windows-nt/Source/XPSP1/NT/multimedia/directx/dinput/dx8/dll/diutil.c

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2020-09-26 03:20:57 -05:00
/*****************************************************************************
*
* DIUtil.c
*
* Copyright (c) 1996 - 2000 Microsoft Corporation. All Rights Reserved.
*
* Abstract:
*
* Misc helper functions.
*
* Contents:
*
*
*
*****************************************************************************/
#include "dinputpr.h"
/*****************************************************************************
*
* The sqiffle for this file.
*
*****************************************************************************/
#define sqfl sqflUtil
/*****************************************************************************
*
* @doc INTERNAL
*
* @func LPCTSTR | _ParseHex |
*
* Parse a hex string encoding cb bytes (at most 4), then expect
* the tchDelim to appear afterwards. If tchDelim is 0, then no
* delimiter is expected.
*
* Store the result into the indicated LPBYTE (using only the
* size requested), updating it, and return a pointer to the
* next unparsed character, or 0 on error.
*
* If the incoming pointer is also 0, then return 0 immediately.
*
* @parm IN LPCTSTR | ptsz |
*
* The string to parse.
*
* @parm IN OUT LPBYTE * | ppb |
*
* Pointer to the address of the destination buffer.
*
* @parm IN int | cb |
*
* The size in bytes of the buffer.
*
* @parm IN TCHAR | tchDelim |
*
* The delimiter charater to end the sequence or zero if none is
* expected.
*
* @returns
*
* Returns a pointer to the next unparsed character, or 0 on error.
*
* @comm
* Stolen from TweakUI.
*
* Prefix takes a strong dislike to this function, reporting that
* all callers could use uninitialized memory when the function
* succeeds.
* The problem appears to be that Prefix is unable to determine that
* if the source string can successfully be read, the destination is
* always completely filled (the whole passed destination size) with
* the binary value of the source string. Since all callers always
* pass the size of the variable to which the destination buffer
* pointer points, the memory is always completely initialized but
* it seems reasonable that Prefix would raise a warning.
*
*****************************************************************************/
LPCTSTR INTERNAL
_ParseHex(LPCTSTR ptsz, LPBYTE *ppb, int cb, TCHAR tchDelim)
{
if(ptsz)
{
int i = cb * 2;
DWORD dwParse = 0;
do
{
DWORD uch;
uch = (TBYTE)*ptsz - TEXT('0');
if(uch < 10)
{ /* a decimal digit */
} else
{
uch = (*ptsz | 0x20) - TEXT('a');
if(uch < 6)
{ /* a hex digit */
uch += 10;
} else
{
return 0; /* Parse error */
}
}
dwParse = (dwParse << 4) + uch;
ptsz++;
} while(--i);
if(tchDelim && *ptsz++ != tchDelim) return 0; /* Parse error */
for(i = 0; i < cb; i++)
{
(*ppb)[i] = ((LPBYTE)&dwParse)[i];
}
*ppb += cb;
}
return ptsz;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func BOOL | ParseGUID |
*
* Take a string and convert it into a GUID, return success/failure.
*
* @parm OUT LPGUID | lpGUID |
*
* Receives the parsed GUID on success.
*
* @parm IN LPCTSTR | ptsz |
*
* The string to parse. The format is
*
* { <lt>dword<gt> - <lt>word<gt> - <lt>word<gt>
* - <lt>byte<gt> <lt>byte<gt>
* - <lt>byte<gt> <lt>byte<gt> <lt>byte<gt>
* <lt>byte<gt> <lt>byte<gt> <lt>byte<gt> }
*
* @returns
*
* Returns zero if <p ptszGUID> is not a valid GUID.
*
*
* @comm
*
* Stolen from TweakUI.
*
*****************************************************************************/
BOOL EXTERNAL
ParseGUID(LPGUID pguid, LPCTSTR ptsz)
{
if(lstrlen(ptsz) == ctchGuid - 1 && *ptsz == TEXT('{'))
{
ptsz++;
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 4, TEXT('-'));
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 2, TEXT('-'));
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 2, TEXT('-'));
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, 0 );
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, TEXT('-'));
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, 0 );
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, 0 );
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, 0 );
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, 0 );
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, 0 );
ptsz = _ParseHex(ptsz, (LPBYTE *)&pguid, 1, TEXT('}'));
return (BOOL)(UINT_PTR)ptsz;
} else
{
return 0;
}
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func BOOL | ParseVIDPID |
*
* Take a string formatted as VID_%04&PID_%04.
*
* @parm OUT PUSHORT | puVID |
*
* Receives the parsed VID.
*
* @parm OUT PUSHORT | puPID |
*
* Receives the parsed PID.
*
* @parm IN LPCTSTR | ptsz |
*
*
* @returns
*
* Returns zero on failure.
*
*
* @comm
*
* Stolen from TweakUI.
