Source code of Windows XP (NT5)
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/*
* Microsoft Confidential
* Copyright (C) Microsoft Corporation 1991
* All Rights Reserved.
*
*
* PIFSUB.C
* Misc. subroutines for PIFMGR.DLL
*
* History:
* Created 31-Jul-1992 3:30pm by Jeff Parsons
*/
#include "shellprv.h"
#pragma hdrstop
// shell priv can alter the definition of IsDBCSLeadByte!
#if defined(FE_SB)
#ifdef IsDBCSLeadByte
#undef IsDBCSLeadByte
#define IsDBCSLeadByte(x) IsDBCSLeadByteEx(CP_ACP,x)
#endif
#endif
/*
* Most of the routines in this file will need to stay ANSI. If a UNICODE
* version is needed, it is supplied.
*
* This is because for the most part, the information in the PIF files
* is ANSI and needs to stay that way.
*
* (RickTu)
*
*/
/** lstrcpytrimA - copy fixed-length string, trimming trailing blanks
*
* INPUT
* lpszDst -> destination string
* lpszSrc -> fixed-length source string
* cchMax = size (in characters) of fixed-length source string
*
* OUTPUT
* Nothing
*/
void lstrcpytrimA(LPSTR lpszDst, LPCSTR lpszSrc, int cchMax)
{
CHAR ch;
int cchSave = 0;
LPSTR lpszSave = lpszDst;
FunctionName(lstrcpytrim);
while (cchMax && *lpszSrc) {
ch = *lpszSrc++;
if (ch == ' ') {
if (!cchSave) {
cchSave = cchMax;
lpszSave = lpszDst;
}
} else
cchSave = 0;
*lpszDst = ch;
if (--cchMax) {
lpszDst++;
#if (defined(DBCS) || defined(FE_SB))
if (IsDBCSLeadByte(ch) && --cchMax) {
*lpszDst++ = *lpszSrc++;
}
#endif
}
}
while (cchSave--)
*lpszSave++ = '\0';
*lpszDst = '\0';
}
/** lstrcpypadA - copy to fixed-length string, appending trailing blanks
*
* INPUT
* lpszDst -> fixed-length destination string
* lpszSrc -> source string
* cchMax = size of fixed-length destination string (count of characters)
*
* OUTPUT
* Nothing
*/
void lstrcpypadA(LPSTR lpszDst, LPCSTR lpszSrc, int cchMax)
{
FunctionName(lstrcpypadA);
while (cchMax && *lpszSrc) {
cchMax--;
*lpszDst++ = *lpszSrc++;
}
while (cchMax--) {
*lpszDst++ = ' ';
}
}
/** lstrcpyncharA - copy variable-length string, until char
*
* INPUT
* lpszDst -> fixed-length destination string
* lpszSrc -> source string
* cchMax = size of fixed-length destination string (count of characters)
* ch = character to stop copying at
*
* OUTPUT
* # of characters copied, excluding terminating NULL
*/
int lstrcpyncharA(LPSTR lpszDst, LPCSTR lpszSrc, int cchMax, CHAR ch)
{
int cch = 0;
FunctionName(lstrcpyncharA);
while (--cchMax && *lpszSrc && *lpszSrc != ch) {
#if (defined(DBCS) || defined(FE_SB))
if (IsDBCSLeadByte(*lpszSrc)) {
cch++;
*lpszDst++ = *lpszSrc++;
if (!*lpszSrc) break; /* Eek! String ends in DBCS lead byte! */
}
#endif
cch++;
*lpszDst++ = *lpszSrc++;
}
*lpszDst = '\0';
return cch;
}
/** lstrskipcharA - skip char in variable-length string
*
* INPUT
* lpszSrc -> source string
* ch = character to skip
*
* OUTPUT
* # of characters skipped, 0 if none
*/
int lstrskipcharA(LPCSTR lpszSrc, CHAR ch)
{
int cch = 0;
FunctionName(lstrskipcharA);
while (*lpszSrc && *lpszSrc == ch) {
cch++;
lpszSrc++;
}
return cch;
}
/** lstrskiptocharA - skip *to* char in variable-length string
*
* INPUT
* lpszSrc -> source string
* ch = character to skip *to*
*
* OUTPUT
* # of characters skipped, 0 if none; if char didn't exist, then all
* characters are skipped.
