFOW; lSize: DWORD): HResult; stdcall; function AVIStreamInfoA (pavi: PAVISTREAM; psi: PAVISTREAMINFOA; lSize: DWORD): HResult; stdcall; function AVIStreamInfo(pavi: PAVISTREAM; psi: PAVISTREAMINFOA; lSize: DWORD): HResult; stdcall; // AVIStreamInfoA function AVIStreamFindSample(pavi: PAVISTREAM; lPos: DWORD; lFlags: DWORD): DWORD; stdcall; function AVIStreamReadFormat(pavi: PAVISTREAM; lPos: DWORD; lpFormat: PVOID; lpcbFormat: PDWORD): HResult; stdcall; function AVIStreamSetFormat(pavi: PAVISTREAM; lPos: DWORD; lpFormat: PVOID; cbFormat: DWORD): HResult; stdcall; function AVIStreamReadData(pavi: PAVISTREAM; fcc: DWORD; lp: PVOID; lpcb: PDWORD): HResult; stdcall; function AVIStreamWriteData(pavi: PAVISTREAM; fcc: DWORD; lp: PVOID; cb: DWORD): HResult; stdcall; function AVIStreamRead( pavi : PAVISTREAM; lStart : DWORD; lSamples : DWORD; lpBuffer : PVOID; cbBuffer : DWORD; plBytes : PDWORD; plSamples : PDWORD ): HResult; stdcall; const AVISTREAMREAD_CONVENIENT = -1; function AVIStreamWrite( pavi : PAVISTREAM; lStart, lSamples : DWORD; lpBuffer : PVOID; cbBuffer : DWORD; dwFlags : DWORD; plSampWritten : PDWORD; plBytesWritten : PDWORD ): HResult; stdcall; // Right now, these just use AVIStreamInfo() to get information, then // return some of it. Can they be more efficient? function AVIStreamStart(pavi: PAVISTREAM): DWORD; stdcall; function AVIStreamLength(pavi: PAVISTREAM): DWORD; stdcall; function AVIStreamTimeToSample(pavi: PAVISTREAM; lTime: DWORD): DWORD; stdcall; function AVIStreamSampleToTime(pavi: PAVISTREAM; lSample: DWORD): DWORD; stdcall; function AVIStreamBeginStreaming(pavi: PAVISTREAM; lStart, lEnd: DWORD; lRate: DWORD): HResult; stdcall; function AVIStreamEndStreaming(pavi: PAVISTREAM): HResult; stdcall; {-- Helper functions for using IGetFrame -------------------------------------} function AVIStreamGetFrameOpen(pavi: PAVISTREAM; lpbiWanted: PBITMAPINFOHEADER): PGETFRAME; stdcall; function AVIStreamGetFrame(pg: PGETFRAME; lPos: DWORD): PVOID; stdcall; function AVIStreamGetFrameClose(pg: PGETFRAME): HResult; stdcall; // !!! We need some way to place an advise on a stream.... // STDAPI AVIStreamHasChanged (PAVISTREAM pavi); {-- Shortcut function --------------------------------------------------------} function AVIStreamOpenFromFileA(var ppavi: PAVISTREAM; szFile: LPCSTR; fccType: DWORD; lParam: DWORD; mode: UINT; pclsidHandler: PCLSID): HResult; stdcall; function AVIStreamOpenFromFileW(var ppavi: PAVISTREAM; szFile: LPCWSTR; fccType: DWORD; lParam: DWORD; mode: UINT; pclsidHandler: PCLSID): HResult; stdcall; function AVIStreamOpenFromFile(var ppavi: PAVISTREAM; szFile: LPCSTR; fccType: DWORD; lParam: DWORD; mode: UINT; pclsidHandler: PCLSID): HResult; stdcall; // AVIStreamOpenFromFileA {-- Use to create disembodied streams ----------------------------------------} function AVIStreamCreate(var ppavi: PAVISTREAM; lParam1, lParam2: DWORD; pclsidHandler: PCLSID): HResult; stdcall; // PHANDLER AVIAPI AVIGetHandler (PAVISTREAM pavi, PAVISTREAMHANDLER psh); // PAVISTREAM AVIAPI AVIGetStream (PHANDLER p); {-- Flags for AVIStreamFindSample --------------------------------------------} const FIND_DIR = $0000000F; // direction FIND_NEXT = $00000001; // go forward FIND_PREV = $00000004; // go backward FIND_FROM_START = $00000008; // start at the logical beginning FIND_TYPE = $000000F0; // type mask FIND_KEY = $00000010; // find key frame. FIND_ANY = $00000020; // find any (non-empty) sample FIND_FORMAT = $00000040; // find format change FIND_RET = $0000F000; // return mask FIND_POS = $00000000; // return logical position FIND_LENGTH = $00001000; // return logical size FIND_OFFSET = $00002000; // return physical position FIND_SIZE = $00003000; // return physical size FIND_INDEX = $00004000; // return physical index position {-- Stuff to support backward compat. ----------------------------------------} function AVIStreamFindKeyFrame(pavi: PAVISTREAM; lPos: DWORD; lFlags: DWORD): DWORD; stdcall; // AVIStreamFindSample // Non-portable: this is alias for method name // FindKeyFrame FindSample function AVIStreamClose(pavi: PAVISTREAM): UDWORD; stdcall; // AVIStreamRelease function AVIFileClose(pfile: PAVIFILE): UDWORD; stdcall; // AVIFileRelease procedure AVIStreamInit; stdcall; // AVIFileInit procedure AVIStreamExit; stdcall; // AVIFileExit const SEARCH_NEAREST = FIND_PREV; SEARCH_BACKWARD = FIND_PREV; SEARCH_FORWARD = FIND_NEXT; SEARCH_KEY = FIND_KEY; SEARCH_ANY = FIND_ANY; {-- Helper macros ------------------------------------------------------------} function AVIStreamSampleToSample(pavi1, pavi2: PAVISTREAM; l: DWORD): DWORD; function AVIStreamNextSample(pavi: PAVISTREAM; l: DWORD): DWORD; function AVIStreamPrevSample(pavi: PAVISTREAM; l: DWORD): DWORD; function AVIStreamNearestSample(pavi: PAVISTREAM; l: DWORD): DWORD; function AVIStreamNextKeyFrame(pavi: PAVISTREAM; l: DWORD): DWORD; function AVIStreamPrevKeyFrame(pavi: PAVISTREAM; l: DWORD): DWORD; function AVIStreamNearestKeyFrame(pavi: PAVISTREAM; l: DWORD): DWORD; function AVIStreamIsKeyFrame(pavi: PAVISTREAM; l: DWORD): BOOL; function AVIStreamPrevSampleTime(pavi: PAVISTREAM; t: DWORD): DWORD; function AVIStreamNextSampleTime(pavi: PAVISTREAM; t: DWORD): DWORD; function AVIStreamNearestSampleTime(pavi: PAVISTREAM; t: DWORD): DWORD; function AVIStreamNextKeyFrameTime(pavi: PAVISTREAM; t: DWORD): DWORD; function AVIStreamPrevKeyFrameTime(pavi: PAVISTREAM; t: DWORD): DWORD; function AVIStreamNearestKeyFrameTime(pavi: PAVISTREAM; t: DWORD): DWORD; function AVIStreamStartTime(pavi: PAVISTREAM): DWORD; function AVIStreamLengthTime(pavi: PAVISTREAM): DWORD; function AVIStreamEnd(pavi: PAVISTREAM): DWORD; function AVIStreamEndTime(pavi: PAVISTREAM): DWORD; function AVIStreamSampleSize(pavi: PAVISTREAM; lPos: DWORD; plSize: PDWORD): DWORD; function AVIStreamFormatSize(pavi: PAVISTREAM; lPos: DWORD; plSize: PDWORD): HResult; function AVIStreamDataSize(pavi: PAVISTREAM; fcc: DWORD; plSize: PDWORD): HResult; {== AVISave routines and structures ==========================================} const comptypeDIB = $20424944; // mmioFOURCC('D', 'I', 'B', ' ') function AVIMakeCompressedStream( var ppsCompressed : PAVISTREAM; ppsSource : PAVISTREAM; lpOptions : PAVICOMPRESSOPTIONS; pclsidHandler : PCLSID ): HResult; stdcall; // Non-portable: uses variable number of params // EXTERN_C HRESULT CDECL AVISaveA (LPCSTR szFile, // CLSID FAR *pclsidHandler, // AVISAVECALLBACK lpfnCallback, // int nStreams, // PAVISTREAM pfile, // LPAVICOMPRESSOPTIONS lpOptions, // ...); function AVISaveVA( szFile : LPCSTR; pclsidHandler : PCLSID; lpfnCallback : TAVISAVECALLBACK; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): HResult; stdcall; // Non-portable: uses variable number of params // EXTERN_C HRESULT CDECL AVISaveW (LPCWSTR szFile, // CLSID FAR *pclsidHandler, // AVISAVECALLBACK lpfnCallback, // int nStreams, // PAVISTREAM pfile, // LPAVICOMPRESSOPTIONS lpOptions, // ...); function AVISaveVW( szFile : LPCWSTR; pclsidHandler : PCLSID; lpfnCallback : TAVISAVECALLBACK; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): HResult; stdcall; // #define AVISave AVISaveA function AVISaveV( szFile : LPCSTR; pclsidHandler : PCLSID; lpfnCallback : TAVISAVECALLBACK; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): HResult; stdcall; // AVISaveVA function AVISaveOptions( hwnd : HWND; uiFlags : UINT; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): BOOL; stdcall; function AVISaveOptionsFree(nStreams: int; var plpOptions: PAVICOMPRESSOPTIONS): HResult; stdcall; {-- FLAGS FOR uiFlags --------------------------------------------------------} // Same as the flags for ICCompressorChoose (see compman.h) // These determine what the compression options dialog for video streams // will look like. function AVIBuildFilterW(lpszFilter: LPWSTR; cbFilter: DWORD; fSaving: BOOL): HResult; stdcall; function AVIBuildFilterA(lpszFilter: LPSTR; cbFilter: DWORD; fSaving: BOOL): HResult; stdcall; function AVIBuildFilter(lpszFilter: LPSTR; cbFilter: DWORD; fSaving: BOOL): HResult; stdcall; // AVIBuildFilterA function AVIMakeFileFromStreams(var ppfile: PAVIFILE; nStreams: int; var papStreams: PAVISTREAM): HResult; stdcall; function AVIMakeStreamFromClipboard(cfFormat: UINT; hGlobal: THANDLE; var ppstream: PAVISTREAM): HResult; stdcall; {-- Clipboard routines -------------------------------------------------------} function AVIPutFileOnClipboard(pf: PAVIFILE): HResult; stdcall; function AVIGetFromClipboard(var lppf: PAVIFILE): HResult; stdcall; function AVIClearClipboard: HResult; stdcall; {-- Editing routines ---------------------------------------------------------} function CreateEditableStream(var ppsEditable: PAVISTREAM; psSource: PAVISTREAM): HResult; stdcall; function EditStreamCut(pavi: PAVISTREAM; plStart, plLength: PDWORD; var ppResult: PAVISTREAM): HResult; stdcall; function EditStreamCopy(pavi: PAVISTREAM; plStart, plLength: PDWORD; var ppResult: PAVISTREAM): HResult; stdcall; function EditStreamPaste(pavi: PAVISTREAM; plPos, plLength: PDWORD; pstream: PAVISTREAM; lStart, lEnd: DWORD): HResult; stdcall; function EditStreamClone(pavi: PAVISTREAM; var ppResult: PAVISTREAM): HResult; stdcall; function EditStreamSetNameA(pavi: PAVISTREAM; lpszName: LPCSTR): HResult; stdcall; function EditStreamSetNameW(pavi: PAVISTREAM; lpszName: LPCWSTR): HResult; stdcall; function EditStreamSetInfoW(pavi: PAVISTREAM; lpInfo: PAVISTREAMINFOW; cbInfo: DWORD): HResult; stdcall; function EditStreamSetInfoA(pavi: PAVISTREAM; lpInfo: PAVISTREAMINFOA; cbInfo: DWORD): HResult; stdcall; function EditStreamSetInfo(pavi: PAVISTREAM; lpInfo: PAVISTREAMINFOA; cbInfo: DWORD): HResult; stdcall; // EditStreamSetInfoA function EditStreamSetName(pavi: PAVISTREAM; lpszName: LPCSTR): HResult; stdcall; // EditStreamSetNameA {-- Error handling -----------------------------------------------------------} const AVIERR_OK = 0; // !!! Questions to be answered: // How can you get a string form of these errors? // Which of these errors should be replaced by errors in SCODE.H? const AVIERR_UNSUPPORTED = $80044065; // MAKE_AVIERR(101) AVIERR_BADFORMAT = $80044066; // MAKE_AVIERR(102) AVIERR_MEMORY = $80044067; // MAKE_AVIERR(103) AVIERR_INTERNAL = $80044068; // MAKE_AVIERR(104) AVIERR_BADFLAGS = $80044069; // MAKE_AVIERR(105) AVIERR_BADPARAM = $8004406A; // MAKE_AVIERR(106) AVIERR_BADSIZE = $8004406B; // MAKE_AVIERR(107) AVIERR_BADHANDLE = $8004406C; // MAKE_AVIERR(108) AVIERR_FILEREAD = $8004406D; // MAKE_AVIERR(109) AVIERR_FILEWRITE = $8004406E; // MAKE_AVIERR(110) AVIERR_FILEOPEN = $8004406F; // MAKE_AVIERR(111) AVIERR_COMPRESSOR = $80044070; // MAKE_AVIERR(112) AVIERR_NOCOMPRESSOR = $80044071; // MAKE_AVIERR(113) AVIERR_READONLY = $80044072; // MAKE_AVIERR(114) AVIERR_NODATA = $80044073; // MAKE_AVIERR(115) AVIERR_BUFFERTOOSMALL = $80044074; // MAKE_AVIERR(116) AVIERR_CANTCOMPRESS = $80044075; // MAKE_AVIERR(117) AVIERR_USERABORT = $800440C6; // MAKE_AVIERR(198) AVIERR_ERROR = $800440C7; // MAKE_AVIERR(199) {== MCIWnd - Window class for MCI objects ====================================} // // MCIWnd // // MCIWnd window class header file. // // the MCIWnd window class is a window class for controling MCI devices // MCI devices include, wave files, midi files, AVI Video, cd audio, // vcr, video disc, and others.. // // to learn more about MCI and mci command sets see the // "Microsoft Multimedia Programmers's guide" in the Win31 SDK // // the easiest use of the MCIWnd class is like so: // // hwnd = MCIWndCreate(hwndParent, hInstance, 0, "chimes.wav"); // ... // MCIWndPlay(hwnd); // MCIWndStop(hwnd); // MCIWndPause(hwnd); // .... // MCIWndDestroy(hwnd); // // this will create a window with a play/pause, stop and a playbar // and start the wave file playing. // // mciwnd.h defines macros for all the most common MCI commands, but // any string command can be used if needed. // // Note: unlike the mciSendString() API, no alias or file name needs // to be specifed, since the device to use is implied by the window handle. // // MCIWndSendString(hwnd, "setaudio stream to 2"); // // (C) Copyright Microsoft Corp. 1991-1995. All rights reserved. // // WIN32: // // MCIWnd supports both ansi and unicode interfaces. For any message that // takes or returns a text string, two versions of the message are defined, // appended with A or W for Ansi or Wide Char. The message or api itself // is defined to be one or other of these depending on