*
*****************************************************************************/
// VID _ XXXX & PID _ YYYY
#define ctchVIDPID ( 3 + 1 + 4 + 1 + 3 + 1 + 4 )
#define VID_ TEXT("VID_")
#define VID_offset (3+1)
#define PID_ TEXT("&PID_")
#define PID_offset (3+1+4+1+3+1)
BOOL EXTERNAL
ParseVIDPID(PUSHORT puVID, PUSHORT puPID , LPCWSTR pwsz)
{
LPCTSTR ptsz;
#ifndef UNICODE
TCHAR tsz[MAX_JOYSTRING];
UToT( tsz, cA(tsz), pwsz );
ptsz = tsz;
#else
ptsz = pwsz;
#endif
if( _ParseHex(ptsz+VID_offset, (LPBYTE *)&puVID, 2, TEXT('&')) &&
_ParseHex(ptsz+PID_offset, (LPBYTE *)&puPID, 2, 0) )
{
return TRUE;
}
return FALSE;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | NameFromGUID |
*
* Convert a GUID into an ASCII string that will be used
* to name it in the global namespace.
*
* We use the name "DirectInput.{guid}".
*
* Names are used in the following places:
*
* <c g_hmtxGlobal> names a mutex based on
* <c IID_IDirectInputW> to gate access to the
* shared memory block used to manage exclusive access.
*
* <c g_psop> names a shared memory block based on
* <c IID_IDirectInputDeviceW> to record information
* about exclusive access.
*
* <c g_hmtxJoy> names a mutex based on
* <c IID_IDirectInputDevice2A> to gate access to the
* shared memory block used to track joystick effects.
*
* @parm LPTSTR | ptszBuf |
*
* Output buffer to receive the converted name. It must
* be <c ctchNameGuid> characters in size.
*
* @parm PCGUID | pguid |
*
* The GUID to convert.
*
*
*****************************************************************************/
#pragma BEGIN_CONST_DATA
/* Note: If you change this string, you need to change ctchNameGuid to match */
TCHAR c_tszNameFormat[] =
TEXT("DirectInput.{%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}");
#pragma END_CONST_DATA
void EXTERNAL
NameFromGUID(LPTSTR ptszBuf, PCGUID pguid)
{
int ctch;
ctch = wsprintf(ptszBuf, c_tszNameFormat,
pguid->Data1, pguid->Data2, pguid->Data3,
pguid->Data4[0], pguid->Data4[1],
pguid->Data4[2], pguid->Data4[3],
pguid->Data4[4], pguid->Data4[5],
pguid->Data4[6], pguid->Data4[7]);
AssertF(ctch == ctchNameGuid - 1);
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func PV | pvFindResource |
*
* Handy wrapper that finds and loads a resource.
*
* @parm IN HINSTANCE | hinst |
*
* Module instance handle.
*
* @parm DWORD | id |
*
* Resource identifier.
*
* @parm LPCTSTR | rt |
*
* Resource type.
*
* @returns
*
* Pointer to resource, or 0.
*
*****************************************************************************/
PV EXTERNAL
pvFindResource(HINSTANCE hinst, DWORD id, LPCTSTR rt)
{
HANDLE hrsrc;
PV pv;
hrsrc = FindResource(hinst, (LPTSTR)(LONG_PTR)(id), rt);
if(hrsrc)
{
pv = LoadResource(hinst, hrsrc);
} else
{
pv = 0;
}
return pv;
}
#ifndef UNICODE
/*****************************************************************************
*
* @doc INTERNAL
*
* @func UINT | LoadStringW |
*
* Implementation of LoadStringW for platforms on which Unicode is
* not supported. Does exactly what LoadStringW would've done
* if it existed.
*
* @parm IN HINSTANCE | hinst |
*
* Module instance handle.
*
* @parm UINT | ids |
*
* String id number.
*
* @parm LPWSTR | pwsz |
*
* UNICODE output buffer.
*
* @parm UINT | cwch |
*
* Size of UNICODE output buffer.
*
* @returns
*
* Number of characters copied, not including terminating null.
*
* @comm
*
* Since the string is stored in the resource as UNICODE,
* we just take it out ourselves. If we go through
* <f LoadStringA>, we may end up losing characters due
* to character set translation.
*
*****************************************************************************/
int EXTERNAL
LoadStringW(HINSTANCE hinst, UINT ids, LPWSTR pwsz, int cwch)
{
PWCHAR pwch;
AssertF(cwch);
ScrambleBuf(pwsz, cbCwch(cwch));
/*
* String tables are broken up into "bundles" of 16 strings each.
*/
pwch = pvFindResource(hinst, 1 + ids / 16, RT_STRING);
if(pwch)
{
/*
* Now skip over the strings in the resource until we
* hit the one we want. Each entry is a counted string,
* just like Pascal.
*/
for(ids %= 16; ids; ids--)
{
pwch += *pwch + 1;
}
cwch = min(*pwch, cwch - 1);
memcpy(pwsz, pwch+1, cbCwch(cwch)); /* Copy the goo */
} else
{
cwch = 0;
}
pwsz[cwch] = TEXT('\0'); /* Terminate the string */
return cwch;
}
#endif
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | GetNthString |
*
* Generate a generic numbered object name.
*
* @parm LPWSTR | pwsz |
*
* Output buffer of <c MAX_PATH> characters.
*
* @parm UINT | ids |
*
* String containing number template.
*
* @parm UINT | ui |
*
* Button number.