*/
int lstrskiptocharA(LPCSTR lpszSrc, CHAR ch)
{
int cch = 0;
FunctionName(lstrskiptocharA);
while (*lpszSrc && *lpszSrc != ch) {
cch++;
lpszSrc++;
}
return cch;
}
/** lstrcpyfnameA - copy filename appropriately
*
* INPUT
* lpszDst -> output buffer
* lpszSrc -> source filename
* cbMax = size of output buffer
*
* OUTPUT
* # of characters copied, including quotes if any, excluding terminating NULL
*/
int lstrcpyfnameA(LPSTR lpszDst, LPCSTR lpszSrc, int cchMax)
{
int cch;
CHAR ch;
FunctionName(lstrcpyfnameA);
if (TEXT('\0') != (ch = lpszSrc[lstrskiptocharA(lpszSrc, ' ')])) {
cchMax -= 2;
*lpszDst++ = '\"';
}
lstrcpynA(lpszDst, lpszSrc, cchMax);
cch = lstrlenA(lpszDst);
if (ch) {
lpszDst[cch++] = '\"';
lpszDst[cch] = 0;
}
return cch;
}
/** lstrunquotefnameA - unquote filename if it contains quotes
*
* INPUT
* lpszDst -> output buffer
* lpszSrc -> source filename (quoted or unquoted)
* cchMax = size of output buffer (count of characters)
* fShort = TRUE if filename should be converted to 8.3 (eg, for real-mode);
* -1 if the filename is known to not be quoted and should just be converted
* OUTPUT
* # of characters copied, excluding terminating NULL
*/
int lstrunquotefnameA(LPSTR lpszDst, LPCSTR lpszSrc, int cchMax, BOOL fShort)
{
int cch;
FunctionName(lstrunquotefnameA);
if (fShort != -1) {
if (lpszSrc[0] == '\"') {
cch = lstrcpyncharA(lpszDst, lpszSrc+1, cchMax, '\"');
}
else {
cch = lstrcpyncharA(lpszDst, lpszSrc, cchMax, ' ');
}
lpszSrc = lpszDst;
}
if (fShort) {
cch = 1;
CharToOemA(lpszSrc, lpszDst);
cch = GetShortPathNameA( lpszSrc, lpszDst, cchMax );
if (cch) { // if no error...
if (fShort == TRUE) { // if conversion for real-mode...
if ((int)GetFileAttributesA(lpszDst) == -1) {
// if filename doesn't exist,
// then just copy the 8.3 portion
// and hope the user's real-mode PATH
// ultimately finds it!
if (NULL != (lpszSrc = StrRChrA(lpszDst, NULL, '\\'))) {
lstrcpyA(lpszDst, lpszSrc+1);
}
}
}
cch = lstrlenA(lpszDst); // recompute the length of the string
}
}
return cch;
}
/** lstrskipfnameA - skip filename in string
*
* INPUT
* lpszSrc -> string beginning with filename (quoted or unquoted)
*
* OUTPUT
* # of characters skipped, 0 if none
*/
int lstrskipfnameA(LPCSTR lpszSrc)
{
int cch = 0;
FunctionName(lstrskipfname);
if (lpszSrc[0] == '\"') {
cch = lstrskiptocharA(lpszSrc+1, '\"') + 1;
if (lpszSrc[cch] == '\"')
cch++;
}
else
cch = lstrskiptocharA(lpszSrc, ' ');
return cch;
}
/*
* NOTE! The careful definitions of achBuf and achFmt, so that
* we can support total output of 2 * MAX_STRING_SIZE bytes.
*/
int cdecl Warning(HWND hwnd, WORD id, WORD type, ...)
