Windows2000/private/windows/media/avi/avifile/avilib.cpp

/*

 *  AVILIB.CPP

 *  routines for reading a AVIStream

 *  Copyright (c) 1992-1995 Microsoft Corporation.  All Rights Reserved.

 *  You have a royalty-free right to use, modify, reproduce and
 *  distribute the Sample Files (and/or any modified version) in
 *  any way you find useful, provided that you agree that
 *  Microsoft has no warranty obligations or liability for any
 *  Sample Application Files which are modified.

*/

#include <win32.h>
#ifndef _WIN32
#include <ole2.h>
#endif
#include <vfw.h>
#include <shellapi.h>
#include <memory.h>     // for _fmemset

#include "avifilei.h"
#include "aviopts.h"    // string resources
#include "debug.h"

#include <stdlib.h>

#include "olehack.h"

#if !defined NUMELMS
 #define NUMELMS(aa) (sizeof(aa)/sizeof((aa)[0]))
#endif

#ifndef _WIN32
#undef HKEY_CLASSES_ROOT
#define HKEY_CLASSES_ROOT       0x00000001
#define AVIFileOpenA    AVIFileOpen
#define AVIFileCreateStreamA AVIFileCreateStream
BOOL    gfOleInitialized;
STDAPI_(void) MyFreeUnusedLibraries(void);
#endif

#define ValidPAVI(pavi)  (pavi != NULL)

#define V_PAVI(pavi, err)   \
    if (!ValidPAVI(pavi))   \
        return err;


#ifdef SHELLOLE
#ifdef _WIN32
#define CoCreateInstance(rclsid, pUnkOuter, dwClsContext, riid, ppv) \
        SHCoCreateInstance(NULL, (const CLSID FAR *)&rclsid, pUnkOuter, riid, ppv)
#undef Assert
#include <shlobj.h>
#include <shellp.h>
#endif
#endif

/*

    strings

*/

#undef SZCODE
#define SZCODE const TCHAR _based(_segname("_CODE"))





EXTERN_C HINSTANCE ghMod;

static int iInit = 0;

#define InRange(id, idFirst, idLast)  ((UINT)(id-idFirst) <= (UINT)(idLast-idFirst))
// scan lpsz for a number of hex digits (at most 8); update lpsz, return
// value in Value; check for chDelim; return TRUE for success.
BOOL  HexStringToDword(LPCTSTR FAR * lplpsz, DWORD FAR * lpValue, int cDigits, char chDelim)
{
    int ich;
    LPCTSTR lpsz = *lplpsz;
    DWORD Value = 0;
    BOOL fRet = TRUE;

    for (ich = 0; ich < cDigits; ich++)
    {
    TCHAR ch = lpsz[ich];
        if (InRange(ch, '0', '9'))
    {
            Value = (Value << 4) + ch - '0';
    }
        else if ( InRange( (ch |= ('a'-'A')), 'a', 'f') )
    {
            Value = (Value << 4) + ch - 'a' + 10;
    }
        else
            return(FALSE);
    }

    if (chDelim)
    {
    fRet = (lpsz[ich++]==chDelim);
    }

    *lpValue = Value;
    *lplpsz = lpsz+ich;

    return fRet;
}

// parse above format; return TRUE if succesful; always writes over *pguid.
STDAPI_(BOOL)  GUIDFromString(LPCTSTR lpsz, LPGUID pguid)
{
    DWORD dw;
    if (*lpsz++ != '{' /*}*/ )
        return FALSE;

    if (!HexStringToDword(&lpsz, &pguid->Data1, sizeof(DWORD)*2, '-'))
        return FALSE;

    if (!HexStringToDword(&lpsz, &dw, sizeof(WORD)*2, '-'))
        return FALSE;

    pguid->Data2 = (WORD)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(WORD)*2, '-'))
        return FALSE;

    pguid->Data3 = (WORD)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, 0))
        return FALSE;

    pguid->Data4[0] = (BYTE)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, '-'))
        return FALSE;

    pguid->Data4[1] = (BYTE)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, 0))
        return FALSE;

    pguid->Data4[2] = (BYTE)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, 0))
        return FALSE;

    pguid->Data4[3] = (BYTE)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, 0))
        return FALSE;

    pguid->Data4[4] = (BYTE)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, 0))
        return FALSE;

    pguid->Data4[5] = (BYTE)dw;

    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, 0))
        return FALSE;

    pguid->Data4[6] = (BYTE)dw;
    if (!HexStringToDword(&lpsz, &dw, sizeof(BYTE)*2, /*(*/ '}'))
        return FALSE;

    pguid->Data4[7] = (BYTE)dw;

    return TRUE;
}




/*
* @doc INTERNAL InitRegistry()
*
* @api void | write all the default AVIFile/AVIStream handlers to the
*             registry.
*
* @comm This function should be enhanced so that some of the key values
*   can be loaded from resources, instead of a static string table....
*
* @xref AVIStreamInit
*
*/

#if 0 // Registry is now setup on install or upgrade
#ifndef CHICAGO
// !!! Chicago currently sets these registry entries up at setup time.
// NT should someday do the same thing.

#include "avireg.h"
static void InitRegistry()
{
    TCHAR **ppch = aszReg;
    TCHAR ach[80];

    LONG cb;

    // !!! This should have a version number or something in it....

    if (RegQueryValue(HKEY_CLASSES_ROOT, ppch[0], ach, (cb = sizeof(ach),&cb)) == ERROR_SUCCESS &&
        lstrcmpi(ach, ppch[1]) == 0) {
    DPF("Registry is up to date: %ls\n\t%ls\n\t%ls\n", ach, ppch[0], ppch[1]);
        return;
    }
    DPF("Setting: (was) %ls\n\t%ls\n\t(now) %ls\n", ach, ppch[0], ppch[1]);

    while (ppch[0])
    {
#ifdef MAX_RC_CONSTANT
    if (((UINT) ppch[1]) < MAX_RC_CONSTANT) {
        LoadString(ghMod, (UINT) ppch[1], ach, sizeof(ach)/sizeof(TCHAR));
        RegSetValue(HKEY_CLASSES_ROOT, ppch[0], REG_SZ, ach, 0L);

    } else
#endif
{
#ifdef _WIN32
        // string is too long for win 16
#endif
        if (*ppch[1] == TEXT('@')) {

        // This can only be generously described as a hack.  We
        // need to set a named value, but without restructuring
        // avireg.h completely (or reimplementing something different)
        // we cannot do so.  Hence we allow "special" values.  If the
        // "value" starts with "@" we interpret it to mean that this
        // is the value name, and the actual value follows.
        HKEY hKey = 0;
        DWORD Type = REG_SZ;

        RegOpenKeyEx(HKEY_CLASSES_ROOT, ppch[0], 0, KEY_SET_VALUE, &hKey);
        if (hKey) {
            LONG l =
            RegSetValueEx(hKey, ppch[1]+1, 0,
                    REG_SZ,
                    (LPBYTE)(ppch[2]),
                    (1+lstrlen(ppch[2]))*sizeof(TCHAR)); // include NULL length
            DPF2("Set Value Ex, return is %d\n\tValue is:%ls\n\tData is:%ls\n", l, ppch[1]+1, ppch[2]);
            RegCloseKey(hKey);
        }
        ++ppch;  // we must step three strings for named values
        } else {
        DPF2("Setting registry value: %ls\n\t%ls\n", ppch[0], ppch[1]);
        RegSetValue(HKEY_CLASSES_ROOT, ppch[0], REG_SZ, ppch[1], 0L);
        }
}
        ppch += 2;
    }
}
#endif
#endif

/*
* @doc EXTERNAL AVIFileInit
*
* @api void | AVIFileInit | This function initalizes the AVIFILE library.
*
* @comm Call this function before using any other AVIFILE functions.
*
* @xref <f AVIFileExit>
*
*/
// Force dynlink to OLE on NT as we use link to CoCreateInstance whereas
// Win95 uses the Shell instance call.
#ifdef DAYTONA
#define INITOLE (iInit==1)   //Force load on NT if this is the first init
#else
#define INITOLE FALSE
#endif

STDAPI_(void) AVIFileInit()
{
    iInit++;
    DPF("AVIFileInit: level now==%d\n", iInit);
#if defined(SHELLOLE) || defined(DAYTONA)
#ifndef _WIN32
    CoInitialize(NULL);
#endif
    InitOle(INITOLE);
#else
    OleInitialize(NULL);
#endif

#if 0 // Registry is now setup on install or upgrade
#ifndef CHICAGO
    if (iInit == 1) {
        InitRegistry();
    }
#endif
#endif
}

/*
* @doc EXTERNAL AVIFileExit
*
* @api void | AVIFileExit | This function exits the AVIFILE library.
*
* @comm Call this function after using any other AVIFILE functions.
*
* @xref <f AVIFileInit>
*
*/
STDAPI_(void) AVIFileExit()
{
    iInit--;
    DPF("AVIFileExit: level now %d\n", iInit);

#if defined(SHELLOLE) || defined(DAYTONA)
    TermOle();
#ifndef _WIN32
    MyFreeUnusedLibraries();
    CoUninitialize();
#endif
#else // not SHELLOLE
    CoFreeUnusedLibraries();