*
*****************************************************************************/
void EXTERNAL
GetNthString(LPWSTR pwsz, UINT ids, UINT ui)
{
TCHAR tsz[256];
#ifndef UNICODE
TCHAR tszOut[MAX_PATH];
#endif
LoadString(g_hinst, ids, tsz, cA(tsz));
#ifdef UNICODE
wsprintfW(pwsz, tsz, ui);
#else
wsprintf(tszOut, tsz, ui);
TToU(pwsz, MAX_PATH, tszOut);
#endif
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | hresRunControlPanel |
*
* Run the control panel with the specified applet.
*
* @parm LPCTSTR | ptszApplet |
*
* Applet name.
*
* @returns
*
* <c S_OK> if we started the applet.
*
*****************************************************************************/
#pragma BEGIN_CONST_DATA
TCHAR c_tszControlExeS[] = TEXT("control.exe %s");
#pragma END_CONST_DATA
HRESULT EXTERNAL
hresRunControlPanel(LPCTSTR ptszCpl)
{
HRESULT hres;
STARTUPINFO si;
PROCESS_INFORMATION pi;
TCHAR tsz[MAX_PATH];
EnterProc(hresRunControlPanel, (_ "s", ptszCpl));
ZeroX(si);
si.cb = cbX(si);
wsprintf(tsz, c_tszControlExeS, ptszCpl);
if(CreateProcess(0, tsz, 0, 0, 0, 0, 0, 0, &si, &pi))
{
CloseHandle(pi.hProcess);
CloseHandle(pi.hThread);
hres = S_OK;
} else
{
hres = hresLe(GetLastError());
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | ObjectInfoWToA |
*
* Convert a <t DIDEVICEOBJECTINSTANCEW>
* to a <t DIDEVICEOBJECTINSTANCE_DX3A>
* or a <t DIDEVICEOBJECTINSTANCE_DX5A>.
*
* @parm LPDIDIDEVICEOBJECTINSTANCEA | pdoiA |
*
* Destination.
*
* @parm LPCDIDIDEVICEOBJECTINSTANCEW | pdoiW |
*
* Source.
*
*****************************************************************************/
void EXTERNAL
ObjectInfoWToA(LPDIDEVICEOBJECTINSTANCEA pdoiA,
LPCDIDEVICEOBJECTINSTANCEW pdoiW)
{
EnterProc(ObjectInfoWToA, (_ "pp", pdoiA, pdoiW));
AssertF(pdoiW->dwSize == sizeof(DIDEVICEOBJECTINSTANCEW));
AssertF(IsValidSizeDIDEVICEOBJECTINSTANCEA(pdoiA->dwSize));
pdoiA->guidType = pdoiW->guidType;
pdoiA->dwOfs = pdoiW->dwOfs;
pdoiA->dwType = pdoiW->dwType;
pdoiA->dwFlags = pdoiW->dwFlags;
UToA(pdoiA->tszName, cA(pdoiA->tszName), pdoiW->tszName);
if(pdoiA->dwSize >= cbX(DIDEVICEOBJECTINSTANCE_DX5A))
{
pdoiA->dwFFMaxForce = pdoiW->dwFFMaxForce;
pdoiA->dwFFForceResolution = pdoiW->dwFFForceResolution;
pdoiA->wCollectionNumber = pdoiW->wCollectionNumber;
pdoiA->wDesignatorIndex = pdoiW->wDesignatorIndex;
pdoiA->wUsagePage = pdoiW->wUsagePage;
pdoiA->wUsage = pdoiW->wUsage;
pdoiA->dwDimension = pdoiW->dwDimension;
pdoiA->wExponent = pdoiW->wExponent;
pdoiA->wReportId = pdoiW->wReportId;
}
ExitProc();
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | EffectInfoWToA |
*
* Convert a <t DIEFFECTINFOW> to a <t DIEFFECTINFOA>
*
* @parm LPDIEFFECTINFOA | pdeiA |
*
* Destination.
*
* @parm LPCDIEFFECTINFOW | pdeiW |
*
* Source.
*
*****************************************************************************/
void EXTERNAL
EffectInfoWToA(LPDIEFFECTINFOA pdeiA, LPCDIEFFECTINFOW pdeiW)
{
EnterProc(EffectInfoWToA, (_ "pp", pdeiA, pdeiW));
AssertF(pdeiW->dwSize == sizeof(DIEFFECTINFOW));
AssertF(pdeiA->dwSize == cbX(*pdeiA));
pdeiA->guid = pdeiW->guid;
pdeiA->dwEffType = pdeiW->dwEffType;
pdeiA->dwStaticParams = pdeiW->dwStaticParams;
pdeiA->dwDynamicParams = pdeiW->dwDynamicParams;
UToA(pdeiA->tszName, cA(pdeiA->tszName), pdeiW->tszName);
ExitProc();
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | hresValidInstanceVer |
*
* Check the <t HINSTANCE> and version number received from
* an application.
*
* @parm HINSTANCE | hinst |
*
* Purported module instance handle.
*
* @parm DWORD | dwVersion |
*
* Version the application is asking for.
*
*****************************************************************************/
HRESULT EXTERNAL
hresValidInstanceVer_(HINSTANCE hinst, DWORD dwVersion, LPCSTR s_szProc)
{
HRESULT hres;
TCHAR tszScratch[4];
EnterProcS(hresValidInstanceVer, (_ "xxs", hinst, dwVersion, s_szProc));
/*
* You would think that passing a zero-sized buffer to
* GetModuleFileName would return the necessary buffer size.