{
LPCTSTR lpchFmt;
PPROPLINK ppl = NULL;
TCHAR achBuf[2*MAX_STRING_SIZE];
#define achFmt (&achBuf[MAX_STRING_SIZE])
va_list ArgList;
FunctionName(Warning);
lpchFmt = achFmt;
// We never use MB_FOCUS to mean whatever it's really supposed
// to mean; we just use it as a kludge to support warning dialogs
// when all we have is a ppl, not an hwnd.
if (type & MB_NOFOCUS) {
ppl = (PPROPLINK)hwnd;
hwnd = NULL;
type &= ~MB_NOFOCUS;
}
else if (hwnd)
ppl = ((PPROPLINK)GetWindowLongPtr(hwnd, DWLP_USER))->ppl;
if (id == IDS_ERROR + ERROR_NOT_ENOUGH_MEMORY)
lpchFmt = TEXT("");
else {
if (!LoadString(g_hinst, id, achFmt, MAX_STRING_SIZE)) {
ASSERTFAIL();
lpchFmt = TEXT("");
}
}
va_start(ArgList,type);
wvnsprintf(achBuf, MAX_STRING_SIZE, lpchFmt, ArgList);
va_end(ArgList);
lpchFmt = NULL;
if (ppl) {
ASSERTTRUE(ppl->iSig == PROP_SIG);
if (!(lpchFmt = ppl->lpszTitle))
lpchFmt = ppl->szPathName+ppl->iFileName;
}
return MessageBox(hwnd, achBuf, lpchFmt, type);
}
#undef achFmt
int MemoryWarning(HWND hwnd)
{
FunctionName(MemoryWarning);
return Warning(hwnd, IDS_ERROR + ERROR_NOT_ENOUGH_MEMORY, MB_ICONEXCLAMATION | MB_OK);
}
LPTSTR LoadStringSafe(HWND hwnd, UINT id, LPTSTR lpsz, int cchsz)
{
FunctionName(LoadStringSafe);
if (!LoadString(g_hinst, id, lpsz, cchsz)) {
ASSERTFAIL();
if (hwnd) {
MemoryWarning(hwnd);
return NULL;
}
lpsz = TEXT("");
}
return lpsz;
}
/** SetDlgBits - Check various dialog checkboxes according to given flags
*
* INPUT
* hDlg = HWND of dialog box
* pbinf -> array of bitinfo descriptors
* cbinf = size of array
* wFlags = flags
*
* OUTPUT
* Returns NOTHING
*/
void SetDlgBits(HWND hDlg, PBINF pbinf, UINT cbinf, WORD wFlags)
{
FunctionName(SetDlgBits);
ASSERTTRUE(cbinf > 0);
do {
ASSERTTRUE((pbinf->bBit & 0x3F) < 16);
CheckDlgButton(hDlg, pbinf->id,
!!(wFlags & (1 << (pbinf->bBit & 0x3F))) == !(pbinf->bBit & 0x80));
} while (++pbinf, --cbinf);
}
/** GetDlgBits - Set various flags according to dialog checkboxes
*
* INPUT
* hDlg = HWND of dialog box
* pbinf -> array of bitinfo descriptors
* cbinf = size of array
* lpwFlags -> flags word
*
* OUTPUT
* Returns NOTHING
*/
void GetDlgBits(HWND hDlg, PBINF pbinf, UINT cbinf, LPWORD lpwFlags)
{
WORD wFlags;
FunctionName(GetDlgBits);
ASSERTTRUE(cbinf > 0);
wFlags = *lpwFlags;
do {
ASSERTTRUE((pbinf->bBit & 0x3F) < 16);
if (pbinf->bBit & 0x40) // 0x40 is a special bit mask
continue; // that means "set but don't get
// this control's value"
wFlags &= ~(1 << (pbinf->bBit & 0x3F));
if (!!IsDlgButtonChecked(hDlg, pbinf->id) == !(pbinf->bBit & 0x80))
wFlags |= (1 << (pbinf->bBit & 0x3F));
} while (++pbinf, --cbinf);
*lpwFlags = wFlags;
}
/** SetDlgInts - Set various edit controls according to integer fields
*
* INPUT
* hDlg = HWND of dialog box
* pvinf -> array of validation info descriptors
* cvinf = size of array
* lp -> structure of integers
*
* OUTPUT
* Returns NOTHING
*/
void SetDlgInts(HWND hDlg, PVINF pvinf, UINT cvinf, LPVOID lp)
{
WORD wMin, wMax;
FunctionName(SetDlgInts);
ASSERTTRUE(cvinf > 0);
do {
wMin = wMax = *(WORD UNALIGNED *)((LPBYTE)lp + pvinf->off);
if (pvinf->fbOpt & VINF_AUTO) {
SendDlgItemMessage(hDlg, pvinf->id, CB_ADDSTRING, 0, (LPARAM)(LPTSTR)g_szAuto);
AddDlgIntValues(hDlg, pvinf->id, pvinf->iMax);
if (wMin == 0) {
SetDlgItemText(hDlg, pvinf->id, g_szAuto);
continue;
}
}
if (pvinf->fbOpt & VINF_AUTOMINMAX) {
SendDlgItemMessage(hDlg, pvinf->id, CB_ADDSTRING, 0, (LPARAM)(LPTSTR)g_szAuto);
SendDlgItemMessage(hDlg, pvinf->id, CB_ADDSTRING, 0, (LPARAM)(LPTSTR)g_szNone);
AddDlgIntValues(hDlg, pvinf->id, pvinf->iMax);
// When AUTOMINMAX is set, we assume that the field
// we're validating is followed in its structure by a
// corresponding max WORD.
