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windows-xp/Source/XPSP1/NT/multimedia/media/avi/compman.16/compman.c

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/*
* This code contains thunk enabling. If we fail to open on the 16 bit side,
* we will try and open a 32 bit codec. (The reason for not trying the 32
* bit codec first is an attempt to keep most things on the 16 bit side.
* The performance under NT appears reasonable, and for frame specific
* operations it reduces the number of 16/32 transitions.
*/
#include <windows.h>
#include <windowsx.h>
#include <mmsystem.h>
#include <win32.h>
#ifdef WIN32
#include <mmddk.h> // needed for definition of DRIVERS_SECTION
#endif
//
// define these before compman.h, so our functions get declared right.
//
#ifndef WIN32
#define VFWAPI FAR PASCAL _loadds
#define VFWAPIV FAR CDECL _loadds
#endif
#include "compman.h"
#include "icm.rc"
#ifdef WIN32
#include <wchar.h>
#endif
#ifndef NOTHUNKS
#include "thunks.h" // Building
#endif //NOTHUNKS
#ifndef streamtypeVIDEO
#define streamtypeVIDEO mmioFOURCC('v', 'i', 'd', 's')
#endif
#define ICTYPE_VCAP mmioFOURCC('v', 'c', 'a', 'p')
#define ICTYPE_ACM mmioFOURCC('a', 'u', 'd', 'c')
#define SMAG mmioFOURCC('S', 'm', 'a', 'g')
#define GONE mmioFOURCC('G', 'o', 'n', 'e')
#define IC_INI TEXT("Installable Compressors")
static TCHAR szIniSect[] = IC_INI;
static TCHAR szDrivers[] = DRIVERS_SECTION;
static TCHAR szSystemIni[] = TEXT("SYSTEM.INI");
static TCHAR szNull[] = TEXT("");
static TCHAR sz44s[] = TEXT("%4.4hs");
static TCHAR szICKey[] = TEXT("%4.4hs.%4.4hs");
static TCHAR szMSVideo[] = TEXT("MSVideo");
static TCHAR szMSACM[] = TEXT("MSACM");
static TCHAR szVIDC[] = TEXT("VIDC");
static SZCODEA szDriverProc[] = "DriverProc";
#ifdef DEBUG
#define DPF( x ) dprintfc x
#define DEBUG_RETAIL
#else
#define DPF(x)
#endif
#ifdef DEBUG_RETAIL
static void CDECL dprintfc(LPSTR, ...);
#define RPF( x ) dprintfc x
#define ROUT(sz) {static SZCODE ach[] = sz; dprintfc(ach); }
void ICDebugMessage(HIC hic, UINT msg, DWORD dw1, DWORD dw2);
LRESULT ICDebugReturn(LRESULT err);
#define DebugErr(sz) {static SZCODE ach[] = "COMPMAN: "sz; DebugOutput(DBF_ERROR | DBF_MMSYSTEM, ach); }
#else
#define RPF(x)
#define ROUT(sz)
#define ICDebugMessage(hic, msg, dw1, dw2)
#define ICDebugReturn(err) err
#define DebugErr(sz)
#endif
#ifdef DEBUG_RETAIL
#else
#define DebugErr(flags)
#endif
#ifndef WF_WINNT
#define WF_WINNT 0x4000
#endif
#ifdef WIN32
#define IsWow() FALSE
#else
#define IsWow() ((BOOL) (GetWinFlags() & WF_WINNT))
#define GetDriverModuleHandle(h) (IsWow() ? h : GetDriverModuleHandle(h))
#endif
__inline void ictokey(DWORD fccType, DWORD fcc, LPSTR sz)
{
int i = wsprintf(sz, szICKey, (LPSTR)&(fccType),(LPSTR)&(fcc));
while (i>0 && sz[i-1] == ' ')
sz[--i] = 0;
}
#define WIDTHBYTES(i) ((unsigned)((i+31)&(~31))/8) /* ULONG aligned ! */
#define DIBWIDTHBYTES(bi) (int)WIDTHBYTES((int)(bi).biWidth * (int)(bi).biBitCount)
static void ICDump(void);
//
// the following array is used for 'installed' converters
//
// converters are either driver handles or indexes into this array
//
// 'function' converters are installed into this array, 'driver' converters
// are installed in SYSTEM.INI
//
#define MAX_CONVERTERS 75 // maximum installed converters.
typedef struct {
DWORD dwSmag; // 'Smag'
HTASK hTask; // owner task.
DWORD fccType; // converter type ie 'vidc'
DWORD fccHandler; // converter id ie 'rle '
HDRVR hDriver; // handle of driver
DWORD dwDriver; // driver id for functions
DRIVERPROC DriverProc; // function to call
#ifndef NOTHUNKS
DWORD h32; // 32-bit driver handle
#endif //!NOTHUNKS
} IC, *PIC;
IC aicConverters[MAX_CONVERTERS];
/*****************************************************************************
****************************************************************************/
LRESULT CALLBACK DriverProcNull(DWORD dwDriverID, HANDLE hDriver, UINT wMessage,DWORD dwParam1, DWORD dwParam2)
{
DPF(("codec called after it has been removed with ICRemove\r\n"));
return ICERR_UNSUPPORTED;
}
/*****************************************************************************
****************************************************************************/
static HDRVR LoadDriver(LPSTR szDriver, DRIVERPROC FAR *lpDriverProc);
static void FreeDriver(HDRVR hDriver);
/*****************************************************************************
driver cache - to make enuming/loading faster we keep the last N
module's open for a while.
****************************************************************************/
#define N_MODULES 10 //!!!????
HMODULE ahModule[N_MODULES];
int iModule = 0;
static void CacheModule(HMODULE hModule)
{
TCHAR ach[128];
//
// what if this module is in the list currently?
//
#if 0
// we dont do this so unused compressors will fall off the end....
int i;
for (i=0; i<N_MODULES; i++)
{
if (ahModule[i] && ahModule[i] == hModule)
return;
}
#endif
//
// add this module to the cache
//
#ifndef WIN32 // On NT GetModuleUsage always returns 1. So... we cache
if (hModule)
{
extern HMODULE ghInst; // in MSVIDEO/init.c
int iUsage;
GetModuleFileName(hModule, ach, sizeof(ach));
DPF(("Loading module: %s\r\n", (LPSTR)ach));
iUsage = GetModuleUsage(ghInst);
LoadLibrary(ach);
//
// dont cache modules that link to MSVIDEO
// we should realy do a toolhelp thing!
// or force apps to call VFWInit and VFWExit()
//
if (iUsage != GetModuleUsage(ghInst))
{
DPF(("Not caching this module because it links to MSVIDEO\r\n"));
FreeLibrary(hModule);
return;
}
}
#endif
//
// free module in our slot.
//
if (ahModule[iModule] != NULL)
{
#ifdef DEBUG
GetModuleFileName(ahModule[iModule], ach, sizeof(ach));
DPF(("Freeing module: %s\r\n", (LPSTR)ach));
#endif
FreeLibrary(ahModule[iModule]);
}
ahModule[iModule] = hModule;
iModule++;
if (iModule >= N_MODULES)
iModule = 0;
}
/*****************************************************************************
****************************************************************************/
/*****************************************************************************
* FixFOURCC - clean up a FOURCC
****************************************************************************/
static DWORD Fix4CC(DWORD fcc)
{
int i;
if (fcc > 256)
{
AnsiLowerBuff((LPSTR)&fcc, sizeof(fcc));
for (i=0; i<4; i++)
{
if (((LPSTR)&fcc)[i] == 0)
for (; i<4; i++)
((LPSTR)&fcc)[i] = ' ';
}
}
return fcc;
}
/*****************************************************************************
* @doc INTERNAL IC
*
* @api PIC | FindConverter |
* search the converter list for a un-opened converter
*
****************************************************************************/
static PIC FindConverter(DWORD fccType, DWORD fccHandler)
{
int i;
PIC pic;
for (i=0; i<MAX_CONVERTERS; i++)
{
pic = &aicConverters[i];
if (pic->fccType == fccType &&
pic->fccHandler == fccHandler &&
pic->dwDriver == 0L)
{
if (pic->DriverProc != NULL && IsBadCodePtr((FARPROC)pic->DriverProc))
{
pic->DriverProc = NULL;
ICClose((HIC)pic);
DPF(("NO driver for fccType=%4.4s, Handler=%4.4s\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
return NULL;
}
DPF(("Possible driver for fccType=%4.4s, Handler=%4.4s\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
return pic;
}
}
return NULL;
}
#ifdef WIN32
/*
* we need to hold a critical section around the ICOpen code to protect
* multi-thread simultaneous opens. This critsec is initialized by
* IC_Load (called from video\init.c at dll attach time) and is deleted
* by IC_Unload (called from video\init.c at dll detach time).
*/
CRITICAL_SECTION ICOpenCritSec;
void
IC_Load(void)
{
InitializeCriticalSection(&ICOpenCritSec);
}
void
IC_Unload(void)
{
DeleteCriticalSection(&ICOpenCritSec);
}
#define ICEnterCrit(p) (EnterCriticalSection(p))
#define ICLeaveCrit(p) (LeaveCriticalSection(p))
#else
// non-win32 code has no critsecs
#define ICEnterCrit(p)
#define ICLeaveCrit(p)
#endif
/*****************************************************************************
****************************************************************************/
__inline BOOL ICValid(HIC hic)
{
PIC pic = (PIC)hic;
if (pic < &aicConverters[0] ||
pic >= &aicConverters[MAX_CONVERTERS] ||
pic->dwSmag != SMAG)
{
DebugErr("Invalid HIC\r\n");
return FALSE;
}
return TRUE;
}
/*****************************************************************************
****************************************************************************/
#define V_HIC(hic) \
if (!ICValid(hic)) \
return ICERR_BADHANDLE;
/*****************************************************************************
* @doc INTERNAL IC
*
* @api BOOL | ICCleanup | This function is called when a task exits or
* MSVIDEO.DLL is being unloaded.