*
* You would be right. Except that the Win95 validation layer
* doesn't realize that this was a valid scenario, so the call
* fails in the validation layer and never reached Kernel.
*
* So we read it into a small scratch buffer. The scratch buffer
* must be at least 2 characters; if we passed only 1, then
* GetModuleFileName won't be able to write any characters and
* will return 0.
*
* Now it turns out that there's a bug in NT where, if you
* pass a buffer size of 4, but the actual name is longer than
* 4, it writes 4 characters, PLUS A NULL TERMINATOR, thereby
* smashing your stack and making you fault randomly.
*
* I spent two hours trying to figure that out.
*
* Therefore, you must pass one *less* than the buffer size
* to GetModuleFileName, because it will overwrite your buffer
* by one.
*/
if( ( hinst != 0 )
&& GetModuleFileName(hinst, tszScratch, cA(tszScratch) - 1) )
{
if(dwVersion == DIRECTINPUT_INTERNAL_VERSION)
{
hres = S_OK;
} else if ( dwVersion == 0 ) {
RPF("%s: DinputInput object has not been initialized, or the version is given as 0.",
s_szProc);
hres = DIERR_NOTINITIALIZED;
} else if(dwVersion < DIRECTINPUT_VERSION)
{
RPF("%s: Incorrect dwVersion(0x%x); program was written with beta SDK. This version 0x%x",
s_szProc, dwVersion, DIRECTINPUT_VERSION);
hres = DIERR_BETADIRECTINPUTVERSION;
} else
{
RPF("%s: Incorrect dwVersion(0x%x); program needs newer version of dinput. This version 0x%x",
s_szProc, dwVersion, DIRECTINPUT_VERSION);
hres = DIERR_OLDDIRECTINPUTVERSION;
}
} else
{
RPF("%s: Invalid HINSTANCE", s_szProc);
hres = E_INVALIDARG;
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | DupEventHandle |
*
* Duplicate an event handle intra-process-ly. If the incoming
* handle is NULL, then so is the output handle (and the call
* succeeds).
*
* @parm HANDLE | h |
*
* Source handle.
*
* @parm LPHANDLE | phOut |
*
* Receives output handle.
*
*****************************************************************************/
HRESULT EXTERNAL
DupEventHandle(HANDLE h, LPHANDLE phOut)
{
HRESULT hres;
EnterProc(DupEventHandle, (_ "p", h));
if(h)
{
HANDLE hProcessMe = GetCurrentProcess();
if(DuplicateHandle(hProcessMe, h, hProcessMe, phOut,
EVENT_MODIFY_STATE, 0, 0))
{
hres = S_OK;
} else
{
hres = hresLe(GetLastError());
}
} else
{
*phOut = h;
hres = S_OK;
}
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func DWORD | GetWindowPid |
*
* Simple wrapper that returns the PID of a window.
*
* Here is also where we do goofy hacks for DOS boxes
* on Win95.
*
* @parm HWND | hwnd |
*
* Window handle.
*
* @returns
*
* PID or 0.
*
*****************************************************************************/
DWORD EXTERNAL
GetWindowPid(HWND hwnd)
{
DWORD pid;
if(IsWindow(hwnd) &&
GetWindowThreadProcessId(hwnd, &pid) )
{
#ifndef WINNT
/*
* The Winoldap console window belongs to another
* process but Win95 lies and says that it belongs
* to you but it doesn't.
*/
if ( GetProp(hwnd, TEXT("flWinOldAp")) != 0 )
{
pid = 0;
}
#endif
} else
{
pid = 0;
}
return pid;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | hresDupPtszPptsz |
*
* OLEish version of strdup.
*
* @parm LPCTSTR | ptszSrc |
*
* Source string being duplicated.
*
* @parm LPTSTR * | pptszDst |
*
* Receives the duplicated string.
*
* @returns
*
* <c S_OK> or an error code.
*
*****************************************************************************/
HRESULT EXTERNAL
hresDupPtszPptsz(LPCTSTR ptszSrc, LPTSTR *pptszDst)
{
HRESULT hres;
hres = AllocCbPpv(cbCtch(lstrlen(ptszSrc) + 1), pptszDst);
if(SUCCEEDED(hres))
{
lstrcpy(*pptszDst, ptszSrc);
hres = S_OK;
}
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func BOOL | fInitializeCriticalSection |
*
* Initialize the give critical section, returning 0 if an exception
* is thrown, else 0.
*
* @parm LPCRITICAL_SECTION | pCritSec |
*
* Pointer to an uninitialized critical section.
*
*****************************************************************************/
BOOL EXTERNAL
fInitializeCriticalSection(LPCRITICAL_SECTION pCritSec)
{
BOOL fres = 1;
EnterProc(fInitializeCriticalSection, (_ "" ));
AssertF( pCritSec );
__try
{
InitializeCriticalSection( pCritSec );
}
__except( EXCEPTION_EXECUTE_HANDLER )
{
fres = 0;
}
ExitProcF( fres );
return fres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | DiCharUpperW |
*
* This function converts a wide-character string or a single wide-character
* to uppercase. Since Win9x doesn't implement CharUpperW, we have to implement
* ourselves.