    OleUninitialize();
#endif
}


/*
* @doc INTERNAL AVIFileCreate
*
* @api LONG | AVIFileCreate | Initializes an empty AVI File interface
*   pointer.
*
* @parm PAVIFILE FAR * | ppfile | Pointer to where the new <t PAVIFILE>
*   should be returned.
*
* @parm LONG | lParam | Specifies a parameter passed to the handler.
*
* @parm CLSID FAR * | pclsidHandler | Specifies a pointer to a
*       class ID used to create the file.
*
* @devnote Nobody should have to call this function, because AVIFileOpen
*   does it.  In fact, why do we even have this?
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref AVIFileOpen
*
*/
STDAPI AVIFileCreate (PAVIFILE FAR *ppfile, LONG lParam,
              CLSID FAR *pclsidHandler)
{
    CLSID   clsid;
    HRESULT hr;

    if (!iInit) {
    return ResultFromScode(CO_E_NOTINITIALIZED);
    }

//    AVIStreamInit();

    if (pclsidHandler)
    clsid = *pclsidHandler;
    else {
//    if (pfh == NULL)
//  pfh = &AVIFFileHandler;
    }

    if (FAILED(GetScode(hr = CoCreateInstance((REFCLSID) clsid, NULL, CLSCTX_INPROC, (REFIID) IID_IAVIFile, (void FAR* FAR*)ppfile)))) {
    DPF("AVIFileCreate: CoCreateInstance failed code == %8x\n", hr);
    return hr;  // !!! PropagateHResult?
    }

    return AVIERR_OK;
}

// Remove trailing spaces after a file...
void FixFourCC(LPSTR lp)
{
    int i;

    for (i = 3; i >= 0; i--) {
    if (lp[i] == ' ')
        lp[i] = '\0';
    else
        break;
    }
}

// Returns a pointer to the extension of a filename....
LPCOLESTR FindExtension(LPCOLESTR lp)
{
    LPCOLESTR lpExt = lp;
    int i;

// Goto end of string
    while (*lpExt != TEXT('\0'))
    {
        ++lpExt;
    }

// Must be at least 2 characters in string
    if (lpExt - lp < 2 * sizeof(TCHAR))
        return NULL;

    lpExt -= 1;

// Does not count if last character is '.'
    if (*lpExt == TEXT('.'))
        return NULL;

    lpExt -= 1;
// Now looking at second to the last character.  Check this and the two
// previous characters for a '.'

    for (i=1; i<=3; ++i)
    {
// Cannot have path separator here
        if (*lpExt == TEXT('/') || *lpExt == TEXT('\\'))
            return NULL;

        if (*lpExt == TEXT('.'))
        {
            ++lpExt;
        return lpExt;
        }
        if (lpExt == lp)
            return NULL;
        --lpExt;
    }
    return NULL;
}

/*
* @doc INTERNAL GetHandlerFromFile
*
* @api PAVIFILEHANDLER | GetHandlerFromFile | Figure out what handler
*   to use for a file by looking at its extension, its RIFF type,
*   and possibly other things.
*
* @parm LPCTSTR | szFile | The file to look at.
*
* @parm CLSID FAR * | pclsidHandler | Pointer to a classID.
*
* @comm We don't look at the extensions yet.  We need a better way to
*   add handlers.
*
* @rdesc Returns the <PAVIFILEHANDLER> to use, or NULL if it can't find
*   one.
*
* @xref AVIFileOpen AVIRegisterLoader
*
*/
#define HKEY_AVIFILE_ROOT   HKEY_CLASSES_ROOT
#ifdef _WIN32
static SZCODE aszRegRIFF[] = TEXT("AVIFile\\RIFFHandlers\\%.4hs");
#else
static SZCODE aszRegRIFF[] = TEXT("AVIFile\\RIFFHandlers\\%.4s");
#endif
static SZCODE aszRegExt[] = TEXT("AVIFile\\Extensions");
static SZCODE aszRegClsid[] = TEXT("Clsid");
static SZCODE aszRegExtTmpl[] = TEXT("%s\\%.3ls");

BOOL GetHandlerFromFile(LPCOLESTR szFile, CLSID FAR *pclsid)
{
    LPCOLESTR   lpExt;
    TCHAR    achKey[100];
    TCHAR    achClass[100];
    LONG    lcbClass;

#if !defined _WIN32 || defined UNICODE
    DWORD   dw[3];
    HMMIO   hmmio;
    // I hate share
    hmmio = mmioOpen((LPTSTR) szFile, NULL, MMIO_READ | MMIO_DENYWRITE);

    if (hmmio == NULL)
        hmmio = mmioOpen((LPTSTR) szFile, NULL, MMIO_READ | MMIO_DENYNONE);

    if (hmmio == NULL)
        hmmio = mmioOpen((LPTSTR) szFile, NULL, MMIO_READ);

    if (hmmio == NULL)
        goto UseExtension;

    if (mmioRead(hmmio, (HPSTR) dw, sizeof(dw)) != sizeof(dw)) {
    mmioClose(hmmio, 0);
    goto UseExtension;
    }

    mmioClose(hmmio, 0);

    if (dw[0] != FOURCC_RIFF)
        goto UseExtension;

    FixFourCC((LPSTR) &dw[2]);

    // Look up the RIFF type in the registration database....
    wsprintf(achKey, aszRegRIFF, (LPSTR) &dw[2]);

    lcbClass = sizeof(achClass);
    RegQueryValue(HKEY_CLASSES_ROOT, achKey, achClass, &lcbClass);

    if (GUIDFromString(achClass, pclsid))
    return TRUE;

UseExtension:
#endif
    lpExt = FindExtension(szFile);
    if (lpExt) {
    // Look up the extension in the registration database....
    wsprintf(achKey, aszRegExtTmpl, (LPTSTR) aszRegExt, lpExt);

    lcbClass = sizeof(achClass);
    RegQueryValue(HKEY_CLASSES_ROOT, achKey, achClass, &lcbClass);

        if (GUIDFromString(achClass, pclsid))
        return TRUE;
    }

    // !!! Use IStorage?

    return FALSE;
}

/*
* @doc EXTERNAL AVIFileOpen
*
* @api LONG | AVIFileOpen | Opens an AVI file and returns a file interface
*   pointer used to access it.
*
* @parm PAVIFILE FAR * | ppfile | Pointer to the location used to return
*       the new <t PAVIFILE> file pointer.
*
* @parm LPCTSTR | szFile | Specifies a zero-terminated string
*       containing the name of the file to open.
*
* @parm UINT | mode | Specifies the mode to use when opening the file.
*
*
*       @flag   OF_READ | Opens the file for reading only. This is the
*           default, if OF_WRITE and OF_READWRITE are not specified.
*
*       @flag   OF_WRITE | Opens the file for writing. You should not
*           read from a file opened in this mode.
*
*       @flag   OF_READWRITE | Opens the file for both reading and writing.
*
*       @flag   OF_CREATE | Creates a new file.
*           If the file already exists, it is truncated to zero length.
*
*       @flag   OF_DENYWRITE | Opens the file and denies other
*           processes write access to the file. <f AVIFileOpen> fails
*           if the file has been opened in compatibility or for write
*           access by any other process.
*
*       @flag   OF_DENYREAD | Opens the file and denies other
*           processes read access to the file. <f AVIFileOpen> fails if the
*           file has been opened in compatibility mode or for read access
*           by any other process.
*
*       @flag   OF_DENYNONE | Opens the file without denying other
*           processes read or write access to the file. <f AVIFileOpen>
*           fails if the file has been opened in compatibility mode
*           by any other process.
*
*   @flag   OF_EXCLUSIVE | Opens the file and denies other processes
*       any access to the file.  <f AVIFileOpen> will fail if any
*       other process has opened the file.
*
*       See <f OpenFile> for more information about these flags.
*
* @parm CLSID FAR * | pclsidHandler | Specifies a pointer to a class ID
*       identifying the handler you want to use. If NULL, the system
*       chooses one from the registration database based on the file
*       extension or the file's RIFF type.
*
* @comm In general, the mode specified is used to open
*        the file.
*
*   Be sure to call <f AVIFileInit> at least once in your
*   application before calling this function, and to balance each
*   call to <f AVIFileInit> with a call to <f AVIFileExit>.
*
* @rdesc Returns zero if successful; otherwise returns an error code.
*   Possible error returns include:
*
*   @flag AVIERR_BADFORMAT | The file was corrupted or not in the
*       proper format, and could not be read.
*
*   @flag AVIERR_MEMORY | The file could not be opened because
*       there was not enough memory.
*
*   @flag AVIERR_FILEREAD | A disk error occurred while reading the
*       file.
*
*   @flag AVIERR_FILEOPEN | A disk error occurred while opening the
*       file.
*
*   @flag REGDB_E_CLASSNOTREG | No handler could be found to open
*       this type of file.
*
* @xref <f AVIFileRelease> <f AVIFileInit>
*
*/
STDAPI
#ifdef _WIN32
AVIFileOpenW
#else
AVIFileOpen
#endif
(PAVIFILE FAR *ppfile,
             LPCOLESTR szFile,
             UINT mode,
             CLSID FAR *pclsidHandler)
{
    CLSID   clsid;
    HRESULT hr;
    LPUNKNOWN punk;

// We used to just fail if AVIFileInit wasn't called
#if 0
    if (!iInit) {
    return ResultFromScode(E_UNEXPECTED);
    }
#endif

#if 0
    // Now we do it for them


    hr = CoInitialize(NULL);

    // Let them know what they did wrong
    if (GetScode(hr) == NOERROR) {
#ifdef DEBUG
    MessageBoxA(NULL, "You didn't call AVIFileInit!", "Bad dog!",
        MB_OK | MB_ICONHAND);
#endif
    } else
    CoUninitialize();
#endif

    *ppfile = 0;

    if (pclsidHandler) {

    clsid = *pclsidHandler;
    DPF2("AVIFileOpen using explicit clsid %8x, %8x, %8x, %8x\n", clsid);
    }
    else {
    if (!GetHandlerFromFile(szFile, &clsid)) {
        DPF("Couldn't find handler for %s\n", (LPTSTR) szFile);
        return ResultFromScode(REGDB_E_CLASSNOTREG);
    }
    }

    if (FAILED(GetScode(hr = CoCreateInstance((REFCLSID) clsid, NULL, CLSCTX_INPROC, (REFIID) IID_IUnknown, (void FAR* FAR*)&punk)))) {
    DPF("CoCreateInstance returns %08lx\n", (DWORD) hr);
    return hr;
    }


