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//============================================================================
//
// DBCS aware string routines...
//
//
//============================================================================
#include "ctlspriv.h"
#include <winnlsp.h> // Get private NORM_ flag for StrEqIntl()
// for those of us who don't ssync to nt's build headers
#ifndef NORM_STOP_ON_NULL
#define NORM_STOP_ON_NULL 0x10000000
#endif
// WARNING: all of these APIs do not setup DS, so you can not access
// any data in the default data seg of this DLL.
//
// do not create any global variables... talk to chrisg if you don't
// understand thid
#define READNATIVEWORD(x) (*(UNALIGNED WORD *)x)
/*
* StrEndN - Find the end of a string, but no more than n bytes * Assumes lpStart points to start of null terminated string * nBufSize is the maximum length * returns ptr to just after the last byte to be included */ LPSTR lstrfns_StrEndNA(LPCSTR lpStart, int nBufSize) { LPCSTR lpEnd;
for (lpEnd = lpStart + nBufSize; *lpStart && OFFSETOF(lpStart) < OFFSETOF(lpEnd); lpStart = AnsiNext(lpStart)) continue; /* just getting to the end of the string */ if (OFFSETOF(lpStart) > OFFSETOF(lpEnd)) { /* We can only get here if the last byte before lpEnd was a lead byte
*/ lpStart -= 2; } return((LPSTR)lpStart); }
LPWSTR lstrfns_StrEndNW(LPCWSTR lpStart, int nBufSize) { LPCWSTR lpEnd;
for (lpEnd = lpStart + nBufSize; *lpStart && (lpStart < lpEnd); lpStart++) continue; /* just getting to the end of the string */
return((LPWSTR)lpStart); }
/*
* ChrCmp - Case sensitive character comparison for DBCS * Assumes w1, wMatch are characters to be compared * Return FALSE if they match, TRUE if no match */ __inline BOOL ChrCmpA_inline(WORD w1, WORD wMatch) { /* Most of the time this won't match, so test it first for speed.
*/ if (LOBYTE(w1) == LOBYTE(wMatch)) { if (IsDBCSLeadByte(LOBYTE(w1))) { return(w1 != wMatch); } return FALSE; } return TRUE; }
__inline BOOL ChrCmpW_inline(WCHAR w1, WCHAR wMatch) { return(!(w1 == wMatch)); }
/*
* ChrCmpI - Case insensitive character comparison for DBCS * Assumes w1, wMatch are characters to be compared; * HIBYTE of wMatch is 0 if not a DBC * Return FALSE if match, TRUE if not */ BOOL ChrCmpIA(WORD w1, WORD wMatch) { char sz1[3], sz2[3];
if (IsDBCSLeadByte(sz1[0] = LOBYTE(w1))) { sz1[1] = HIBYTE(w1); sz1[2] = '\0'; } else sz1[1] = '\0';
#if defined(BIG_ENDIAN)
sz2[0] = LOBYTE(wMatch); sz2[1] = HIBYTE(wMatch); #else
*(WORD FAR *)sz2 = wMatch; #endif
sz2[2] = '\0'; return lstrcmpiA(sz1, sz2); }
BOOL ChrCmpIW(WCHAR w1, WCHAR wMatch) { WCHAR sz1[2], sz2[2];
sz1[0] = w1; sz1[1] = TEXT('\0'); sz2[0] = wMatch; sz2[1] = TEXT('\0');
return lstrcmpiW(sz1, sz2); }
LPWSTR StrCpyNW(LPWSTR psz1, LPCWSTR psz2, int cchMax) { LPWSTR psz = psz1;
ASSERT(psz1); ASSERT(psz2);
if (0 < cchMax) { // Leave room for the null terminator
while (0 < --cchMax) { if ( !(*psz1++ = *psz2++) ) break; }
if (0 == cchMax) *psz1 = '\0'; }
return psz; }
/*
* StrChr - Find first occurrence of character in string * Assumes lpStart points to start of null terminated string * wMatch is the character to match * returns ptr to the first occurrence of ch in str, NULL if not found. */ LPSTR FAR PASCAL StrChrA(LPCSTR lpStart, WORD wMatch) { for ( ; *lpStart; lpStart = AnsiNext(lpStart)) { if (!ChrCmpA_inline(READNATIVEWORD(lpStart), wMatch)) { return((LPSTR)lpStart); } } return (NULL); }
#ifdef ALIGNMENT_SCENARIO
LPWSTR StrChrSlowW(const UNALIGNED WCHAR *lpStart, WCHAR wMatch) { for ( ; *lpStart; lpStart++) { if (!ChrCmpW_inline(*lpStart, wMatch)) { return((LPWSTR)lpStart); } } return NULL; } #endif
LPWSTR FAR PASCAL StrChrW(LPCWSTR lpStart, WCHAR wMatch) { //
// BUGBUG raymondc
// Apparently, somebody is passing unaligned strings to StrChrW.