*
* @parm LPWSTR | pwsz |
*
* The string to be converted
*
* @returns
*
* void
*
*****************************************************************************/
void EXTERNAL
DiCharUpperW(LPWSTR pwsz)
{
int idx;
int iLen = lstrlenW(pwsz);
#define DIFF (L'a' - L'A')
for( idx=0; idx<iLen; idx++ )
{
if( (pwsz[idx] >= L'a') && (pwsz[idx] <= L'z') ){
pwsz[idx] -= DIFF;
}
}
#undef DIFF
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | ptrSwap |
*
* swaps the pointers pointed to by the two parameters
*
* @parm void ** | ppA |
*
* pointer to first pointer
*
* @parm void ** | ppB |
*
* pointer to second pointer
*
*****************************************************************************/
void __inline ptrSwap( PPV ppA, PPV ppB )
{
PV pTemp = *ppB;
*ppB = *ppA;
*ppA = pTemp;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | ptrPartialQSort |
*
* Partially sort the passed (sub)set of an array of pointers to
* structures such that resultant array is contains sub arrays which
* are sorted with respect to each other though locally unsorted.
* Once partially sorted, a simple sort may be used to complete the
* sort.
*
* @parm void ** | ppL |
* Pointer to lowest element in the (sub)array to sort
*
* @parm void ** | ppR |
* Pointer to highest element in the (sub)array to sort
*
* @parm COMP_FUNC | fpCompare |
* Pointer to function returning analog of strcmp for strings, but
* supplied by caller for comparing elements of the array.
*
*****************************************************************************/
void ptrPartialQSort
(
PPV ppL,
PPV ppR,
COMP_FUNC fpCompare
)
{
while( ( ppR - ppL ) > 8 )
{
/*
* First pick a pivot by sorting the first last and middle
* values in the sub array.
*/
{
PPV ppMid = ppL + ( ( ppR - ppL ) / 2 );
if( fpCompare( *ppL, *ppMid ) > 0 )
{
ptrSwap( ppL, ppMid );
}
if( fpCompare( *ppL, *ppR ) > 0 )
{
ptrSwap( ppL, ppR );
}
if( fpCompare( *ppMid, *ppR ) > 0 )
{
ptrSwap( ppMid, ppR );
}
/*
* Now we have a reasonable chance of a good pivot, move it
* out of the way.
*/
ptrSwap( ppMid, ppR-1 );
}
/*
* Now sort the remainder into high and low parts
*/
{
PPV ppHi = ppR - 1;
PV pPivot = *ppHi;
PPV ppLo = ppL;
for( ;; )
{
while( fpCompare( *(++ppLo), pPivot ) < 0 );
while( fpCompare( *(--ppHi), pPivot ) > 0 );
if( ppLo >= ppHi ) break;
ptrSwap( ppLo, ppHi );
}
/*
* Put the pivot back between the two parts as it must be in
* order relative to all the items on each side of it.
*/
ptrSwap( ppLo, ppR - 1 );
/*
* Recurse on the smaller part and continue with the larger
*/
if( ppLo - ppL > ppR - ppLo )
{
/*
* Left part is larger
*/
ptrPartialQSort( ppLo + 1, ppR, fpCompare );
ppR = ppLo - 1;
}
else
{
/*
* Right part is larger
*/
ptrPartialQSort( ppL, ppLo - 1, fpCompare );
ppL = ppLo + 1;
}
}
}
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | ptrInsertSort |
*
* Sort the passed (sub)set of an array of pointers to structures.
* This sort is not suitable for large arrays.
*
* @parm void ** | ppBase |
* Pointer to lowest element in the (sub)array to sort
*
* @parm void ** | ppLast |
* Pointer to highest element in the (sub)array to sort
*
* @parm COMP_FUNC | fpCompare |
* Pointer to function returning analog of strcmp for strings, but
* supplied by caller for comparing elements of the array.
*
*****************************************************************************/
void ptrInsertSort
(
PPV ppBase,
PPV ppLast,
COMP_FUNC fpCompare
)
{
PPV ppOuter;
for( ppOuter = ppBase + 1; ppOuter <= ppLast; ppOuter++ )
{
PV pTemp = *ppOuter;
PPV ppInner;
for( ppInner = ppOuter - 1; ppInner >= ppBase; ppInner-- )
{
if( fpCompare( pTemp, *ppInner ) > 0 )
{
*(ppInner+1) = *ppInner;
}
else
{
break;
}
}
*(ppInner+1) = pTemp;
}
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | swap |
*
* swaps the two array elements of size width
*
* @parm char * | a |
*
* pointer to first elements to swap
*
* @parm char * | b |
*
* pointer to second elements to swap
*
* @parm unsigned | width |
*
* width in bytes of each array element
*
* @returns
*
* void
*
*****************************************************************************/
static void __cdecl swap (
char *a,
char *b,
unsigned width
)
{
char tmp;
if ( a != b )
{
/* Do the swap one character at a time to avoid potential alignment
problems. */
while ( width-- ) {
tmp = *a;
*a++ = *b;
*b++ = tmp;
}
}
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func void | shortsort |
*
* sorts the sub-array of elements between lo and hi (inclusive)
* side effects: sorts in place
* assumes that lo is less than hi
*
* @parm char * | lo |
* pointer to low element to sort
*
* @parm char * | hi |
* pointer to high element to sort
*
* @parm unsigned | width |
* width in bytes of each array element
*
* @parm int (*func)() | comp |
* pointer to function returning analog of strcmp for
* strings, but supplied by user for comparing the array elements.