    // Let's simplify things for the handlers.  They will only see...
    //      OF_CREATE | OF_READWRITE    or...
    //      OF_READWRITE            or...
    //      OF_READ


    if (mode & OF_READWRITE)
    mode &= ~(OF_WRITE | OF_READ);

    if (mode & OF_CREATE) {
    mode &= ~(OF_WRITE | OF_READ);
    mode |= OF_READWRITE;
    }

    if (mode & OF_WRITE) {
    mode &= ~(OF_WRITE | OF_READ);
    mode |= OF_READWRITE;
    }

#ifdef _WIN32
    IPersistFile * lpPersist = NULL;

    hr = punk->QueryInterface(IID_IPersistFile, ( LPVOID FAR *) &lpPersist);

    if (SUCCEEDED(GetScode(hr))) {
    hr = punk->QueryInterface(IID_IAVIFile, ( LPVOID FAR *) ppfile);
    if (SUCCEEDED(GetScode(hr))) {
        if (FAILED(GetScode(hr = lpPersist->Load(szFile, mode)))) {
        DPF("Open method returns %08lx\n", (DWORD) hr);
        (*ppfile)->Release();
        *ppfile = NULL;
        }
    }
    lpPersist->Release();
    }
#else
    hr = punk->QueryInterface(IID_IAVIFile, ( LPVOID FAR *) ppfile);

    if (SUCCEEDED(GetScode(hr))) {
    if (FAILED(GetScode(hr = (*ppfile)->Open(szFile, mode)))) {
        DPF("Open method returns %08lx\n", (DWORD) hr);
        (*ppfile)->Release();
        *ppfile = NULL;
    }
    }
#endif
    punk->Release();

    return hr;
}


#ifdef _WIN32
/*
 * Ansi thunk for AVIFileOpen
*/
STDAPI AVIFileOpenA (PAVIFILE FAR *ppfile,
             LPCSTR szFile,
             UINT mode,
             CLSID FAR *pclsidHandler)
{
    LPWSTR lpW;
    int sz;
    HRESULT hr;

    // remember the null
    sz = lstrlenA(szFile) + 1;

    lpW = (LPWSTR) (LocalAlloc(LPTR, sz * sizeof(WCHAR)));

    if (lpW == NULL) {
    return ResultFromScode(AVIERR_MEMORY);
    }

    MultiByteToWideChar(CP_ACP, 0, szFile, -1, lpW, sz);

    hr = AVIFileOpenW(ppfile, lpW, mode, pclsidHandler);

    LocalFree((HANDLE)lpW);
    return hr;
}
#endif



/*
* @doc EXTERNAL AVIFileAddRef
*
* @api LONG | AVIFileAddRef | Increases the reference count of an AVI file.
*
* @parm PAVIFILE | pfile | Specifies the handle for an open AVI file.
*
* @rdesc Returns the reference count of the file.  This return value
*   should be used only for debugging purposes.
*
* @comm Balance each call to <f AVIFileAddRef> with a call to
*       <f AVIFileRelease>.
*
* @xref <f AVIFileRelease>
*
*/
STDAPI_(ULONG) AVIFileAddRef(PAVIFILE pfile)
{
    return pfile->AddRef();
}

/*
* @doc EXTERNAL AVIFileRelease
*
* @api LONG | AVIFileRelease | Reduces the reference count of an AVI file
*   interface handle by one, and closes the file if the count reaches
*   zero.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @comm Balance each call to <f AVIFileAddRef> or <f AVIFileOpen>
*       a call to <f AVIFileRelease>.
*
* @devnote Currently, this saves all changes to the file.  Should a separate
*   Save command be needed to do this?
*
* @rdesc Returns the reference count of the file.  This return value
*   should be used only for debugging purposes.
*
* @xref AVIFileOpen AVIFileAddRef
*
*/
STDAPI_(ULONG) AVIFileRelease(PAVIFILE pfile)
{
    return pfile->Release();
}

/*
* @doc EXTERNAL AVIFileInfo
*
* @api LONG | AVIFileInfo | Obtains information about an AVI file.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @parm AVIFILEINFO FAR * | pfi | Pointer to the structure used to
*       return file information.
*
* @parm LONG | lSize | Specifies the size of the structure.  This value
*   should be at least sizeof(AVIFILEINFO), obviously.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
*/
STDAPI AVIFileInfoW          (PAVIFILE pfile, AVIFILEINFOW FAR * pfi,
                  LONG lSize)
{
    _fmemset(pfi, 0, (int)lSize);
    return pfile->Info(pfi, lSize);
}

#ifdef _WIN32
// ansi thunk for above function
STDAPI AVIFileInfoA(
    PAVIFILE pfile,
    LPAVIFILEINFOA pfiA,
    LONG lSize)
{
    AVIFILEINFOW fiW;
    HRESULT hr;

    // if size too small - tough
    if (lSize < sizeof(AVIFILEINFOA)) {
    return ResultFromScode(AVIERR_BADSIZE);
    }

    hr = AVIFileInfoW(pfile, &fiW, sizeof(fiW));

    pfiA->dwMaxBytesPerSec       = fiW.dwMaxBytesPerSec;
    pfiA->dwFlags                = fiW.dwFlags;
    pfiA->dwCaps                 = fiW.dwCaps;
    pfiA->dwStreams              = fiW.dwStreams;
    pfiA->dwSuggestedBufferSize  = fiW.dwSuggestedBufferSize;
    pfiA->dwWidth                = fiW.dwWidth;
    pfiA->dwHeight               = fiW.dwHeight;
    pfiA->dwScale                = fiW.dwScale;
    pfiA->dwRate                 = fiW.dwRate;
    pfiA->dwLength               = fiW.dwLength;
    pfiA->dwEditCount            = fiW.dwEditCount;

    // convert the name
    WideCharToMultiByte(CP_ACP, 0, fiW.szFileType, -1,
            pfiA->szFileType, NUMELMS(pfiA->szFileType), NULL, NULL);

    return hr;
}
#endif




/*
* @doc EXTERNAL AVIFileGetStream
*
* @api LONG | AVIFileGetStream | Returns a pointer to a stream interface
*      that is a component of a file.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @parm PAVISTREAM FAR * | ppavi | Pointer to the return location
*       for the new stream interface pointer.
*
* @parm DWORD | fccType | Specifies a four-character code
*       indicating the type of stream to be opened.
*       Zero indicates that any stream can be opened. The following
*       definitions apply to the data commonly
*       found in AVI streams:
*
* @flag streamtypeAUDIO | Indicates an audio stream.
* @flag streamtypeMIDI | Indicates a MIDI stream.
* @flag streamtypeTEXT | Indicates a text stream.
* @flag streamtypeVIDEO | Indicates a video stream.
*
* @parm LONG | lParam | Specifies an integer indicating which stream
*       of the type defined by <p fccType> should actually be accessed.
*
* @comm Balance each call to <f AVIFileGetStream> with a call to
*       <f AVIStreamRelease> using the stream handle returned.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*   Possible error codes include:
*
*   @flag AVIERR_NODATA | There is no stream in the file corresponding
*       to the values passed in for <p fccType> and <p lParam>.
*   @flag AVIERR_MEMORY | Not enough memory.
*
* @xref <f AVIStreamRelease>
*
*/
STDAPI AVIFileGetStream     (PAVIFILE pfile, PAVISTREAM FAR * ppavi, DWORD fccType, LONG lParam)
{
    return pfile->GetStream(ppavi, fccType, lParam);
}

#if 0
// !!! This would be used to save changes, if AVIFileRelease didn't do that.
STDAPI AVIFileSave       (PAVIFILE pfile,
                      LPCTSTR szFile,
                      AVISAVEOPTIONS FAR *lpOptions,
                      AVISAVECALLBACK lpfnCallback,
                      PAVIFILEHANDLER pfh)
{
    if (pfile->FileSave == NULL)
    return -1;

    return pfile->FileSave(pfile, szFile, lpOptions, lpfnCallback);
}
#endif

/*
* @doc EXTERNAL AVIFileCreateStream
*
* @api LONG | AVIFileCreateStream | Creates a new stream in an existing file,
*      and returns a stream interface pointer for it.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @parm PAVISTREAM FAR * | ppavi | Specifies a pointer used to return the new
*       stream interface pointer.
*
* @parm AVISTREAMINFO FAR * | psi | Specifies a pointer to a structure
*       containing information about the new stream. This structure
*       contains the type of the new stream and its sample rate.
*
* @comm Balance each call to <f AVIFileCreateStream> with a call to
*       <f AVIStreamRelease> using the returned stream handle.
*
*       This function fails with a return value of AVIERR_READONLY unless
*       the file was opened with write permission.
*
*       After creating the stream, call <f AVIStreamSetFormat>
*       before using <f AVIStreamWrite> to write to the stream.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref <f AVIStreamRelease> <f AVIFileGetStream> <f AVIStreamSetFormat>
*
*/

STDAPI
#ifdef _WIN32
AVIFileCreateStreamW
#else
AVIFileCreateStream
#endif
        (PAVIFILE pfile,
     PAVISTREAM FAR *ppavi,
     AVISTREAMINFOW FAR *psi)
{
    *ppavi = NULL;
    return pfile->CreateStream(ppavi, psi);
}

#ifdef _WIN32
/*
 * Ansi thunk for AVIFileCreateStream
*/
STDAPI AVIFileCreateStreamA (PAVIFILE pfile,
                     PAVISTREAM FAR *ppavi,
                     AVISTREAMINFOA FAR *psi)
{
    *ppavi = NULL;
    AVISTREAMINFOW siW;
#ifdef UNICODE
    // Copy the AVISTREAMINFOA structure to the unicode equivalent.  We
    // rely on the fact - policed - that the szName element is the last
    // field in the structure.
    memcpy(&siW, psi, FIELD_OFFSET(AVISTREAMINFOA, szName));
    Assert((FIELD_OFFSET(AVISTREAMINFOA, szName) + sizeof(psi->szName)) == sizeof(*psi));
#else
    memcpy(&siW, psi, sizeof(*psi)-sizeof(psi->szName));
#endif