*
* @parm HTASK | hTask | the task being terminated, NULL if DLL being unloaded
*
* @rdesc Returns nothing
*
* @comm currently MSVIDEO only calles this function from it's WEP()
*
****************************************************************************/
void FAR PASCAL ICCleanup(HTASK hTask)
{
int i;
PIC pic;
//
// free all HICs
//
for (i=0; i < MAX_CONVERTERS; i++)
{
pic = &aicConverters[i];
if (pic->dwDriver != 0L && (pic->hTask == hTask || hTask == NULL))
{
ROUT("Decompressor left open, closing\r\n");
ICClose((HIC)pic);
}
}
//
// free the module cache.
//
for (i=0; i<N_MODULES; i++)
CacheModule(NULL);
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api BOOL | ICInstall | This function installs a new compressor
* or decompressor.
*
* @parm DWORD | fccType | Specifies a four-character code indicating the
* type of data used by the compressor or decompressor. Use 'vidc'
* for a video compressor or decompressor.
*
* @parm DWORD | fccHandler | Specifies a four-character code identifying
* a specific compressor or decompressor.
*
* @parm LPARAM | lParam | Specifies a pointer to a zero-terminated
* string containing the name of the compressor or decompressor,
* or it specifies a far pointer to a function used for compression
* or decompression. The contents of this parameter are defined
* by the flags set for <p wFlags>.
*
* @parm LPSTR | szDesc | Specifies a pointer to a zero-terminated string
* describing the installed compressor. Not use.
*
* @parm UINT | wFlags | Specifies flags defining the contents of <p lParam>.
* The following flags are defined:
*
* @flag ICINSTALL_DRIVER | Indicates <p lParam> is a pointer to a zero-terminated
* string containing the name of the compressor to install.
*
* @flag ICINSTALL_FUNCTION | Indicates <p lParam> is a far pointer to
* a compressor function. This function should
* be structured like the <f DriverProc> entry
* point function used by compressors.
*
* @rdesc Returns TRUE if successful.
*
* @comm Applications must still open the installed compressor or
* decompressor before it can use the compressor or decompressor.
*
* Usually, compressors and decompressors are installed by the user
* with the Drivers option of the Control Panel.
*
* If your application installs a function as a compressor or
* decompressor, it should remove the compressor or decompressor
* with <f ICRemove> before it terminates. This prevents other
* applications from trying to access the function when it is not
* available.
*
*
* @xref <f ICRemove>
****************************************************************************/
BOOL VFWAPI ICInstall(DWORD fccType, DWORD fccHandler, LPARAM lParam, LPSTR szDesc, UINT wFlags)
{
TCHAR achKey[20];
TCHAR buf[128];
PIC pic;
ICEnterCrit(&ICOpenCritSec);
fccType = Fix4CC(fccType);
fccHandler = Fix4CC(fccHandler);
DPF(("ICInstall, fccType=%4.4s, Handler=%4.4s, >>%s<<\n", (LPSTR)&fccType, (LPSTR)&fccHandler, szDesc));
if ((pic = FindConverter(fccType, fccHandler)) == NULL)
pic = FindConverter(0L, 0L);
if (wFlags & ICINSTALL_DRIVER)
{
//
// dwConverter is the file name of a driver to install.
//
ictokey(fccType, fccHandler, achKey);
#ifdef WIN32
if (szDesc)
wsprintf(buf, TEXT("%hs %hs"), (LPSTR) lParam, szDesc);
else
wsprintf(buf, TEXT("%hs"), (LPSTR) lParam);
#else
lstrcpy(buf, (LPSTR)lParam);
if (szDesc)
{
lstrcat(buf, TEXT(" "));
lstrcat(buf, szDesc);
}
#endif
ICLeaveCrit(&ICOpenCritSec);
if (WritePrivateProfileString(szDrivers,achKey,buf,szSystemIni))
{
WritePrivateProfileString(szIniSect,achKey,NULL,szSystemIni);
return TRUE;
}
else
{
return(FALSE);
}
}
else if (wFlags & ICINSTALL_FUNCTION)
{
if (pic == NULL)
{
ICLeaveCrit(&ICOpenCritSec);
return FALSE;
}
pic->dwSmag = SMAG;
pic->fccType = fccType;
pic->fccHandler = fccHandler;
pic->dwDriver = 0L;
pic->hDriver = NULL;
pic->DriverProc = (DRIVERPROC)lParam;
ICLeaveCrit(&ICOpenCritSec);
return TRUE;
}
#if 0
else if (wFlags & ICINSTALL_HDRV)
{
if (pic == NULL)
{
ICLeaveCrit(&ICOpenCritSec);
return FALSE;
}
pic->fccType = fccType;
pic->fccHandler = fccHandler;
pic->hDriver = (HDRVR)lParam;
pic->dwDriver = 0L;
pic->DrvProc = NULL;
ICLeaveCrit(&ICOpenCritSec);
return TRUE;
}
#endif
ICLeaveCrit(&ICOpenCritSec);
return FALSE;
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api BOOL | ICRemove | This function removes an installed compressor.
*
* @parm DWORD | fccType | Specifies a four-character code indicating the
* type of data used by the compressor. Use 'vidc' for video compressors.
*
* @parm DWORD | fccHandler | Specifies a four-character code identifying
* a specific compressor.
*
* @parm UINT | wFlags | Not used.
*
* @rdesc Returns TRUE if successful.
*
* @xref <f ICInstall>
****************************************************************************/
BOOL VFWAPI ICRemove(DWORD fccType, DWORD fccHandler, UINT wFlags)
{
TCHAR achKey[20];
PIC pic;
ICEnterCrit(&ICOpenCritSec);
fccType = Fix4CC(fccType);
fccHandler = Fix4CC(fccHandler);
DPF(("ICRemove, fccType=%4.4s, Handler=%4.4s\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
if (pic = FindConverter(fccType, fccHandler))
{
int i;
//
// we should realy keep usage counts!!!
//
for (i=0; i<MAX_CONVERTERS; i++)
{
if (pic->DriverProc == aicConverters[i].DriverProc)
{
DPF(("ACK! Handler is in use\r\n"));
pic->DriverProc = DriverProcNull;
}
}
ICClose((HIC)pic);
}
else
{
ictokey(fccType, fccHandler, achKey);
WritePrivateProfileString(szIniSect,achKey,NULL,szSystemIni);
WritePrivateProfileString(szDrivers,achKey,NULL,szSystemIni);
}
ICLeaveCrit(&ICOpenCritSec);
return TRUE;
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api BOOL | ICInfo | This function returns information about
* specific installed compressors, or it enumerates
* the compressors installed.
*
* @parm DWORD | fccType | Specifies a four-character code indicating
* the type of compressor. To match all compressor types specify zero.
*
* @parm DWORD | fccHandler | Specifies a four-character code identifying
* a specific compressor, or a number between 0 and the number
* of installed compressors of the type specified by <t fccType>.
*
* @parm ICINFO FAR * | lpicinfo | Specifies a far pointer to a
* <t ICINFO> structure used to return
* information about the compressor.
*
* @comm This function does not return full informaiton about
* a compressor or decompressor. Use <f ICGetInfo> for full
* information.
*
* @rdesc Returns TRUE if successful.
****************************************************************************/
#ifndef NOTHUNKS
BOOL VFWAPI ICInfoInternal(DWORD fccType, DWORD fccHandler, ICINFO FAR * lpicinfo);
// If we are compiling the thunks, then the ICINFO entry point calls
// the 32 bit thunk, or calls the real ICInfo code (as ICInfoInternal).
// We deliberately give precedence to 32 bit compressors, although this
// ordering can be trivially changed.
// ??: Should we allow an INI setting to change the order?
BOOL VFWAPI ICInfo(DWORD fccType, DWORD fccHandler, ICINFO FAR * lpicinfo)
{
BOOL fResult;
fResult = (ICInfo32(fccType, fccHandler, lpicinfo));
DPF(("ICInfo32 returned %ls\r\n", (fResult ? (LPSTR)"TRUE" : (LPSTR)"FALSE")));
if (fResult) return fResult;
// If we are enumerating the drivers, then we want to adjust the 16
// bit index by the count of 32 bit drivers. The thunk will have
// passed back the number of 32 bit drivers installed in [Drivers32]
// in ICINFO.fccHandler.
if ((fccType==0) || (fccHandler < 256)) {
DPF(("Enumerating... no 32 bit match, Count is %ld, max count is %ld\n", fccType, lpicinfo->fccHandler));
if (fccHandler >= lpicinfo->fccHandler)
fccHandler -= lpicinfo->fccHandler;
else
; // This should be an assertion. This leg is invalid.
}
//
// See if there is a 16-bit compressor we can use
// Because we always try 32 bit compressors first, if the user is
// enumerating the list of compressors we need to subtract the count
// of 32 bit compressors.
//
DPF(("ICInfo, fccType=%4.4hs, Handler=%4.4hs\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
return (ICInfoInternal(fccType, fccHandler, lpicinfo));
}
// Now map all ICInfo calls to ICInfoInternal
#define ICInfo ICInfoInternal
#endif //NOTHUNKS
BOOL VFWAPI ICInfo(DWORD fccType, DWORD fccHandler, ICINFO FAR * lpicinfo)
{
char buf[128];
static LPTSTR pszBuf = NULL;
TCHAR achKey[20];
#ifdef WIN32
TCHAR achTypeCopy[5];
char newHandler[5];
char newType[5];
#endif
int i;
int iComp;
PIC pic;
DPF(("ICInfoInternal(16), fccType=%4.4hs, Handler=%4.4hs\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
if (lpicinfo == NULL)
return FALSE;
// THIS IS NOT REDUNDANT. what if fccType == 0
if (fccType > 0 && fccType < 256) {
DPF(("fcctype invalid\r\n"));
return FALSE;
}
fccType = Fix4CC(fccType);
fccHandler = Fix4CC(fccHandler);
if (fccType != 0 && fccHandler > 256)
{
//
// the user has given us a specific fccType and fccHandler
// get the info and return.