whether you have // UNICODE defined in your application. // Thus for the api MCIWndCreate, there are in fact two apis, // MCIWndCreateA and MCIWndCreateW. If you call MCIWndCreate, this will be // re-routed to MCIWndCreateA unless UNICODE is defined when building your // application. In any one application, you can mix calls to the // Ansi and Unicode entrypoints. // // If you use SendMessage instead of the macros below such as MCIWndOpen(), // you will see that the messages have changed for WIN32, to support Ansi // and Unicode entrypoints. In particular, MCI_OPEN has been replaced by // MCWNDM_OPENA, or MCIWNDM_OPENW (MCIWNDM_OPEN is defined to be one or // other of these). // // Also, note that the WIN32 implementation of MCIWnd uses UNICODE // so all apis and messages supporting ANSI strings do so by mapping them // UNICODE strings and then calling the corresponding UNICODE entrypoint. // function MCIWndSM(hWnd: HWND; Msg: UINT; wParam: WPARAM; lParam: LPARAM): DWORD; const MCIWND_WINDOW_CLASS = 'MCIWndClass' ; function MCIWndCreateA(hwndParent: HWND; hInstance: HINST; dwStyle: DWORd; szFile: LPCSTR): HWND; cdecl; function MCIWndCreateW(hwndParent: HWND; hInstance: HINST; dwStyle: DWORd; szFile: LPCWSTR): HWND; cdecl; function MCIWndCreate(hwndParent: HWND; hInstance: HINST; dwStyle: DWORd; szFile: LPCSTR): HWND; cdecl; // MCIWndCreateA function MCIWndRegisterClass: BOOL; cdecl; {-- Flags for the MCIWndOpen command -----------------------------------------} const MCIWNDOPENF_NEW = $0001; // open a new file {-- Window styles ------------------------------------------------------------} MCIWNDF_NOAUTOSIZEWINDOW = $0001; // when movie size changes MCIWNDF_NOPLAYBAR = $0002; // no toolbar MCIWNDF_NOAUTOSIZEMOVIE = $0004; // when window size changes MCIWNDF_NOMENU = $0008; // no popup menu from RBUTTONDOWN MCIWNDF_SHOWNAME = $0010; // show name in caption MCIWNDF_SHOWPOS = $0020; // show position in caption MCIWNDF_SHOWMODE = $0040; // show mode in caption MCIWNDF_SHOWALL = $0070; // show all MCIWNDF_NOTIFYMODE = $0100; // tell parent of mode change MCIWNDF_NOTIFYPOS = $0200; // tell parent of pos change MCIWNDF_NOTIFYSIZE = $0400; // tell parent of size change MCIWNDF_NOTIFYERROR = $1000; // tell parent of an error MCIWNDF_NOTIFYALL = $1F00; // tell all MCIWNDF_NOTIFYANSI = $0080; // The MEDIA notification includes a text string. // To receive notifications in ANSI instead of unicode set the // MCIWNDF_NOTIFYANSI style bit. The macro below includes this bit // by default unless you define UNICODE in your application. MCIWNDF_NOTIFYMEDIAA = $0880; // tell parent of media change MCIWNDF_NOTIFYMEDIAW = $0800; // tell parent of media change MCIWNDF_NOTIFYMEDIA = MCIWNDF_NOTIFYMEDIAA; MCIWNDF_RECORD = $2000; // Give a record button MCIWNDF_NOERRORDLG = $4000; // Show Error Dlgs for MCI cmds? MCIWNDF_NOOPEN = $8000; // Don't allow user to open things {-- Can macros ---------------------------------------------------------------} function MCIWndCanPlay(hwnd: HWND): BOOL; function MCIWndCanRecord(hwnd: HWND): BOOL; function MCIWndCanSave(hwnd: HWND): BOOL; function MCIWndCanWindow(hwnd: HWND): BOOL; function MCIWndCanEject(hwnd: HWND): BOOL; function MCIWndCanConfig(hwnd: HWND): BOOL; function MCIWndPaletteKick(hwnd: HWND): BOOL; function MCIWndSave(hwnd: HWND; szFile: LPCSTR): DWORD; function MCIWndSaveDialog(hwnd: HWND): DWORD; // If you dont give a device it will use the current device.... function MCIWndNew(hwnd: HWND; lp: PVOID): DWORD; function MCIWndRecord(hwnd: HWND): DWORD; function MCIWndOpen(hwnd: HWND; sz: LPCSTR; f: BOOL): DWORD; function MCIWndOpenDialog(hwnd: HWND): DWORD; function MCIWndClose(hwnd: HWND): DWORD; function MCIWndPlay(hwnd: HWND): DWORD; function MCIWndStop(hwnd: HWND): DWORD; function MCIWndPause(hwnd: HWND): DWORD; function MCIWndResume(hwnd: HWND): DWORD; function MCIWndSeek(hwnd: HWND; lPos: DWORD): DWORD; function MCIWndEject(hwnd: HWND): DWORD; function MCIWndHome(hwnd: HWND): DWORD; function MCIWndEnd(hwnd: HWND): DWORD; function MCIWndGetSource(hwnd: HWND; prc: PRECT): DWORD; function MCIWndPutSource(hwnd: HWND; prc: PRECT): DWORD; function MCIWndGetDest(hwnd: HWND; prc: PRECT): DWORD; function MCIWndPutDest(hwnd: HWND; prc: PRECT): DWORD; function MCIWndPlayReverse(hwnd: HWND): DWORD; function MCIWndPlayFrom(hwnd: HWND; lPos: DWORD): DWORD; function MCIWndPlayTo(hwnd: HWND; lPos: DWORD): DWORD; function MCIWndPlayFromTo(hwnd: HWND; lStart, lEnd: DWORD): DWORD; function MCIWndGetDeviceID(hwnd: HWND): UINT; function MCIWndGetAlias(hwnd: HWND): UINT; function MCIWndGetMode(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; function MCIWndGetPosition(hwnd: HWND): DWORD; function MCIWndGetPositionString(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; function MCIWndGetStart(hwnd: HWND): DWORD; function MCIWndGetLength(hwnd: HWND): DWORD; function MCIWndGetEnd(hwnd: HWND): DWORD; function MCIWndStep(hwnd: HWND; n: DWORD): DWORD; procedure MCIWndDestroy(hwnd: HWND); procedure MCIWndSetZoom(hwnd: HWND; iZoom: UINT); function MCIWndGetZoom(hwnd: HWND): UINT; function MCIWndSetVolume(hwnd: HWND; iVol: UINT): DWORD; function MCIWndGetVolume(hwnd: HWND): DWORD; function MCIWndSetSpeed(hwnd: HWND; iSpeed: UINT): DWORD; function MCIWndGetSpeed(hwnd: HWND): DWORD; function MCIWndSetTimeFormat(hwnd: HWND; lp: LPCSTR): DWORD; function MCIWndGetTimeFormat(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; procedure MCIWndValidateMedia(hwnd: HWND); procedure MCIWndSetRepeat(hwnd: HWND; f: BOOL); function MCIWndGetRepeat(hwnd: HWND): BOOL; function MCIWndUseFrames(hwnd: HWND): DWORD; function MCIWndUseTime(hwnd: HWND): DWORD; procedure MCIWndSetActiveTimer(hwnd: HWND; active: UINT); procedure MCIWndSetInactiveTimer(hwnd: HWND; inactive: UINT); procedure MCIWndSetTimers(hwnd: HWND; active, inactive: UINT); function MCIWndGetActiveTimer(hwnd: HWND): UINT; function MCIWndGetInactiveTimer(hwnd: HWND): UINT; function MCIWndRealize(hwnd: HWND; fBkgnd: BOOL): DWORD; function MCIWndSendString(hwnd: HWND; sz: LPCSTR): DWORD; function MCIWndReturnString(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; function MCIWndGetError(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; // #define MCIWndActivate(hwnd, f) (void)MCIWndSM(hwnd, WM_ACTIVATE, (WPARAM)(BOOL)(f), 0) function MCIWndGetPalette(hwnd: HWND): HPALETTE; function MCIWndSetPalette(hwnd: HWND; hpal: HPALETTE): DWORD; function MCIWndGetFileName(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; function MCIWndGetDevice(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; function MCIWndGetStyles(hwnd: HWND): UINT; function MCIWndChangeStyles(hwnd: HWND; mask: UINT; value: DWORD): DWORD; type PUnknown = ^IUnknown; function MCIWndOpenInterface(hwnd: HWND; pUnk: PUnknown): DWORD; function MCIWndSetOwner(hwnd: HWND; hwndP: HWND): DWORD; {-- Messages an app will send to MCIWND --------------------------------------} // all the text-related messages are defined out of order above (they need // to be defined before the MCIWndOpen() macros const MCIWNDM_GETDEVICEID = WM_USER + 100; MCIWNDM_GETSTART = WM_USER + 103; MCIWNDM_GETLENGTH = WM_USER + 104; MCIWNDM_GETEND = WM_USER + 105; MCIWNDM_EJECT = WM_USER + 107; MCIWNDM_SETZOOM = WM_USER + 108; MCIWNDM_GETZOOM = WM_USER + 109; MCIWNDM_SETVOLUME = WM_USER + 110; MCIWNDM_GETVOLUME = WM_USER + 111; MCIWNDM_SETSPEED = WM_USER + 112; MCIWNDM_GETSPEED = WM_USER + 113; MCIWNDM_SETREPEAT = WM_USER + 114; MCIWNDM_GETREPEAT = WM_USER + 115; MCIWNDM_REALIZE = WM_USER + 118; MCIWNDM_VALIDATEMEDIA = WM_USER + 121; MCIWNDM_PLAYFROM = WM_USER + 122; MCIWNDM_PLAYTO = WM_USER + 123; MCIWNDM_GETPALETTE = WM_USER + 126; MCIWNDM_SETPALETTE = WM_USER + 127; MCIWNDM_SETTIMERS = WM_USER + 129; MCIWNDM_SETACTIVETIMER = WM_USER + 130; MCIWNDM_SETINACTIVETIMER = WM_USER + 131; MCIWNDM_GETACTIVETIMER = WM_USER + 132; MCIWNDM_GETINACTIVETIMER = WM_USER + 133; MCIWNDM_CHANGESTYLES = WM_USER + 135; MCIWNDM_GETSTYLES = WM_USER + 136; MCIWNDM_GETALIAS = WM_USER + 137; MCIWNDM_PLAYREVERSE = WM_USER + 139; MCIWNDM_GET_SOURCE = WM_USER + 140; MCIWNDM_PUT_SOURCE = WM_USER + 141; MCIWNDM_GET_DEST = WM_USER + 142; MCIWNDM_PUT_DEST = WM_USER + 143; MCIWNDM_CAN_PLAY = WM_USER + 144; MCIWNDM_CAN_WINDOW = WM_USER + 145; MCIWNDM_CAN_RECORD = WM_USER + 146; MCIWNDM_CAN_SAVE = WM_USER + 147; MCIWNDM_CAN_EJECT = WM_USER + 148; MCIWNDM_CAN_CONFIG = WM_USER + 149; MCIWNDM_PALETTEKICK = WM_USER + 150; MCIWNDM_OPENINTERFACE = WM_USER + 151; MCIWNDM_SETOWNER = WM_USER + 152; {-- Define both A and W messages ---------------------------------------------} MCIWNDM_SENDSTRINGA = WM_USER + 101; MCIWNDM_GETPOSITIONA = WM_USER + 102; MCIWNDM_GETMODEA = WM_USER + 106; MCIWNDM_SETTIMEFORMATA = WM_USER + 119; MCIWNDM_GETTIMEFORMATA = WM_USER + 120; MCIWNDM_GETFILENAMEA = WM_USER + 124; MCIWNDM_GETDEVICEA = WM_USER + 125; MCIWNDM_GETERRORA = WM_USER + 128; MCIWNDM_NEWA = WM_USER + 134; MCIWNDM_RETURNSTRINGA = WM_USER + 138; MCIWNDM_OPENA = WM_USER + 153; MCIWNDM_SENDSTRINGW = WM_USER + 201; MCIWNDM_GETPOSITIONW = WM_USER + 202; MCIWNDM_GETMODEW = WM_USER + 206; MCIWNDM_SETTIMEFORMATW = WM_USER + 219; MCIWNDM_GETTIMEFORMATW = WM_USER + 220; MCIWNDM_GETFILENAMEW = WM_USER + 224; MCIWNDM_GETDEVICEW = WM_USER + 225; MCIWNDM_GETERRORW = WM_USER + 228; MCIWNDM_NEWW = WM_USER + 234; MCIWNDM_RETURNSTRINGW = WM_USER + 238; MCIWNDM_OPENW = WM_USER + 252; {-- Map defaults to A --------------------------------------------------------} MCIWNDM_SENDSTRING = MCIWNDM_SENDSTRINGA; MCIWNDM_GETPOSITION = MCIWNDM_GETPOSITIONA; MCIWNDM_GETMODE = MCIWNDM_GETMODEA; MCIWNDM_SETTIMEFORMAT = MCIWNDM_SETTIMEFORMATA; MCIWNDM_GETTIMEFORMAT = MCIWNDM_GETTIMEFORMATA; MCIWNDM_GETFILENAME = MCIWNDM_GETFILENAMEA; MCIWNDM_GETDEVICE = MCIWNDM_GETDEVICEA; MCIWNDM_GETERROR = MCIWNDM_GETERRORA; MCIWNDM_NEW = MCIWNDM_NEWA; MCIWNDM_RETURNSTRING = MCIWNDM_RETURNSTRINGA; MCIWNDM_OPEN = MCIWNDM_OPENA; // note that the source text for MCIWND will thus contain // support for eg MCIWNDM_SENDSTRING (both the 16-bit entrypoint and // in win32 mapped to MCIWNDM_SENDSTRINGW), and MCIWNDM_SENDSTRINGA (the // win32 ansi thunk). {-- Messages MCIWND will send to an app --------------------------------------} const MCIWNDM_NOTIFYMODE = WM_USER + 200; // wp = hwnd, lp = mode MCIWNDM_NOTIFYPOS = WM_USER + 201; // wp = hwnd, lp = pos MCIWNDM_NOTIFYSIZE = WM_USER + 202; // wp = hwnd MCIWNDM_NOTIFYMEDIA = WM_USER + 203; // wp = hwnd, lp = fn MCIWNDM_NOTIFYERROR = WM_USER + 205; // wp = hwnd, lp = error {-- Special seek values for START and END ------------------------------------} MCIWND_START = -1 ; MCIWND_END = -2 ; {== VIDEO - Video capture driver interface ===================================} type HVIDEO = THandle; PHVIDEO = ^HVIDEO; {-- Error return values ------------------------------------------------------} const DV_ERR_OK = 0; // No error DV_ERR_BASE = 1; // Error Base DV_ERR_NONSPECIFIC = DV_ERR_BASE; DV_ERR_BADFORMAT = DV_ERR_BASE + 1; // unsupported video format DV_ERR_STILLPLAYING = DV_ERR_BASE + 2; // still something playing DV_ERR_UNPREPARED = DV_ERR_BASE + 3; // header not prepared DV_ERR_SYNC = DV_ERR_BASE + 4; // device is synchronous DV_ERR_TOOMANYCHANNELS = DV_ERR_BASE + 5; // number of channels exceeded DV_ERR_NOTDETECTED = DV_ERR_BASE + 6; // HW not detected DV_ERR_BADINSTALL = DV_ERR_BASE + 7; // Can not get Profile DV_ERR_CREATEPALETTE = DV_ERR_BASE + 8; DV_ERR_SIZEFIELD = DV_ERR_BASE + 9; DV_ERR_PARAM1 = DV_ERR_BASE + 10; DV_ERR_PARAM2 = DV_ERR_BASE + 11; DV_ERR_CONFIG1 = DV_ERR_BASE + 12; DV_ERR_CONFIG2 = DV_ERR_BASE + 13; DV_ERR_FLAGS = DV_ERR_BASE + 14; DV_ERR_13 = DV_ERR_BASE + 15; DV_ERR_NOTSUPPORTED = DV_ERR_BASE + 16; // function not suported DV_ERR_NOMEM = DV_ERR_BASE + 17; // out of memory DV_ERR_ALLOCATED = DV_ERR_BASE + 18; // device is allocated DV_ERR_BADDEVICEID = DV_ERR_BASE + 19; DV_ERR_INVALHANDLE = DV_ERR_BASE + 20; DV_ERR_BADERRNUM = DV_ERR_BASE + 21; DV_ERR_NO_BUFFERS = DV_ERR_BASE + 22; // out of buffers DV_ERR_MEM_CONFLICT = DV_ERR_BASE + 23; // Mem conflict detected DV_ERR_IO_CONFLICT = DV_ERR_BASE + 24; // I/O conflict detected DV_ERR_DMA_CONFLICT = DV_ERR_BASE + 25; // DMA conflict detected DV_ERR_INT_CONFLICT = DV_ERR_BASE + 26; // Interrupt conflict detected DV_ERR_PROTECT_ONLY = DV_ERR_BASE + 27; // Can not run in standard mode DV_ERR_LASTERROR = DV_ERR_BASE + 27; DV_ERR_USER_MSG = DV_ERR_BASE + 1000; // Hardware specific errors {-- Callback messages --------------------------------------------------------} // Note that the values for all installable driver callback messages are // identical, (ie. MM_DRVM_DATA has the same value for capture drivers, // installable video codecs, and the audio compression manager). const DV_VM_OPEN = MM_DRVM_OPEN; // Obsolete messages DV_VM_CLOSE = MM_DRVM_CLOSE; DV_VM_DATA = MM_DRVM_DATA; DV_VM_ERROR = MM_DRVM_ERROR; {== Structures ===============================================================} {-- Video data block header --------------------------------------------------} type PVIDEOHDR = ^TVIDEOHDR; TVIDEOHDR = record lpData : PBYTE; // pointer to locked data buffer dwBufferLength : DWORD; // Length of data buffer dwBytesUsed : DWORD; // Bytes actually used dwTimeCaptured : DWORD; // Milliseconds from start of stream dwUser : DWORD; // for client's use dwFlags : DWORD; // assorted flags (see defines) dwReserved : array[0..3] of DWORD; // reserved for driver end; {-- dwFlags field of VIDEOHDR ------------------------------------------------} const VHDR_DONE = $00000001; // Done bit VHDR_PREPARED = $00000002; // Set if this header has been prepared VHDR_INQUEUE = $00000004; // Reserved for driver VHDR_KEYFRAME = $00000008; // Key Frame {-- Channel capabilities structure -------------------------------------------} type PCHANNEL_CAPS = ^TCHANNEL_CAPS; TCHANNEL_CAPS = record dwFlags : DWORD; // Capability flags dwSrcRectXMod : DWORD; // Granularity of src rect in x dwSrcRectYMod : DWORD; // Granularity of src rect in y dwSrcRectWidthMod : DWORD; // Granularity of src rect width dwSrcRectHeightMod : DWORD; // Granularity of src rect height dwDstRectXMod : DWORD; // Granularity of dst rect in x dwDstRectYMod : DWORD; // Granularity of dst rect in y dwDstRectWidthMod : DWORD; // Granularity of dst rect width dwDstRectHeightMod : DWORD; // Granularity of dst rect height end; {-- dwFlags of CHANNEL_CAPS --------------------------------------------------} const VCAPS_OVERLAY = $00000001; // overlay channel VCAPS_SRC_CAN_CLIP = $00000002; // src rect can clip VCAPS_DST_CAN_CLIP = $00000004; // dst rect can clip VCAPS_CAN_SCALE = $00000008; // allows src != dst {== API flags ================================================================} {-- Types of channels to open with the videoOpen function --------------------} const VIDEO_EXTERNALIN = $0001; VIDEO_EXTERNALOUT = $0002; VIDEO_IN = $0004; VIDEO_OUT = $0008; {-- Is a driver dialog available for this channel ----------------------------} VIDEO_DLG_QUERY = $0010; {-- videoConfigure (both GET and SET) ----------------------------------------} VIDEO_CONFIGURE_QUERY = $8000; {-- videoConfigure (SET only) ------------------------------------------------} VIDEO_CONFIGURE_SET = $1000; {-- videoConfigure (GET only) ------------------------------------------------} VIDEO_CONFIGURE_GET = $2000; VIDEO_CONFIGURE_QUERYSIZE = $0001; VIDEO_CONFIGURE_CURRENT = $0010; VIDEO_CONFIGURE_NOMINAL = $0020; VIDEO_CONFIGURE_MIN = $0040; VIDEO_CONFIGURE_MAX = $0080; {== Configure messages =======================================================} DVM_USER = $4000; DVM_CONFIGURE_START = $1000; DVM_CONFIGURE_END = $1FFF; DVM_PALETTE = DVM_CONFIGURE_START + 1; DVM_FORMAT = DVM_CONFIGURE_START + 2; DVM_PALETTERGB555 = DVM_CONFIGURE_START + 3; DVM_SRC_RECT = DVM_CONFIGURE_START + 4; DVM_DST_RECT = DVM_CONFIGURE_START + 5; {== AVICAP - Window class for AVI capture ====================================} function AVICapSM(hwnd: HWND; m: UINT; w: WPARAM; l: LPARAM): DWORD; {-- Window messages WM_CAP... which can be sent to an AVICAP window ----------} // UNICODE // // The Win32 version of AVICAP on NT supports UNICODE applications: // for each API or message that takes a char or string parameter, there are // two versions, ApiNameA and ApiNameW. The default name ApiName is #defined // to one or other depending on whether UNICODE is defined. Apps can call // the A and W apis directly, and mix them. // // The 32-bit AVICAP on NT uses unicode exclusively internally. // ApiNameA() will be implemented as a call to ApiNameW() together with // translation of strings. // Defines start of the message range const WM_CAP_START = WM_USER; WM_CAP_UNICODE_START = WM_USER + 100; WM_CAP_GET_CAPSTREAMPTR = WM_CAP_START + 1; WM_CAP_SET_CALLBACK_ERRORW = WM_CAP_UNICODE_START + 2; WM_CAP_SET_CALLBACK_STATUSW = WM_CAP_UNICODE_START + 3; WM_CAP_SET_CALLBACK_ERRORA = WM_CAP_START + 2; WM_CAP_SET_CALLBACK_STATUSA = WM_CAP_START + 3; WM_CAP_SET_CALLBACK_ERROR = WM_CAP_SET_CALLBACK_ERRORA; WM_CAP_SET_CALLBACK_STATUS = WM_CAP_SET_CALLBACK_STATUSA; WM_CAP_SET_CALLBACK_YIELD = WM_CAP_START + 4; WM_CAP_SET_CALLBACK_FRAME = WM_CAP_START + 5; WM_CAP_SET_CALLBACK_VIDEOSTREAM = WM_CAP_START + 6; WM_CAP_SET_CALLBACK_WAVESTREAM = WM_CAP_START + 7; WM_CAP_GET_USER_DATA = WM_CAP_START + 8; WM_CAP_SET_USER_DATA = WM_CAP_START + 9; WM_CAP_DRIVER_CONNECT = WM_CAP_START + 10; WM_CAP_DRIVER_DISCONNECT = WM_CAP_START + 11; WM_CAP_DRIVER_GET_NAMEA = WM_CAP_START + 12; WM_CAP_DRIVER_GET_VERSIONA = WM_CAP_START + 13; WM_CAP_DRIVER_GET_NAMEW = WM_CAP_UNICODE_START + 12; WM_CAP_DRIVER_GET_VERSIONW = WM_CAP_UNICODE_START + 13; WM_CAP_DRIVER_GET_NAME = WM_CAP_DRIVER_GET_NAMEA; WM_CAP_DRIVER_GET_VERSION = WM_CAP_DRIVER_GET_VERSIONA; WM_CAP_DRIVER_GET_CAPS = WM_CAP_START + 14; WM_CAP_FILE_SET_CAPTURE_FILEA = WM_CAP_START + 20; WM_CAP_FILE_GET_CAPTURE_FILEA = WM_CAP_START + 21; WM_CAP_FILE_SAVEASA = WM_CAP_START + 23; WM_CAP_FILE_SAVEDIBA = WM_CAP_START + 25; WM_CAP_FILE_SET_CAPTURE_FILEW = WM_CAP_UNICODE_START + 20; WM_CAP_FILE_GET_CAPTURE_FILEW = WM_CAP_UNICODE_START + 21; WM_CAP_FILE_SAVEASW = WM_CAP_UNICODE_START + 23; WM_CAP_FILE_SAVEDIBW = WM_CAP_UNICODE_START + 25; WM_CAP_FILE_SET_CAPTURE_FILE = WM_CAP_FILE_SET_CAPTURE_FILEA; WM_CAP_FILE_GET_CAPTURE_FILE = WM_CAP_FILE_GET_CAPTURE_FILEA; WM_CAP_FILE_SAVEAS = WM_CAP_FILE_SAVEASA; WM_CAP_FILE_SAVEDIB = WM_CAP_FILE_SAVEDIBA; // out of order to save on ifdefs WM_CAP_FILE_ALLOCATE = WM_CAP_START + 22; WM_CAP_FILE_SET_INFOCHUNK = WM_CAP_START + 24; WM_CAP_EDIT_COPY = WM_CAP_START + 30; WM_CAP_SET_AUDIOFORMAT = WM_CAP_START + 35; WM_CAP_GET_AUDIOFORMAT = WM_CAP_START + 36; WM_CAP_DLG_VIDEOFORMAT = WM_CAP_START + 41; WM_CAP_DLG_VIDEOSOURCE = WM_CAP_START + 42; WM_CAP_DLG_VIDEODISPLAY = WM_CAP_START + 43; WM_CAP_GET_VIDEOFORMAT = WM_CAP_START + 44; WM_CAP_SET_VIDEOFORMAT = WM_CAP_START + 45; WM_CAP_DLG_VIDEOCOMPRESSION = WM_CAP_START + 46; WM_CAP_SET_PREVIEW = WM_CAP_START + 50; WM_CAP_SET_OVERLAY = WM_CAP_START + 51; WM_CAP_SET_PREVIEWRATE = WM_CAP_START + 52; WM_CAP_SET_SCALE = WM_CAP_START + 53; WM_CAP_GET_STATUS = WM_CAP_START + 54; WM_CAP_SET_SCROLL = WM_CAP_START + 55; WM_CAP_GRAB_FRAME = WM_CAP_START + 60; WM_CAP_GRAB_FRAME_NOSTOP = WM_CAP_START + 61; WM_CAP_SEQUENCE = WM_CAP_START + 62; WM_CAP_SEQUENCE_NOFILE = WM_CAP_START + 63; WM_CAP_SET_SEQUENCE_SETUP = WM_CAP_START + 64; WM_CAP_GET_SEQUENCE_SETUP = WM_CAP_START + 65; WM_CAP_SET_MCI_DEVICEA = WM_CAP_START + 66; WM_CAP_GET_MCI_DEVICEA = WM_CAP_START + 67; WM_CAP_SET_MCI_DEVICEW = WM_CAP_UNICODE_START + 66; WM_CAP_GET_MCI_DEVICEW = WM_CAP_UNICODE_START + 67; WM_CAP_SET_MCI_DEVICE = WM_CAP_SET_MCI_DEVICEA; WM_CAP_GET_MCI_DEVICE = WM_CAP_GET_MCI_DEVICEA; WM_CAP_STOP = WM_CAP_START + 68; WM_CAP_ABORT = WM_CAP_START + 69; WM_CAP_SINGLE_FRAME_OPEN = WM_CAP_START + 70; WM_CAP_SINGLE_FRAME_CLOSE = WM_CAP_START + 71; WM_CAP_SINGLE_FRAME = WM_CAP_START + 72; WM_CAP_PAL_OPENA = WM_CAP_START + 80; WM_CAP_PAL_SAVEA = WM_CAP_START + 81; WM_CAP_PAL_OPENW = WM_CAP_UNICODE_START + 80; WM_CAP_PAL_SAVEW = WM_CAP_UNICODE_START + 81; WM_CAP_PAL_OPEN = WM_CAP_PAL_OPENA; WM_CAP_PAL_SAVE = WM_CAP_PAL_SAVEA; WM_CAP_PAL_PASTE = WM_CAP_START + 82; WM_CAP_PAL_AUTOCREATE = WM_CAP_START + 83; WM_CAP_PAL_MANUALCREATE = WM_CAP_START + 84; // Following added post VFW 1.1 WM_CAP_SET_CALLBACK_CAPCONTROL = WM_CAP_START + 85; // Defines end of the message range WM_CAP_UNICODE_END = WM_CAP_PAL_SAVEW; WM_CAP_END = WM_CAP_UNICODE_END; {-- Callback definitions -----------------------------------------------------} type TCAPYIELDCALLBACK = function(hWnd: HWND): DWORD; stdcall; TCAPSTATUSCALLBACKW = function(hWnd: HWND; nID: int; lpsz: LPCWSTR): DWORD; stdcall; TCAPERRORCALLBACKW = function(hWnd: HWND; nID: int; lpsz: LPCWSTR): DWORD; stdcall; TCAPSTATUSCALLBACKA = function(hWnd: HWND; nID: int; lpsz: LPCSTR): DWORD; stdcall; TCAPERRORCALLBACKA = function(hWnd: HWND; nID: int; lpsz: LPCSTR): DWORD; stdcall; TCAPSTATUSCALLBACK = TCAPSTATUSCALLBACKA; TCAPERRORCALLBACK = TCAPERRORCALLBACKA; TCAPVIDEOCALLBACK = function(hWnd: HWND; lpVHdr: PVIDEOHDR): DWORD; stdcall; TCAPWAVECALLBACK = function(hWnd: HWND; lpWHdr: PWAVEHDR): DWORD; stdcall; TCAPCONTROLCALLBACK = function(hWnd: HWND; nState: int): DWORD; stdcall; {-- Structures ---------------------------------------------------------------} type PCAPDRIVERCAPS = ^TCAPDRIVERCAPS; TCAPDRIVERCAPS = record wDeviceIndex : UINT; // Driver index in system.ini fHasOverlay : BOOL; // Can device overlay? fHasDlgVideoSource : BOOL; // Has Video source dlg? fHasDlgVideoFormat : BOOL; // Has Format dlg? fHasDlgVideoDisplay : BOOL; // Has External out dlg? fCaptureInitialized : BOOL; // Driver ready to capture? fDriverSuppliesPalettes : BOOL; // Can driver make palettes? // following always NULL on Win32. hVideoIn : THANDLE; // Driver In channel hVideoOut : THANDLE; // Driver Out channel hVideoExtIn : THANDLE; // Driver Ext In channel hVideoExtOut : THANDLE; // Driver Ext Out channel end; PCAPSTATUS = ^TCAPSTATUS; TCAPSTATUS = record uiImageWidth : UINT ; // Width of the image uiImageHeight : UINT ; // Height of the image fLiveWindow : BOOL ; // Now Previewing video? fOverlayWindow : BOOL ; // Now Overlaying video? fScale : BOOL ; // Scale image to client? ptScroll : TPOINT ; // Scroll position fUsingDefaultPalette : BOOL ; // Using default driver palette? fAudioHardware : BOOL ; // Audio hardware present? fCapFileExists : BOOL ; // Does capture file exist? dwCurrentVideoFrame : DWORD ; // # of video frames cap'td dwCurrentVideoFramesDropped : DWORD ; // # of video frames dropped dwCurrentWaveSamples : DWORD ; // # of wave samples cap'td dwCurrentTimeElapsedMS : DWORD ; // Elapsed capture duration hPalCurrent : HPALETTE; // Current palette in use fCapturingNow : BOOL ; // Capture in progress? dwReturn : DWORD ; // Error value after any operation wNumVideoAllocated : UINT ; // Actual number of video buffers wNumAudioAllocated : UINT ; // Actual number of audio buffers end; // Default values in parenthesis PCAPTUREPARMS = ^TCAPTUREPARMS; TCAPTUREPARMS = record dwRequestMicroSecPerFrame : DWORD ; // Requested capture rate fMakeUserHitOKToCapture : BOOL ; // Show "Hit OK to cap" dlg? wPercentDropForError : UINT ; // Give error msg if > (10%) fYield : BOOL ; // Capture via background task? dwIndexSize : DWORD ; // Max index size in frames (32K) wChunkGranularity : UINT ; // Junk chunk granularity (2K) fUsingDOSMemory : BOOL ; // Use DOS buffers? wNumVideoRequested : UINT ; // # video buffers, If 0, autocalc fCaptureAudio : BOOL ; // Capture audio? wNumAudioRequested : UINT ; // # audio buffers, If 0, autocalc vKeyAbort : UINT ; // Virtual key causing abort fAbortLeftMouse : BOOL ; // Abort on left mouse? fAbortRightMouse : BOOL ; // Abort on right mouse? fLimitEnabled : BOOL ; // Use wTimeLimit? wTimeLimit : UINT ; // Seconds to capture fMCIControl : BOOL ; // Use MCI video source? fStepMCIDevice : BOOL ; // Step MCI device? dwMCIStartTime : DWORD ; // Time to start in MS dwMCIStopTime : DWORD ; // Time to stop in MS fStepCaptureAt2x : BOOL ; // Perform spatial averaging 2x wStepCaptureAverageFrames : UINT ; // Temporal average n Frames dwAudioBufferSize : DWORD ; // Size of audio bufs (0 = default) fDisableWriteCache : BOOL ; // Attempt to disable write cache AVStreamMaster : UINT ; // Which stream controls length? end; {-- AVStreamMaster -----------------------------------------------------------} // Since Audio and Video streams generally use non-synchronized capture // clocks, this flag determines whether the audio stream is to be considered // the master or controlling clock when writing the AVI file: // // AVSTREAMMASTER_AUDIO - Audio is master, video frame duration is forced // to match audio duration (VFW 1.0, 1.1 default) // AVSTREAMMASTER_NONE - No master, audio and video streams may be of // different lengths const AVSTREAMMASTER_AUDIO = 0; // Audio master (VFW 1.0, 1.1) AVSTREAMMASTER_NONE = 1; // No master type PCAPINFOCHUNK = ^TCAPINFOCHUNK; TCAPINFOCHUNK = record fccInfoID : FOURCC; // Chunk ID, "ICOP" for copyright lpData : PVOID; // pointer to data cbData : DWORD; // size of lpData end; {-- CapControlCallback states ------------------------------------------------} const CONTROLCALLBACK_PREROLL = 1; // Waiting to start capture CONTROLCALLBACK_CAPTURING = 2; // Now capturing {-- Message crackers for above -----------------------------------------------} // message wrapper macros are defined for the default messages only. Apps // that wish to mix Ansi and UNICODE message sending will have to // reference the _A and _W messages directly function capSetCallbackOnError(hwnd: HWND; fpProc: TCAPERRORCALLBACK): BOOL; function capSetCallbackOnStatus(hwnd: HWND; fpProc: TCAPSTATUSCALLBACK): BOOL; function capSetCallbackOnYield(hwnd: HWND; fpProc: TCAPYIELDCALLBACK): BOOL; function capSetCallbackOnFrame(hwnd: HWND; fpProc: TCAPVIDEOCALLBACK): BOOL; function capSetCallbackOnVideoStream(hwnd: HWND; fpProc: TCAPVIDEOCALLBACK): BOOL; function capSetCallbackOnWaveStream(hwnd: HWND; fpProc: TCAPWAVECALLBACK): BOOL; function capSetCallbackOnCapControl(hwnd: HWND; fpProc: TCAPCONTROLCALLBACK): BOOL; function capSetUserData(hwnd: HWND; lUser: DWORD): BOOL; function capGetUserData(hwnd: HWND): DWORD; function capDriverConnect(hwnd: HWND; i: INT): BOOL; function capDriverDisconnect(hwnd: HWND): BOOL; function capDriverGetName(hwnd: HWND; szName: LPSTR; wSize: WORD): BOOL; function capDriverGetVersion(hwnd: HWND; szVer: LPSTR; wSize: WORD): BOOL; function capDriverGetCaps(hwnd: HWND; s: PCAPDRIVERCAPS; wSize: WORD): BOOL; function capFileSetCaptureFile(hwnd: HWND; szName: LPCSTR): BOOL; function capFileGetCaptureFile(hwnd: HWND; szName: LPSTR; wSize: WORD): BOOL; function capFileAlloc(hwnd: HWND; dwSize: DWORD): BOOL; function capFileSaveAs(hwnd: HWND; szName: LPCSTR): BOOL; function capFileSetInfoChunk(hwnd: HWND; lpInfoChunk: PCAPINFOCHUNK): BOOL; function capFileSaveDIB(hwnd: HWND; szName: LPCSTR): BOOL; function capEditCopy(hwnd: HWND): BOOL; function capSetAudioFormat(hwnd: HWND; s: PWAVEFORMATEX; wSize: WORD): BOOL; function capGetAudioFormat(hwnd: HWND; s: PWAVEFORMATEX; wSize: WORD): DWORD; function capGetAudioFormatSize(hwnd: HWND): DWORD; function capDlgVideoFormat(hwnd: HWND): BOOL; function capDlgVideoSource(hwnd: HWND): BOOL; function capDlgVideoDisplay(hwnd: HWND): BOOL; function capDlgVideoCompression(hwnd: HWND): BOOL; function capGetVideoFormat(hwnd: HWND; s: PVOID; wSize: WORD): DWORD; function capGetVideoFormatSize(hwnd: HWND): DWORD; function capSetVideoFormat(hwnd: HWND; s: PVOID; wSize: WORD): BOOL; function capPreview(hwnd: HWND; f: BOOL): BOOL; function capPreviewRate(hwnd: HWND; wMS: WORD): BOOL; function capOverlay(hwnd: HWND; f: BOOL): BOOL; function capPreviewScale(hwnd: HWND; f: BOOL): BOOL; function capGetStatus(hwnd: HWND; s: PCAPSTATUS; wSize: WORD): BOOL; function capSetScrollPos(hwnd: HWND; lpP: PPOINT): BOOL; function capGrabFrame(hwnd: HWND): BOOL; function capGrabFrameNoStop(hwnd: HWND): BOOL; function capCaptureSequence(hwnd: HWND): BOOL; function capCaptureSequenceNoFile(hwnd: HWND): BOOL; function capCaptureStop(hwnd: HWND): BOOL; function capCaptureAbort(hwnd: HWND): BOOL; function capCaptureSingleFrameOpen(hwnd: HWND): BOOL; function capCaptureSingleFrameClose(hwnd: HWND): BOOL; function capCaptureSingleFrame(hwnd: HWND): BOOL; function capCaptureGetSetup(hwnd: HWND; s: PCAPTUREPARMS; wSize: WORD): BOOL; function capCaptureSetSetup(hwnd: HWND; s: PCAPTUREPARMS; wSize: WORD): BOOL; function capSetMCIDeviceName(hwnd: HWND; szName: LPCSTR): BOOL; function capGetMCIDeviceName(hwnd: HWND; szName: LPSTR; wSize: WORD): BOOL; function capPaletteOpen(hwnd: HWND; szName: LPCSTR): BOOL; function capPaletteSave(hwnd: HWND; szName: LPCSTR): BOOL; function capPalettePaste(hwnd: HWND): BOOL; function capPaletteAuto(hwnd: HWND; iFrames, iColors: INT): BOOL; function capPaletteManual(hwnd: HWND; fGrab: BOOL; iColors: INT): BOOL; {-- The only exported functions from AVICAP.DLL ------------------------------} function capCreateCaptureWindowA( lpszWindowName : LPCSTR; dwStyle : DWORD; x, y : int; nWidth, nHeight : int; hwndParent : HWND; nID : int ): HWND; stdcall; function capGetDriverDescriptionA( wDriverIndex : UINT; lpszName : LPSTR; cbName : int; lpszVer : LPSTR; cbVer : int ): BOOL; stdcall; function capCreateCaptureWindowW( lpszWindowName : LPCWSTR; dwStyle : DWORD; x, y : int; nWidth, nHeight : int; hwndParent : HWND; nID : int ): HWND; stdcall; function capGetDriverDescriptionW( wDriverIndex : UINT; lpszName : LPWSTR; cbName : int; lpszVer : LPWSTR; cbVer : int ): BOOL; stdcall; function capCreateCaptureWindow( lpszWindowName : LPCSTR; dwStyle : DWORD; x, y : int; nWidth, nHeight : int; hwndParent : HWND; nID : int ): HWND; stdcall; // capCreateCaptureWindowA function capGetDriverDescription( wDriverIndex : UINT; lpszName : LPSTR; cbName : int; lpszVer : LPSTR; cbVer : int ): BOOL; stdcall; // capGetDriverDescriptionA {-- New information chunk IDs ------------------------------------------------} const infotypeDIGITIZATION_TIME = $54494449; // mmioFOURCC ('I','D','I','T') infotypeSMPTE_TIME = $504D5349; // mmioFOURCC ('I','S','M','P') {-- String IDs from status and error callbacks -------------------------------} IDS_CAP_BEGIN = 300; // "Capture Start" IDS_CAP_END = 301; // "Capture End" IDS_CAP_INFO = 401; // "%s" IDS_CAP_OUTOFMEM = 402; // "Out of memory" IDS_CAP_FILEEXISTS = 403; // "File '%s' exists -- overwrite it?" IDS_CAP_ERRORPALOPEN = 404; // "Error opening palette '%s'" IDS_CAP_ERRORPALSAVE = 405; // "Error saving palette '%s'" IDS_CAP_ERRORDIBSAVE = 406; // "Error saving frame '%s'" IDS_CAP_DEFAVIEXT = 407; // "avi" IDS_CAP_DEFPALEXT = 408; // "pal" IDS_CAP_CANTOPEN = 409; // "Cannot open '%s'" IDS_CAP_SEQ_MSGSTART = 410; // "Select OK to start capture\nof video sequence\nto %s." IDS_CAP_SEQ_MSGSTOP = 411; // "Hit ESCAPE or click to end capture" IDS_CAP_VIDEDITERR = 412; // "An error occurred while trying to run VidEdit." IDS_CAP_READONLYFILE = 413; // "The file '%s' is a read-only file." IDS_CAP_WRITEERROR = 414; // "Unable to write to file '%s'.\nDisk may be full." IDS_CAP_NODISKSPACE = 415; // "There is no space to create a capture file on the specified device." IDS_CAP_SETFILESIZE = 416; // "Set File Size" IDS_CAP_SAVEASPERCENT = 417; // "SaveAs: %2ld%% Hit Escape to abort." IDS_CAP_DRIVER_ERROR = 418; // Driver specific error message IDS_CAP_WAVE_OPEN_ERROR = 419; // "Error: Cannot open the wave input device.\nCheck sample size, frequency, and channels." IDS_CAP_WAVE_ALLOC_ERROR = 420; // "Error: Out of memory for wave buffers." IDS_CAP_WAVE_PREPARE_ERROR = 421; // "Error: Cannot prepare wave buffers." IDS_CAP_WAVE_ADD_ERROR = 422; // "Error: Cannot add wave buffers." IDS_CAP_WAVE_SIZE_ERROR = 423; // "Error: Bad wave size." IDS_CAP_VIDEO_OPEN_ERROR = 424; // "Error: Cannot open the video input device." IDS_CAP_VIDEO_ALLOC_ERROR = 425; // "Error: Out of memory for video buffers." IDS_CAP_VIDEO_PREPARE_ERROR = 426; // "Error: Cannot prepare video buffers." IDS_CAP_VIDEO_ADD_ERROR = 427; // "Error: Cannot add video buffers." IDS_CAP_VIDEO_SIZE_ERROR = 428; // "Error: Bad video size." IDS_CAP_FILE_OPEN_ERROR = 429; // "Error: Cannot open capture file." IDS_CAP_FILE_WRITE_ERROR = 430; // "Error: Cannot write to capture file. Disk may be full." IDS_CAP_RECORDING_ERROR = 431; // "Error: Cannot write to capture file. Data rate too high or disk full." IDS_CAP_RECORDING_ERROR2 = 432; // "Error while recording" IDS_CAP_AVI_INIT_ERROR = 433; // "Error: Unable to initialize for capture." IDS_CAP_NO_FRAME_CAP_ERROR = 434; // "Warning: No frames captured.\nConfirm that vertical sync interrupts\nare configured and enabled." IDS_CAP_NO_PALETTE_WARN = 435; // "Warning: Using default palette." IDS_CAP_MCI_CONTROL_ERROR = 436; // "Error: Unable to access MCI device." IDS_CAP_MCI_CANT_STEP_ERROR = 437; // "Error: Unable to step MCI device." IDS_CAP_NO_AUDIO_CAP_ERROR = 438; // "Error: No audio data captured.\nCheck audio card settings." IDS_CAP_AVI_DRAWDIB_ERROR = 439; // "Error: Unable to draw this data format." IDS_CAP_COMPRESSOR_ERROR = 440; // "Error: Unable to initialize compressor." IDS_CAP_AUDIO_DROP_ERROR = 441; // "Error: Audio data was lost during capture, reduce capture rate." {-- Status string IDs --------------------------------------------------------} IDS_CAP_STAT_LIVE_MODE = 500; // "Live window" IDS_CAP_STAT_OVERLAY_MODE = 501; // "Overlay window" IDS_CAP_STAT_CAP_INIT = 502; // "Setting up for capture - Please wait" IDS_CAP_STAT_CAP_FINI = 503; // "Finished capture, now writing frame %ld" IDS_CAP_STAT_PALETTE_BUILD = 504; // "Building palette map" IDS_CAP_STAT_OPTPAL_BUILD = 505; // "Computing optimal palette" IDS_CAP_STAT_I_FRAMES = 506; // "%d frames" IDS_CAP_STAT_L_FRAMES = 507; // "%ld frames" IDS_CAP_STAT_CAP_L_FRAMES = 508; // "Captured %ld frames" IDS_CAP_STAT_CAP_AUDIO = 509; // "Capturing audio" IDS_CAP_STAT_VIDEOCURRENT = 510; // "Captured %ld frames (%ld dropped) %d.%03d sec." IDS_CAP_STAT_VIDEOAUDIO = 511; // "Captured %d.%03d sec. %ld frames (%ld dropped) (%d.%03d fps). %ld audio bytes (%d,%03d sps)" IDS_CAP_STAT_VIDEOONLY = 512; // "Captured %d.%03d sec. %ld frames (%ld dropped) (%d.%03d fps)" IDS_CAP_STAT_FRAMESDROPPED = 513; // "Dropped %ld of %ld frames (%d.%02d%%) during capture." {== FilePreview dialog =======================================================} function GetOpenFileNamePreviewA(lpofn: POPENFILENAMEA): BOOL; stdcall; function GetSaveFileNamePreviewA(lpofn: POPENFILENAMEA): BOOL; stdcall; function GetOpenFileNamePreviewW(lpofn: POPENFILENAMEW): BOOL; stdcall; function GetSaveFileNamePreviewW(lpofn: POPENFILENAMEW): BOOL; stdcall; function GetOpenFileNamePreview(lpofn: POPENFILENAMEA): BOOL; stdcall; // GetOpenFileNamePreviewA function GetSaveFileNamePreview(lpofn: POPENFILENAMEA): BOOL; stdcall; // GetSaveFileNamePreviewA implementation function MKFOURCC( ch0, ch1, ch2, ch3: Char ): FOURCC; begin Result := (DWord(Ord(ch0))) or (DWord(Ord(ch1)) shl 8) or (DWord(Ord(ch2)) shl 16) or (DWord(Ord(ch3)) shl 24); end; function mmioFOURCC( ch0, ch1, ch2, ch3: Char ): FOURCC; begin Result := MKFOURCC(ch0,ch1,ch2,ch3); end; function aviTWOCC(ch0, ch1: Char): TWOCC; begin Result := (Word(Ord(ch0))) or (Word(Ord(ch1)) shl 8); end; {-- Query macros -------------------------------------------------------------} function ICQueryAbout(hic: HIC): BOOL; begin Result := ICSendMessage(hic, ICM_ABOUT, 0, ICMF_ABOUT_QUERY) = ICERR_OK; end; function ICAbout(hic: HIC; hwnd: HWND): DWORD; begin Result := ICSendMessage(hic, ICM_ABOUT, hwnd, 0); end; function ICQueryConfigure(hic: HIC): BOOL; begin Result := ICSendMessage(hic, ICM_CONFIGURE, 0, ICMF_CONFIGURE_QUERY) = ICERR_OK; end; function ICConfigure(hic: HIC; hwnd: HWND): DWORD; begin Result := ICSendMessage(hic, ICM_CONFIGURE, hwnd, 0); end; {-- Get/Set state macros -----------------------------------------------------} function ICGetState(hic: HIC; pv: PVOID; cb: DWORD): DWORD; begin Result := ICSendMessage(hic, ICM_GETSTATE, DWORD(pv), cb); end; function ICSetState(hic: HIC; pv: PVOID; cb: DWORD): DWORD; begin Result := ICSendMessage(hic, ICM_SETSTATE, DWORD(pv), cb); end; function ICGetStateSize(hic: HIC): DWORD; begin Result := ICGetState(hic, nil, 0); end; {-- Get value macros ---------------------------------------------------------} function ICGetDefaultQuality(hic: HIC): DWORD; begin ICSendMessage(hic, ICM_GETDEFAULTQUALITY, DWORD(@Result), sizeof(Result)); end; function ICGetDefaultKeyFrameRate(hic: HIC): DWORD; begin ICSendMessage(hic, ICM_GETDEFAULTKEYFRAMERATE, DWORD(@Result), sizeof(Result)); end; {-- Draw window macro --------------------------------------------------------} function ICDrawWindow(hic: HIC; prc: PRECT): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_WINDOW, DWORD(prc), sizeof(prc^)); end; {-- ICCompressBegin() - start compression from a source fmt to a dest fmt ----} function ICCompressBegin(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_COMPRESS_BEGIN, DWORD(lpbiInput), DWORD(lpbiOutput)); end; {-- ICCompressQuery() - determines if compression from src to dst is supp ----} function ICCompressQuery(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_COMPRESS_QUERY, DWORD(lpbiInput), DWORD(lpbiOutput)); end; {-- ICCompressGetFormat() - get