    // convert the name
    MultiByteToWideChar(CP_ACP, 0, psi->szName, NUMELMS(psi->szName),
                    siW.szName, NUMELMS(siW.szName));
    return pfile->CreateStream(ppavi, &siW);
    // no need to copy anything back ??
}
#endif

/*
* @doc INTERNAL AVIFileAddStream
*
* @api LONG | AVIFileAddStream | Adds an existing stream into
*   an existing file, and returns a stream interface pointer for it.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @parm PAVISTREAM | pavi | Specifies a stream interface pointer
*       for the stream being added.
*
* @parm PAVISTREAM FAR * | ppaviNew | Pointer to a buffer used
*       to return the new stream interface pointer.
*
* @comm Balance each call to <f AVIFileAddStream> with a call to
*       <f AVIStreamRelease> using the returned stream handle.
*
*   This call fails with a return value of AVIERR_READONLY unless
*   the file was opened with write permission.
*
* @devnote This function still doesn't really work.  Perhaps it should just
*   be a helper function that gets data from the stream and calls
*   AVIFileCreateStream, then copies the data from one stream to another.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref AVIStreamRelease AVIFileGetStream AVIFileCreateStream
*
*/
#if 0
STDAPI AVIFileAddStream (PAVIFILE pfile,
                     PAVISTREAM pavi,
                     PAVISTREAM FAR * ppaviNew)
{
//    if (pfile->FileAddStream == NULL)
//  return -1;

    return pfile->AddStream(pavi, ppaviNew);
}
#endif

/*
* @doc EXTERNAL AVIFileWriteData
*
* @api LONG | AVIFileWriteData | Writes some additional data to the file.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @parm DWORD | ckid | Specifies a four-character code identifying the data.
*
* @parm LPVOID | lpData | Specifies a pointer to the data to write.
*
* @parm LONG | cbData | Specifies the size of the memory block
*       referenced by <p lpData>.
*
* @comm This function fails with a return value of AVIERR_READONLY unless
*       the file was opened with write permission.
*
*       Use <f AVIStreamWriteData> instead of this function to write
*       data that applies to an individual stream.
*
* @devnote !!! Somewhere, we should specify some types.
*   !!! Should the data block contain the ckid and cksize?
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref <f AVIStreamWriteData> <f AVIFileReadData>
*
*/
STDAPI AVIFileWriteData (PAVIFILE pfile,
                     DWORD ckid,
                     LPVOID lpData,
                     LONG cbData)
{
//    if (pfile->FileWriteData == NULL)
//  return -1;

    return pfile->WriteData(ckid, lpData, cbData);
}

/*
* @doc EXTERNAL AVIFileReadData
*
* @api LONG | AVIFileReadData | Reads optional header data from the file.
*
* @parm PAVIFILE | pfile | Specifies a handle to an open AVI file.
*
* @parm DWORD | ckid | Specifies a four-character code identifying the data.
*
* @parm LPVOID | lpData | Specifies a pointer to a buffer used to return
*       the data read.
*
* @parm LONG FAR * | lpcbData | Specifies a pointer to a location indicating
*   the size of the memory block referred to by <p lpData>. If
*   the read is successful, the value is changed to indicate the
*   amount of data read.
*
* @devnote !!! Somewhere, we should specify some types.
*   !!! Should the data block contain the ckid and cksize?
*
*   @comm Do not use this function to read video and audio data. Use it
*  only to read additional information such as author
*   information or copyright information that applies to the file
*   as a whole. Information that applies to a single stream should
*   be read using <f AVIStreamReadData>.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*       The return value AVIERR_NODATA indicates that data with the
*       requested chunk ID does not exist.
*
* @xref <f AVIStreamReadData> <f AVIFileWriteData>
*
*/
STDAPI AVIFileReadData  (PAVIFILE pfile,
                     DWORD ckid,
                     LPVOID lpData,
                     LONG FAR * lpcbData)
{
    return pfile->ReadData(ckid, lpData, lpcbData);
}

/*
* @doc EXTERNAL AVIFileEndRecord
*
* @api LONG | AVIFileEndRecord | Marks the end of a record, if writing out
*   a strictly interleaved file.
*
* @parm PAVIFILE | pfile | Specifies a handle to a currently open AVI file.
*
* @comm <f AVIFileSave> uses this function when writing files that are
*   have audio interleaved every frame.  In general, applications
*   should not need to use this function.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref <f AVIFileSave> <f AVIStreamWrite>
*
*/
STDAPI AVIFileEndRecord (PAVIFILE pfile)
{
//    if (pfile->FileEndRecord == NULL)
//  return -1;

    return pfile->EndRecord();
}



/*
* @doc EXTERNAL AVIStreamAddRef
*
* @api LONG | AVIStreamAddRef | Increases the reference count of an AVI stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open AVI stream.
*
* @comm Balance each call to <f AVIStreamAddRef> with a call to
*       <f AVIStreamRelease>.
*
* @rdesc Returns the current reference count of the stream.  This value
*   should only be used for debugging purposes.
*
* @xref <f AVIStreamRelease>
*
*/
STDAPI_(ULONG) AVIStreamAddRef       (PAVISTREAM pavi)
{
    return pavi->AddRef();
}

/*
* @doc EXTERNAL AVIStreamRelease
*
* @api LONG | AVIStreamRelease | Reduces the reference count of an AVI stream
*   interface handle by one, and closes the stream if the count reaches
*   zero.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @comm Balance each call to <f AVIStreamAddRef> or <f AVIFileGetStream>
*       with a call to <f AVIStreamRelease>.
*
* @rdesc Returns the current reference count of the stream.  This value
*   should only be used for debugging purposes.
*
* @xref <f AVIFileGetStream> <f AVIStreamAddRef>
*
*/
STDAPI_(ULONG) AVIStreamRelease        (PAVISTREAM pavi)
{
    return pavi->Release();
}

/*
* @doc EXTERNAL AVIStreamInfo
*
* @api LONG | AVIStreamInfo | Obtains stream header information.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm AVISTREAMINFO FAR * | psi | Specifies a pointer to a structure
*       used to return stream information.
*
* @parm LONG | lSize | Specifies the size of the structure used for
*       <p psi>.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
*/
STDAPI AVIStreamInfoW         (PAVISTREAM pavi, AVISTREAMINFOW FAR * psi, LONG lSize)
{
    _fmemset(psi, 0, (int)lSize);

    return pavi->Info(psi, lSize);
}

#ifdef _WIN32
//Ansi thunk for above function
STDAPI AVIStreamInfoA(
    PAVISTREAM pavi,
    LPAVISTREAMINFOA psi,
    LONG lSize
)
{
    HRESULT hr;
    AVISTREAMINFOW sW;

    hr = AVIStreamInfoW(pavi, &sW, sizeof(sW));

    // is the size big enough
    if (lSize < sizeof(AVISTREAMINFOA)) {
    return ResultFromScode(AVIERR_BADSIZE);
    }

    // copy non-char-related fields
    psi->fccType        = sW.fccType;
    psi->fccHandler             = sW.fccHandler;
    psi->dwFlags                = sW.dwFlags;
    psi->dwCaps                 = sW.dwCaps;
    psi->wPriority              = sW.wPriority;
    psi->wLanguage              = sW.wLanguage;
    psi->dwScale                = sW.dwScale;
    psi->dwRate                 = sW.dwRate;
    psi->dwStart                = sW.dwStart;
    psi->dwLength               = sW.dwLength;
    psi->dwInitialFrames        = sW.dwInitialFrames;
    psi->dwSuggestedBufferSize  = sW.dwSuggestedBufferSize;
    psi->dwQuality              = sW.dwQuality;
    psi->dwSampleSize           = sW.dwSampleSize;
    psi->rcFrame                = sW.rcFrame;
    psi->dwEditCount            = sW.dwEditCount;
    psi->dwFormatChangeCount    = sW.dwFormatChangeCount;

    // convert the name
    WideCharToMultiByte(CP_ACP, 0, sW.szName, -1,
            psi->szName, NUMELMS(psi->szName), NULL, NULL);

    return hr;
}
#endif


/*
* @doc EXTERNAL AVIStreamFindSample
*
* @api LONG | AVIStreamFindSample | Returns the position of
*      a key frames or non-empty frame relative to the specified position.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lPos | Specifies the starting position
*       for the search.
*
* @parm LONG | lFlags | The following flags are defined:
*
* @flag FIND_KEY     | Finds a key frame.
* @flag FIND_ANY     | Finds a non-empty sample.
* @flag FIND_FORMAT  | Finds a format change.
*
* @flag FIND_NEXT    | Finds nearest sample, frame, or format change
*                      searching forward. The current sample is
*                      included in the search. Use this flag with the
*                      FIND_ANY, FIND_KEY, or FIND_FORMAT flag.
*
* @flag FIND_PREV    | Finds nearest sample, frame, or format change
*                      searching backwards. The current sample is
*                      included in the search. Use this flag with the
*                      FIND_ANY, FIND_KEY, or FIND_FORMAT flag.
*
*
* @comm The FIND_KEY, FIND_ANY, and FIND_FORMAT flags are mutually exclusive.
*       The FIND_NEXT and FIND_PREV flags are also mutually exclusive.
*       For example:
*
* @ex       FIND_PREV|FIND_KEY      Returns the first key sample prior to or at
*                               <p lPos>.
*
*       FIND_PREV|FIND_ANY      Returns the first non-empty sample prior to
*                               or at <p lPos>.
*
*       FIND_NEXT|FIND_KEY      Returns the first key sample after <p lPos>,
*                               or -1 if a key sample does not follow <p lPos>.
*
*       FIND_NEXT|FIND_ANY      Returns the first non-empty sample after <p lPos>,
*                               or -1 if a sample does not exist after <p lPos>.
*
*       FIND_NEXT|FIND_FORMAT   Returns the first format change after or
*                               at <p lPos>, or -1 if the stream does not
*                               have format changes.
*
*       FIND_PREV|FIND_FORMAT   Returns the first format change prior to
*                               or at <p lPos>. If the stream does not
*                               have format changes, it returns the first sample
*
* @rdesc Returns the position found.  In many boundary cases, this
*   function will return -1; see the example above for details.
*
*/
STDAPI_(LONG) AVIStreamFindSample(PAVISTREAM pavi, LONG lPos, LONG lFlags)
{
    // Default to Find Previous Key Frame
    if ((lFlags & FIND_TYPE) == 0)
        lFlags |= FIND_KEY;
    if ((lFlags & FIND_DIR) == 0)
        lFlags |= FIND_PREV;