//
if (pic = FindConverter(fccType, fccHandler))
{
ICGetInfo((HIC)pic, lpicinfo, sizeof(ICINFO));
return TRUE;
}
else
{
lpicinfo->dwSize = sizeof(ICINFO);
lpicinfo->fccType = fccType;
lpicinfo->fccHandler = fccHandler;
lpicinfo->dwFlags = 0;
lpicinfo->dwVersionICM = ICVERSION;
lpicinfo->dwVersion = 0;
lpicinfo->szDriver[0] = 0;
lpicinfo->szDescription[0] = 0;
lpicinfo->szName[0] = 0;
ictokey(fccType, fccHandler, achKey);
if (!GetPrivateProfileString(szDrivers,achKey,szNull,buf,sizeof(buf)/sizeof(TCHAR),szSystemIni) &&
!GetPrivateProfileString(szIniSect,achKey,szNull,buf,sizeof(buf)/sizeof(TCHAR),szSystemIni))
{
DPF(("NO information in DRIVERS section\n"));
return FALSE;
}
for (i=0; buf[i] && buf[i] != TEXT(' '); i++)
lpicinfo->szDriver[i] = buf[i];
lpicinfo->szDriver[i] = 0;
//
// the driver must be opened to get description
//
lpicinfo->szDescription[0] = 0;
return TRUE;
}
}
else
{
//
// the user has given us a specific fccType and a
// ordinal for fccHandler, enum the compressors, looking for
// the nth compressor of 'fccType'
//
iComp = (int)fccHandler;
//
// walk the installed converters.
//
for (i=0; i < MAX_CONVERTERS; i++)
{
pic = &aicConverters[i];
if (pic->fccType != 0 &&
(fccType == 0 || pic->fccType == fccType) &&
pic->dwDriver == 0L && iComp-- == 0)
{
return ICInfo(pic->fccType, pic->fccHandler, lpicinfo);
}
}
//
// read all the keys. from [Drivers] and [Installable Compressors]
//
if (pszBuf == NULL) {
UINT cbBuffer = 128 * sizeof(TCHAR);
UINT cchBuffer;
for (;;)
{
pszBuf = GlobalAllocPtr(GMEM_SHARE | GHND, cbBuffer);
if (!pszBuf) {
DPF(("Out of memory for SYSTEM.INI keys\r\n"));
return FALSE;
}
cchBuffer = (UINT)GetPrivateProfileString(szDrivers,
NULL,
szNull,
pszBuf,
cbBuffer / sizeof(TCHAR),
szSystemIni);
if (cchBuffer < ((cbBuffer / sizeof(TCHAR)) - 5)) {
cchBuffer += (UINT)GetPrivateProfileString(szIniSect,
NULL,
szNull,
pszBuf + cchBuffer,
(cbBuffer / sizeof(TCHAR)) - cchBuffer,
szSystemIni);
if (cchBuffer < ((cbBuffer / sizeof(TCHAR)) - 5))
break;
}
GlobalFreePtr(pszBuf);
pszBuf = NULL;
//
// if cannot fit drivers section in 32k, then something is horked
// with the section... so let's bail.
//
if (cbBuffer >= 0x8000) {
DPF(("SYSTEM.INI keys won't fit in 32K????\r\n"));
return FALSE;
}
cbBuffer *= 2;
DPF(("Increasing size of SYSTEM.INI buffer to %d\r\n", cbBuffer));
}
}
#ifdef WIN32
/* make a widechar copy of the Ansi fccType so we can compare it with
* the wide copy returned from GetPrivateProfileString()
*/
MultiByteToWideChar(CP_ACP, 0, (LPSTR) &fccType, sizeof(fccType),
achTypeCopy, sizeof(achTypeCopy)/sizeof(TCHAR) );
#endif
for (i=0; pszBuf[i] != 0; i += lstrlen(&pszBuf[i]) + 1)
{
if (pszBuf[i+4]!=TEXT('.'))
continue;
#ifdef WIN32
CharLower(&pszBuf[i]);
if ((fccType == 0 ||
(wcsncmp(achTypeCopy, &pszBuf[i], sizeof(fccType)) == 0)) &&
iComp-- == 0)
{
WideCharToMultiByte(CP_ACP, 0, &pszBuf[i], sizeof(fccType),
newType, sizeof(newType),NULL, NULL);
WideCharToMultiByte(CP_ACP, 0, &pszBuf[i+5], sizeof(fccType),
newHandler, sizeof(newHandler),NULL, NULL);
return ICInfo(*(LPDWORD)&newType[0],*(LPDWORD)&newHandler[0], lpicinfo);
}
#else
AnsiLower(&pszBuf[i]);
if ((fccType == 0 || fccType == *(LPDWORD)&pszBuf[i]) && iComp-- == 0)
{
return ICInfo(*(LPDWORD)&pszBuf[i],*(LPDWORD)&pszBuf[i+5], lpicinfo);
}
#endif
}
//
// now walk the msvideo drivers. these are listed in system.ini
// like so:
//
// [Drivers]
// MSVideo = driver
// MSVideo1 = driver
// MSVideoN =
//
if (fccType == 0 || fccType == ICTYPE_VCAP)
{
lstrcpy(achKey, szMSVideo);
if (iComp > 0)
wsprintf(achKey+lstrlen(achKey), (LPVOID)"%d", iComp);
if (!GetPrivateProfileString(szDrivers,achKey,szNull,buf,sizeof(buf)/sizeof(TCHAR),szSystemIni))
return FALSE;
lpicinfo->dwSize = sizeof(ICINFO);
lpicinfo->fccType = ICTYPE_VCAP;
lpicinfo->fccHandler = iComp;
lpicinfo->dwFlags = 0;
lpicinfo->dwVersionICM = ICVERSION; //??? right for video?
lpicinfo->dwVersion = 0;
lpicinfo->szDriver[0] = 0;
lpicinfo->szDescription[0] = 0;
lpicinfo->szName[0] = 0;
for (i=0; buf[i] && buf[i] != TEXT(' '); i++)
lpicinfo->szDriver[i] = buf[i];
lpicinfo->szDriver[i] = 0;
return TRUE;
}
return FALSE;
}
}
#undef ICInfo
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api LRESULT | ICGetInfo | This function obtains information about
* a compressor.
*
* @parm HIC | hic | Specifies a handle to a compressor.
*
* @parm ICINFO FAR * | lpicinfo | Specifies a far pointer to <t ICINFO> structure
* used to return information about the compressor.
*
* @parm DWORD | cb | Specifies the size, in bytes, of the structure pointed to
* by <p lpicinfo>.
*
* @rdesc Return the number of bytes copied into the data structure,
* or zero if an error occurs.
*
* @comm Use <f ICInfo> for full information about a compressor.
*
****************************************************************************/
LRESULT VFWAPI ICGetInfo(HIC hic, ICINFO FAR *picinfo, DWORD cb)
{
PIC pic = (PIC)hic;
DWORD dw;
V_HIC(hic);
picinfo->dwSize = sizeof(ICINFO);
picinfo->fccType = 0;
picinfo->fccHandler = 0;
picinfo->dwFlags = 0;
picinfo->dwVersionICM = ICVERSION;
picinfo->dwVersion = 0;
picinfo->szDriver[0] = 0;
picinfo->szDescription[0] = 0;
picinfo->szName[0] = 0;
#ifndef NOTHUNKS
if (!Is32bitHandle(hic))
#endif //!NOTHUNKS
if (pic->hDriver)
{
GetModuleFileName(GetDriverModuleHandle(pic->hDriver),
picinfo->szDriver, sizeof(picinfo->szDriver));
}
dw = ICSendMessage((HIC)pic, ICM_GETINFO, (DWORD)picinfo, cb);
return dw;
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api LRESULT | ICSendMessage | This function sends a
* message to a compressor.
*
* @parm HIC | hic | Specifies the handle of the
* compressor to receive the message.
*
* @parm UINT | wMsg | Specifies the message to send.
*
* @parm DWORD | dw1 | Specifies additional message-specific information.
*
* @parm DWORD | dw2 | Specifies additional message-specific information.
*
* @rdesc Returns a message-specific result.
****************************************************************************/
LRESULT VFWAPI ICSendMessage(HIC hic, UINT msg, DWORD dw1, DWORD dw2)
{
PIC pic = (PIC)hic;
LRESULT l;
#ifndef NOTHUNKS
//
// If it's a 32-bit handle then send it to the 32-bit code
// We need to take some extra care with ICM_DRAW_SUGGESTFORMAT
// which can include a HIC in the ICDRAWSUGGEST structure.
//
#define ICD(dw1) ((ICDRAWSUGGEST FAR *)(dw1))
if (pic->h32) {
ICDebugMessage(hic, msg, dw1, dw2);
if ((msg == ICM_DRAW_SUGGESTFORMAT)
&& (((ICDRAWSUGGEST FAR *)dw1)->hicDecompressor))
{
// We are in the problem area.
// IF the hicDecompressor field is NULL, pass as is.