wMax = *(WORD UNALIGNED *)((LPBYTE)lp + pvinf->off + sizeof(WORD));
if (wMin == 0 && wMax == 0) {
SetDlgItemText(hDlg, pvinf->id, g_szNone);
continue;
}
// Let's try to simplify things by mapping 0xFFFF (aka -1)
// to settings that mean "Auto"
if (wMin == 0xFFFF || wMax == 0xFFFF) {
wMin = 0;
wMax = (WORD)pvinf->iMax;
}
if (wMax == (WORD)pvinf->iMax) {
SetDlgItemText(hDlg, pvinf->id, g_szAuto);
continue;
}
if (wMin != wMax) {
//
// We're in a bit of a quandary here. The settings show
// explicit min and max values which are not equal, probably
// due to settings inherited from a 3.1 PIF file. We'll
// just go with the wMax value. Fortunately for us, we
// don't actually have to *do* anything to make this happen.
//
}
}
SetDlgItemInt(hDlg, pvinf->id, wMin, pvinf->iMin < 0);
} while (++pvinf, --cvinf);
}
/** AddDlgIntValues - Fill integer combo-box with appropriate values
*
* INPUT
* hDlg = HWND of dialog box
* id = dialog control ID
* iMax = maximum value
*
* OUTPUT
* Returns NOTHING
*/
void AddDlgIntValues(HWND hDlg, int id, int iMax)
{
int iStart, iInc;
TCHAR achValue[16];
// HACK to make this do something sensible with the environment max;
// they can still enter larger values (up to ENVSIZE_MAX) but I don't
// see any sense in encouraging it. -JTP
if ((WORD)iMax == ENVSIZE_MAX)
iMax = 4096;
if ((iMax < 0) || (iMax == 0xFFFF)) // HACK to make this do something sensible
iMax = 16384; // with fields that allow huge maximums -JTP
iStart = iInc = iMax/16; // arbitrarily chop the range up 16 times
while (iStart <= iMax) {
wsprintf(achValue, TEXT("%d"), iStart);
SendDlgItemMessage(hDlg, id, CB_ADDSTRING, 0, (LPARAM)(LPTSTR)achValue);
iStart += iInc;
}
}
/** GetDlgInts - Set various integer fields according to dialog edit controls
*
* INPUT
* hDlg = HWND of dialog box
* pvinf -> array of validation info descriptors
* cvinf = size of array
* lp -> structure of integers
*
* OUTPUT
* Returns NOTHING
*/
void GetDlgInts(HWND hDlg, PVINF pvinf, int cvinf, LPVOID lp)
{
WORD wMin, wMax;
UINT uTemp;
BOOL fSuccess;
TCHAR achText[32];
FunctionName(GetDlgInts);
ASSERTTRUE(cvinf > 0);
do {
uTemp = GetDlgItemInt(hDlg, pvinf->id, &fSuccess, pvinf->iMin < 0);
ASSERT(HIWORD(uTemp)==0);
wMin = LOWORD(uTemp);
// In case of error, make sure wMin doesn't actually change
if (!fSuccess)
wMin = *(WORD UNALIGNED *)((LPBYTE)lp + pvinf->off);
if (pvinf->fbOpt & VINF_AUTO) {
GetDlgItemText(hDlg, pvinf->id, achText, ARRAYSIZE(achText));
if (lstrcmpi(achText, g_szAuto) == 0) {
wMin = 0;
}
}
if (pvinf->fbOpt & VINF_AUTOMINMAX) {
// When AUTOMINMAX is set, we assume that the field
// we're validating is followed in its structure by a
// corresponding max WORD, which we will ZERO if the
// user selects NONE, or set to its MAXIMUM if the user
// selects AUTO, or otherwise set to match the specified
// MINIMUM.