// Find out who and make them stop.
//
ASSERT(!((ULONG_PTR)lpStart & 1)); // Assert alignedness
#ifdef ALIGNMENT_SCENARIO
//
// Since unaligned strings arrive so rarely, put the slow
// version in a separate function so the common case stays
// fast. Believe it or not, we call StrChrW so often that
// it is now a performance-sensitive function!
//
if ((ULONG_PTR)lpStart & 1) return StrChrSlowW(lpStart, wMatch); #endif
for ( ; *lpStart; lpStart++) { if (!ChrCmpW_inline(*lpStart, wMatch)) { return((LPWSTR)lpStart); } }
return (NULL); }
/*
* StrRChr - Find last occurrence of character in string * Assumes lpStart points to start of string * lpEnd points to end of string (NOT included in search) * wMatch is the character to match * returns ptr to the last occurrence of ch in str, NULL if not found. */ LPSTR FAR PASCAL StrRChrA(LPCSTR lpStart, LPCSTR lpEnd, WORD wMatch) { LPCSTR lpFound = NULL;
if (!lpEnd) lpEnd = lpStart + lstrlenA(lpStart);
for ( ; OFFSETOF(lpStart) < OFFSETOF(lpEnd); lpStart = AnsiNext(lpStart)) { if (!ChrCmpA_inline(READNATIVEWORD(lpStart), wMatch)) lpFound = lpStart; } return ((LPSTR)lpFound); }
LPWSTR FAR PASCAL StrRChrW(LPCWSTR lpStart, LPCWSTR lpEnd, WCHAR wMatch) { LPCWSTR lpFound = NULL;
if (!lpEnd) lpEnd = lpStart + lstrlenW(lpStart);
for ( ; lpStart < lpEnd; lpStart++) { if (!ChrCmpW_inline(*lpStart, wMatch)) lpFound = lpStart; } return ((LPWSTR)lpFound); }
/*
* StrRChrI - Find last occurrence of character in string, case insensitive * Assumes lpStart points to start of string * lpEnd points to end of string (NOT included in search) * wMatch is the character to match * returns ptr to the last occurrence of ch in str, NULL if not found. */ LPSTR FAR PASCAL StrRChrIA(LPCSTR lpStart, LPCSTR lpEnd, WORD wMatch) { LPCSTR lpFound = NULL;
if (!lpEnd) lpEnd = lpStart + lstrlenA(lpStart);
wMatch = (UINT)(IsDBCSLeadByte(LOBYTE(wMatch)) ? wMatch : LOBYTE(wMatch));
for ( ; OFFSETOF(lpStart) < OFFSETOF(lpEnd); lpStart = AnsiNext(lpStart)) { if (!ChrCmpIA(READNATIVEWORD(lpStart), wMatch)) lpFound = lpStart; } return ((LPSTR)lpFound); }
LPWSTR FAR PASCAL StrRChrIW(LPCWSTR lpStart, LPCWSTR lpEnd, WCHAR wMatch) { LPCWSTR lpFound = NULL;
if (!lpEnd) lpEnd = lpStart + lstrlenW(lpStart);
for ( ; lpStart < lpEnd; lpStart++) { if (!ChrCmpIW(*lpStart, wMatch)) lpFound = lpStart; } return ((LPWSTR)lpFound); }
// StrCSpn: return index to first char of lpStr that is present in lpSet.