// IF it identifies a 32 bit decompressor, translate the handle
// OTHERWISE... what? We have a 32 bit compressor, that is
// being told it can use a 16 bit decompressor!!
if ( ((PIC) (((ICDRAWSUGGEST FAR *)dw1)->hicDecompressor))->h32)
{
ICD(dw1)->hicDecompressor
= (HIC)((PIC)(ICD(dw1)->hicDecompressor))->h32;
} else
{
ICD(dw1)->hicDecompressor = NULL; // Sigh...
}
}
l = ICSendMessage32(pic->h32, msg, dw1, dw2);
return ICDebugReturn(l);
}
#endif //!NOTHUNKS
V_HIC(hic);
ICDebugMessage(hic, msg, dw1, dw2);
l = pic->DriverProc(pic->dwDriver, (HDRVR)1, msg, dw1, dw2);
#if 1 //!!! is this realy needed! !!!yes I think it is
//
// special case some messages and give default values.
//
if (l == ICERR_UNSUPPORTED)
{
switch (msg)
{
case ICM_GETDEFAULTQUALITY:
*((LPDWORD)dw1) = ICQUALITY_HIGH;
l = ICERR_OK;
break;
case ICM_GETDEFAULTKEYFRAMERATE:
*((LPDWORD)dw1) = 15;
l = ICERR_OK;
break;
}
}
#endif
return ICDebugReturn(l);
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api LRESULT | ICMessage | This function sends a
* message and a variable number of arguments to a compressor.
* If a macro is defined for the message you want to send,
* use the macro rather than this function.
*
* @parm HIC | hic | Specifies the handle of the
* compressor to receive the message.
*
* @parm UINT | msg | Specifies the message to send.
*
* @parm UINT | cb | Specifies the size, in bytes, of the
* optional parameters. (This is usually the size of the data
* structure used to store the parameters.)
*
* @parm . | . . | Represents the variable number of arguments used
* for the optional parameters.
*
* @rdesc Returns a message-specific result.
****************************************************************************/
LRESULT VFWAPIV ICMessage(HIC hic, UINT msg, UINT cb, ...)
{
// NOTE no LOADDS!
#ifndef WIN32
return ICSendMessage(hic, msg, (DWORD)(LPVOID)(&cb+1), cb);
#else
va_list va;
va_start(va, cb);
va_end(va);
return ICSendMessage(hic, msg, (DWORD)(LPVOID)va, cb);
#endif
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api HIC | ICOpen | This function opens a compressor or decompressor.
*
* @parm DWORD | fccType | Specifies the type of compressor
* the caller is trying to open. For video, this is ICTYPE_VIDEO.
*
* @parm DWORD | fccHandler | Specifies a single preferred handler of the
* given type that should be tried first. Typically, this comes
* from the stream header in an AVI file.
*
* @parm UINT | wMode | Specifies a flag to defining the use of
* the compressor or decompressor.
* This parameter can contain one of the following values:
*
* @flag ICMODE_COMPRESS | Advises a compressor it is opened for compression.
*
* @flag ICMODE_FASTCOMPRESS | Advise a compressor it is open
* for fast (real-time) compression.
*
* @flag ICMODE_DECOMPRESS | Advises a decompressor it is opened for decompression.
*
* @flag ICMODE_FASTDECOMPRESS | Advises a decompressor it is opened
* for fast (real-time) decompression.
*
* @flag ICMODE_DRAW | Advises a decompressor it is opened
* to decompress an image and draw it directly to hardware.
*
* @flag ICMODE_QUERY | Advise a compressor or decompressor it is opened
* to obtain information.
*
* @rdesc Returns a handle to a compressor or decompressor
* if successful, otherwise it returns zero.
****************************************************************************/
INLINE PIC NEAR PASCAL ICOpenInternal(PIC pic, DWORD fccType, DWORD fccHandler,
ICINFO FAR * picinfo, ICOPEN FAR * picopen, UINT wMode)
{
PIC picT;
if (picinfo->szDriver[0])
{
#ifdef DEBUG
DWORD time = timeGetTime();
char ach[80];
#endif
pic->hDriver = LoadDriver(picinfo->szDriver, &pic->DriverProc);
#ifdef DEBUG
time = timeGetTime() - time;
wsprintfA(ach, "COMPMAN: LoadDriver(%ls) (%ldms)\r\n", (LPSTR)picinfo->szDriver, time);
OutputDebugStringA(ach);
#endif
if (pic->hDriver == NULL)
{
pic->dwSmag = 0;
return NULL;
}
//
// now try to open the driver as a codec.
//
pic->dwDriver = ICSendMessage((HIC)pic, DRV_OPEN, 0, (DWORD)(LPVOID)picopen);
//
// we want to be able to install 1.0 draw handlers in SYSTEM.INI as:
//
// VIDS.SMAG = SMAG.DRV
//
// but old driver's may not open iff fccType == 'vids' only if
// fccType == 'vidc'
//
// they also may not like ICMODE_DRAW
//
if (pic->dwDriver == 0 &&
picopen->dwError != 0 &&
fccType == streamtypeVIDEO)
{
if (wMode == ICMODE_DRAW)
picopen->dwFlags = ICMODE_DECOMPRESS;
picopen->fccType = ICTYPE_VIDEO;
pic->dwDriver = ICSendMessage((HIC)pic, DRV_OPEN, 0, (DWORD)(LPVOID)picopen);
}
if (pic->dwDriver == 0)
{
ICClose((HIC)pic);
return NULL;
}
// open'ed ok mark these
pic->fccType = fccType;
pic->fccHandler = fccHandler;
}
else if (picT = FindConverter(fccType, fccHandler))
{
DWORD dw;
picT->dwSmag = SMAG;
dw = ICSendMessage((HIC)picT, DRV_OPEN, 0, (DWORD)(LPVOID)picopen);
if (dw == 0)
{
pic->dwSmag = 0;
return NULL;
}
*pic = *picT;
pic->dwDriver = dw;
}
return pic;
}
/* Helper functions for compression library */
HIC VFWAPI ICOpen(DWORD fccType, DWORD fccHandler, UINT wMode)
{
ICOPEN icopen;
ICINFO icinfo;
PIC pic;
HIC hic = NULL; // Initialise
ICEnterCrit(&ICOpenCritSec);
AnsiLowerBuff((LPSTR) &fccType, sizeof(DWORD));
AnsiLowerBuff((LPSTR) &fccHandler, sizeof(DWORD));
icopen.dwSize = sizeof(ICOPEN);
icopen.fccType = fccType;
icopen.fccHandler = fccHandler;
icopen.dwFlags = wMode;
icopen.dwError = 0;
DPF(("\nICOpen('%4.4s','%4.4s)'\r\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
if (!ICInfo(fccType, fccHandler, &icinfo))
{
RPF(("Unable to locate Compression module '%4.4s' '%4.4s'\r\n", (LPSTR)&fccType, (LPSTR)&fccHandler));
ICLeaveCrit(&ICOpenCritSec);
return NULL;
}
pic = FindConverter(0L, 0L);
if (pic == NULL)
{
ICLeaveCrit(&ICOpenCritSec);
return NULL;
}
#ifndef NOTHUNKS
// Try and open on the 32 bit side first.
// This block and the one below can be interchanged to alter the order
// in which we try and open the compressor.
if (hic == NULL)
{
pic->dwSmag = SMAG;
pic->hTask = (HTASK)GetCurrentTask();
pic->h32 = ICOpen32(fccType, fccHandler, wMode);
if (pic->h32 != 0) {
pic->fccType = fccType;
pic->fccHandler = fccHandler;
pic->dwDriver = (DWORD) -1;
pic->DriverProc = NULL;
hic = (HIC)pic;
}
}
#endif //NOTHUNKS
// Open on the 32 bit side first, then try and open 16 bit...
if (hic == NULL) {
pic->dwSmag = SMAG;
pic->hTask = (HTASK)GetCurrentTask();
hic = (HIC)ICOpenInternal(pic, fccType, fccHandler, &icinfo, &icopen, wMode);
}
ICLeaveCrit(&ICOpenCritSec);
return(hic);
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api HIC | ICOpenFunction | This function opens
* a compressor or decompressor defined as a function.
*
* @parm DWORD | fccType | Specifies the type of compressor
* the caller is trying to open. For video, this is ICTYPE_VIDEO.
*
* @parm DWORD | fccHandler | Specifies a single preferred handler of the
* given type that should be tried first. Typically, this comes
* from the stream header in an AVI file.
*
* @parm UINT | wMode | Specifies a flag to defining the use of
* the compressor or decompressor.
* This parameter can contain one of the following values:
*
* @flag ICMODE_COMPRESS | Advises a compressor it is opened for compression.
*
* @flag ICMODE_FASTCOMPRESS | Advise a compressor it is open
* for fast (real-time) compression.
*
* @flag ICMODE_DECOMPRESS | Advises a decompressor it is opened for decompression.
*
* @flag ICMODE_FASTDECOMPRESS | Advises a decompressor it is opened
* for fast (real-time) decompression.
*
* @flag ICMODE_DRAW | Advises a decompressor it is opened
* to decompress an image and draw it directly to hardware.
*
* @flag ICMODE_QUERY | Advise a compressor or decompressor it is opened
* to obtain information.
*
* @parm FARPROC | lpfnHandler | Specifies a pointer to the function
* used as the compressor or decompressor.
*
* @rdesc Returns a handle to a compressor or decompressor
* if successful, otherwise it returns zero.
****************************************************************************/
HIC VFWAPI ICOpenFunction(DWORD fccType, DWORD fccHandler, UINT wMode, FARPROC lpfnHandler)
{
ICOPEN icopen;
PIC pic;
DWORD dw;
if (IsBadCodePtr(lpfnHandler))
return NULL;
#ifndef NOTHUNKS
// lpfnHandler points to 16 bit code that will be used as a compressor.
// We do not want this to go over to the 32 bit side.