    return pavi->FindSample(lPos, lFlags);
}

/*
* @doc EXTERNAL AVIStreamReadFormat
*
* @api LONG | AVIStreamReadFormat | Reads the stream format data.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lPos | Specifies the position in the stream
*       used to obtain the format data.
*
* @parm LPVOID | lpFormat | Specifies a pointer to a buffer
*       used to return the format data.
*
* @parm LONG FAR * | lpcbFormat | Specifies a pointer to a
*       location indicating the size of the memory block
*       referred to by <p lpFormat>. On return, the value is
*       changed to indicate the amount of data read. If
*       <p lpFormat> is NULL, this parameter can be used
*       to obtain the amount of memory needed to return the format.
*
* @comm This function will return part of the format even if the buffer
*   provided is not large enough to hold the entire format. In this case
*   the return value will be AVIERR_BUFFERTOOSMALL, and the location
*   referenced by <p lpcbFormat> will be filled in with the size
*   of the entire format.
*
*   This is useful because it allows you to use a buffer the
*   size of a <t BITMAPINFOHEADER> structure and
*   retrieve just the common part of the video format if you are not
*   interested in extended format information or palette information.
*
* @rdesc Returns zero if successful, otherwise it returns an error code.
*
*/
STDAPI AVIStreamReadFormat   (PAVISTREAM pavi, LONG lPos,
                      LPVOID lpFormat, LONG FAR *lpcbFormat)
{
//    if (pavi->StreamReadFormat == NULL)
//  return -1;

    return pavi->ReadFormat(lPos, lpFormat, lpcbFormat);
}

/*
* @doc EXTERNAL AVIStreamSetFormat
*
* @api LONG | AVIStreamSetFormat | Sets the format of a stream at the
*      specified position.
*
* @parm PAVISTREAM | pavi | Specifies a handle to open stream.
*
* @parm LONG | lPos | Specifies the position in the stream to
*       receive the format.
*
* @parm LPVOID | lpFormat | Specifies a pointer to a structure
*       containing the new format.
*
* @parm LONG | cbFormat | Specifies the size of the block of memory
*       referred to by <p lpFormat> in bytes.
*
* @comm After creating a new stream with <f AVIFileCreateStream>,
*       call this function to set the stream's format.
*
*      The handler for writing AVI files does not, in general, accept
*      format changes. Aside from setting the initial format for a
*      stream, only changes in the palette of a video stream are allowed
*      in an AVI file. The palette change must be after
*      any frames already written to the AVI file.  Other handlers may
*     impose different restrictions.
*
* @rdesc Returns zero if successful, otherwise it returns an error code.
*
* @xref <f AVIFileCreateStream> <f AVIStreamReadFormat>
*
*/
STDAPI AVIStreamSetFormat   (PAVISTREAM pavi, LONG lPos,
                     LPVOID lpFormat, LONG cbFormat)
{
//    if (pavi->StreamSetFormat == NULL)
//  return -1;

    return pavi->SetFormat(lPos, lpFormat, cbFormat);
}

/*
* @doc EXTERNAL AVIStreamReadData
*
* @api LONG | AVIStreamReadData | Reads optional header data from a stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm DWORD | ckid | Specifies a four-character code identifying the data.
*
* @parm LPVOID | lpData | Specifies a pointer to used to return
*       the data read.
*
* @parm LONG FAR * | lpcbData | Points to a location which
*       specifies the buffer size used for <p lpData>.
*   If the read is successful, AVIFile changes this value
*       to indicate the amount of data written into the buffer for
*       <p lpData>.
*
* @comm This function only retrieves header information
*       from the stream. To read the actual multimedia content of the
*       stream, use <f AVIStreamRead>.
*
* @devnote !!! Somewhere, we should specify some types.
*   !!! Should the data block contain the ckid and cksize?
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*        The return value AVIERR_NODATA indicates the system could not
*        find any data with the specified chunk ID.
*
* @xref <f AVIFileReadData> <f AVIStreamWriteData> <f AVIStreamWrite>
*
*/
STDAPI AVIStreamReadData     (PAVISTREAM pavi, DWORD ckid, LPVOID lpData, LONG FAR *lpcbData)
{
//    if (pavi->StreamReadData == NULL)
//  return -1;

    return pavi->ReadData(ckid, lpData, lpcbData);
}

/*
* @doc EXTERNAL AVIStreamWriteData
*
* @api LONG | AVIStreamWriteData | Writes optional data to the stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm DWORD | ckid | Specifies a four-character code identifying the data.
*
* @parm LPVOID | lpData | Specifies a pointer to a buffer containing
*       the data to write.
*
* @parm LONG | cbData | Indicates the number of bytes of data to be copied
*   from <p lpData> into the stream.
*
* @comm This function only writes header information to the stream.
*       To write the actual multimedia content of the stream, use
*       <f AVIStreamWrite>. Use <f AVIFileWriteData> to write
*       data that applies to an entire file.
*
*       This call fails with a return value of AVIERR_READONLY unless
*       the file was opened with write permission.
*
* @devnote !!! Somewhere, we should specify some types.
*   !!! Should the data block contain the ckid and cksize?
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref <f AVIFileWriteData> <f AVIStreamReadData> <f AVIStreamWrite>
*
*/
STDAPI AVIStreamWriteData     (PAVISTREAM pavi, DWORD ckid, LPVOID lpData, LONG cbData)
{
    return pavi->WriteData(ckid, lpData, cbData);
}

/*
* @doc EXTERNAL AVIStreamRead
*
* @api LONG | AVIStreamRead | Reads audio or video data from a stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lStart | Specifies the starting sample to read.
*
* @parm LONG | lSamples | Specifies the number of samples to read.
*
* @parm LPVOID | lpBuffer | Specifies a pointer to a buffer used to
*       return the data.
*
* @parm LONG | cbBuffer | Specifies the size of buffer pointed to by <p lpBuffer>.
*
* @parm LONG FAR * | plBytes | Specifies a pointer to the location
*       used to return number of bytes of data written into the
*       buffer for <p lpBuffer>.  <p plBytes> can be NULL.
*
* @parm LONG FAR * | plSamples | Specifies a pointer to the location
*       used to return the number of samples written into the buffer for
*       for <p lpBuffer>.  <p plSamples> can be NULL.
*
* @comm If <p lpBuffer> is NULL, this function does not read
*       any data; it returns information about the size of data
*       that would be read.
*
*   See <f AVIStreamLength> for a discussion of how sample numbers
*   correspond to the data you want to read.
*
* @rdesc Returns zero if successful, or an error code.  Use <p plBytes>
*   and <p plSamples> to find out how much was actually read.
*
*   Possible errors include:
*
*   @flag AVIERR_BUFFERTOOSMALL | The buffer size <p cbBuffer> was
*       too small to read in even a single sample of data.
*
*   @flag AVIERR_MEMORY | There was not enough memory for some
*       reason to complete the read operation.
*
*   @flag AVIERR_FILEREAD | A disk error occurred while reading the
*       file.
*
* @xref <f AVIFileGetStream> <f AVIStreamFindSample> <f AVIStreamWrite>
*
*/
STDAPI AVIStreamRead         (PAVISTREAM pavi,
                      LONG lStart, LONG lSamples,
                      LPVOID lpBuffer, LONG cbBuffer,
                      LONG FAR * plBytes, LONG FAR * plSamples)
{
//    if (pavi->StreamRead == NULL)
//  return -1;

    return pavi->Read(lStart, lSamples, lpBuffer, cbBuffer, plBytes, plSamples);
}

/*
* @doc EXTERNAL AVIStreamWrite
*
* @api LONG | AVIStreamWrite | Writes data to a stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lStart | Specifies the starting sample to write.
*
* @parm LONG | lSamples | Specifies the number of samples to write.
*
* @parm LPVOID | lpBuffer | Specifies a pointer to buffer
*       containing the data to write.
*
* @parm LONG | cbBuffer | Specifies the size of buffer used by <p lpBuffer>.
*
* @parm DWORD | dwFlags | Specifies any flags associated with this data.
*       The following flags are defined:
*
* @flag AVIIF_KEYFRAME | Indicates this data does not rely on preceding
*       data in the file.
*
* @parm LONG FAR * | plSampWritten | Specifies a pointer to a location
*       used to return the number of samples written. This can be set
*       to NULL.
*
* @parm LONG FAR * | plBytesWritten | Specifies a pointer to a location
*       used to return the number of bytes written. This can be set
*       to NULL.
*
* @comm The default AVI file handler only supports writing to the end
*   of a stream.  The WAVE file handler supports writing anywhere.
*
*   This function overwrites existing data, rather than inserting
*   new data.
*
*   See <f AVIStreamLength> for a discussion of how sample numbers
*   correspond to the data you want to read.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref <f AVIFileGetStream> <f AVIFileCreateStream> <f AVIStreamRead>
*
*/
STDAPI AVIStreamWrite        (PAVISTREAM pavi,
                  LONG lStart, LONG lSamples,
                  LPVOID lpBuffer, LONG cbBuffer,
                  DWORD dwFlags,
                  LONG FAR *plSampWritten,
                  LONG FAR *plBytesWritten)
{
//    if (pavi->StreamWrite == NULL)
//  return -1;

    return pavi->Write(lStart, lSamples, lpBuffer, cbBuffer,
               dwFlags, plSampWritten, plBytesWritten);
}