// Includes the NUL in the comparison; if no lpSet chars are found, returns
// the index to the NUL in lpStr.
// Just like CRT strcspn.
//
int FAR PASCAL StrCSpnA(LPCSTR lpStr, LPCSTR lpSet) { // nature of the beast: O(lpStr*lpSet) work
LPCSTR lp = lpStr; if (!lpStr || !lpSet) return 0;
while (*lp) { if (StrChrA(lpSet, READNATIVEWORD(lp))) return (int)(lp-lpStr); lp = AnsiNext(lp); }
return (int)(lp-lpStr); // ==lstrlen(lpStr)
}
int FAR PASCAL StrCSpnW(LPCWSTR lpStr, LPCWSTR lpSet) { // nature of the beast: O(lpStr*lpSet) work
LPCWSTR lp = lpStr; if (!lpStr || !lpSet) return 0;
while (*lp) { if (StrChrW(lpSet, *lp)) return (int)(lp-lpStr); lp++; }
return (int)(lp-lpStr); // ==lstrlen(lpStr)
}
// StrCSpnI: case-insensitive version of StrCSpn.
//
int FAR PASCAL StrCSpnIA(LPCSTR lpStr, LPCSTR lpSet) { // nature of the beast: O(lpStr*lpSet) work
LPCSTR lp = lpStr; if (!lpStr || !lpSet) return 0;
while (*lp) { if (StrChrIA(lpSet, READNATIVEWORD(lp))) return (int)(lp-lpStr); lp = AnsiNext(lp); }
return (int)(lp-lpStr); // ==lstrlen(lpStr)
}
int FAR PASCAL StrCSpnIW(LPCWSTR lpStr, LPCWSTR lpSet) { // nature of the beast: O(lpStr*lpSet) work
LPCWSTR lp = lpStr; if (!lpStr || !lpSet) return 0;
while (*lp) { if (StrChrIW(lpSet, *lp)) return (int)(lp-lpStr); lp++; }
return (int)(lp-lpStr); // ==lstrlen(lpStr)
}
/*
* StrCmpN - Compare n bytes * * returns See lstrcmp return values. * BUGBUG, won't work if source strings are in ROM */ int FAR PASCAL StrCmpNA(LPCSTR lpStr1, LPCSTR lpStr2, int nChar) { char sz1[4]; char sz2[4]; LPCSTR lpszEnd = lpStr1 + nChar;
//DebugMsg(DM_TRACE, "StrCmpN: %s %s %d returns:", lpStr1, lpStr2, nChar);
for ( ; (lpszEnd > lpStr1) && (*lpStr1 || *lpStr2); lpStr1 = AnsiNext(lpStr1), lpStr2 = AnsiNext(lpStr2)) { WORD wMatch;
wMatch = (WORD) (*lpStr2 | (*(lpStr2+1)<<8));
if (ChrCmpA_inline(READNATIVEWORD(lpStr1), wMatch)) { int iRet;
(*(WORD FAR *)sz1) = READNATIVEWORD(lpStr1); (*(WORD FAR *)sz2) = wMatch; *AnsiNext(sz1) = 0; *AnsiNext(sz2) = 0; iRet = lstrcmpA(sz1, sz2); //DebugMsg(DM_TRACE, ".................... %d", iRet);
return iRet; } }
//DebugMsg(DM_TRACE, ".................... 0");
return 0; }
int FAR PASCAL StrCmpNW(LPCWSTR lpStr1, LPCWSTR lpStr2, int nChar) { WCHAR sz1[2]; WCHAR sz2[2]; int i; LPCWSTR lpszEnd = lpStr1 + nChar;
//DebugMsg(DM_TRACE, "StrCmpN: %s %s %d returns:", lpStr1, lpStr2, nChar);
for ( ; (lpszEnd > lpStr1) && (*lpStr1 || *lpStr2); lpStr1++, lpStr2++) { i = ChrCmpW_inline(*lpStr1, *lpStr2); if (i) { int iRet;