the output format (fmt of compressed) --------} // if lpbiOutput is nil return the size in bytes needed for format. function ICCompressGetFormat(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_COMPRESS_GET_FORMAT, DWORD(lpbiInput), DWORD(lpbiOutput)); end; function ICCompressGetFormatSize(hic: HIC; lpbi: PBITMAPINFOHEADER): DWORD; begin Result := ICCompressGetFormat(hic, lpbi, nil); end; {-- ICCompressSize() - return the maximal size of a compressed frame ---------} function ICCompressGetSize(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_COMPRESS_GET_SIZE, DWORD(lpbiInput), DWORD(lpbiOutput)); end; function ICCompressEnd(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_COMPRESS_END, 0, 0); end; {-- ICDecompressBegin() - start compression from src fmt to a dest fmt -------} function ICDecompressBegin(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESS_BEGIN, DWORD(lpbiInput), DWORD(lpbiOutput)); end; {-- ICDecompressQuery() - determines if compression is supported -------------} function ICDecompressQuery(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESS_QUERY, DWORD(lpbiInput), DWORD(lpbiOutput)); end; {-- ICDecompressGetFormat - get the output fmt (fmt of uncompressed data) ----} // if lpbiOutput is NULL return the size in bytes needed for format. function ICDecompressGetFormat(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESS_GET_FORMAT, DWORD(lpbiInput), DWORD(lpbiOutput)); end; function ICDecompressGetFormatSize(hic: HIC; lpbi: PBITMAPINFOHEADER): DWORD; begin Result := ICDecompressGetFormat(hic, lpbi, nil); end; {-- ICDecompressGetPalette() - get the output palette ------------------------} function ICDecompressGetPalette(hic: HIC; lpbiInput, lpbiOutput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESS_GET_PALETTE, DWORD(lpbiInput), DWORD(lpbiOutput)); end; function ICDecompressSetPalette(hic: HIC; lpbiPalette: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESS_SET_PALETTE, DWORD(lpbiPalette), 0); end; function ICDecompressEnd(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESS_END, 0, 0); end; {-- ICDecompressEx() - decompress a single frame -----------------------------} function ICDecompressEx( hic : HIC; dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; lpSrc : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; lpbiDst : PBITMAPINFOHEADER; lpDst : PVOID; xDst : int; yDst : int; dxDst : int; dyDst : int ): DWORD; stdcall; var ic : TICDECOMPRESSEX; begin ic.dwFlags := dwFlags; ic.lpbiSrc := lpbiSrc; ic.lpSrc := lpSrc; ic.xSrc := xSrc; ic.ySrc := ySrc; ic.dxSrc := dxSrc; ic.dySrc := dySrc; ic.lpbiDst := lpbiDst; ic.lpDst := lpDst; ic.xDst := xDst; ic.yDst := yDst; ic.dxDst := dxDst; ic.dyDst := dyDst; // note that ICM swaps round the length and pointer // length in lparam2, pointer in lparam1 Result := ICSendMessage(hic, ICM_DECOMPRESSEX, DWORD(@ic), sizeof(ic)); end; {-- ICDecompressExBegin() - start compression from a src fmt to a dest fmt ---} function ICDecompressExBegin( hic : HIC; dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; lpSrc : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; lpbiDst : PBITMAPINFOHEADER; lpDst : PVOID; xDst : int; yDst : int; dxDst : int; dyDst : int ): DWORD; stdcall; var ic : TICDECOMPRESSEX ; begin ic.dwFlags := dwFlags; ic.lpbiSrc := lpbiSrc; ic.lpSrc := lpSrc; ic.xSrc := xSrc; ic.ySrc := ySrc; ic.dxSrc := dxSrc; ic.dySrc := dySrc; ic.lpbiDst := lpbiDst; ic.lpDst := lpDst; ic.xDst := xDst; ic.yDst := yDst; ic.dxDst := dxDst; ic.dyDst := dyDst; // note that ICM swaps round the length and pointer // length in lparam2, pointer in lparam1 Result := ICSendMessage(hic, ICM_DECOMPRESSEX_BEGIN, DWORD(@ic), sizeof(ic)); end; {-- ICDecompressExQuery() ----------------------------------------------------} function ICDecompressExQuery( hic : HIC; dwFlags : DWORD; lpbiSrc : PBITMAPINFOHEADER; lpSrc : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; lpbiDst : PBITMAPINFOHEADER; lpDst : PVOID; xDst : int; yDst : int; dxDst : int; dyDst : int ): DWORD; stdcall; var ic : TICDECOMPRESSEX; begin ic.dwFlags := dwFlags; ic.lpbiSrc := lpbiSrc; ic.lpSrc := lpSrc; ic.xSrc := xSrc; ic.ySrc := ySrc; ic.dxSrc := dxSrc; ic.dySrc := dySrc; ic.lpbiDst := lpbiDst; ic.lpDst := lpDst; ic.xDst := xDst; ic.yDst := yDst; ic.dxDst := dxDst; ic.dyDst := dyDst; // note that ICM swaps round the length and pointer // length in lparam2, pointer in lparam1 Result := ICSendMessage(hic, ICM_DECOMPRESSEX_QUERY, DWORD(@ic), sizeof(ic)); end; function ICDecompressExEnd(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DECOMPRESSEX_END, 0, 0) end; function ICDrawSuggestFormat( hic : HIC; lpbiIn : PBITMAPINFOHEADER; lpbiOut : PBITMAPINFOHEADER; dxSrc : int; dySrc : int; dxDst : int; dyDst : int; hicDecomp : HIC ): DWORD; stdcall; var ic : TICDRAWSUGGEST; begin ic.lpbiIn := lpbiIn; ic.lpbiSuggest := lpbiOut; ic.dxSrc := dxSrc; ic.dySrc := dySrc; ic.dxDst := dxDst; ic.dyDst := dyDst; ic.hicDecompressor := hicDecomp; // note that ICM swaps round the length and pointer // length in lparam2, pointer in lparam1 Result := ICSendMessage(hic, ICM_DRAW_SUGGESTFORMAT, DWORD(@ic), sizeof(ic)); end; {-- ICDrawQuery() - determines if the compressor is willing to render fmt ----} function ICDrawQuery(hic: HIC; lpbiInput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_QUERY, DWORD(lpbiInput), 0); end; function ICDrawChangePalette(hic: HIC; lpbiInput: PBITMAPINFOHEADER): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_CHANGEPALETTE, DWORD(lpbiInput), 0); end; function ICGetBuffersWanted(hic: HIC; lpdwBuffers: PDWORD): DWORD; begin Result := ICSendMessage(hic, ICM_GETBUFFERSWANTED, DWORD(lpdwBuffers), 0); end; function ICDrawEnd(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_END, 0, 0); end; function ICDrawStart(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_START, 0, 0); end; function ICDrawStartPlay(hic: HIC; lFrom, lTo: DWORD): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_START_PLAY, lFrom, lTo); end; function ICDrawStop(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_STOP, 0, 0); end; function ICDrawStopPlay(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_STOP_PLAY, 0, 0); end; function ICDrawGetTime(hic: HIC; lplTime: PDWORD): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_GETTIME, DWORD(lplTime), 0); end; function ICDrawSetTime(hic: HIC; lTime: DWORD): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_SETTIME, lTime, 0); end; function ICDrawRealize(hic: HIC; hdc: HDC; fBackground: BOOL): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_REALIZE, DWORD(hdc), DWORD(fBackground)); end; function ICDrawFlush(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_FLUSH, 0, 0); end; function ICDrawRenderBuffer(hic: HIC): DWORD; begin Result := ICSendMessage(hic, ICM_DRAW_RENDERBUFFER, 0, 0); end; {-- ICSetStatusProc() - Set the status callback function ---------------------} // ICMessage is not supported on NT function ICSetStatusProc( hic : HIC; dwFlags : DWORD; lParam : DWORD; fpfnStatus : TICStatusProc ): DWORD; stdcall; var ic : TICSETSTATUSPROC; begin ic.dwFlags := dwFlags; ic.lParam := lParam; ic.Status := fpfnStatus; // note that ICM swaps round the length and pointer // length in lparam2, pointer in lparam1 Result := ICSendMessage(hic, ICM_SET_STATUS_PROC, DWORD(@ic), sizeof(ic)); end; {== Helper routines for DrawDib and MCIAVI... ================================} function ICDecompressOpen(fccType, fccHandler: DWORD; lpbiIn, lpbiOut: PBITMAPINFOHEADER): HIC; begin Result := ICLocate(fccType, fccHandler, lpbiIn, lpbiOut, ICMODE_DECOMPRESS); end; function ICDrawOpen(fccType, fccHandler: DWORD; lpbiIn: PBITMAPINFOHEADER): HIC; begin Result := ICLocate(fccType, fccHandler, lpbiIn, nil, ICMODE_DRAW); end; {-- DrawDibUpdate() - redraw last image (may only be valid with DDF_BUFFER) --} function DrawDibUpdate(hdd: HDRAWDIB; hdc: HDC; x, y: int): BOOL; begin Result := DrawDibDraw(hdd, hdc, x, y, 0, 0, nil, nil, 0, 0, 0, 0, DDF_UPDATE); end; {== Useful macros ============================================================} {-- Macro to get stream number out of a FOURCC ckid --------------------------} function FromHex(n: BYTE): BYTE; begin if n >= Ord('A') then Result := Ord(n) + 10 - Ord('A') else Result := Ord(n) - Ord('0'); end; function StreamFromFOURCC(fcc: DWORD): BYTE; begin Result := (FromHex(Lo(LoWord(fcc))) shl 4) + FromHex(Hi(LoWord(fcc))); end; {-- Macro to get TWOCC chunk type out of a FOURCC ckid -----------------------} function TWOCCFromFOURCC(fcc: DWORD): WORD; begin Result := HiWord(fcc); end; {-- Macro to make a ckid for a chunk out of a TWOCC and a stream num (0-255) -} function ToHex(n: BYTE): BYTE; begin if n > 9 then Result := n - 10 + Ord('A') else Result := n + Ord('0'); end; function MAKEAVICKID(tcc: WORD; stream: BYTE): DWORD; begin Result := MakeLONG((ToHex(stream and $0F) shl 8) or ToHex((stream and $F0) shr 4),tcc); end; {-- Helper macros ------------------------------------------------------------} function AVIStreamSampleToSample(pavi1, pavi2: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamTimeToSample(pavi1,AVIStreamSampleToTime(pavi2, l)); end; function AVIStreamNextSample(pavi: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamFindSample(pavi,l+1,FIND_NEXT or FIND_ANY); end; function AVIStreamPrevSample(pavi: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamFindSample(pavi,l-1,FIND_PREV or FIND_ANY); end; function AVIStreamNearestSample(pavi: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamFindSample(pavi,l,FIND_PREV or FIND_ANY); end; function AVIStreamNextKeyFrame(pavi: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamFindSample(pavi,l+1,FIND_NEXT or FIND_KEY); end; function AVIStreamPrevKeyFrame(pavi: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamFindSample(pavi,l-1,FIND_PREV or FIND_KEY); end; function AVIStreamNearestKeyFrame(pavi: PAVISTREAM; l: DWORD): DWORD; begin Result := AVIStreamFindSample(pavi,l,FIND_PREV or FIND_KEY) end; function AVIStreamIsKeyFrame(pavi: PAVISTREAM; l: DWORD): BOOL; begin Result := AVIStreamNearestKeyFrame(pavi,l) = l; end; function AVIStreamPrevSampleTime(pavi: PAVISTREAM; t: DWORD): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamPrevSample(pavi,AVIStreamTimeToSample(pavi,t))); end; function AVIStreamNextSampleTime(pavi: PAVISTREAM; t: DWORD): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamNextSample(pavi,AVIStreamTimeToSample(pavi,t))); end; function AVIStreamNearestSampleTime(pavi: PAVISTREAM; t: DWORD): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamNearestSample(pavi,AVIStreamTimeToSample(pavi,t))); end; function AVIStreamNextKeyFrameTime(pavi: PAVISTREAM; t: DWORD): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamNextKeyFrame(pavi,AVIStreamTimeToSample(pavi, t))); end; function AVIStreamPrevKeyFrameTime(pavi: PAVISTREAM; t: DWORD): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamPrevKeyFrame(pavi,AVIStreamTimeToSample(pavi, t))); end; function AVIStreamNearestKeyFrameTime(pavi: PAVISTREAM; t: DWORD): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamNearestKeyFrame(pavi,AVIStreamTimeToSample(pavi, t))); end; function AVIStreamStartTime(pavi: PAVISTREAM): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamStart(pavi)); end; function AVIStreamLengthTime(pavi: PAVISTREAM): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamLength(pavi)); end; function AVIStreamEnd(pavi: PAVISTREAM): DWORD; begin Result := AVIStreamStart(pavi) + AVIStreamLength(pavi); end; function AVIStreamEndTime(pavi: PAVISTREAM): DWORD; begin Result := AVIStreamSampleToTime(pavi, AVIStreamEnd(pavi)); end; function AVIStreamSampleSize(pavi: PAVISTREAM; lPos: DWORD; plSize: PDWORD): DWORD; begin Result := AVIStreamRead(pavi,lPos,1,nil,0,plSize,nil); end; function AVIStreamFormatSize(pavi: PAVISTREAM; lPos: DWORD; plSize: PDWORD): HResult; begin Result := AVIStreamReadFormat(pavi,lPos,nil,plSize); end; function AVIStreamDataSize(pavi: PAVISTREAM; fcc: DWORD; plSize: PDWORD): HResult; begin Result := AVIStreamReadData(pavi,fcc,nil,plSize) end; {== MCIWnd ===================================================================} function MCIWndSM(hWnd: HWND; Msg: UINT; wParam: WPARAM; lParam: LPARAM): DWORD; begin Result := SendMessage(hWnd, Msg, wParam, lParam); end; {-- Can macros ---------------------------------------------------------------} function