* it accepts 2 pointers to elements and returns neg if 1 lt 2, 0 if
* 1 eq 2, pos if 1 gt 2.
*
* @returns
*
* void
*
*****************************************************************************/
void __cdecl shortsort (
char *lo,
char *hi,
unsigned width,
int (__cdecl *comp)(const void *, const void *)
)
{
char *p, *max;
/* Note: in assertions below, i and j are alway inside original bound of
array to sort. */
while (hi > lo) {
/* A[i] <= A[j] for i <= j, j > hi */
max = lo;
for (p = lo+width; p <= hi; p += width) {
/* A[i] <= A[max] for lo <= i < p */
if (comp(p, max) > 0) {
max = p;
}
/* A[i] <= A[max] for lo <= i <= p */
}
/* A[i] <= A[max] for lo <= i <= hi */
swap(max, hi, width);
/* A[i] <= A[hi] for i <= hi, so A[i] <= A[j] for i <= j, j >= hi */
hi -= width;
/* A[i] <= A[j] for i <= j, j > hi, loop top condition established */
}
/* A[i] <= A[j] for i <= j, j > lo, which implies A[i] <= A[j] for i < j,
so array is sorted */
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULT | GetWideUserName |
*
* Get a wide string for a user.
* If both of the IN parameters are NULL, memory is allocated for a
* MULTI_SZ string and set to the output pointer. The sting is
* filled with the current user name if available, else a localizable
* default sting.
* If a UNICODE name is supplied, it is validated and assigned to the
* output string pointer.
* If an ANSI name is supplied, it is validated and memory is
* allocated into which the translated SZ UNICODE name is written.
* Note it is the caller's responsibility to free the memory in
* either of the cases in which is is allocated.
* Also note that in the case of an error no memory needs to be
* freed.
*
* @parm LPCSTR | lpszUserName |
*
* A specific ANSI user name.
*
* @parm LPCWSTR | lpwszUserName |
*
* A specific UNICODE user name.
*
* @parm LPWSTR* | ppwszGoodUserName |
*
* A pointer to a pointer to the wide user name.
*
* @returns
*
* <c S_OK> if the output string is valid
* or an error code reflecting what went wrong.
*
*****************************************************************************/
STDMETHODIMP GetWideUserName
(
IN LPCSTR lpszUserName,
IN LPCWSTR lpwszUserName,
OUT LPWSTR *ppwszGoodUserName
)
{
HRESULT hres = S_OK;
EnterProcI(GetWideUserName, (_ "AW", lpszUserName, lpwszUserName ));
if( lpwszUserName )
{
/*
* Just validate and copy the pointer
*/
if( SUCCEEDED( hres = hresFullValidReadStrW( lpwszUserName, UNLEN+1, 2 ) ) )
{
*ppwszGoodUserName = (LPWSTR)lpwszUserName;
}
}
else if( lpszUserName )
{
/*
* If an ANSI user name has been passed translate it
*/
if( SUCCEEDED( hres = hresFullValidReadStrA( lpszUserName, UNLEN+1, 1 ) ) )
{
int UserNameLen = lstrlenA( lpszUserName ) + 1;
hres = AllocCbPpv( cbX(*lpwszUserName) * UserNameLen, ppwszGoodUserName );
if( SUCCEEDED( hres ) )
{
AToU( *ppwszGoodUserName, UserNameLen, lpszUserName );
}
}
}
else
{
DWORD dwUserNameLen = UNLEN + 1;
#ifdef WINNT
hres = AllocCbPpv( (dwUserNameLen+1) * 2, ppwszGoodUserName );
if( SUCCEEDED( hres ) )
{
if( GetUserNameW( *ppwszGoodUserName, &dwUserNameLen ) )
{
#else
hres = AllocCbPpv( (dwUserNameLen+1) * 3, ppwszGoodUserName );
if( SUCCEEDED( hres ) )
{
if( GetUserNameA( (PCHAR)(&((*ppwszGoodUserName)[UNLEN+2])), &dwUserNameLen ) )
{
AToU( *ppwszGoodUserName, dwUserNameLen, (PCHAR)(&((*ppwszGoodUserName)[UNLEN+2])) );
#endif
/*
* We allocated _and_zeroed_ an extra wchar for double
* termination. Assert nobody messed it up and then
* make sure we don't free the extra.
*/
AssertF( (*ppwszGoodUserName)[dwUserNameLen] == L'\0' );
dwUserNameLen++;
}
else
{
/*
* If we felt the need, we could follow this recovery path
* only if ( GetLastError() == ERROR_NOT_LOGGED_ON ) and
* report some error or follow some alternate recovery
* otherwise but unless a problem is found with always using
* the default, this seems safer.