#endif
AnsiLowerBuff((LPSTR) &fccType, sizeof(DWORD));
AnsiLowerBuff((LPSTR) &fccHandler, sizeof(DWORD));
icopen.dwSize = sizeof(ICOPEN);
icopen.fccType = fccType;
icopen.fccHandler = fccHandler;
icopen.dwFlags = wMode;
pic = FindConverter(0L, 0L);
if (pic == NULL)
return NULL;
pic->dwSmag = SMAG;
pic->fccType = fccType;
pic->fccHandler = fccHandler;
pic->dwDriver = 0L;
pic->hDriver = NULL;
pic->DriverProc = (DRIVERPROC)lpfnHandler;
dw = ICSendMessage((HIC)pic, DRV_OPEN, 0, (DWORD)(LPVOID)&icopen);
if (dw == 0)
{
ICClose((HIC) pic);
return NULL;
}
pic->dwDriver = dw;
return (HIC)pic;
}
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api LRESULT | ICClose | This function closes a compressor or decompressor.
*
* @parm HIC | hic | Specifies a handle to a compressor or decompressor.
*
* @rdesc Returns ICERR_OK if successful, otherwise it returns an error number.
*
****************************************************************************/
LRESULT VFWAPI ICClose(HIC hic)
{
PIC pic = (PIC)hic;
V_HIC(hic);
#ifndef NOTHUNKS
if (pic->h32 != 0) {
LRESULT lres = ICClose32(pic->h32);
pic->dwSmag = GONE;
pic->fccType = 0L;
pic->fccHandler = 0L;
pic->dwDriver = 0;
pic->hDriver = NULL;
pic->DriverProc = NULL;
pic->h32 = 0; // Next user of this slot does not want h32 set
return(lres);
}
#endif //!NOTHUNKS
#ifdef DEBUG
{
char ach[80];
if (pic->hDriver)
GetModuleFileName(GetDriverModuleHandle (pic->hDriver), ach, sizeof(ach));
else
ach[0] = 0;
DPF(("ICClose(%04X) %4.4s.%4.4s %s\r\n", hic, (LPSTR)&pic->fccType, (LPSTR)&pic->fccHandler, (LPSTR)ach));
}
#endif
#ifdef DEBUG
ICDump();
#endif
ICEnterCrit(&ICOpenCritSec);
if (pic->dwDriver)
{
if (pic->DriverProc)
ICSendMessage((HIC)pic, DRV_CLOSE, 0, 0);
}
if (pic->hDriver)
FreeDriver(pic->hDriver);
pic->dwSmag = 0L;
pic->fccType = 0L;
pic->fccHandler = 0L;
pic->dwDriver = 0;
pic->hDriver = NULL;
pic->DriverProc = NULL;
ICLeaveCrit(&ICOpenCritSec);
return ICERR_OK;
}
////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////
/****************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api DWORD | ICCompress | This function compresses a single video
* image.
*
* @parm HIC | hic | Specifies the handle of the compressor to
* use.
*
* @parm DWORD | dwFlags | Specifies applicable flags for the compression.
* The following flag is defined:
*
* @flag ICCOMPRESS_KEYFRAME | Indicates that the compressor
* should make this frame a key frame.
*
* @parm LPBITMAPINFOHEADER | lpbiOutput | Specifies a far pointer
* to a <t BITMAPINFO> structure holding the output format.
*
* @parm LPVOID | lpData | Specifies a far pointer to output data buffer.
*
* @parm LPBITMAPINFOHEADER | lpbiInput | Specifies a far pointer
* to a <t BITMAPINFO> structure containing the input format.
*
* @parm LPVOID | lpBits | Specifies a far pointer to the input data buffer.
*
* @parm LPDWORD | lpckid | Not used.
*
* @parm LPDWORD | lpdwFlags | Specifies a far pointer to a <t DWORD>
* holding the return flags used in the AVI index. The following
* flag is defined:
*
* @flag AVIIF_KEYFRAME | Indicates this frame should be used as a key-frame.
*
* @parm LONG | lFrameNum | Specifies the frame number.
*
* @parm DWORD | dwFrameSize | Specifies the requested frame size in bytes.
* If set to zero, the compressor chooses the frame size.
*
* @parm DWORD | dwQuality | Specifies the requested quality value for the frame.
*
* @parm LPBITMAPINFOHEADER | lpbiPrev | Specifies a far pointer to
* a <t BITMAPINFO> structure holding the previous frame's format.
* This parameter is not used for fast temporal compression.
*
* @parm LPVOID | lpPrev | Specifies a far pointer to the
* previous frame's data buffer. This parameter is not used for fast
* temporal compression.
*
* @comm The <p lpData> buffer should be large enough to hold a compressed
* frame. You can obtain the size of this buffer by calling
* <f ICCompressGetSize>.
*
* Set the <p dwFrameSize> parameter to a requested frame
* size only if the compressor returns the VIDCF_CRUNCH flag in
* response to <f ICGetInfo>. If this flag is not set, or if a data
* rate is not specified, set this parameter to zero.
*
* Set the <p dwQuality> parameter to a quality value only
* if the compressor returns the VIDCF_QUALITY flag in response
* to <f ICGetInfo>. Without this flag, set this parameter to zero.
*
* @rdesc This function returns ICERR_OK if successful. Otherwise,
* it returns an error code.
*
* @xref <f ICCompressBegin> <f ICCompressEnd> <f ICCompressGetSize> <f ICGetInfo>
*
**********************************************************************/
DWORD VFWAPIV ICCompress(
HIC hic,
DWORD dwFlags, // flags
LPBITMAPINFOHEADER lpbiOutput, // output format
LPVOID lpData, // output data
LPBITMAPINFOHEADER lpbiInput, // format of frame to compress
LPVOID lpBits, // frame data to compress
LPDWORD lpckid, // ckid for data in AVI file
LPDWORD lpdwFlags, // flags in the AVI index.
LONG lFrameNum, // frame number of seq.
DWORD dwFrameSize, // reqested size in bytes. (if non zero)
DWORD dwQuality, // quality
LPBITMAPINFOHEADER lpbiPrev, // format of previous frame
LPVOID lpPrev) // previous frame
{
#ifdef WIN32
// We cannot rely on the stack alignment giving us the right layout
ICCOMPRESS icc;
icc.dwFlags = dwFlags;
icc.lpbiOutput = lpbiOutput;
icc.lpOutput = lpData;
icc.lpbiInput = lpbiInput;
icc.lpInput = lpBits;
icc.lpckid = lpckid;
icc.lpdwFlags = lpdwFlags;
icc.lFrameNum = lFrameNum;
icc.dwFrameSize = dwFrameSize;
icc.dwQuality = dwQuality;
icc.lpbiPrev = lpbiPrev;
icc.lpPrev = lpPrev;
return ICSendMessage(hic, ICM_COMPRESS, (DWORD)(LPVOID)&icc, sizeof(ICCOMPRESS));
// NOTE: We do NOT copy any results from this temporary structure back
// to the input variables.
#else
return ICSendMessage(hic, ICM_COMPRESS, (DWORD)(LPVOID)&dwFlags, sizeof(ICCOMPRESS));
#endif
}
/************************************************************************
decompression functions
************************************************************************/
/*******************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api DWORD | ICDecompress | The function decompresses a single video frame.
*
* @parm HIC | hic | Specifies a handle to the decompressor to use.
*
* @parm DWORD | dwFlags | Specifies applicable flags for decompression.
* The following flags are defined:
*
* @flag ICDECOMPRESS_HURRYUP | Indicates the decompressor should try to
* decompress at a faster rate. When an application uses this flag,
* it should not draw the decompressed data.
*
* @flag ICDECOMPRESS_UPDATE | Indicates that the screen is being updated.
*
* @flag ICDECOMPRESS_PREROLL | Indicates that this frame will not actually
* be drawn, because it is before the point in the movie where play
* will start.
*
* @flag ICDECOMPRESS_NULLFRAME | Indicates that this frame does not actually
* have any data, and the decompressed image should be left the same.
*
* @flag ICDECOMPRESS_NOTKEYFRAME | Indicates that this frame is not a
* key frame.
*
* @parm LPBITMAPINFOHEADER | lpbiFormat | Specifies a far pointer
* to a <t BITMAPINFO> structure containing the format of
* the compressed data.
*
* @parm LPVOID | lpData | Specifies a far pointer to the input data.
*
* @parm LPBITMAPINFOHEADER | lpbi | Specifies a far pointer to a
* <t BITMAPINFO> structure containing the output format.
*
* @parm LPVOID | lpBits | Specifies a far pointer to a data buffer for the
* decompressed data.
*
* @comm The <p lpBits> parameter should point to a buffer large
* enough to hold the decompressed data. Applications can obtain
* the size of this buffer with <f ICDecompressGetSize>.
*
* @rdesc Returns ICERR_OK on success, otherwise it returns an error code.
*
* @xref <f ICDecompressBegin< <f ICDecompressEnd> <f ICDecompressGetSize>
*
********************************************************************/
DWORD VFWAPIV ICDecompress(
HIC hic,
DWORD dwFlags, // flags (from AVI index...)
LPBITMAPINFOHEADER lpbiFormat, // BITMAPINFO of compressed data
// biSizeImage has the chunk size
// biCompression has the ckid (AVI only)
LPVOID lpData, // data
LPBITMAPINFOHEADER lpbi, // DIB to decompress to
LPVOID lpBits)
{
#if 1
ICDECOMPRESS icd;
// We cannot rely on the stack alignment giving us the right layout
icd.dwFlags = dwFlags;
icd.lpbiInput = lpbiFormat;
icd.lpInput = lpData;
icd.lpbiOutput = lpbi;
icd.lpOutput = lpBits;
icd.ckid = 0;
return ICSendMessage(hic, ICM_DECOMPRESS, (DWORD)(LPVOID)&icd, sizeof(ICDECOMPRESS));
#else
return ICSendMessage(hic, ICM_DECOMPRESS, (DWORD)(LPVOID)&dwFlags, sizeof(ICDECOMPRESS));
#endif
}
/************************************************************************
drawing functions
************************************************************************/
/**********************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api DWORD | ICDrawBegin | This function starts decompressing
* data directly to the screen.