MCIWndCanPlay(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_CAN_PLAY,0,0) <> 0; end; function MCIWndCanRecord(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_CAN_RECORD,0,0) <> 0; end; function MCIWndCanSave(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_CAN_SAVE,0,0) <> 0; end; function MCIWndCanWindow(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_CAN_WINDOW,0,0) <> 0; end; function MCIWndCanEject(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_CAN_EJECT,0,0) <> 0; end; function MCIWndCanConfig(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_CAN_CONFIG,0,0) <> 0; end; function MCIWndPaletteKick(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd,MCIWNDM_PALETTEKICK,0,0) <> 0; end; function MCIWndSave(hwnd: HWND; szFile: LPCSTR): DWORD; begin Result := MCIWndSM(hwnd, MCI_SAVE, 0, LPARAM(szFile)); end; function MCIWndSaveDialog(hwnd: HWND): DWORD; begin Result := MCIWndSave(hwnd, LPCSTR(-1)); end; // If you dont give a device it will use the current device.... function MCIWndNew(hwnd: HWND; lp: PVOID): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_NEW, 0, LPARAM(lp)); end; function MCIWndRecord(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCI_RECORD, 0, 0); end; function MCIWndOpen(hwnd: HWND; sz: LPCSTR; f: BOOL): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_OPEN, WPARAM(f), LPARAM(sz)); end; function MCIWndOpenDialog(hwnd: HWND): DWORD; begin Result := MCIWndOpen(hwnd, LPCSTR(-1), False); end; function MCIWndClose(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCI_CLOSE, 0, 0); end; function MCIWndPlay(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCI_PLAY, 0, 0); end; function MCIWndStop(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCI_STOP, 0, 0); end; function MCIWndPause(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCI_PAUSE, 0, 0); end; function MCIWndResume(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCI_RESUME, 0, 0); end; function MCIWndSeek(hwnd: HWND; lPos: DWORD): DWORD; begin Result := MCIWndSM(hwnd, MCI_SEEK, 0, lPos); end; function MCIWndEject(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_EJECT, 0, 0); end; function MCIWndHome(hwnd: HWND): DWORD; begin result := 0; // Result := MCIWndSeek(hwnd, MCIWND_START); end; function MCIWndEnd(hwnd: HWND): DWORD; begin result := 0; // Result := MCIWndSeek(hwnd, MCIWND_END); end; function MCIWndGetSource(hwnd: HWND; prc: PRECT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GET_SOURCE, 0, LPARAM(prc)); end; function MCIWndPutSource(hwnd: HWND; prc: PRECT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_PUT_SOURCE, 0, LPARAM(prc)); end; function MCIWndGetDest(hwnd: HWND; prc: PRECT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GET_DEST, 0, LPARAM(prc)); end; function MCIWndPutDest(hwnd: HWND; prc: PRECT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_PUT_DEST, 0, LPARAM(prc)); end; function MCIWndPlayReverse(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_PLAYREVERSE, 0, 0); end; function MCIWndPlayFrom(hwnd: HWND; lPos: DWORD): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_PLAYFROM, 0, lPos); end; function MCIWndPlayTo(hwnd: HWND; lPos: DWORD): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_PLAYTO, 0, lPos); end; function MCIWndPlayFromTo(hwnd: HWND; lStart, lEnd: DWORD): DWORD; begin MCIWndSeek(hwnd, lStart); Result := MCIWndPlayTo(hwnd, lEnd); end; function MCIWndGetDeviceID(hwnd: HWND): UINT; begin Result := MCIWndSM(hwnd, MCIWNDM_GETDEVICEID, 0, 0); end; function MCIWndGetAlias(hwnd: HWND): UINT; begin Result := MCIWndSM(hwnd, MCIWNDM_GETALIAS, 0, 0); end; function MCIWndGetMode(hwnd: HWND; lp: LPCSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETMODE, len, LPARAM(lp)); end; function MCIWndGetPosition(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETPOSITION, 0, 0); end; function MCIWndGetPositionString(hwnd: HWND; lp: LPCSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETPOSITION, len, LPARAM(lp)); end; function MCIWndGetStart(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETSTART, 0, 0); end; function MCIWndGetLength(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETLENGTH, 0, 0); end; function MCIWndGetEnd(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETEND, 0, 0); end; function MCIWndStep(hwnd: HWND; n: DWORD): DWORD; begin Result := MCIWndSM(hwnd, MCI_STEP, 0, n); end; procedure MCIWndDestroy(hwnd: HWND); begin MCIWndSM(hwnd, WM_CLOSE, 0, 0); end; procedure MCIWndSetZoom(hwnd: HWND; iZoom: UINT); begin MCIWndSM(hwnd, MCIWNDM_SETZOOM, 0, iZoom); end; function MCIWndGetZoom(hwnd: HWND): UINT; begin Result := MCIWndSM(hwnd, MCIWNDM_GETZOOM, 0, 0); end; function MCIWndSetVolume(hwnd: HWND; iVol: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_SETVOLUME, 0, iVol); end; function MCIWndGetVolume(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETVOLUME, 0, 0); end; function MCIWndSetSpeed(hwnd: HWND; iSpeed: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_SETSPEED, 0, iSpeed); end; function MCIWndGetSpeed(hwnd: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETSPEED, 0, 0); end; function MCIWndSetTimeFormat(hwnd: HWND; lp: LPCSTR): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_SETTIMEFORMAT, 0, LPARAM(lp)); end; function MCIWndGetTimeFormat(hwnd: HWND; lp: LPCSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETTIMEFORMAT, len, LPARAM(lp)); end; procedure MCIWndValidateMedia(hwnd: HWND); begin MCIWndSM(hwnd, MCIWNDM_VALIDATEMEDIA, 0, 0); end; procedure MCIWndSetRepeat(hwnd: HWND; f: BOOL); begin MCIWndSM(hwnd, MCIWNDM_SETREPEAT, 0, LPARAM(f)); end; function MCIWndGetRepeat(hwnd: HWND): BOOL; begin Result := MCIWndSM(hwnd, MCIWNDM_GETREPEAT, 0, 0) <> 0; end; function MCIWndUseFrames(hwnd: HWND): DWORD; begin Result := MCIWndSetTimeFormat(hwnd, 'frames'); end; function MCIWndUseTime(hwnd: HWND): DWORD; begin Result := MCIWndSetTimeFormat(hwnd, 'ms'); end; procedure MCIWndSetActiveTimer(hwnd: HWND; active: UINT); begin MCIWndSM(hwnd, MCIWNDM_SETACTIVETIMER, active, 0); end; procedure MCIWndSetInactiveTimer(hwnd: HWND; inactive: UINT); begin MCIWndSM(hwnd, MCIWNDM_SETINACTIVETIMER, inactive, 0); end; procedure MCIWndSetTimers(hwnd: HWND; active, inactive: UINT); begin MCIWndSM(hwnd, MCIWNDM_SETTIMERS, active, inactive); end; function MCIWndGetActiveTimer(hwnd: HWND): UINT; begin Result := MCIWndSM(hwnd, MCIWNDM_GETACTIVETIMER, 0, 0); end; function MCIWndGetInactiveTimer(hwnd: HWND): UINT; begin Result := MCIWndSM(hwnd, MCIWNDM_GETINACTIVETIMER, 0, 0); end; function MCIWndRealize(hwnd: HWND; fBkgnd: BOOL): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_REALIZE, WPARAM(fBkgnd), 0); end; function MCIWndSendString(hwnd: HWND; sz: LPCSTR): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_SENDSTRING, 0, LPARAM(sz)); end; function MCIWndReturnString(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_RETURNSTRING, len, LPARAM(lp)); end; function MCIWndGetError(hwnd: HWND; lp: LPSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETERROR, len, LPARAM(lp)); end; function MCIWndGetPalette(hwnd: HWND): HPALETTE; begin Result := MCIWndSM(hwnd, MCIWNDM_GETPALETTE, 0, 0); end; function MCIWndSetPalette(hwnd: HWND; hpal: HPALETTE): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_SETPALETTE, hpal, 0); end; function MCIWndGetFileName(hwnd: HWND; lp: LPCSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETFILENAME, len, LPARAM(lp)); end; function MCIWndGetDevice(hwnd: HWND; lp: LPCSTR; len: UINT): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_GETDEVICE, len, LPARAM(lp)); end; function MCIWndGetStyles(hwnd: HWND): UINT; begin Result := MCIWndSM(hwnd, MCIWNDM_GETSTYLES, 0, 0); end; function MCIWndChangeStyles(hwnd: HWND; mask: UINT; value: DWORD): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_CHANGESTYLES, mask, value); end; function MCIWndOpenInterface(hwnd: HWND; pUnk: PUNKNOWN): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_OPENINTERFACE, 0, LPARAM(pUnk)); end; function MCIWndSetOwner(hwnd: HWND; hwndP: HWND): DWORD; begin Result := MCIWndSM(hwnd, MCIWNDM_SETOWNER, hwndP, 0); end; {== AVICAP - Window class for AVI capture ====================================} function AVICapSM(hwnd: HWND; m: UINT; w: WPARAM; l: LPARAM): DWORD; begin if IsWindow(hwnd) then Result := SendMessage(hwnd,m,w,l) else Result := 0; end; {-- Message crackers for above -----------------------------------------------} function capSetCallbackOnError(hwnd: HWND; fpProc: TCAPERRORCALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_ERROR, 0, LPARAM(@fpProc)) <> 0; end; function capSetCallbackOnStatus(hwnd: HWND; fpProc: TCAPSTATUSCALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_STATUS, 0, LPARAM(@fpProc)) <> 0; end; function capSetCallbackOnYield(hwnd: HWND; fpProc: TCAPYIELDCALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_YIELD, 0, LPARAM(@fpProc)) <> 0; end; function capSetCallbackOnFrame(hwnd: HWND; fpProc: TCAPVIDEOCALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_FRAME, 0, LPARAM(@fpProc)) <> 0; end; function capSetCallbackOnVideoStream(hwnd: HWND; fpProc: TCAPVIDEOCALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_VIDEOSTREAM, 0, LPARAM(@fpProc)) <> 0; end; function capSetCallbackOnWaveStream(hwnd: HWND; fpProc: TCAPWAVECALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_WAVESTREAM, 0, LPARAM(@fpProc)) <> 0; end; function capSetCallbackOnCapControl(hwnd: HWND; fpProc: TCAPCONTROLCALLBACK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_CALLBACK_CAPCONTROL, 0, LPARAM(@fpProc)) <> 0; end; function capSetUserData(hwnd: HWND; lUser: DWORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_USER_DATA, 0, lUser) <> 0; end; function capGetUserData(hwnd: HWND): DWORD; begin Result := AVICapSM(hwnd, WM_CAP_GET_USER_DATA, 0, 0); end; function capDriverConnect(hwnd: HWND; i: INT): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DRIVER_CONNECT, i, 0) <> 0; end; function capDriverDisconnect(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DRIVER_DISCONNECT, 0, 0) <> 0; end; function capDriverGetName(hwnd: HWND; szName: LPSTR; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DRIVER_GET_NAME, wSize, LPARAM(szName)) <> 0; end; function capDriverGetVersion(hwnd: HWND; szVer: LPSTR; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DRIVER_GET_VERSION, wSize, LPARAM(szVer)) <> 0; end; function capDriverGetCaps(hwnd: HWND; s: PCAPDRIVERCAPS; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DRIVER_GET_CAPS, wSize, LPARAM(s)) <> 0; end; function capFileSetCaptureFile(hwnd: HWND; szName: LPCSTR): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_FILE_SET_CAPTURE_FILE, 0, LPARAM(szName)) <> 0; end; function capFileGetCaptureFile(hwnd: HWND; szName: LPSTR; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_FILE_GET_CAPTURE_FILE, wSize, LPARAM(szName)) <> 0; end; function capFileAlloc(hwnd: HWND; dwSize: DWORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_FILE_ALLOCATE, 0, dwSize) <> 0; end; function capFileSaveAs(hwnd: HWND; szName: LPCSTR): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_FILE_SAVEAS, 0, LPARAM(szName)) <> 0; end; function capFileSetInfoChunk(hwnd: HWND; lpInfoChunk: PCAPINFOCHUNK): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_FILE_SET_INFOCHUNK, 0, LPARAM(lpInfoChunk)) <> 0; end; function capFileSaveDIB(hwnd: HWND; szName: LPCSTR): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_FILE_SAVEDIB, 0, LPARAM(szName)) <> 0; end; function capEditCopy(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_EDIT_COPY, 0, 0) <> 0; end; function capSetAudioFormat(hwnd: HWND; s: PWAVEFORMATEX; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_AUDIOFORMAT, wSize, LPARAM(s)) <> 0; end; function capGetAudioFormat(hwnd: HWND; s: PWAVEFORMATEX; wSize: WORD): DWORD; begin Result := AVICapSM(hwnd, WM_CAP_GET_AUDIOFORMAT, wSize, LPARAM(s)); end; function capGetAudioFormatSize(hwnd: HWND): DWORD; begin Result := AVICapSM(hwnd, WM_CAP_GET_AUDIOFORMAT, 0, 0); end; function capDlgVideoFormat(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DLG_VIDEOFORMAT, 0, 0) <> 0; end; function capDlgVideoSource(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DLG_VIDEOSOURCE, 0, 0) <> 0; end; function capDlgVideoDisplay(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DLG_VIDEODISPLAY, 0, 0) <> 0; end; function