*/
dwUserNameLen = LoadStringW( g_hinst, IDS_DEFAULTUSER, *ppwszGoodUserName, UNLEN+1 );
if( dwUserNameLen )
{
/*
* Double terminate the string for ConfigureDevices
*/
dwUserNameLen += 2;
(*ppwszGoodUserName)[dwUserNameLen-1] = L'\0';
SquirtSqflPtszV(sqflUtil | sqflBenign,
TEXT("Failed to GetUserName, using default") );
}
else
{
SquirtSqflPtszV(sqflUtil | sqflError,
TEXT("Failed to GetUserName and default, le = %d"), GetLastError() );
hres = E_FAIL;
}
}
/*
* Chances are we have way more space than we need
* NOTE, in the failure case, this reallocs to zero thus
* freeing the memory.
* If we have a valid sting, failure to realloc just means
* using more memory that we need to for a little while.
* If we don't have a string, ReallocCbPpv cannot fail.
*/
ReallocCbPpv( dwUserNameLen*2, ppwszGoodUserName );
#ifndef WINNT
}
}
#else /* Reduce bracket matching insanity even though these don't match */
}
}
#endif
#ifdef XDEBUG
if( SUCCEEDED( hres ) )
{
AssertF( SUCCEEDED( hresFullValidReadStrW( *ppwszGoodUserName, UNLEN+1, 2 ) ) );
}
else
{
/*
* If a passed string was invalid, we never allocated any memory so
* don't worry about this uninitialized output value for this error.
*/
if( hres != E_INVALIDARG )
{
AssertF( *ppwszGoodUserName == NULL );
}
}
#endif
ExitOleProc();
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func DWORD | GetValidDI8DevType |
*
* Return a valid type and subtype based on the ones passed, the
* number of buttons and axis/pov caps.
*
* @parm DWORD | dwDevType |
*
* Value to be checked, only the type and sub type bits are used.
*
* @parm DWORD | dwNumButtons |
*
* Number of buttons on device, only used when checking devices mja
*
* @parm DWORD | dwFlags |
*
* Flags determining any axis/pov requirements. mja
*
* @returns
*
* Zero if the type and subtype are not a valid combination for DX8.
*
*
*****************************************************************************/
#pragma BEGIN_CONST_DATA
#define MAKE_DI8TYPE_LIMITS( type ) { type##_MIN, type##_MAX, type##_MIN_BUTTONS, type##_MIN_CAPS },
struct
{
BYTE SubTypeMin;
BYTE SubTypeMax;
BYTE MinButtons;
BYTE HWCaps;
} c_rgSubTypeDetails[] = {
{ 0, 1, 0, 0 }, /* DI8DEVTYPEDEVICE has no subtype or limits */
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEMOUSE )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEKEYBOARD )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEJOYSTICK )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEGAMEPAD )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEDRIVING )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEFLIGHT )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPE1STPERSON )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEDEVICECTRL )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPESCREENPTR )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPEREMOTE )
MAKE_DI8TYPE_LIMITS( DI8DEVTYPESUPPLEMENTAL )
};
#undef MAKE_DI8TYPE_LIMITS
#pragma END_CONST_DATA
DWORD EXTERNAL GetValidDI8DevType
(
DWORD dwDevType,
DWORD dwNumButtons,
DWORD dwFlags
)
{
BYTE bDevTypeIdx = GET_DIDEVICE_TYPE( dwDevType ) - DI8DEVTYPE_MIN;
CAssertF( cA( c_rgSubTypeDetails ) == DI8DEVTYPE_MAX - DI8DEVTYPE_MIN );
if( ( (__int8)bDevTypeIdx >= 0 )
&& ( bDevTypeIdx < DI8DEVTYPE_MAX - DI8DEVTYPE_MIN )
&& ( GET_DIDEVICE_SUBTYPE( dwDevType ) >= c_rgSubTypeDetails[bDevTypeIdx].SubTypeMin )
&& ( GET_DIDEVICE_SUBTYPE( dwDevType ) < c_rgSubTypeDetails[bDevTypeIdx].SubTypeMax ) )
{
/*
* MinButtons of zero means no minimum buttons OR caps
*/
if( !c_rgSubTypeDetails[bDevTypeIdx].MinButtons
|| ( ( dwNumButtons >= c_rgSubTypeDetails[bDevTypeIdx].MinButtons )
&& ( ( dwFlags & c_rgSubTypeDetails[bDevTypeIdx].HWCaps )
== c_rgSubTypeDetails[bDevTypeIdx].HWCaps ) ) )
{
return dwDevType & ( DIDEVTYPE_TYPEMASK | DIDEVTYPE_SUBTYPEMASK );
}
else
{
return ( dwDevType & DIDEVTYPE_TYPEMASK ) | MAKE_DIDEVICE_TYPE( 0, DI8DEVTYPE_LIMITEDGAMESUBTYPE );
}
}
else
{
return 0;
}
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func BOOL | DIGetKeyNameTextHelper |
*
* return key name of a key.
*
* @parm IN UINT | uiScanCode |
*
* scan code of the key.
*
* @parm OUT LPWSTR | lpwszName |
*
* The buffer that will hold the returned key name.
*
* @parm int | nSize |
*
* The length of lpwszName.
*
* @returns
*
* TRUE - if successfully get a key name.