/*
* @doc INTERNAL AVIStreamDelete
*
* @api LONG | AVIStreamDelete | Deletes data from a stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lStart | Specifies the starting sample to delete.
*
* @parm LONG | lSamples | Specifies the number of samples to delete.
*
* @devnote This isn't implemented by anybody yet.  Should it be?  Wave files,
*   for instance, would have to copy lots of data around....
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref
*
*/
STDAPI AVIStreamDelete       (PAVISTREAM pavi, LONG lStart, LONG lSamples)
{
//    if (pavi->StreamDelete == NULL)
//  return -1;

    return pavi->Delete(lStart, lSamples);
}

#if 0
// !!! should this exist?
STDAPI AVIStreamClone    (PAVISTREAM pavi, PAVISTREAM FAR *ppaviNew)
{
//    if (pavi->StreamClone == NULL)
//  return -1;

    return pavi->Clone(ppaviNew);
}
#endif

/*
* @doc EXTERNAL AVIStreamStart
*
* @api LONG | AVIStreamStart | Returns the starting sample of the stream.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @rdesc Returns the starting sample number for the stream, or -1 on error.
*
* @comm See <f AVIStreamLength> for a discussion of how sample numbers
*   correspond to the data you want to read.
*
* @xref <f AVIStreamSampleToTime> <f AVIStreamLength>
*
*/
STDAPI_(LONG) AVIStreamStart        (PAVISTREAM pavi)
{
    AVISTREAMINFOW      avistream;

    pavi->Info(&avistream, sizeof(avistream));

    return (LONG) avistream.dwStart;
}

/*
* @doc EXTERNAL AVIStreamLength
*
* @api LONG | AVIStreamLength | Returns the length of the stream in samples.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @devnote Currently, this doesn't call a handler function at all.
*
* @rdesc Returns the stream's length in samples, or -1 on error.
*
* @comm Values in samples can be converted to milliseconds using
*   the <f AVIStreamSampleToTime> function.
*
*   For video streams, each sample generally corresponds to a
*   frame of video.  There may, however, be sample numbers for
*   which no video data is actually present: If <f AVIStreamRead>
*   is called at those positions, it will return a data length
*   of zero bytes.  You can use <f AVIStreamFindSample> with the
*   FIND_ANY flag to find sample numbers which actually have data.
*
*   For audio streams, each sample corresponds to one "block"
*   of data.  Note the conflicting terminology here: if you're
*   working with 22KHz ADPCM data, each block of audio data is
*   256 bytes, corresponding to about 500 "audio samples" which
*   will be presented to the speaker each 22000th of a second.
*   From the point of view of the AVIFile APIs, however, each 256-byte
*   block is a single sample, because they cannot be subdivided.
*
*   Note that the stream's starting position may not be zero; see
*   <f AVIStreamStart>.  Valid positions within a stream range from
*   start to start+length; there is no actual data present at position
*   start+length, but that corresponds to a time after the last data
*   has been rendered.
*
* @xref <f AVIStreamInfo>
*
*/
STDAPI_(LONG) AVIStreamLength       (PAVISTREAM pavi)
{
    AVISTREAMINFOW      avistream;
    HRESULT         hr;

    hr = pavi->Info(&avistream, sizeof(avistream));

    if (hr != NOERROR) {
    DPF("Error in AVIStreamLength!\n");
    return 1;
    }

    return (LONG) avistream.dwLength;
}

/*
* @doc EXTERNAL AVIStreamTimeToSample
*
* @api LONG | AVIStreamTimeToSample | Converts from milliseconds to samples.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lTime | Specifies the time in milliseconds.
*
* @devnote Currently, this doesn't call a handler function at all.
*
* @comm Samples typically correspond to audio samples or video frames.
*       Other stream types might support different formats than these.

* @rdesc Returns the converted time, or -1 on error.
*
* @xref AVIStreamSampleToTime
*
*/
STDAPI_(LONG) AVIStreamTimeToSample (PAVISTREAM pavi, LONG lTime)
{
    AVISTREAMINFOW      avistream;
    HRESULT         hr;
    LONG            lSample;

    // Invalid time
    if (lTime < 0)
    return -1;

    hr = pavi->Info(&avistream, sizeof(avistream));

    if (hr != NOERROR || avistream.dwScale == 0 || avistream.dwRate == 0) {
    DPF("Error in AVIStreamTimeToSample!\n");
    return lTime;
    }

    // This is likely to overflow if we're not careful for long AVIs
    // so keep the 1000 inside the brackets.

    if (avistream.dwRate / avistream.dwScale < 1000)
    lSample =  muldivrd32(lTime, avistream.dwRate, avistream.dwScale * 1000);
    else
    lSample =  muldivru32(lTime, avistream.dwRate, avistream.dwScale * 1000);

    lSample = min(max(lSample, (LONG) avistream.dwStart),
          (LONG) (avistream.dwStart + avistream.dwLength));

    return lSample;
}

/*
* @doc EXTERNAL AVIStreamSampleToTime
*
* @api LONG | AVIStreamSampleToTime | Converts from samples to milliseconds.
*   Samples can correspond to blocks of audio samples, video frames, or other format
*   depending on the stream type.
*
* @parm PAVISTREAM | pavi | Specifies a handle to an open stream.
*
* @parm LONG | lSample | Specifies the position information.
*
* @rdesc Returns the converted time, or -1 on error.
*
* @xref <f AVIStreamTimeToSample>
*
*/
STDAPI_(LONG) AVIStreamSampleToTime (PAVISTREAM pavi, LONG lSample)
{
    AVISTREAMINFOW      avistream;
    HRESULT         hr;

    hr = pavi->Info(&avistream, sizeof(avistream));

    if (hr != NOERROR || avistream.dwRate == 0 || avistream.dwScale == 0) {
    DPF("Error in AVIStreamSampleToTime!\n");
    return lSample;
    }

    lSample = min(max(lSample, (LONG) avistream.dwStart),
          (LONG) (avistream.dwStart + avistream.dwLength));

    // lSample * 1000 would overflow too easily
    if (avistream.dwRate / avistream.dwScale < 1000)
    return muldivrd32(lSample, avistream.dwScale * 1000, avistream.dwRate);
    else
    return muldivru32(lSample, avistream.dwScale * 1000, avistream.dwRate);
}


/*
* @doc EXTERNAL AVIStreamOpenFromFile
*
* @api LONG | AVIStreamOpenFromFile | This function provides a convenient
*      way to open a single stream from a file.
*
* @parm PAVISTREAM FAR * | ppavi | Specifies a pointer to the location
*       used to return the new stream handle.
*
* @parm LPCTSTR | szFile | Specifies a zero-terminated string containing
*       the name of the file to open.
*
* @parm DWORD | fccType | Specifies a four-character code
*       indicating the type of stream to be opened.
*       Zero indicates that any stream can be opened. The following
*       definitions apply to the data commonly
*       found in AVI streams:
*
* @flag streamtypeAUDIO | Indicates an audio stream.
* @flag streamtypeMIDI | Indicates a MIDI stream.
* @flag streamtypeTEXT | Indicates a text stream.
* @flag streamtypeVIDEO | Indicates a video stream.
*
* @parm LONG | lParam | Indicates which stream of the type specified in
*   <p fccType> should actually be accessed.
*
* @parm UINT | mode | Specifies the mode to use when opening the file.
*       This function can only open existing streams so the OF_CREATE
*       mode flag cannot be used. See
*       <f OpenFile> for more information about the available flags.
*
* @parm CLSID FAR * | pclsidHandler | Specifies a pointer to a class ID
*       identifying the handler you want to use. If NULL, the system
*       chooses one from the registration database based on the file
*       extension or the file's RIFF type.
*
* @comm Balance each call to <f AVIStreamOpenFromFile> with a
*       call to <f AVIStreamRelease> using the stream handle returned.
*
*   This function calls <f AVIFileOpen>, <f AVIFileGetStream>, and
*       <f AVIFileRelease>.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref <f AVIFileOpen> <f AVIFileGetStream>
*
*/
STDAPI AVIStreamOpenFromFileW(PAVISTREAM FAR *ppavi,
                  LPCWSTR szFile,
                  DWORD fccType, LONG lParam,
                  UINT mode, CLSID FAR *pclsidHandler)
{
    PAVIFILE    pfile;
    HRESULT hr;

    hr = AVIFileOpenW(&pfile, szFile, mode, pclsidHandler);

    if (!FAILED(GetScode(hr))) {
    hr  = AVIFileGetStream(pfile, ppavi, fccType, lParam);

        AVIFileRelease(pfile);  // the stream still has a reference to the file
    }

    return hr;
}

#ifdef _WIN32
// Ansi thunk
STDAPI AVIStreamOpenFromFileA(PAVISTREAM FAR *ppavi,
                  LPCSTR szFile,
                  DWORD fccType, LONG lParam,
                  UINT mode, CLSID FAR *pclsidHandler)
{
    PAVIFILE    pfile;
    HRESULT hr;

    hr = AVIFileOpenA(&pfile, szFile, mode, pclsidHandler);

    if (!FAILED(GetScode(hr))) {
    hr  = AVIFileGetStream(pfile, ppavi, fccType, lParam);