capDlgVideoCompression(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_DLG_VIDEOCOMPRESSION, 0, 0) <> 0; end; function capGetVideoFormat(hwnd: HWND; s: PVOID; wSize: WORD): DWORD; begin Result := AVICapSM(hwnd, WM_CAP_GET_VIDEOFORMAT, wSize, LPARAM(s)); end; function capGetVideoFormatSize(hwnd: HWND): DWORD; begin Result := AVICapSM(hwnd, WM_CAP_GET_VIDEOFORMAT, 0, 0); end; function capSetVideoFormat(hwnd: HWND; s: PVOID; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_VIDEOFORMAT, wSize, LPARAM(s)) <> 0; end; function capPreview(hwnd: HWND; f: BOOL): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_PREVIEW, WPARAM(f), 0) <> 0; end; function capPreviewRate(hwnd: HWND; wMS: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_PREVIEWRATE, wMS, 0) <> 0; end; function capOverlay(hwnd: HWND; f: BOOL): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_OVERLAY, WPARAM(f), 0) <> 0; end; function capPreviewScale(hwnd: HWND; f: BOOL): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_SCALE, WPARAM(f), 0) <> 0; end; function capGetStatus(hwnd: HWND; s: PCAPSTATUS; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_GET_STATUS, wSize, LPARAM(s)) <> 0; end; function capSetScrollPos(hwnd: HWND; lpP: PPOINT): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_SCROLL, 0, LPARAM(lpP)) <> 0; end; function capGrabFrame(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_GRAB_FRAME, 0, 0) <> 0; end; function capGrabFrameNoStop(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_GRAB_FRAME_NOSTOP, 0, 0) <> 0; end; function capCaptureSequence(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SEQUENCE, 0, 0) <> 0; end; function capCaptureSequenceNoFile(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SEQUENCE_NOFILE, 0, 0) <> 0; end; function capCaptureStop(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_STOP, 0, 0) <> 0; end; function capCaptureAbort(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_ABORT, 0, 0) <> 0; end; function capCaptureSingleFrameOpen(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SINGLE_FRAME_OPEN, 0, 0) <> 0; end; function capCaptureSingleFrameClose(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SINGLE_FRAME_CLOSE, 0, 0) <> 0; end; function capCaptureSingleFrame(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SINGLE_FRAME, 0, 0) <> 0; end; function capCaptureGetSetup(hwnd: HWND; s: PCAPTUREPARMS; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_GET_SEQUENCE_SETUP, wSize, LPARAM(s)) <> 0; end; function capCaptureSetSetup(hwnd: HWND; s: PCAPTUREPARMS; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_SEQUENCE_SETUP, wSize, LPARAM(s)) <> 0; end; function capSetMCIDeviceName(hwnd: HWND; szName: LPCSTR): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_SET_MCI_DEVICE, 0, LPARAM(szName)) <> 0; end; function capGetMCIDeviceName(hwnd: HWND; szName: LPSTR; wSize: WORD): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_GET_MCI_DEVICE, wSize, LPARAM(szName)) <> 0; end; function capPaletteOpen(hwnd: HWND; szName: LPCSTR): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_PAL_OPEN, 0, LPARAM(szName)) <> 0; end; function capPaletteSave(hwnd: HWND; szName: LPCSTR): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_PAL_SAVE, 0, LPARAM(szName)) <> 0; end; function capPalettePaste(hwnd: HWND): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_PAL_PASTE, 0, 0) <> 0; end; function capPaletteAuto(hwnd: HWND; iFrames, iColors: INT): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_PAL_AUTOCREATE, iFrames, iColors) <> 0; end; function capPaletteManual(hwnd: HWND; fGrab: BOOL; iColors: INT): BOOL; begin Result := AVICapSM(hwnd, WM_CAP_PAL_MANUALCREATE, WPARAM(fGrab), iColors) <> 0; end; {== Externals ================================================================} const VFWDLL = 'MSVFW32.DLL'; AVIFILDLL = 'AVIFIL32.DLL'; AVICAPDLL = 'AVICAP32.DLL'; {-- Returns version of VFW ---------------------------------------------------} function VideoForWindowsVersion: DWord; pascal; external VFWDLL; {-- Call these to start stop using VfW from your app -------------------------} { TODO: Where are these functions? } // function InitVFW: DWORD; stdcall; // function TermVFW: DWORD; stdcall; {-- ICM function declarations ------------------------------------------------} function ICInfo(fccType, fccHandler: DWORD; lpicinfo: PICINFO) : BOOL ; stdcall ; external VFWDLL; function ICInstall(fccType, fccHandler: DWORD; lParam: LPARAM; szDesc: LPSTR; wFlags: UINT) : BOOL ; stdcall ; external VFWDLL; function ICRemove(fccType, fccHandler: DWORD; wFlags: UINT) : BOOL ; stdcall ; external VFWDLL; function ICGetInfo(hic: HIC; picinfo: PICINFO; cb: DWORD) : DWORD ; stdcall ; external VFWDLL; function ICOpen(fccType, fccHandler: DWORD; wMode: UINT) : HIC ; stdcall ; external VFWDLL; function ICOpenFunction(fccType, fccHandler: DWORD; wMode: UINT; lpfnHandler: TFarProc) : HIC ; stdcall ; external VFWDLL; function ICClose(hic: HIC) : DWORD ; stdcall ; external VFWDLL; function ICSendMessage(hic: HIC; msg: UINT; dw1, dw2: DWORD) : DWORD ; stdcall ; external VFWDLL; {== Compression functions ====================================================} {-- ICCompress() - compress a single frame -----------------------------------} function ICCompress( hic : HIC; dwFlags : DWORD; // flags lpbiOutput : PBITMAPINFOHEADER; // output format lpData : PVOID; // output data lpbiInput : PBITMAPINFOHEADER; // format of frame to compress lpBits : PVOID; // frame data to compress lpckid : PDWORD; // ckid for data in AVI file lpdwFlags : PDWORD; // flags in the AVI index. lFrameNum : DWORD; // frame number of seq. dwFrameSize : DWORD; // reqested size in bytes. (if non zero) dwQuality : DWORD; // quality within one frame lpbiPrev : PBITMAPINFOHEADER; // format of previous frame lpPrev : PVOID // previous frame ) : DWORD; cdecl; external VFWDLL; {== Decompression functions ==================================================} {-- ICDecompress() - decompress a single frame -------------------------------} function ICDecompress( hic : HIC; dwFlags : DWORD; // flags (from AVI index...) lpbiFormat : PBITMAPINFOHEADER; // BITMAPINFO of compressed data // biSizeImage has the chunk size lpData : PVOID; // data lpbi : PBITMAPINFOHEADER; // DIB to decompress to lpBits : PVOID ): DWORD; cdecl; external VFWDLL; {== Drawing functions ========================================================} {-- ICDrawBegin() - start decompressing data with fmt directly to screen -----} // return zero if the decompressor supports drawing. function ICDrawBegin( hic : HIC; dwFlags : DWORD; // flags hpal : HPALETTE; // palette to draw with hwnd : HWND; // window to draw to hdc : HDC; // HDC to draw to xDst : int; // destination rectangle yDst : int; dxDst : int; dyDst : int; lpbi : PBITMAPINFOHEADER; // format of frame to draw xSrc : int; // source rectangle ySrc : int; dxSrc : int; dySrc : int; dwRate : DWORD; // frames/second = (dwRate/dwScale) dwScale : DWORD ): DWORD; cdecl; external VFWDLL; {-- ICDraw() - decompress data directly to the screen ------------------------} function ICDraw( hic : HIC; dwFlags : DWORD; // flags lpFormat : PVOID; // format of frame to decompress lpData : PVOID; // frame data to decompress cbData : DWORD; // size of data lTime : DWORD // time to draw this frame ): DWORD; cdecl; external VFWDLL; {== Helper routines for DrawDib and MCIAVI... ================================} function ICLocate(fccType, fccHandler: DWORD; lpbiIn, lpbiOut: PBITMAPINFOHEADER; wFlags: WORD): HIC; stdcall; external VFWDLL; function ICGetDisplayFormat(hic: HIC; lpbiIn, lpbiOut: PBITMAPINFOHEADER; BitDepth: int; dx, dy: int): HIC; stdcall; external VFWDLL; {== Higher level functions ===================================================} function ICImageCompress( hic : HIC; // compressor to use uiFlags : UINT; // flags (none yet) lpbiIn : PBITMAPINFO; // format to compress from lpBits : PVOID; // data to compress lpbiOut : PBITMAPINFO; // compress to this (NULL ==> default) lQuality : DWORD; // quality to use plSize : PDWORD // compress to this size (0=whatever) ): THANDLE; stdcall; external VFWDLL; function ICImageDecompress( hic : HIC; // compressor to use uiFlags : UINT; // flags (none yet) lpbiIn : PBITMAPINFO; // format to decompress from lpBits : PVOID; // data to decompress lpbiOut : PBITMAPINFO // decompress to this (NULL ==> default) ): THANDLE; stdcall; external VFWDLL; {-- ICCompressorChoose() - allows user to choose compressor, quality etc... --} function ICCompressorChoose( hwnd : HWND; // parent window for dialog uiFlags : UINT; // flags pvIn : PVOID; // input format (optional) lpData : PVOID; // input data (optional) pc : PCOMPVARS; // data about the compressor/dlg lpszTitle : LPSTR // dialog title (optional) ): BOOL; stdcall; external VFWDLL; function ICSeqCompressFrameStart(pc: PCOMPVARS; lpbiIn: PBITMAPINFO): BOOL; stdcall; external VFWDLL; procedure ICSeqCompressFrameEnd(pc: PCOMPVARS); stdcall; external VFWDLL; function ICSeqCompressFrame( pc : PCOMPVARS; // set by ICCompressorChoose uiFlags : UINT; // flags lpBits : PVOID; // input DIB bits pfKey : PBOOL; // did it end up being a key frame? plSize : PDWORD // size to compress to/of returned image ): PVOID; stdcall; external VFWDLL; procedure ICCompressorFree(pc: PCOMPVARS); stdcall; external VFWDLL; {== DrawDib functions ========================================================} {-- DrawDibOpen() ------------------------------------------------------------} function DrawDibOpen: HDRAWDIB; stdcall; external VFWDLL; {-- DrawDibClose() -----------------------------------------------------------} function DrawDibClose(hdd: HDRAWDIB): BOOL; stdcall; external VFWDLL; {-- DrawDibGetBuffer() -------------------------------------------------------} function DrawDibGetBuffer(hdd: HDRAWDIB; lpbi: PBITMAPINFOHEADER; dwSize: DWORD; dwFlags: DWORD): PVOID; stdcall; external VFWDLL; {-- DrawDibGetPalette() - get the palette used for drawing DIBs --------------} function DrawDibGetPalette(hdd: HDRAWDIB): HPALETTE; stdcall; external VFWDLL; {-- DrawDibSetPalette() - set the palette used for drawing DIBs --------------} function DrawDibSetPalette(hdd: HDRAWDIB; hpal: HPALETTE): BOOL; stdcall; external VFWDLL; {-- DrawDibChangePalette() ---------------------------------------------------} function DrawDibChangePalette(hdd: HDRAWDIB; iStart, iLen: int; lppe: PPALETTEENTRY): BOOL; stdcall; external VFWDLL; {-- DrawDibRealize() - realize the palette in a HDD --------------------------} function DrawDibRealize(hdd: HDRAWDIB; hdc: HDC; fBackground: BOOL): UINT; stdcall; external VFWDLL; {-- DrawDibStart() - start of streaming playback -----------------------------} function DrawDibStart(hdd: HDRAWDIB; rate: DWORD): BOOL; stdcall; external VFWDLL; {-- DrawDibStop() - start of streaming playback ------------------------------} function DrawDibStop(hdd: HDRAWDIB): BOOL; stdcall; external VFWDLL; {-- DrawDibBegin() - prepare to draw -----------------------------------------} function DrawDibBegin( hdd : HDRAWDIB; hdc : HDC; dxDst : int; dyDst : int; lpbi : PBITMAPINFOHEADER; dxSrc : int; dySrc : int; wFlags : UINT ): BOOL; stdcall; external VFWDLL; {-- DrawDibDraw() - actually draw a DIB to the screen ------------------------} function DrawDibDraw( hdd : HDRAWDIB; hdc : HDC; xDst : int; yDst : int; dxDst : int; dyDst : int; lpbi : PBITMAPINFOHEADER; lpBits : PVOID; xSrc : int; ySrc : int; dxSrc : int; dySrc : int; wFlags : UINT ): BOOL; stdcall; external VFWDLL; {-- DrawDibEnd() -------------------------------------------------------------} function DrawDibEnd(hdd: HDRAWDIB): BOOL; stdcall; external VFWDLL; {-- DrawDibTime() - for debugging purposes only ------------------------------} function DrawDibTime(hdd: HDRAWDIB; lpddtime: PDRAWDIBTIME): BOOL; stdcall; external VFWDLL; {-- Display profiling --------------------------------------------------------} function DrawDibProfileDisplay(lpbi: PBITMAPINFOHEADER): DWORD; stdcall; external VFWDLL; {-- Functions ----------------------------------------------------------------} procedure AVIFileInit; stdcall; external AVIFILDLL; // Call this first! procedure AVIFileExit; stdcall; external AVIFILDLL; function AVIFileAddRef(pfile: PAVIFILE): UDWORD; stdcall; external AVIFILDLL; function AVIFileRelease(pfile: PAVIFILE): UDWORD; stdcall; external AVIFILDLL; function AVIFileOpenA(var ppfile: PAVIFILE; szFile: LPCSTR; uMode: UINT; lpHandler: PCLSID): HResult; stdcall; external