*
* @parm HIC | hic | Specifies a handle to the decompressor to use.
*
* @parm DWORD | dwFlags | Specifies flags for the decompression. The
* following flags are defined:
*
* @flag ICDRAW_QUERY | Determines if the decompressor can handle
* the decompression. The driver does not actually decompress the data.
*
* @flag ICDRAW_FULLSCREEN | Tells the decompressor to draw
* the decompressed data on the full screen.
*
* @flag ICDRAW_HDC | Indicates the decompressor should use the window
* handle specified by <p hwnd> and the display context
* handle specified by <p hdc> for drawing the decompressed data.
*
* @flag ICDRAW_ANIMATE | Indicates the palette might be animated.
*
* @flag ICDRAW_CONTINUE | Indicates drawing is a
* continuation of the previous frame.
*
* @flag ICDRAW_MEMORYDC | Indicates the display context is offscreen.
*
* @flag ICDRAW_UPDATING | Indicates the frame is being
* updated rather than played.
*
* @parm HPALETTE | hpal | Specifies a handle to the palette used for drawing.
*
* @parm HWND | hwnd | Specifies a handle for the window used for drawing.
*
* @parm HDC | hdc | Specifies the display context used for drawing.
*
* @parm int | xDst | Specifies the x-position of the upper-right
* corner of the destination rectangle.
*
* @parm int | yDst | Specifies the y-position of the upper-right
* corner of the destination rectangle.
*
* @parm int | dxDst | Specifies the width of the destination rectangle.
*
* @parm int | dyDst | Specifies the height of the destination rectangle.
*
* @parm LPBITMAPINFOHEADER | lpbi | Specifies a far pointer to
* a <t BITMAPINFO> structure containing the format of
* the input data to be decompressed.
*
* @parm int | xSrc | Specifies the x-position of the upper-right corner
* of the source rectangle.
*
* @parm int | ySrc | Specifies the y-position of the upper-right corner
* of the source rectangle.
*
* @parm int | dxSrc | Specifies the width of the source rectangle.
*
* @parm int | dySrc | Specifies the height of the source rectangle.
*
* @parm DWORD | dwRate | Specifies the data rate. The
* data rate in frames per second equals <p dwRate> divided
* by <p dwScale>.
*
* @parm DWORD | dwScale | Specifies the data rate.
*
* @comm Decompressors use the <p hwnd> and <p hdc> parameters
* only if an application sets ICDRAW_HDC flag in <p dwFlags>.
* It will ignore these parameters if an application sets
* the ICDRAW_FULLSCREEN flag. When an application uses the
* ICDRAW_FULLSCREEN flag, it should set <p hwnd> and <p hdc>
* to NULL.
*
* The destination rectangle is specified only if ICDRAW_HDC is used.
* If an application sets the ICDRAW_FULLSCREEN flag, the destination
* rectangle is ignored and its parameters can be set to zero.
*
* The source rectangle is relative to the full video frame.
* The portion of the video frame specified by the source
* rectangle will be stretched to fit in the destination rectangle.
*
* @rdesc Returns ICERR_OK if it can handle the decompression, otherwise
* it returns ICERR_UNSUPPORTED.
*
* @xref <f ICDraw> <f ICDrawEnd>
*
*********************************************************************/
DWORD VFWAPIV ICDrawBegin(
HIC hic,
DWORD dwFlags, // flags
HPALETTE hpal, // palette to draw with
HWND hwnd, // window to draw to
HDC hdc, // HDC to draw to
int xDst, // destination rectangle
int yDst,
int dxDst,
int dyDst,
LPBITMAPINFOHEADER lpbi, // format of frame to draw
int xSrc, // source rectangle
int ySrc,
int dxSrc,
int dySrc,
DWORD dwRate, // frames/second = (dwRate/dwScale)
DWORD dwScale)
{
#ifdef WIN32
ICDRAWBEGIN icdraw;
icdraw.dwFlags = dwFlags;
icdraw.hpal = hpal;
icdraw.hwnd = hwnd;
icdraw.hdc = hdc;
icdraw.xDst = xDst;
icdraw.yDst = yDst;
icdraw.dxDst = dxDst;
icdraw.dyDst = dyDst;
icdraw.lpbi = lpbi;
icdraw.xSrc = xSrc;
icdraw.ySrc = ySrc;
icdraw.dxSrc = dxSrc;
icdraw.dySrc = dySrc;
icdraw.dwRate = dwRate;
icdraw.dwScale = dwScale;
return ICSendMessage(hic, ICM_DRAW_BEGIN, (DWORD)(LPVOID)&icdraw, sizeof(ICDRAWBEGIN));
#else
return ICSendMessage(hic, ICM_DRAW_BEGIN, (DWORD)(LPVOID)&dwFlags, sizeof(ICDRAWBEGIN));
#endif
}
/**********************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api DWORD | ICDraw | This function decompress an image for drawing.
*
* @parm HIC | hic | Specifies a handle to an decompressor.
*
* @parm DWORD | dwFlags | Specifies any flags for the decompression.
* The following flags are defined:
*
* @flag ICDRAW_HURRYUP | Indicates the decompressor should
* just buffer the data if it needs it for decompression
* and not draw it to the screen.
*
* @flag ICDRAW_UPDATE | Tells the decompressor to update the screen based
* on data previously received. Set <p lpData> to NULL when
* this flag is used.
*
* @flag ICDRAW_PREROLL | Indicates that this frame of video occurs before
* actual playback should start. For example, if playback is to
* begin on frame 10, and frame 0 is the nearest previous keyframe,
* frames 0 through 9 are sent to the driver with the ICDRAW_PREROLL
* flag set. The driver needs this data so it can displya frmae 10
* properly, but frames 0 through 9 need not be individually displayed.
*
* @flag ICDRAW_NULLFRAME | Indicates that this frame does not actually
* have any data, and the previous frame should be redrawn.
*
* @flag ICDRAW_NOTKEYFRAME | Indicates that this frame is not a
* key frame.
*
* @parm LPVOID | lpFormat | Specifies a far pointer to a
* <t BITMAPINFOHEADER> structure containing the input
* format of the data.
*
* @parm LPVOID | lpData | Specifies a far pointer to the actual input data.
*
* @parm DWORD | cbData | Specifies the size of the input data (in bytes).
*
* @parm LONG | lTime | Specifies the time to draw this frame based on the
* time scale sent with <f ICDrawBegin>.
*
* @comm This function is used to decompress the image data for drawing
* by the decompressor. Actual drawing of frames does not occur
* until <f ICDrawStart> is called. The application should be sure to
* pre-buffer the required number of frames before drawing is started
* (you can obtain this value with <f ICGetBuffersWanted>).
*
* @rdesc Returns ICERR_OK on success, otherwise it returns an appropriate error
* number.
*
* @xref <f ICDrawBegin> <f ICDrawEnd> <f ICDrawStart> <f ICDrawStop> <f ICGetBuffersRequired>
*
**********************************************************************/
DWORD VFWAPIV ICDraw(
HIC hic,
DWORD dwFlags, // flags
LPVOID lpFormat, // format of frame to decompress
LPVOID lpData, // frame data to decompress
DWORD cbData, // size in bytes of data
LONG lTime) // time to draw this frame (see drawbegin dwRate and dwScale)
{
#ifdef WIN32
ICDRAW icdraw;
icdraw.dwFlags = dwFlags;
icdraw.lpFormat = lpFormat;
icdraw.lpData = lpData;
icdraw.cbData = cbData;
icdraw.lTime = lTime;
return ICSendMessage(hic, ICM_DRAW, (DWORD)(LPVOID)&icdraw, sizeof(ICDRAW));
#else
return ICSendMessage(hic, ICM_DRAW, (DWORD)(LPVOID)&dwFlags, sizeof(ICDRAW));
#endif
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api HIC | ICGetDisplayFormat | This function returns the "best"
* format available for display a compressed image. The function
* will also open a compressor if a handle to an open compressor
* is not specified.
*
* @parm HIC | hic | Specifies the decompressor that should be used. If
* this is NULL, an appropriate compressor will be opened and returned.
*
* @parm LPBITMAPINFOHEADER | lpbiIn | Specifies a pointer to
* <t BITMAPINFOHEADER> structure containing the compressed format.
*
* @parm LPBITMAPINFOHEADER | lpbiOut | Specifies a pointer
* to a buffer used to return the decompressed format.
* The buffer should be large enough for a <t BITMAPINFOHEADER>
* structure and 256 color entries.
*
* @parm int | BitDepth | If non-zero, specifies the preferred bit depth.
*
* @parm int | dx | If non-zero, specifies the width to which the image
* is to be stretched.
*
* @parm int | dy | If non-zero, specifies the height to which the image
* is to be stretched.
*
* @rdesc Returns a handle to a decompressor if successful, otherwise, it
* returns zero.
****************************************************************************/
HIC VFWAPI ICGetDisplayFormat(HIC hic, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut, int BitDepth, int dx, int dy)
{
DWORD dw;
HDC hdc;
BOOL fNukeHic = (hic == NULL);
static int ScreenBitDepth = -1;
if (hic == NULL)
hic = ICDecompressOpen(ICTYPE_VIDEO, 0L, lpbiIn, NULL);
if (hic == NULL)
return NULL;
//
// dy = 0 and dy = 0 means don't stretch.