wMax = wMin;
GetDlgItemText(hDlg, pvinf->id, achText, ARRAYSIZE(achText));
if (lstrcmpi(achText, g_szAuto) == 0) {
wMin = 0;
wMax = (WORD)pvinf->iMax;
}
else if (lstrcmpi(achText, g_szNone) == 0) {
wMin = 0;
wMax = 0;
}
*(WORD UNALIGNED *)((LPBYTE)lp + pvinf->off + sizeof(WORD)) = wMax;
}
*(WORD UNALIGNED *)((LPBYTE)lp + pvinf->off) = wMin;
} while (++pvinf, --cvinf);
}
/** ValidateDlgInts - Validate that integer fields are value
*
* INPUT
* hDlg = HWND of dialog box
* pvinf -> array of validation descriptors
* cvinf = size of array
*
* OUTPUT
* Returns TRUE if something is wrong; FALSE if all is okay.
*/
BOOL ValidateDlgInts(HWND hDlg, PVINF pvinf, int cvinf)
{
DWORD dw;
BOOL fSuccess;
TCHAR achText[32];
FunctionName(ValidateDlgInts);
ASSERTTRUE(cvinf > 0);
do {
dw = GetDlgItemInt(hDlg, pvinf->id, &fSuccess, pvinf->iMin < 0);
// NOTE: AUTO is for "Auto" only, whereas AUTOMINMAX is for
// "Auto" and "None". However, in the interest of simplicity, I
// don't complain if either string is used in either case.
if (pvinf->fbOpt & (VINF_AUTO | VINF_AUTOMINMAX)) {
if (!fSuccess) {
GetDlgItemText(hDlg, pvinf->id, achText, ARRAYSIZE(achText));
if (lstrcmpi(achText, g_szNone) == 0 ||
lstrcmpi(achText, g_szAuto) == 0) {
continue; // things be lookin' good, check next int...
}
}
}
if (!fSuccess || dw < (DWORD)pvinf->iMin || dw > (DWORD)pvinf->iMax) {
Warning(hDlg, pvinf->idMsg, MB_ICONEXCLAMATION | MB_OK, pvinf->iMin, pvinf->iMax);
SendDlgItemMessage(hDlg, pvinf->id, EM_SETSEL, 0, MAKELPARAM(0,-1));
SetFocus(GetDlgItem(hDlg, pvinf->id));
return TRUE; // things be lookin' bad, bail out...
}
} while (++pvinf, --cvinf);
return FALSE;
}
/*
* NOTE -- The compiler emits really bad code for some of these guys.
* In those cases, we are merely wrapping a call; there is no need to save BP.
*/
/** LimitDlgItemText - Sets the limit for a dialog edit control
*
* INPUT
* hDlg = HWND of dialog box
* iCtl = ID of control
* uiLimit = text limit
*
* OUTPUT
* None.
*/
void LimitDlgItemText(HWND hDlg, int iCtl, UINT uiLimit)
{
FunctionName(LimitDlgItemText);
SendDlgItemMessage(hDlg, iCtl, EM_LIMITTEXT, uiLimit, 0);
}
/** SetDlgItemPosRange - Sets the pos and range for a dialog slider control
*
* INPUT
* hDlg = HWND of dialog box
* iCtl = ID of control
* uiPos = Current position
* dwRange = Range (min in low word, max in high word)
*
* OUTPUT
* None.
*/
void SetDlgItemPosRange(HWND hDlg, int iCtl, UINT uiPos, DWORD dwRange)
{
FunctionName(SetDlgItemPosRange);
SendDlgItemMessage(hDlg, iCtl, TBM_SETRANGE, 0, dwRange);
SendDlgItemMessage(hDlg, iCtl, TBM_SETPOS, TRUE, uiPos);
}
/** GetDlgItemPos - Gets the pos of a dialog slider control
*
* INPUT
* hDlg = HWND of dialog box
* iCtl = ID of control
*
* OUTPUT
* Trackbar position.