        AVIFileRelease(pfile);  // the stream still has a reference to the file
    }

    return hr;
}
#endif

/*
* @doc EXTERNAL AVIStreamCreate
*
* @api LONG | AVIStreamCreate | Creates a stream not associated with any
*   file.
*
* @parm PAVISTREAM FAR * | ppavi | Pointer to a location to return the
*   new stream handle.
*
* @parm LONG | lParam1 | Specifies stream-handler specific information.
*
* @parm LONG | lParam2 | Specifies stream-handler specific information.
*
* @parm CLSID FAR * | pclsidHandler | Pointer to the class ID used
*       for the stream.
*
* @comm Balance each call to <f AVIStreamCreate> with a
*       call to <f AVIStreamRelease>.
*
*   You should not need to call this function; functions like
*   <f CreateEditableStream> and <f AVIMakeCompressedStream>
*   use it internally.
*
* @rdesc Returns zero if successful; otherwise returns an error code.
*
* @xref <f AVIFileOpen> <f AVIFileGetStream>
*
*/
STDAPI AVIStreamCreate (PAVISTREAM FAR *ppavi, LONG lParam1, LONG lParam2,
              CLSID FAR *pclsidHandler)
{
    CLSID   clsid;
    HRESULT hr;

    if (!iInit) {
    return ResultFromScode(E_UNEXPECTED);
    }

    if (pclsidHandler)
    clsid = *pclsidHandler;
    else {
    return ResultFromScode(REGDB_E_CLASSNOTREG);
    }

    if (FAILED(GetScode(hr = CoCreateInstance((REFCLSID) clsid, NULL, CLSCTX_INPROC, (REFIID) IID_IAVIStream, (void FAR* FAR*)ppavi))))
    return hr;

    if (FAILED(GetScode(hr = (*ppavi)->Create(lParam1, lParam2)))) {
    (*ppavi)->Release();
    // AVIStreamExit();
    }

    return AVIERR_OK;
}


/*
* @doc EXTERNAL AVIStreamBeginStreaming
*
* @api LONG | AVIStreamBeginStreaming | Specifies the parameters for
*      streaming and lets a stream handler prepare for streaming.
*
* @parm PAVISTREAM | pavi | Specifies a pointer to a stream.
*
* @parm LONG | lStart | Specifies the starting point for streaming.
*
* @parm LONG | lEnd | Specifies the ending point for streaming.
*
* @parm LONG | lRate | Specifies the speed at which the file will be
*   read relative to its natural speed.  Specify 1000 for the normal speed.
*
* @comm Many stream implementations ignore this function.
*
* @rdesc Returns zero if successful; otherwise returns an error code.
*
* @xref <f AVIStreamEndStreaming>
*
*/
STDAPI AVIStreamBeginStreaming(PAVISTREAM   pavi,
                   LONG     lStart,
                   LONG     lEnd,
                   LONG     lRate)
{
    IAVIStreaming FAR * pi;
    HRESULT hr;

    if (FAILED(GetScode(pavi->QueryInterface(IID_IAVIStreaming,
                         (void FAR* FAR*) &pi))))
    return AVIERR_OK;

    hr = pi->Begin(lStart, lEnd, lRate);

    pi->Release();

    return hr;
}


/*
* @doc EXTERNAL AVIStreamEndStreaming
*
* @api LONG | AVIStreamEndStreaming | Ends streaming.
*
* @parm PAVISTREAM | pavi | Specifies a pointer to a stream.
*
* @comm Many stream implementations ignore this function.
*
* @rdesc Returns zero if successful; otherwise it returns an error code.
*
* @xref AVIStreamBeginStreaming
*
*/
STDAPI AVIStreamEndStreaming(PAVISTREAM   pavi)
{
    IAVIStreaming FAR * pi;
    HRESULT hr;

    if (FAILED(GetScode(pavi->QueryInterface(IID_IAVIStreaming, (LPVOID FAR *) &pi))))
    return AVIERR_OK;

    hr = pi->End();

    pi->Release();

    return hr;
}

#if 0
/*
* @doc INTERNAL AVIStreamHasChanged
*
* @api LONG | AVIStreamHasChanged | This function forces an update
* of the strem information for the specified stream.
*
* @parm PAVISTREAM | pavi | Interface pointer for an AVI stream instance.
*
* @rdesc Returns AVIERR_OK on success.
*
*/
STDAPI AVIStreamHasChanged(PAVISTREAM pavi)
{
    pavi->lFrame = -4224;   // bogus value

    AVIStreamInfo(pavi, &pavi->avistream, sizeof(pavi->avistream));

    // !!! Only need to do this if format changes?
    AVIReleaseCachedData(pavi);

    return AVIERR_OK;
}
#endif

#ifdef _WIN32
static SZCODE aszRegCompressors[] = TEXT("AVIFile\\Compressors\\%.4hs");
#else
static SZCODE aszRegCompressors[] = TEXT("AVIFile\\Compressors\\%.4ls");
#endif

/*
* @doc EXTERNAL AVIMakeCompressedStream
*
* @api HRESULT | AVIMakeCompressedStream | Returns a pointer to a
*      compressed stream created from an uncompressed stream.
*      The uncompressed stream is compressed using
*      the compression options specified.
*
* @parm PAVISTREAM FAR * | ppsCompressed | Specifies a pointer to
*       the location used to return the compressed stream pointer.
*
* @parm PAVISTREAM | psSource | Specifies a pointer to the stream to be compressed.
*
* @parm AVICOMPRESSOPTIONS FAR * | lpOptions | Specifies a pointer to a
*       structure indicating the type compression to use and the options
*       to apply.
*
* @parm CLSID FAR * | pclsidHandler | Specifies a pointer to a
*       class ID used to create the stream.
*
* @comm This supports both audio and video compression. Applications
*       can use the created stream for reading or writing.
*
*   For video compression, either specify a handler to use or specify
*   the format for the compressed data.
*
*   For audio compression, you can only specify a format for the compressed
*   data.
*
* @rdesc Returns AVIERR_OK on success, or an error code.
*   Possible errors include:
*
*   @flag AVIERR_NOCOMPRESSOR | No suitable compressor can be found.
*
*   @flag AVIERR_MEMORY | There was not enough memory to complete the operation.
*
*   @flag AVIERR_UNSUPPORTED | Compression is not supported for this type
*   of data.  This error may be returned if you try to compress
*   data that is not audio or video.
*
*
*
*/
STDAPI AVIMakeCompressedStream(
        PAVISTREAM FAR *        ppsCompressed,
        PAVISTREAM          psSource,
        AVICOMPRESSOPTIONS FAR *    lpOptions,
        CLSID FAR *pclsidHandler)
{
    CLSID   clsid;
    TCHAR    achKey[100];
    TCHAR    achClass[100];
    LONG    lcbClass;
    AVISTREAMINFO strhdr;
    HRESULT hr;


    *ppsCompressed = NULL;

    if (pclsidHandler) {
    clsid = *pclsidHandler;
    } else {
    if (FAILED(GetScode(hr = AVIStreamInfo(psSource,
                           &strhdr,
                           sizeof(strhdr)))))
        return hr;

    // Look up the stream type in the registration database to find
    // the appropriate compressor....
    wsprintf(achKey, aszRegCompressors, (LPSTR) &strhdr.fccType);

    lcbClass = sizeof(achClass);
    RegQueryValue(HKEY_CLASSES_ROOT, achKey, achClass, &lcbClass);

        if (!GUIDFromString(achClass, &clsid))
        return ResultFromScode(AVIERR_UNSUPPORTED);
    }

    if (FAILED(GetScode(hr = CoCreateInstance((REFCLSID) clsid, NULL, CLSCTX_INPROC, (REFIID) IID_IAVIStream, (void FAR* FAR*)ppsCompressed))))
    return hr;  // !!! PropagateHResult?

    if (FAILED(GetScode(hr = (*ppsCompressed)->Create((LPARAM) psSource,
                          (LPARAM) lpOptions)))) {
    (*ppsCompressed)->Release();
    *ppsCompressed = NULL;
    return hr;
    }

    return AVIERR_OK;
}


typedef struct {
    TCHAR   achClsid[64];
    TCHAR   achExtString[128];
} TEMPFILTER, FAR * LPTEMPFILTER;

SZCODE aszAnotherExtension[] = TEXT(";*.%s");

/*

 * @doc INTERNAL MCIAVI

 * @api LONG | atol | local version of atol

*/

static LONG NEAR PASCAL atol(TCHAR FAR *sz)
{
    LONG l = 0;

    while (*sz)
        l = l*10 + *sz++ - TEXT('0');

    return l;
}


// lstrcat lines will compile wrong with optimizations
// Stupid compiler! - Have less bugs!
#ifndef _WIN32
#pragma optimize("", off)
#endif

/*
* @doc EXTERNAL AVIBuildFilter
*
* @api HRESULT | AVIBuildFilter | Builds a filter specification for passing
*   to <f GetOpenFileName> or <f GetSaveFileName>.
*
* @parm LPTSTR | lpszFilter | Pointer to buffer where the filter string
*   should be returned.
*
* @parm LONG | cbFilter | Size of buffer pointed to by <p lpszFilter>.
*
* @parm BOOL | fSaving | Indicates whether the filter should include only
*   formats that can be written, or all formats that can be read.
*
* @rdesc Returns AVIERR_OK on success.
*
* @comm This function does not check if the DLLs referenced
*       in the registration database actually exist.
*
*/
STDAPI AVIBuildFilter(LPTSTR lpszFilter, LONG cbFilter, BOOL fSaving)
{
#define MAXFILTERS  256
    LPTEMPFILTER    lpf;
    int         i;
    int         cf = 0;
    HKEY    hkey;
    LONG    lRet;
    DWORD   dwSubKey;
    TCHAR   ach[128];
    TCHAR   ach2[128];
    TCHAR   achExt[10];
    LONG    cb;
    TCHAR   achAllFiles[40];
    int     cbAllFiles;

    // This string has a NULL in it, so remember its length for real....
    cbAllFiles = LoadString(ghMod,
                IDS_ALLFILES,
                achAllFiles,
                sizeof(achAllFiles)/sizeof(TCHAR));
    for (i = 0; i < cbAllFiles; i++)
    if (achAllFiles[i] == TEXT('@'))
        achAllFiles[i] = TEXT('\0');