sz1[0] = *lpStr1; sz2[0] = *lpStr2; sz1[1] = TEXT('\0'); sz2[1] = TEXT('\0'); iRet = lstrcmpW(sz1, sz2); //DebugMsg(DM_TRACE, ".................... %d", iRet);
return iRet; } }
//DebugMsg(DM_TRACE, ".................... 0");
return 0; }
/*
* StrCmpNI - Compare n bytes, case insensitive * * returns See lstrcmpi return values. */
int StrCmpNIA(LPCSTR lpStr1, LPCSTR lpStr2, int nChar) { int i; // Win95 doesn't support NORM_STOP_ON_NULL
i = CompareStringA(GetThreadLocale(), NORM_IGNORECASE | NORM_STOP_ON_NULL, lpStr1, nChar, lpStr2, nChar);
if (!i) { i = CompareStringA(LOCALE_SYSTEM_DEFAULT, NORM_IGNORECASE | NORM_STOP_ON_NULL, lpStr1, nChar, lpStr2, nChar); }
return i - CSTR_EQUAL; }
int StrCmpNIW(LPCWSTR lpStr1, LPCWSTR lpStr2, int nChar) { int i;
// Win95 doesn't support NORM_STOP_ON_NULL
i = CompareStringW(GetThreadLocale(), NORM_IGNORECASE | NORM_STOP_ON_NULL, lpStr1, nChar, lpStr2, nChar);
if (!i) { i = CompareStringW(LOCALE_SYSTEM_DEFAULT, NORM_IGNORECASE | NORM_STOP_ON_NULL, lpStr1, nChar, lpStr2, nChar); }
return i - CSTR_EQUAL; }
/*
* IntlStrEq * * returns TRUE if strings are equal, FALSE if not */ BOOL IntlStrEqWorkerA(BOOL fCaseSens, LPCSTR lpString1, LPCSTR lpString2, int nChar) { int retval; DWORD dwFlags = fCaseSens ? LOCALE_USE_CP_ACP : (NORM_IGNORECASE | LOCALE_USE_CP_ACP);
//
// On NT we can tell CompareString to stop at a '\0' if one is found before nChar chars
//
dwFlags |= NORM_STOP_ON_NULL;
retval = CompareStringA( GetThreadLocale(), dwFlags, lpString1, nChar, lpString2, nChar ); if (retval == 0) { //
// The caller is not expecting failure. Try the system
// default locale id.
//
retval = CompareStringA( GetSystemDefaultLCID(), dwFlags, lpString1, nChar, lpString2, nChar ); }
if (retval == 0) { if (lpString1 && lpString2) { //
// The caller is not expecting failure. We've never had a
// failure indicator before. We'll do a best guess by calling
// the C runtimes to do a non-locale sensitive compare.
//
if (fCaseSens) retval = StrCmpNA(lpString1, lpString2, nChar) + 2; else { retval = StrCmpNIA(lpString1, lpString2, nChar) + 2; } } else { retval = 2; } }
return (retval == 2);
}
BOOL IntlStrEqWorkerW(BOOL fCaseSens, LPCWSTR lpString1, LPCWSTR lpString2, int nChar) { int retval; DWORD dwFlags = fCaseSens ? 0 : NORM_IGNORECASE;
//
// On NT we can tell CompareString to stop at a '\0' if one is found before nChar chars
//
dwFlags |= NORM_STOP_ON_NULL;
retval = CompareStringW( GetThreadLocale(), dwFlags, lpString1, nChar, lpString2, nChar ); if (retval == 0) { //
// The caller is not expecting failure. Try the system
// default locale id.