*/
UINT GetDlgItemPos(HWND hDlg, int iCtl)
{
FunctionName(GetDlgItemPos);
return (UINT)SendDlgItemMessage(hDlg, iCtl, TBM_GETPOS, 0, 0);
}
/** SetDlgItemPct - Sets the pos for a dialog slider control that measures %
*
* INPUT
* hDlg = HWND of dialog box
* iCtl = ID of control
* uiPct = Current position (range 0 .. 100)
*
* OUTPUT
* None.
*/
void SetDlgItemPct(HWND hDlg, int iCtl, UINT uiPct)
{
FunctionName(SetDlgItemPct);
SetDlgItemPosRange(hDlg, iCtl, uiPct / (100/NUM_TICKS), MAKELONG(0, NUM_TICKS));
}
/** GetDlgItemPct - Gets the pos of a dialog slider control that measures %
*
* INPUT
* hDlg = HWND of dialog box
* iCtl = ID of control
*
* OUTPUT
* Slider position in the range 0 .. 100.
*/
UINT GetDlgItemPct(HWND hDlg, int iCtl)
{
FunctionName(GetDlgItemPct);
return GetDlgItemPos(hDlg, iCtl) * (100/NUM_TICKS);
}
/** EnableDlgItems - Enables or disables a collection of dialog controls
*
* INPUT
* hDlg = HWND of dialog box
* pbinf -> array of bitinfo descriptors
* cbinf = size of array
* fEnable = whether the control should be enabled or disabled
*
* OUTPUT
* Dialog items have changed state.
*/
void EnableDlgItems(HWND hDlg, PBINF pbinf, int cbinf, BOOL fEnable)
{
FunctionName(EnableDlgItems);
ASSERTTRUE(cbinf > 0);
do {
EnableWindow(GetDlgItem(hDlg, pbinf->id), fEnable);
} while (++pbinf, --cbinf);
}
/** DisableDlgItems - Disables a collection of dialog controls
*
* Most of the time, we call EnableDlgItems with fEnable = TRUE, so
* this is a handy wrapper. (Too bad the compiler emits awful code.)
*
* INPUT
* hDlg = HWND of dialog box
* pbinf -> array of bitinfo descriptors
* cbinf = size of array
*
* OUTPUT
* Dialog items have been disabled.
*/
void DisableDlgItems(HWND hDlg, PBINF pbinf, int cbinf)
{
FunctionName(DisableDlgItems);
EnableDlgItems(hDlg, pbinf, cbinf, 0);
}
/** AdjustRealModeControls - Disables selected items if single-app mode
*
* If the proplink says that "single-application mode" is enabled,
* then hide all controls whose IDs are less than 4000 and show all
* controls whose IDs are greater than or equal to 5000. Controls whose
* IDs are in the 4000's are immune to all this hiding/showing. Controls
* in the 3000's are actually disabled rather than hidden. Controls in
* the 6000's are actually disabled rather than hidden as well.
*
* RST: Ok, this is nice in theory, but now that we've pulled over this
* stuff into shell32.dll, we'll have to go off the actual IDC_
* defines instead of the magic #'s of 3000, 4000 and 5000.
*
* IDC_ICONBMP == 3001
* IDC_PIF_STATIC == 4000
* IDC_REALMODEISABLE == 5001
*
* So, when adding things to shell232.rc or ids.h, plan
* accordingly.
*
* INPUT
* ppl = proplink
* hDlg = HWND of dialog box
*
* OUTPUT
* Dialog items have been disabled/enabled shown/hidden.
* Returns nonzero if we are in normal (not single-app) mode.