//
if (dx == (int)lpbiIn->biWidth && dy == (int)lpbiIn->biHeight)
dx = dy = 0;
//
// ask the compressor if it likes the format.
//
dw = ICDecompressQuery(hic, lpbiIn, NULL);
if (dw != ICERR_OK)
{
DPF(("Decompressor did not recognize the input data format\r\n"));
goto error;
}
try_again:
//
// ask the compressor first. (so it can set the palette)
// this is a HACK, we will send the ICM_GET_PALETTE message later.
//
dw = ICDecompressGetFormat(hic, lpbiIn, lpbiOut);
//
// init the output format
//
*lpbiOut = *lpbiIn;
lpbiOut->biSize = sizeof(BITMAPINFOHEADER);
lpbiOut->biCompression = BI_RGB;
//
// default to the screen depth.
//
if (BitDepth == 0)
{
if (ScreenBitDepth < 0)
{
DWORD FAR PASCAL DrawDibProfileDisplay(LPBITMAPINFOHEADER lpbi);
hdc = GetDC(NULL);
ScreenBitDepth = GetDeviceCaps(hdc, BITSPIXEL) * GetDeviceCaps(hdc, PLANES);
ReleaseDC(NULL, hdc);
if (ScreenBitDepth == 15)
ScreenBitDepth = 16;
if (ScreenBitDepth < 8)
ScreenBitDepth = 8;
//
// only try 16 bpp if the display supports drawing it.
//
if (ScreenBitDepth == 16)
{
lpbiOut->biBitCount = 16;
if (!DrawDibProfileDisplay(lpbiOut))
ScreenBitDepth = 24;
}
if (ScreenBitDepth > 24)
{
lpbiOut->biBitCount = 32;
if (!DrawDibProfileDisplay(lpbiOut))
ScreenBitDepth = 24;
}
}
#ifdef DEBUG
ScreenBitDepth = GetProfileInt(TEXT("DrawDib"),
TEXT("ScreenBitDepth"),
ScreenBitDepth);
#endif
BitDepth = ScreenBitDepth;
}
//
// always try 8bit first for '8' bit data
//
if (lpbiIn->biBitCount == 8)
BitDepth = 8;
//
// lets suggest a format to the device.
//
try_bit_depth:
lpbiOut->biSize = sizeof(BITMAPINFOHEADER);
lpbiOut->biCompression = BI_RGB;
lpbiOut->biBitCount = BitDepth;
//
// should we suggest a stretched decompress
//
if (dx > 0 && dy > 0)
{
lpbiOut->biWidth = dx;
lpbiOut->biHeight = dy;
}
lpbiOut->biSizeImage = (DWORD)(UINT)DIBWIDTHBYTES(*lpbiOut) *
(DWORD)(UINT)lpbiOut->biHeight;
//
// ask the compressor if it likes the suggested format.
//
dw = ICDecompressQuery(hic, lpbiIn, lpbiOut);
//
// if it likes it then return success.
//
if (dw == ICERR_OK)
goto success;
// 8: 8, 16,24,32,X
// 16: 16,24,32,X
// 24: 24,32,16,X
// 32: 32,24,16,X
//
// try another bit depth in this order 8,16,24,32
//
if (BitDepth <= 8)
{
BitDepth = 16;
goto try_bit_depth;
}
if (BitDepth == 16)
{
BitDepth = 24;
goto try_bit_depth;
}
if (BitDepth == 24)
{
BitDepth = 32;
goto try_bit_depth;
}
if (BitDepth != 32)
{
BitDepth = 32;
goto try_bit_depth;
}
if (dx > 0 && dy > 0)
{
dx = 0;
dy = 0;
//
// try to find a non stretched format. but don't let the
// device dither if we are going to stretch!
//
if (lpbiIn->biBitCount > 8)
BitDepth = 16;
else
BitDepth = 0;
goto try_again;
}
else
{
//
// let the compressor suggest a format
//
dw = ICDecompressGetFormat(hic, lpbiIn, lpbiOut);
if (dw == ICERR_OK)
goto success;
}
error:
if (hic && fNukeHic)
ICClose(hic);
return NULL;
success:
if (lpbiOut->biBitCount == 8)
ICDecompressGetPalette(hic, lpbiIn, lpbiOut);
return hic;
}
/*****************************************************************************
* @doc EXTERNAL IC ICAPPS
*
* @api HIC | ICLocate | This function finds a compressor or decompressor
* that can handle images with the formats specified, or it finds a
* driver that can decompress an image with a specified
* format directly to hardware. Applications must close the
* compressor when it has finished using the compressor.
*
* @parm DWORD | fccType | Specifies the type of compressor
* the caller is trying to open. For video, this is ICTYPE_VIDEO.
*
* @parm DWORD | fccHandler | Specifies a single preferred handler of the
* given type that should be tried first. Typically, this comes
* from the stream header in an AVI file.
*
* @parm LPBITMAPINFOHEADER | lpbiIn | Specifies a pointer to
* <t BITMAPINFOHEADER> structure defining the input format.
* A compressor handle will not be returned unless it
* can handle this format.
*
* @parm LPBITMAPINFOHEADER | lpbiOut | Specifies zero or a pointer to
* <t BITMAPINFOHEADER> structure defining an optional decompressed
* format. If <p lpbiOut> is nonzero, a compressor handle will not
* be returned unless it can create this output format.
*
* @parm WORD | wFlags | Specifies a flag to defining the use of the compressor.
* This parameter must contain one of the following values:
*
* @flag ICMODE_COMPRESS | Indicates the compressor should
* be able to compress an image with a format defined by <p lpbiIn>
* to the format defined by <p lpbiOut>.
*
* @flag ICMODE_DECOMPRESS | Indicates the decompressor should
* be able to decompress an image with a format defined by <p lpbiIn>
* to the format defined by <p lpbiOut>.
*
* @flag ICMODE_FASTDECOMPRESS | Has the same definition as ICMODE_DECOMPRESS except the
* decompressor is being used for a real-time operation and should trade off speed
* for quality if possible.
*
* @flag ICMODE_FASTCOMPRESS | Has the same definition as ICMODE_COMPRESS except the
* compressor is being used for a real-time operation and should trade off speed
* for quality if possible.
*
* @flag ICMODE_DRAW | Indicates the decompressor should
* be able to decompress an image with a format defined by <p lpbiIn>
* and draw it directly to hardware.
*
* @rdesc Returns a handle to a compressor or decompressor
* if successful, otherwise it returns zero.
****************************************************************************/
HIC VFWAPI ICLocate(DWORD fccType, DWORD fccHandler, LPBITMAPINFOHEADER lpbiIn, LPBITMAPINFOHEADER lpbiOut, WORD wFlags)
{
HIC hic=NULL;
int i;
ICINFO icinfo;
UINT msg;
if (fccType == 0)
return NULL;
switch (wFlags)
{
case ICMODE_FASTCOMPRESS:
case ICMODE_COMPRESS:
msg = ICM_COMPRESS_QUERY;
break;
case ICMODE_FASTDECOMPRESS:
case ICMODE_DECOMPRESS:
msg = ICM_DECOMPRESS_QUERY;
break;
case ICMODE_DRAW:
msg = ICM_DRAW_QUERY;
break;
default:
return NULL;
}
if (fccHandler)
{
hic = ICOpen(fccType, fccHandler, wFlags);
if (hic && ICSendMessage(hic, msg, (DWORD)lpbiIn, (DWORD)lpbiOut) == ICERR_OK)
return hic;
else if (hic)
ICClose(hic);
}
if (fccType == ICTYPE_VIDEO && lpbiIn)
{
if (lpbiIn->biCompression > 256)
{
hic = ICOpen(fccType, lpbiIn->biCompression, wFlags);
if (hic && ICSendMessage(hic, msg, (DWORD)lpbiIn, (DWORD)lpbiOut) == ICERR_OK)
return hic;
else if (hic)
ICClose(hic);
}
}
//
// Search through all of the compressors, to see if one can do what we
// want.
//
for (i=0; ICInfo(fccType, i, &icinfo); i++)
{
hic = ICOpen(fccType, icinfo.fccHandler, wFlags);
if (hic == NULL)
continue;
if (ICSendMessage(hic, msg, (DWORD)lpbiIn, (DWORD)lpbiOut) != ICERR_OK)
{
ICClose(hic);
continue;
}
return hic;
}
return NULL;
}
/*****************************************************************************
* @doc INTERNAL IC
*
* @api HDRVR | LoadDriver | load a driver
*
****************************************************************************/
static HDRVR LoadDriver(LPSTR szDriver, DRIVERPROC FAR *lpDriverProc)
{
HMODULE hModule;
UINT u;
DRIVERPROC DriverProc;
BOOL fWow;
HDRVR hDriver;
fWow = IsWow();
if (fWow)
{
u = SetErrorMode(SEM_NOOPENFILEERRORBOX);
hModule = LoadLibrary(szDriver);
SetErrorMode(u);
if (hModule <= HINSTANCE_ERROR)
return NULL;
hDriver = (HMODULE) hModule;
}
else
{
hDriver = OpenDriver (szDriver, NULL, NULL);
if (!hDriver)
return NULL;
hModule = GetDriverModuleHandle (hDriver);
}
DPF(("LoadDriver: %s\r\n", szDriver));
DriverProc = (DRIVERPROC)GetProcAddress(hModule, szDriverProc);
if (DriverProc == NULL)
{
if (fWow)
{
FreeLibrary(hModule);
}
else
{
CloseDriver (hDriver, 0L, 0L);
}
return NULL;
}
if (fWow && GetModuleUsage(hModule) == 1) //!!!this is not exacly like USER
{
if (!DriverProc(0, (HDRVR)1, DRV_LOAD, 0L, 0L))
{
FreeLibrary(hModule);
return NULL;
}
DriverProc(0, (HDRVR)1, DRV_ENABLE, 0L, 0L);
}
CacheModule (hModule);
*lpDriverProc = DriverProc;
return hDriver;
}
/*****************************************************************************
* @doc INTERNAL IC
*
* @api void | FreeDriver | unload a driver
*
****************************************************************************/
static void FreeDriver(HDRVR hDriver)
{
if (!IsWow())
{
CloseDriver (hDriver, 0L, 0L);
}
else
{
if (GetModuleUsage((HMODULE) hDriver) == 1)
{
DRIVERPROC DriverProc;
DriverProc = (DRIVERPROC)GetProcAddress((HMODULE) hDriver, szDriverProc);
if (DriverProc)
{
DriverProc(0, (HDRVR)1, DRV_DISABLE, 0L, 0L);
DriverProc(0, (HDRVR)1, DRV_FREE, 0L, 0L);
}
}
FreeLibrary((HMODULE) hDriver);
}
}
#ifdef DEBUG_RETAIL
/************************************************************************
messages.