//
retval = CompareStringW( GetSystemDefaultLCID(), dwFlags, lpString1, nChar, lpString2, nChar ); }
if (retval == 0) { if (lpString1 && lpString2) { //
// The caller is not expecting failure. We've never had a
// failure indicator before. We'll do a best guess by calling
// the C runtimes to do a non-locale sensitive compare.
//
if (fCaseSens) retval = StrCmpNW(lpString1, lpString2, nChar) + 2; else { retval = StrCmpNIW(lpString1, lpString2, nChar) + 2; } } else { retval = 2; } }
return (retval == 2); }
/*
* StrRStrI - Search for last occurrence of a substring * * Assumes lpSource points to the null terminated source string * lpLast points to where to search from in the source string * lpLast is not included in the search * lpSrch points to string to search for * returns last occurrence of string if successful; NULL otherwise */ LPSTR FAR PASCAL StrRStrIA(LPCSTR lpSource, LPCSTR lpLast, LPCSTR lpSrch) { LPCSTR lpFound = NULL; LPSTR lpEnd; char cHold;
if (!lpLast) lpLast = lpSource + lstrlenA(lpSource);
if (lpSource >= lpLast || *lpSrch == 0) return NULL;
lpEnd = lstrfns_StrEndNA(lpLast, (UINT)(lstrlenA(lpSrch)-1)); cHold = *lpEnd; *lpEnd = 0;
while ((lpSource = StrStrIA(lpSource, lpSrch))!=0 && OFFSETOF(lpSource) < OFFSETOF(lpLast)) { lpFound = lpSource; lpSource = AnsiNext(lpSource); } *lpEnd = cHold; return((LPSTR)lpFound); }
LPWSTR FAR PASCAL StrRStrIW(LPCWSTR lpSource, LPCWSTR lpLast, LPCWSTR lpSrch) { LPCWSTR lpFound = NULL; LPWSTR lpEnd; WCHAR cHold;
if (!lpLast) lpLast = lpSource + lstrlenW(lpSource);
if (lpSource >= lpLast || *lpSrch == 0) return NULL;
lpEnd = lstrfns_StrEndNW(lpLast, (UINT)(lstrlenW(lpSrch)-1)); cHold = *lpEnd; *lpEnd = 0;
while ((lpSource = StrStrIW(lpSource, lpSrch))!=0 && lpSource < lpLast) { lpFound = lpSource; lpSource++; } *lpEnd = cHold; return((LPWSTR)lpFound); }
/*
* StrStr - Search for first occurrence of a substring * * Assumes lpSource points to source string * lpSrch points to string to search for * returns first occurrence of string if successful; NULL otherwise */ LPSTR FAR PASCAL StrStrA(LPCSTR lpFirst, LPCSTR lpSrch) { UINT uLen; WORD wMatch;
uLen = (UINT)lstrlenA(lpSrch); wMatch = READNATIVEWORD(lpSrch);
for ( ; (lpFirst=StrChrA(lpFirst, wMatch))!=0 && !IntlStrEqNA(lpFirst, lpSrch, uLen); lpFirst=AnsiNext(lpFirst)) continue; /* continue until we hit the end of the string or get a match */
return((LPSTR)lpFirst); }
LPWSTR FAR PASCAL StrStrW(LPCWSTR lpFirst, LPCWSTR lpSrch) { UINT uLen; WCHAR wMatch;
uLen = (UINT)lstrlenW(lpSrch); wMatch = *lpSrch;
for ( ; (lpFirst=StrChrW(lpFirst, wMatch))!=0 && !IntlStrEqNW(lpFirst, lpSrch, uLen); lpFirst++) continue; /* continue until we hit the end of the string or get a match */
return((LPWSTR)lpFirst); }
/*