*/
BOOL CALLBACK EnableEnumProc(HWND hwnd, LPARAM lp)
{
int f;
LONG l;
f = SW_SHOW;
l = GetWindowLong(hwnd, GWL_ID);
if (!LOWORD(lp) && l < IDC_PIF_STATIC || LOWORD(lp) && l >= IDC_REALMODEDISABLE)
f = SW_HIDE;
if (l < IDC_ICONBMP || l >= IDC_PIF_STATIC && l < IDC_CONFIGLBL)
ShowWindow(hwnd, f);
else
EnableWindow(hwnd, f == SW_SHOW);
return TRUE;
}
BOOL AdjustRealModeControls(PPROPLINK ppl, HWND hDlg)
{
BOOL fNormal;
FunctionName(AdjustRealModeControls);
fNormal = !(ppl->flProp & PROP_REALMODE);
EnumChildWindows(hDlg, EnableEnumProc, fNormal);
return fNormal;
}
/** OnWmHelp - Handle a WM_HELP message
*
* This is called whenever the user presses F1 or clicks the help
* button in the title bar. We forward the call on to the help engine.
*
* INPUT
* lparam = LPARAM from WM_HELP message (LPHELPINFO)
* pdwHelp = array of DWORDs of help info
*
* OUTPUT
*
* None.
*/
void OnWmHelp(LPARAM lparam, const DWORD *pdwHelp)
{
FunctionName(OnWmHelp);
WinHelp((HWND) ((LPHELPINFO) lparam)->hItemHandle, NULL,
HELP_WM_HELP, (DWORD_PTR) (LPTSTR) pdwHelp);
}
/** OnWmContextMenu - Handle a WM_CONTEXTMENU message
*
* This is called whenever the user right-clicks on a control.
* We forward the call on to the help engine.
*
* INPUT
* wparam = WPARAM from WM_HELP message (HWND)
* pdwHelp = array of DWORDs of help info
*
* OUTPUT
*
* None.
*/
void OnWmContextMenu(WPARAM wparam, const DWORD *pdwHelp)
{
FunctionName(OnWmContextMenu);
WinHelp((HWND) wparam, NULL, HELP_CONTEXTMENU,
(DWORD_PTR) (LPTSTR) pdwHelp);
}
#ifdef UNICODE
/** PifMgr_WCtoMBPath - Converts UNICODE path to it's ANSI representation
*
* This is called whenever we need to convert a UNICODE path to it's
* best approximation in ANSI. Sometimes this will be a direct mapping,
* but sometimes not. We may have to use the short name, etc.
*
* INPUT
* lpUniPath -> pointer UNICODE path (NULL terminated)
* lpAnsiPath -> pointer to buffer to hold ANSI path
* cchBuf -> size of ANSI buffer, in characters
*
* OUTPUT
*
* lpAnsiPath buffer contains ANSI representation of lpUniPath
*/
void PifMgr_WCtoMBPath(LPWSTR lpUniPath, LPSTR lpAnsiPath, UINT cchBuf )
{
WCHAR awchPath[ MAX_PATH ]; // Should be bigger than any PIF string
CHAR achPath[ MAX_PATH ]; // Should be bigger than any PIF string
UINT cchAnsi = 0;
FunctionName(PifMgr_WCtoMBPath);
// Try converting to Ansi and then converting back and comparing.
// If we get back exactly what we started with, this is the "simple"
// case.
cchAnsi = WideCharToMultiByte( CP_ACP, 0,
lpUniPath, -1,
achPath, MAX_PATH,
NULL, NULL );
if (cchAnsi && (cchAnsi<=cchBuf)) {
// Now try converting back
MultiByteToWideChar( CP_ACP, 0,
achPath, -1,
awchPath, MAX_PATH
);
if (lstrcmp(lpUniPath,awchPath)==0) {
// We're done...copy over the string.
lstrcpynA( lpAnsiPath, achPath, cchBuf );
*(BYTE UNALIGNED *)(lpAnsiPath+cchBuf-1) = '\0';
return;
}
// Well, the string has some unmappable UNICODE
// character in it, so try option #2 -- using the
// short path name.
goto TryShortPathName;
} else {
TryShortPathName:
// Hmmm, the best we can do is to use the short path name and map
// it to ANSI.
GetShortPathName( lpUniPath, awchPath, MAX_PATH );
awchPath[ MAX_PATH-1 ] = TEXT('\0');
WideCharToMultiByte( CP_ACP, 0,
awchPath, -1,
lpAnsiPath, cchBuf,
NULL, NULL
);
// Make sure we're NULL terminated
*(BYTE UNALIGNED *)(lpAnsiPath+cchBuf-1) = '\0';
}
}
#endif