    // Allocate a largish amount of memory (98304 until the constants change)
    lpf = (LPTEMPFILTER) GlobalAllocPtr(GHND, sizeof(TEMPFILTER) * MAXFILTERS);

    if (!lpf) {
    return ResultFromScode(AVIERR_MEMORY);
    }

    lRet = RegOpenKey(HKEY_CLASSES_ROOT, aszRegExt, &hkey);

    if (lRet != ERROR_SUCCESS) {
    GlobalFreePtr(lpf);
    return ResultFromScode(AVIERR_ERROR);
    }

    // Make sure that AVI files come first in the list....
    // !!! Should use StringFromClsid here!
    lstrcpy(lpf[1].achClsid, TEXT("{00020000-0000-0000-C000-000000000046}"));
    cf = 1;


    // First, scan through the Extensions list looking for all of the
    // handlers that are installed

    for (dwSubKey = 0; ; dwSubKey++) {
    lRet = RegEnumKey(hkey, dwSubKey, achExt, sizeof(achExt)/sizeof(achExt[0]));

    if (lRet != ERROR_SUCCESS) {
        break;
    }

    cb = sizeof(ach);
    lRet = RegQueryValue(hkey, achExt, ach, &cb);

    if (lRet != ERROR_SUCCESS) {
        break;
    }


    // See if we've seen this handler before

    for (i = 1; i <= cf; i++) {
        if (lstrcmp(ach, lpf[i].achClsid) == 0) {
        break;

        }
    }


    // If not, add it to our list of handlers

    if (i == cf + 1) {
        if (cf == MAXFILTERS) {
        DPF("Too many filters!\n");
        continue;
        }

        lstrcpy(lpf[i].achClsid, ach);

        cb = sizeof(ach);
        wsprintf(ach2, TEXT("%s\\AVIFile"), (LPTSTR) ach);
        lRet = RegQueryValue(hkey, ach2, ach, &cb);
        if (ERROR_SUCCESS == lRet) {
        lRet = atol(ach);

        if (fSaving) {
            if (!(lRet & AVIFILEHANDLER_CANWRITE))
            continue;
        } else {
            if (!(lRet & AVIFILEHANDLER_CANREAD))
            continue;
        }
        }

        cf++;
    }

    wsprintf(ach, aszAnotherExtension, (LPTSTR) achExt);

    lstrcat(lpf[i].achExtString, lpf[i].achExtString[0] ?
                        ach : ach + 1);

    lstrcat(lpf[0].achExtString, lpf[0].achExtString[0] ?
                        ach : ach + 1);
    }

    RegCloseKey(hkey);

    lRet = RegOpenKey(HKEY_CLASSES_ROOT, aszRegClsid, &hkey);

    if (lRet != ERROR_SUCCESS) {
    GlobalFreePtr(lpf);
    return ResultFromScode(AVIERR_ERROR);
    }


    // Now, scan through our list of handlers and build up the
    // filter to use....

    for (i = 0; i <= cf; i++) {
    if (i == 0) {
        cb = wsprintf(lpszFilter, TEXT("All multimedia files")) + 1;  // !!!
    } else {

        cb = sizeof(ach);
        lRet = RegQueryValue(hkey, lpf[i].achClsid, ach, &cb);
        if (ERROR_SUCCESS != lRet) {
        continue;  // iterate if we fail to read the data
        }

        if (cbFilter < (LONG)(lstrlen(lpf[i].achExtString) +
                (LONG)lstrlen(ach) + 10)) {
        break; // !!!
        }

        cb = wsprintf(lpszFilter, TEXT("%s"), // "%s (%s)", Todd doesn't like this
              (LPTSTR) ach, (LPTSTR) lpf[i].achExtString) + 1;
    }

    cbFilter -= cb;
    lpszFilter += cb;

#ifdef UNICODE
        lstrcpynW(
#else
    _fstrncpy(
#endif
                    lpszFilter, lpf[i].achExtString, (int) cbFilter);

    cbFilter -= lstrlen(lpf[i].achExtString) + 1;
    lpszFilter += lstrlen(lpf[i].achExtString) + 1;

    if (cbFilter <= 0) {
        GlobalFreePtr(lpf);
        RegCloseKey(hkey);
        return ResultFromScode(AVIERR_BUFFERTOOSMALL);
    }
    }

    if (cbFilter > cbAllFiles) {
    _fmemcpy(lpszFilter, achAllFiles, cbAllFiles*sizeof(TCHAR));
    cbFilter -= cbAllFiles;
    lpszFilter += cbAllFiles;
    }

    RegCloseKey(hkey);

    *lpszFilter++ = TEXT('\0');
    --cbFilter;          // This line is bogus

    GlobalFreePtr(lpf);

    return AVIERR_OK;
}

#ifndef _WIN32
#pragma optimize("", on)
#endif

#ifdef UNICODE
// Ansi thunk for AVIBuildFilter
STDAPI AVIBuildFilterA(LPSTR lpszFilter, LONG cbFilter, BOOL fSaving)
{

    // get the UNICODE filter block
    LPWSTR lpW, lpWSave;
    HRESULT hr;
    int sz;

    int    cbCount,cbMFilter=0;

    lpWSave = lpW = (LPWSTR)(LocalAlloc(LPTR, cbFilter * sizeof(WCHAR)));

    hr = AVIBuildFilterW(lpW, cbFilter, fSaving);

    if (FAILED(hr)) {
        LocalFree((HANDLE)lpW);
    return hr;
    }

    // now translate each null-term unicode string in the double-null block
    LPSTR pFilter = lpszFilter;
    while( (sz = lstrlen(lpW)) > 0) {

    // add on space for NULL
    sz++;

//#ifdef DBCS
//The maximum number of DBCS Multibyte string bytes is not equal
//  to the number of Widechar string charcters.
    cbCount = WideCharToMultiByte(CP_ACP, 0, lpW, -1,
            pFilter, cbFilter-cbMFilter-1, NULL, NULL);
    cbMFilter += cbCount;
    pFilter += cbCount;
    lpW += sz;
    if( cbMFilter >= cbFilter-1 )   break;
//#else
//  wcstombs(pFilter, lpW, sz);
//  lpW += sz;
//  pFilter += sz;
//#endif
    }

    // add extra terminating null
    *pFilter = '\0';

    LocalFree((HANDLE)lpWSave);
    return hr;
}
#else
#ifdef _WIN32
STDAPI AVIBuildFilterW(LPWSTR lpszFilter, LONG cbFilter, BOOL fSaving)
{
    return E_FAIL;
}
#endif
#endif




/*

 * dprintf() is called by the DPF macro if DEBUG is defined at compile time.

 * The messages will be send to COM1: like any debug message. To
 * enable debug output, add the following to WIN.INI :

 * [debug]
 * ICSAMPLE=1

*/

#ifdef DEBUG


// I wish languages would make up their mind about defines!!!!!

#ifndef WINDLL
#define WINDLL
#define _WINDLL
#define __WINDLL
#endif
#include <stdarg.h>

#define MODNAME "AVIFILE"
static int iDebug = -1;

void cdecl dpf(LPSTR szFormat, va_list va)
{
#ifdef _WIN32
    char ach[512];
#else
    char ach[128];
#endif
    UINT n=0;

    if (szFormat[0] == '!')
        ach[0]=0, szFormat++;
    else {
#ifdef _WIN32
    n = wsprintfA(ach, MODNAME": (tid %x) ", GetCurrentThreadId());
#else
        lstrcpyA(ach, MODNAME ": ");
    n = lstrlenA(ach);
#endif
    }

    wvsprintfA(ach+n,szFormat,va);
    OutputDebugStringA(ach);
}

void cdecl dprintf0(LPSTR szFormat, ...)
{
    va_list va;
    va_start(va, szFormat);
    dpf(szFormat, va);
    va_end(va);
}


void cdecl dprintf(LPSTR szFormat, ...)
{
    if (iDebug == -1)
        iDebug = GetProfileIntA("Debug", MODNAME, 0);

    if (iDebug < 1)
        return;

    va_list va;
    va_start(va, szFormat);
    dpf(szFormat, va);
    va_end(va);
}

void cdecl dprintf2(LPSTR szFormat, ...)
{
    if (iDebug == -1)
        iDebug = GetProfileIntA("Debug", MODNAME, 0);

    if (iDebug < 2)
        return;

    va_list va;
    va_start(va, szFormat);
    dpf(szFormat, va);
    va_end(va);
}

void cdecl dprintf3(LPSTR szFormat, ...)
{
    if (iDebug == -1)
        iDebug = GetProfileIntA("Debug", MODNAME, 0);

    if (iDebug < 3)
        return;

    va_list va;
    va_start(va, szFormat);
    dpf(szFormat, va);
    va_end(va);
}

#endif

#ifdef DEBUG

/* _Assert(szExpr, szFile, iLine)

 * If <fExpr> is TRUE, then do nothing.  If <fExpr> is FALSE, then display
 * an "assertion failed" message box allowing the user to abort the program,
 * enter the debugger (the "Retry" button), or igore the error.

 * <szFile> is the name of the source file; <iLine> is the line number
 * containing the _Assert() call.
*/
void FAR PASCAL
_Assert(char *szExp, char *szFile, int iLine)
{
    static char ach[300];   // debug output (avoid stack overflow)
    int     id;
    void FAR PASCAL DebugBreak(void);

        /* display error message */

        if (szExp)
            wsprintfA(ach, "(%s)\nFile %s, line %d", (LPSTR)szExp, (LPSTR)szFile, iLine);
        else
            wsprintfA(ach, "File %s, line %d", (LPSTR) szFile, iLine);

    MessageBeep(MB_ICONHAND);
    id = MessageBoxA(NULL, ach, "Assertion Failed", MB_SYSTEMMODAL | MB_ICONHAND | MB_ABORTRETRYIGNORE);
    /* abort, debug, or ignore */
    switch (id)
    {
    case IDABORT:
                FatalAppExit(0, TEXT("Good Bye"));
        break;

    case IDRETRY:
        /* break into the debugger */
        DebugBreak();
        break;

    case IDIGNORE:
        /* ignore the assertion failure */
        break;
    }
}
#endif