* StrChrI - Find first occurrence of character in string, case insensitive * Assumes lpStart points to start of null terminated string * wMatch is the character to match * returns ptr to the first occurrence of ch in str, NULL if not found. */ LPSTR FAR PASCAL StrChrIA(LPCSTR lpStart, WORD wMatch) { wMatch = (UINT)(IsDBCSLeadByte(LOBYTE(wMatch)) ? wMatch : LOBYTE(wMatch));
for ( ; *lpStart; lpStart = AnsiNext(lpStart)) { if (!ChrCmpIA(READNATIVEWORD(lpStart), wMatch)) return((LPSTR)lpStart); } return (NULL); }
LPWSTR FAR PASCAL StrChrIW(LPCWSTR lpStart, WCHAR wMatch) { for ( ; *lpStart; lpStart++) { if (!ChrCmpIW(*lpStart, wMatch)) return((LPWSTR)lpStart); } return (NULL); }
/*
* StrStrI - Search for first occurrence of a substring, case insensitive * * Assumes lpFirst points to source string * lpSrch points to string to search for * returns first occurrence of string if successful; NULL otherwise */ LPSTR FAR PASCAL StrStrIA(LPCSTR lpFirst, LPCSTR lpSrch) { UINT uLen; WORD wMatch;
uLen = (UINT)lstrlenA(lpSrch); wMatch = READNATIVEWORD(lpSrch);
for ( ; (lpFirst = StrChrIA(lpFirst, wMatch)) != 0 && !IntlStrEqNIA(lpFirst, lpSrch, uLen); lpFirst=AnsiNext(lpFirst)) continue; /* continue until we hit the end of the string or get a match */
return((LPSTR)lpFirst); }
LPWSTR FAR PASCAL StrStrIW(LPCWSTR lpFirst, LPCWSTR lpSrch) { UINT uLen; WCHAR wMatch;
uLen = (UINT)lstrlenW(lpSrch); wMatch = *lpSrch;
for ( ; (lpFirst = StrChrIW(lpFirst, wMatch)) != 0 && !IntlStrEqNIW(lpFirst, lpSrch, uLen); lpFirst++) continue; /* continue until we hit the end of the string or get a match */
return((LPWSTR)lpFirst); }
////////////////////////////////////////////////////////////////////
//
// Plug UI support with SHLWAPI
//
#define SHLWAPIMLISMLHINSTANCE_ORD 429
typedef BOOL (* PFNMLISMLHINSTANCE)(HINSTANCE); typedef HRESULT (*PFNDLLGETVERSION)(DLLVERSIONINFO * pinfo);
HMODULE GetShlwapiHModule() { HMODULE hmodShlwapi = GetModuleHandle(TEXT("SHLWAPI"));
if (hmodShlwapi) { PFNDLLGETVERSION pfnDllGetVersion = (PFNDLLGETVERSION)GetProcAddress(hmodShlwapi, "DllGetVersion"); if (pfnDllGetVersion) { DLLVERSIONINFO dllinfo;
dllinfo.cbSize = sizeof(DLLVERSIONINFO); if (pfnDllGetVersion(&dllinfo) == NOERROR) { if (dllinfo.dwMajorVersion < 5) { // This guy doesn't support ML functions
hmodShlwapi = NULL; } } } }
return hmodShlwapi; }
BOOL MLIsMLHInstance(HINSTANCE hInst) {
BOOL fRet = FALSE; HMODULE hmodShlwapi = GetShlwapiHModule();
if (hmodShlwapi) { PFNMLISMLHINSTANCE pfnMLIsMLHInstance; pfnMLIsMLHInstance = (PFNMLISMLHINSTANCE)GetProcAddress(hmodShlwapi, (LPCSTR)SHLWAPIMLISMLHINSTANCE_ORD); if (pfnMLIsMLHInstance) { fRet = pfnMLIsMLHInstance(hInst); } }
return fRet; }
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