* FALSE - otherwise
*
*****************************************************************************/
BOOL DIGetKeyNameTextHelper( UINT uiScanCode, LPWSTR lpwszName, int nSize )
{
HKL hkl;
DWORD dwThread, dwProcessId;
UINT uiVk;
BYTE kbuf[256] = "";
int nResult;
// we only want to use this method to resolve alpha & punct keys.
if( uiScanCode > 0x53 ) {
return FALSE;
}
//Get the active window's thread
dwThread=GetWindowThreadProcessId(GetActiveWindow(), &dwProcessId);
//Get the active window's keyboard layout
hkl=GetKeyboardLayout(dwThread);
uiVk = MapVirtualKeyEx( uiScanCode, 3, hkl );
#ifdef WINNT
nResult = ToUnicodeEx(uiVk, uiScanCode, kbuf, lpwszName, nSize, 0, hkl);
#else
nResult = ToAsciiEx(uiVk, uiScanCode, kbuf, lpwszName, 0, hkl);
#endif
if( (nResult != 1) ||
(!iswalpha(lpwszName[0]) && !iswpunct(lpwszName[0])) )
{
return FALSE;
} else {
WCHAR wc;
wc = towupper( lpwszName[0] );
lpwszName[0] = wc;
}
return TRUE;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func HRESULE | DIGetKeyNameText |
*
* return key name of a key.
*
* @parm IN UINT | index |
*
* the index of g_rgbKbdRMap[].
*
* @parm IN DWORD | dwDevType |
*
* the DevType of the key.
*
* @parm OUT LPWSTR | lpwszName |
*
* The buffer that will hold the returned key name.
*
* @parm int | nSize |
*
* The length of lpwszName.
*
* @returns
*
* S_OK - if successfully get a key name.
* DIERR_OBJECTNOTFOUND - otherwise
*
*****************************************************************************/
HRESULT DIGetKeyNameText( UINT index, DWORD dwDevType, LPWSTR lpwszName, int nSize )
{
HRESULT hres;
DWORD dwScancode;
LONG lp;
DWORD dw;
BOOL fSpecKey = FALSE;
DWORD dwSpecKeys[] = { 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, //number
0x90, 0x99, 0xa0, 0xa1, 0xa2, 0xa4, 0xae, 0xb0, 0xb2,
0xde, 0xdf, 0xe3, 0xe5, 0xe6, 0xe7, 0xe8, 0xe9, 0xea,
0xeb, 0xec, 0xed };
dwScancode = (DWORD)g_rgbKbdRMap[index];
lp = ((dwScancode & 0x7F) << 16) | ((dwScancode & 0x80) << 17);
for( dw = 0; dw < cA(dwSpecKeys); dw++ ) {
if( dwSpecKeys[dw] == dwScancode ) {
fSpecKey = TRUE;
break;
}
}
if( !fSpecKey ) {
if( !DIGetKeyNameTextHelper(dwScancode, lpwszName, nSize) ) {
GetKeyNameTextW(lp, lpwszName, nSize);
#ifndef UNICODE
if( GetLastError() == ERROR_CALL_NOT_IMPLEMENTED )
{
CHAR szName[MAX_PATH];
GetKeyNameTextA( lp, szName, cA(szName) );
AToU( lpwszName, cA(szName), szName );
}
#endif
}
}
if( lpwszName[0] == TEXT('\0') &&
(dwScancode != 0x56 && dwScancode != 0x73 && dwScancode != 0x7E )
) {
LoadStringW(g_hinst,
IDS_KEYBOARDOBJECT + DIDFT_GETINSTANCE(dwDevType),
lpwszName, nSize);
}
if( lpwszName[0] == L'\0' ) {
hres = DIERR_OBJECTNOTFOUND;
} else {
hres = S_OK;
}
return hres;
}
/*****************************************************************************
*
* @doc INTERNAL
*
* @func DWORD | DIGetOSVersion |
*
* Return the OS version on which DInput8.dll is running.
*
* @returns
*
* WIN95_OS, WIN98_OS, WINME_OS, WINNT_OS, WINWH_OS, or WIN_UNKNOWN_OS.
*
*****************************************************************************/
DWORD DIGetOSVersion()
{
OSVERSIONINFO osVerInfo;
DWORD dwVer;
if( GetVersion() < 0x80000000 ) {
dwVer = WINNT_OS;
} else {
dwVer = WIN95_OS; //assume Windows 95 for safe
}
osVerInfo.dwOSVersionInfoSize = sizeof( OSVERSIONINFO );
// If GetVersionEx is supported, then get more details.
if( GetVersionEx( &osVerInfo ) )
{
// Win2K
if( osVerInfo.dwPlatformId == VER_PLATFORM_WIN32_NT )
{
// Whistler: Major = 5 & Build # > 2195
if( osVerInfo.dwMajorVersion == 5 && osVerInfo.dwBuildNumber > 2195 )
{
dwVer = WINWH_OS;
} else {
dwVer = WINNT_OS;
}
}
// Win9X
else
{
if( (HIBYTE(HIWORD(osVerInfo.dwBuildNumber)) == 4) )
{
// WinMe: Major = 4, Minor = 90
if( (LOBYTE(HIWORD(osVerInfo.dwBuildNumber)) == 90) )
{
dwVer = WINME_OS;
} else if ( (LOBYTE(HIWORD(osVerInfo.dwBuildNumber)) > 0) ) {
dwVer = WIN98_OS;
} else {
dwVer = WIN95_OS;
}
}
}
}
return dwVer;
}