************************************************************************/
struct {
UINT msg;
char *szMsg;
} aMsg[] = {
DRV_OPEN , "DRV_OPEN",
DRV_CLOSE , "DRV_CLOSE",
ICM_GETSTATE , "ICM_GETSTATE",
ICM_SETSTATE , "ICM_SETSTATE",
ICM_GETINFO , "ICM_GETINFO",
ICM_CONFIGURE , "ICM_CONFIGURE",
ICM_ABOUT , "ICM_ABOUT",
ICM_GETERRORTEXT , "ICM_GETERRORTEXT",
ICM_GETFORMATNAME , "ICM_GETFORMATNAME",
ICM_ENUMFORMATS , "ICM_ENUMFORMATS",
ICM_GETDEFAULTQUALITY , "ICM_GETDEFAULTQUALITY",
ICM_GETQUALITY , "ICM_GETQUALITY",
ICM_SETQUALITY , "ICM_SETQUALITY",
ICM_COMPRESS_GET_FORMAT , "ICM_COMPRESS_GET_FORMAT",
ICM_COMPRESS_GET_SIZE , "ICM_COMPRESS_GET_SIZE",
ICM_COMPRESS_QUERY , "ICM_COMPRESS_QUERY",
ICM_COMPRESS_BEGIN , "ICM_COMPRESS_BEGIN",
ICM_COMPRESS , "ICM_COMPRESS",
ICM_COMPRESS_END , "ICM_COMPRESS_END",
ICM_DECOMPRESS_GET_FORMAT , "ICM_DECOMPRESS_GET_FORMAT",
ICM_DECOMPRESS_QUERY , "ICM_DECOMPRESS_QUERY",
ICM_DECOMPRESS_BEGIN , "ICM_DECOMPRESS_BEGIN",
ICM_DECOMPRESS , "ICM_DECOMPRESS",
ICM_DECOMPRESS_END , "ICM_DECOMPRESS_END",
ICM_DECOMPRESS_SET_PALETTE , "ICM_DECOMPRESS_SET_PALETTE",
ICM_DECOMPRESS_GET_PALETTE , "ICM_DECOMPRESS_GET_PALETTE",
ICM_DECOMPRESSEX_QUERY , "ICM_DECOMPRESSEX_QUERY",
ICM_DECOMPRESSEX_BEGIN , "ICM_DECOMPRESSEX_BEGIN",
ICM_DECOMPRESSEX , "ICM_DECOMPRESSEX",
ICM_DECOMPRESSEX_END , "ICM_DECOMPRESSEX_END",
ICM_DRAW_QUERY , "ICM_DRAW_QUERY",
ICM_DRAW_BEGIN , "ICM_DRAW_BEGIN",
ICM_DRAW_GET_PALETTE , "ICM_DRAW_GET_PALETTE",
ICM_DRAW_UPDATE , "ICM_DRAW_UPDATE",
ICM_DRAW_START , "ICM_DRAW_START",
ICM_DRAW_STOP , "ICM_DRAW_STOP",
ICM_DRAW_BITS , "ICM_DRAW_BITS",
ICM_DRAW_END , "ICM_DRAW_END",
ICM_DRAW_GETTIME , "ICM_DRAW_GETTIME",
ICM_DRAW , "ICM_DRAW",
ICM_DRAW_WINDOW , "ICM_DRAW_WINDOW",
ICM_DRAW_SETTIME , "ICM_DRAW_SETTIME",
ICM_DRAW_REALIZE , "ICM_DRAW_REALIZE",
ICM_GETBUFFERSWANTED , "ICM_GETBUFFERSWANTED",
ICM_GETDEFAULTKEYFRAMERATE , "ICM_GETDEFAULTKEYFRAMERATE",
ICM_COMPRESS_FRAMES_INFO , "ICM_COMPRESS_FRAMES_INFO",
ICM_COMPRESS_FRAMES , "ICM_COMPRESS_FRAMES",
ICM_SET_STATUS_PROC , "ICM_SET_STATUS_PROC",
ICM_ENUM_FORMATS , "ICM_ENUM_FORMATS",
ICM_GET_FORMAT_NAME , "ICM_GET_FORMAT_NAME",
0 , NULL
};
struct {
LRESULT err;
char *szErr;
} aErr[] = {
ICERR_DONTDRAW , "ICERR_DONTDRAW",
ICERR_NEWPALETTE , "ICERR_NEWPALETTE",
ICERR_UNSUPPORTED , "ICERR_UNSUPPORTED",
ICERR_BADFORMAT , "ICERR_BADFORMAT",
ICERR_MEMORY , "ICERR_MEMORY",
ICERR_INTERNAL , "ICERR_INTERNAL",
ICERR_BADFLAGS , "ICERR_BADFLAGS",
ICERR_BADPARAM , "ICERR_BADPARAM",
ICERR_BADSIZE , "ICERR_BADSIZE",
ICERR_BADHANDLE , "ICERR_BADHANDLE",
ICERR_CANTUPDATE , "ICERR_CANTUPDATE",
ICERR_ERROR , "ICERR_ERROR",
ICERR_BADBITDEPTH , "ICERR_BADBITDEPTH",
ICERR_BADIMAGESIZE , "ICERR_BADIMAGESIZE",
ICERR_OK , "ICERR_OK"
};
static BOOL fDebug = -1;
static DWORD dwTime;
void ICDebugMessage(HIC hic, UINT msg, DWORD dw1, DWORD dw2)
{
int i;
if (!fDebug)
return;
for (i=0; aMsg[i].msg && aMsg[i].msg != msg; i++)
;
if (aMsg[i].msg == 0)
RPF(("ICM(%04X,ICM_%04X,%08lX,%08lX)", hic, msg, dw1, dw2));
else
RPF(("ICM(%04X,%s,%08lX,%08lX)", hic, (LPSTR)aMsg[i].szMsg, dw1, dw2));
dwTime = timeGetTime();
}
LRESULT ICDebugReturn(LRESULT err)
{
int i;
if (!fDebug)
return err;
dwTime = timeGetTime() - dwTime;
for (i=0; aErr[i].err && aErr[i].err != err; i++)
;
if (aErr[i].err != err)
RPF(("! : 0x%08lX (%ldms)\r\n", err, dwTime));
else
RPF(("! : %s (%ldms)\r\n", (LPSTR)aErr[i].szErr, dwTime));
return err;
}
static void ICDump()
{
int i;
PIC pic;
char ach[80];
DPF(("ICDump ---------------------------------------\r\n"));
for (i=0; i<MAX_CONVERTERS; i++)
{
pic = &aicConverters[i];
if (pic->fccType == 0)
continue;
if (pic->dwSmag == 0)
continue;
if (pic->hDriver)
GetModuleFileName(GetDriverModuleHandle (pic->hDriver), ach, sizeof(ach));
else
ach[0] = 0;
DPF((" HIC: %04X %4.4s.%4.4s hTask=%04X Proc=%08lx %s\r\n", (HIC)pic, (LPSTR)&pic->fccType, (LPSTR)&pic->fccHandler, pic->hTask, pic->DriverProc, (LPSTR)ach));
}
DPF(("----------------------------------------------\r\n"));
}
#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]
* COMPMAN=1
*
****************************************************************************/
#ifdef DEBUG_RETAIL
#define MODNAME "COMPMAN"
static void cdecl dprintfc(LPSTR szFormat, ...)
{
char ach[128];
#ifdef WIN32
va_list va;
if (fDebug == -1)
fDebug = GetProfileIntA("Debug",MODNAME, FALSE);
if (!fDebug)
return;
va_start(va, szFormat);
if (szFormat[0] == '!')
ach[0]=0, szFormat++;
else
lstrcpyA(ach, MODNAME ": ");
wvsprintfA(ach+lstrlenA(ach),szFormat,va);
va_end(va);
// lstrcatA(ach, "\r\r\n");
#else
if (fDebug == -1) {
fDebug = GetProfileIntA("Debug",MODNAME, FALSE);
switch (fDebug) {
case -1:
OutputDebugStringA("fDebug still set at -1\n");
break;
case 0:
OutputDebugStringA("fDebug set to 0\n");
break;
case 1:
OutputDebugStringA("fDebug set to 1\n");
break;
case 2:
OutputDebugStringA("fDebug set to 2\n");
break;
default:
OutputDebugStringA("fDebug set to something else\n");
}
}
if (!fDebug)
return;
if (szFormat[0] == '!')
ach[0]=0, szFormat++;
else
lstrcpyA(ach, MODNAME ": ");
wvsprintfA(ach+lstrlenA(ach),szFormat,(LPSTR)(&szFormat+1));
lstrcatA(ach, "\r\r\n");
#endif
OutputDebugStringA(ach);
}
#endif