AVIFILDLL; function AVIFileOpenW(var ppfile: PAVIFILE; szFile: LPCWSTR; uMode: UINT; lpHandler: PCLSID): HResult; stdcall; external AVIFILDLL; function AVIFileOpen(var ppfile: PAVIFILE; szFile: LPCSTR; uMode: UINT; lpHandler: PCLSID): HResult; stdcall; external AVIFILDLL name 'AVIFileOpenA'; function AVIFileInfoW(pfile: PAVIFILE; pfi: PAVIFILEINFOW; lSize: DWORD): HResult; stdcall; external AVIFILDLL; function AVIFileInfoA(pfile: PAVIFILE; pfi: PAVIFILEINFOA; lSize: DWORD): HResult; stdcall; external AVIFILDLL; function AVIFileInfo(pfile: PAVIFILE; pfi: PAVIFILEINFOA; lSize: DWORD): HResult; stdcall; external AVIFILDLL name 'AVIFileInfoA'; function AVIFileGetStream(pfile: PAVIFILE; var ppavi: PAVISTREAM; fccType: DWORD; lParam: DWORD): HResult; stdcall; external AVIFILDLL; function AVIFileCreateStreamW(pfile: PAVIFILE; var ppavi: PAVISTREAM; psi: PAVISTREAMINFOW): HResult; stdcall; external AVIFILDLL; function AVIFileCreateStreamA(pfile: PAVIFILE; var ppavi: PAVISTREAM; psi: PAVISTREAMINFOA): HResult; stdcall; external AVIFILDLL; function AVIFileCreateStream(pfile: PAVIFILE; var ppavi: PAVISTREAM; psi: PAVISTREAMINFOA): HResult; stdcall; external AVIFILDLL name 'AVIFileCreateStreamA'; function AVIFileWriteData(pfile: PAVIFILE; ckid: DWORD; lpData: PVOID; cbData: DWORD): HResult; stdcall; external AVIFILDLL; function AVIFileReadData(pfile: PAVIFILE; ckid: DWORD; lpData: PVOID; lpcbData: PDWORD): HResult; stdcall; external AVIFILDLL; function AVIFileEndRecord(pfile: PAVIFILE): HResult; stdcall; external AVIFILDLL; function AVIStreamAddRef(pavi: PAVISTREAM): UDWORD; stdcall; external AVIFILDLL; function AVIStreamRelease(pavi: PAVISTREAM): UDWORD; stdcall; external AVIFILDLL; function AVIStreamInfoW (pavi: PAVISTREAM; psi: PAVISTREAMINFOW; lSize: DWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamInfoA (pavi: PAVISTREAM; psi: PAVISTREAMINFOA; lSize: DWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamInfo(pavi: PAVISTREAM; psi: PAVISTREAMINFOA; lSize: DWORD): HResult; stdcall; external AVIFILDLL name 'AVIStreamInfoA'; function AVIStreamFindSample(pavi: PAVISTREAM; lPos: DWORD; lFlags: DWORD): DWORD; stdcall; external AVIFILDLL; function AVIStreamReadFormat(pavi: PAVISTREAM; lPos: DWORD; lpFormat: PVOID; lpcbFormat: PDWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamSetFormat(pavi: PAVISTREAM; lPos: DWORD; lpFormat: PVOID; cbFormat: DWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamReadData(pavi: PAVISTREAM; fcc: DWORD; lp: PVOID; lpcb: PDWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamWriteData(pavi: PAVISTREAM; fcc: DWORD; lp: PVOID; cb: DWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamRead( pavi : PAVISTREAM; lStart : DWORD; lSamples : DWORD; lpBuffer : PVOID; cbBuffer : DWORD; plBytes : PDWORD; plSamples : PDWORD ): HResult; stdcall; external AVIFILDLL; function AVIStreamWrite( pavi : PAVISTREAM; lStart, lSamples : DWORD; lpBuffer : PVOID; cbBuffer : DWORD; dwFlags : DWORD; plSampWritten : PDWORD; plBytesWritten : PDWORD ): HResult; stdcall; external AVIFILDLL; // Right now, these just use AVIStreamInfo() to get information, then // return some of it. Can they be more efficient? function AVIStreamStart(pavi: PAVISTREAM): DWORD; stdcall; external AVIFILDLL; function AVIStreamLength(pavi: PAVISTREAM): DWORD; stdcall; external AVIFILDLL; function AVIStreamTimeToSample(pavi: PAVISTREAM; lTime: DWORD): DWORD; stdcall; external AVIFILDLL; function AVIStreamSampleToTime(pavi: PAVISTREAM; lSample: DWORD): DWORD; stdcall; external AVIFILDLL; function AVIStreamBeginStreaming(pavi: PAVISTREAM; lStart, lEnd: DWORD; lRate: DWORD): HResult; stdcall; external AVIFILDLL; function AVIStreamEndStreaming(pavi: PAVISTREAM): HResult; stdcall; external AVIFILDLL; {-- Helper functions for using IGetFrame -------------------------------------} function AVIStreamGetFrameOpen(pavi: PAVISTREAM; lpbiWanted: PBITMAPINFOHEADER): PGETFRAME; stdcall; external AVIFILDLL; function AVIStreamGetFrame(pg: PGETFRAME; lPos: DWORD): PVOID; stdcall; external AVIFILDLL; function AVIStreamGetFrameClose(pg: PGETFRAME): HResult; stdcall; external AVIFILDLL; // !!! We need some way to place an advise on a stream.... // STDAPI AVIStreamHasChanged (PAVISTREAM pavi); {-- Shortcut function --------------------------------------------------------} function AVIStreamOpenFromFileA(var ppavi: PAVISTREAM; szFile: LPCSTR; fccType: DWORD; lParam: DWORD; mode: UINT; pclsidHandler: PCLSID): HResult; stdcall; external AVIFILDLL; function AVIStreamOpenFromFileW(var ppavi: PAVISTREAM; szFile: LPCWSTR; fccType: DWORD; lParam: DWORD; mode: UINT; pclsidHandler: PCLSID): HResult; stdcall; external AVIFILDLL; function AVIStreamOpenFromFile(var ppavi: PAVISTREAM; szFile: LPCSTR; fccType: DWORD; lParam: DWORD; mode: UINT; pclsidHandler: PCLSID): HResult; stdcall; external AVIFILDLL name 'AVIStreamOpenFromFileA'; {-- Use to create disembodied streams ----------------------------------------} function AVIStreamCreate(var ppavi: PAVISTREAM; lParam1, lParam2: DWORD; pclsidHandler: PCLSID): HResult; stdcall; external AVIFILDLL; // PHANDLER AVIAPI AVIGetHandler (PAVISTREAM pavi, PAVISTREAMHANDLER psh); // PAVISTREAM AVIAPI AVIGetStream (PHANDLER p); {-- Stuff to support backward compat. ----------------------------------------} function AVIStreamFindKeyFrame(pavi: PAVISTREAM; lPos: DWORD; lFlags: DWORD): DWORD; stdcall; external AVIFILDLL name 'AVIStreamFindSample'; // Non-portable: this is alias for method name // FindKeyFrame FindSample function AVIStreamClose(pavi: PAVISTREAM): UDWORD; stdcall; external AVIFILDLL name 'AVIStreamRelease'; function AVIFileClose(pfile: PAVIFILE): UDWORD; stdcall; external AVIFILDLL name 'AVIFileRelease'; procedure AVIStreamInit; stdcall; external AVIFILDLL name 'AVIFileInit'; procedure AVIStreamExit; stdcall; external AVIFILDLL name 'AVIFileExit'; {== AVISave routines and structures ==========================================} function AVIMakeCompressedStream( var ppsCompressed : PAVISTREAM; ppsSource : PAVISTREAM; lpOptions : PAVICOMPRESSOPTIONS; pclsidHandler : PCLSID ): HResult; stdcall; external AVIFILDLL; // Non-portable: uses variable number of params // EXTERN_C HRESULT CDECL AVISaveA (LPCSTR szFile, // CLSID FAR *pclsidHandler, // AVISAVECALLBACK lpfnCallback, // int nStreams, // PAVISTREAM pfile, // LPAVICOMPRESSOPTIONS lpOptions, // ...); function AVISaveVA( szFile : LPCSTR; pclsidHandler : PCLSID; lpfnCallback : TAVISAVECALLBACK; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): HResult; stdcall; external AVIFILDLL; // Non-portable: uses variable number of params // EXTERN_C HRESULT CDECL AVISaveW (LPCWSTR szFile, // CLSID FAR *pclsidHandler, // AVISAVECALLBACK lpfnCallback, // int nStreams, // PAVISTREAM pfile, // LPAVICOMPRESSOPTIONS lpOptions, // ...); function AVISaveVW( szFile : LPCWSTR; pclsidHandler : PCLSID; lpfnCallback : TAVISAVECALLBACK; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): HResult; stdcall; external AVIFILDLL; // #define AVISave AVISaveA function AVISaveV( szFile : LPCSTR; pclsidHandler : PCLSID; lpfnCallback : TAVISAVECALLBACK; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): HResult; stdcall; external AVIFILDLL name 'AVISaveVA'; function AVISaveOptions( hwnd : HWND; uiFlags : UINT; nStreams : int; var ppavi : PAVISTREAM; var plpOptions : PAVICOMPRESSOPTIONS ): BOOL; stdcall; external AVIFILDLL; function AVISaveOptionsFree(nStreams: int; var plpOptions: PAVICOMPRESSOPTIONS): HResult; stdcall; external AVIFILDLL; {-----------------------------------------------------------------------------} function AVIBuildFilterW(lpszFilter: LPWSTR; cbFilter: DWORD; fSaving: BOOL): HResult; stdcall; external AVIFILDLL; function AVIBuildFilterA(lpszFilter: LPSTR; cbFilter: DWORD; fSaving: BOOL): HResult; stdcall; external AVIFILDLL; function AVIBuildFilter(lpszFilter: LPSTR; cbFilter: DWORD; fSaving: BOOL): HResult; stdcall; external AVIFILDLL name 'AVIBuildFilterA'; function AVIMakeFileFromStreams(var ppfile: PAVIFILE; nStreams: int; var papStreams: PAVISTREAM): HResult; stdcall; external AVIFILDLL; function AVIMakeStreamFromClipboard(cfFormat: UINT; hGlobal: THANDLE; var ppstream: PAVISTREAM): HResult; stdcall; external AVIFILDLL; {-- Clipboard routines -------------------------------------------------------} function AVIPutFileOnClipboard(pf: PAVIFILE): HResult; stdcall; external AVIFILDLL; function AVIGetFromClipboard(var lppf: PAVIFILE): HResult; stdcall; external AVIFILDLL; function AVIClearClipboard: HResult; stdcall; external AVIFILDLL; {-- Editing routines ---------------------------------------------------------} function CreateEditableStream(var ppsEditable: PAVISTREAM; psSource: PAVISTREAM): HResult; stdcall; external AVIFILDLL; function EditStreamCut(pavi: PAVISTREAM; plStart, plLength: PDWORD; var ppResult: PAVISTREAM): HResult; stdcall; external AVIFILDLL; function EditStreamCopy(pavi: PAVISTREAM; plStart, plLength: PDWORD; var ppResult: PAVISTREAM): HResult; stdcall; external AVIFILDLL; function EditStreamPaste(pavi: PAVISTREAM; plPos, plLength: PDWORD; pstream: PAVISTREAM; lStart, lEnd: DWORD): HResult; stdcall; external AVIFILDLL; function EditStreamClone(pavi: PAVISTREAM; var ppResult: PAVISTREAM): HResult; stdcall; external AVIFILDLL; function EditStreamSetNameA(pavi: PAVISTREAM; lpszName: LPCSTR): HResult; stdcall; external AVIFILDLL; function EditStreamSetNameW(pavi: PAVISTREAM; lpszName: LPCWSTR): HResult; stdcall; external AVIFILDLL; function EditStreamSetInfoW(pavi: PAVISTREAM; lpInfo: PAVISTREAMINFOW; cbInfo: DWORD): HResult; stdcall; external AVIFILDLL; function EditStreamSetInfoA(pavi: PAVISTREAM; lpInfo: PAVISTREAMINFOA; cbInfo: DWORD): HResult; stdcall; external AVIFILDLL; function EditStreamSetInfo(pavi: PAVISTREAM; lpInfo: PAVISTREAMINFOA; cbInfo: DWORD): HResult; stdcall; external AVIFILDLL name 'EditStreamSetInfoA'; function EditStreamSetName(pavi: PAVISTREAM; lpszName: LPCSTR): HResult; stdcall; external AVIFILDLL name 'EditStreamSetNameA'; {-- MCIWnd -------------------------------------------------------------------} function MCIWndCreateA(hwndParent: HWND; hInstance: HINST; dwStyle: DWORd; szFile: LPCSTR): HWND; cdecl; external VFWDLL; function MCIWndCreateW(hwndParent: HWND; hInstance: HINST; dwStyle: DWORd; szFile: LPCWSTR): HWND; cdecl; external VFWDLL; function MCIWndCreate(hwndParent: HWND; hInstance: HINST; dwStyle: DWORd; szFile: LPCSTR): HWND; cdecl; external VFWDLL name 'MCIWndCreateA'; function MCIWndRegisterClass: BOOL; cdecl; external VFWDLL; {== AVICAP - Window class for AVI capture ====================================} {-- The only exported functions from AVICAP.DLL ------------------------------} function capCreateCaptureWindowA( lpszWindowName : LPCSTR; dwStyle : DWORD; x, y : int; nWidth, nHeight : int; hwndParent : HWND; nID : int ): HWND; stdcall; external AVICAPDLL; function capGetDriverDescriptionA( wDriverIndex : UINT; lpszName : LPSTR; cbName : int; lpszVer : LPSTR; cbVer : int ): BOOL; stdcall; external AVICAPDLL; function capCreateCaptureWindowW( lpszWindowName : LPCWSTR; dwStyle : DWORD; x, y : int; nWidth, nHeight : int; hwndParent : HWND; nID : int ): HWND; stdcall; external AVICAPDLL; function capGetDriverDescriptionW( wDriverIndex : UINT; lpszName : LPWSTR; cbName : int; lpszVer : LPWSTR; cbVer : int ): BOOL; stdcall; external AVICAPDLL; function capCreateCaptureWindow( lpszWindowName : LPCSTR; dwStyle : DWORD; x, y : int; nWidth, nHeight : int; hwndParent : HWND; nID : int ): HWND; stdcall; external AVICAPDLL name 'capCreateCaptureWindowA'; function capGetDriverDescription( wDriverIndex : UINT; lpszName : LPSTR; cbName : int; lpszVer : LPSTR; cbVer : int ): BOOL; stdcall; external AVICAPDLL name 'capGetDriverDescriptionA'; {== FilePreview dialog =======================================================} function GetOpenFileNamePreviewA(lpofn: POPENFILENAMEA): BOOL; stdcall; external VFWDLL; function GetSaveFileNamePreviewA(lpofn: POPENFILENAMEA): BOOL; stdcall; external VFWDLL; function GetOpenFileNamePreviewW(lpofn: POPENFILENAMEW): BOOL; stdcall; external VFWDLL; function GetSaveFileNamePreviewW(lpofn: POPENFILENAMEW): BOOL; stdcall; external VFWDLL; function GetOpenFileNamePreview(lpofn: POPENFILENAMEA): BOOL; stdcall; external VFWDLL name 'GetOpenFileNamePreviewA'; function GetSaveFileNamePreview(lpofn: POPENFILENAMEA): BOOL; stdcall; external VFWDLL name 'GetSaveFileNamePreviewA'; end.