593 lines
13 KiB
C++
593 lines
13 KiB
C++
// STRUTIL.CPP
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//
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// Assorted string utility functions for use in NetMeeting components.
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// Derived from STRCORE.CPP.
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#include "precomp.h"
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#include <oprahcom.h>
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#include <cstring.hpp>
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// global helper functions for Unicode support in a DBCS environment
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int NMINTERNAL UnicodeCompare(PCWSTR s, PCWSTR t)
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{
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// Treat NULL pointers like empty strings
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// at the bottom of the collating order.
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if (IsEmptyStringW(t)) {
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if (IsEmptyStringW(s)) {
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return 0;
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}
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else {
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return 1;
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}
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}
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// Done with empty string cases,
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// so now do real compare.
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for ( ; *s == *t; s++, t++) {
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if (!*s) {
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return 0;
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}
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}
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return (*s > *t) ? 1 : -1;
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}
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PWSTR NMINTERNAL NewUnicodeString(PCWSTR _wszText)
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{
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PWSTR wszText = NULL;
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UINT nChar;
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if (_wszText) {
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nChar = lstrlenW(_wszText) + 1;
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wszText = new WCHAR[nChar];
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if (wszText) {
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CopyMemory((void *)wszText,
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_wszText,
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nChar * sizeof(WCHAR));
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}
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}
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return wszText;
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}
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PWSTR NMINTERNAL DBCSToUnicode(UINT uCodePage, PCSTR szText)
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{
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int nChar;
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PWSTR wszText = NULL;
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if (szText) {
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nChar = MultiByteToWideChar(uCodePage,
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0, // character-type options
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szText,
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-1, // NULL terminated string
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NULL, // return buffer (not used)
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0); // getting length of Unicode string
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if (nChar) {
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wszText = new WCHAR[nChar];
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if (wszText) {
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nChar = MultiByteToWideChar(uCodePage,
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0, // character-type options
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szText,
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-1, // NULL terminated string
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wszText, // return buffer
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nChar); // length of return buffer
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if (!nChar) {
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delete wszText;
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wszText = NULL;
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}
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}
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}
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}
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return wszText;
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}
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PSTR NMINTERNAL UnicodeToDBCS(UINT uCodePage, PCWSTR wszText)
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{
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int nChar;
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PSTR szText = NULL;
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if (wszText) {
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nChar = WideCharToMultiByte(uCodePage,
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0, // character-type options
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wszText,
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-1, // NULL terminated string
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NULL, // return buffer (not used)
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0, // getting length of DBCS string
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NULL,
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NULL);
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if (nChar) {
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szText = new CHAR[nChar];
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if (szText) {
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nChar = WideCharToMultiByte(uCodePage,
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0, // character-type options
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wszText,
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-1, // NULL terminated string
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szText, // return buffer
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nChar, // length of return buffer
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NULL,
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NULL);
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if (!nChar) {
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delete szText;
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szText = NULL;
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}
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}
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}
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}
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return szText;
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}
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BOOL NMINTERNAL UnicodeIsNumber(PCWSTR wszText)
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{
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// If there are no characters, then treat it as not being a number.
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if (!wszText || !*wszText) {
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return FALSE;
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}
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// If any characters are not digits, then return FALSE.
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do {
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if ((*wszText < L'0') || (*wszText > L'9')) {
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return FALSE;
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}
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} while(*++wszText);
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// Got here so all characters are digits.
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return TRUE;
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}
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/* G U I D T O S Z */
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/*----------------------------------------------------------------------------
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%%Function: GuidToSz
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Convert the guid to a special hex string.
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Assumes lpchDest has space for at least sizeof(GUID)*2 +6 chars.
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LENGTH_SZGUID_FORMATTED is 30 and includes space for the null terminator.
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Note the difference between this and UuidToString (or StringFromGUID2)
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GUID Format: {12345678-1234-1234-1234567890123456}
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----------------------------------------------------------------------------*/
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VOID NMINTERNAL GuidToSz(GUID * pguid, LPTSTR lpchDest)
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{
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ASSERT(NULL != pguid);
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ASSERT(NULL != lpchDest);
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wsprintf(lpchDest, TEXT("{%08X-%04X-%04X-%02X%02X-"),
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pguid->Data1, pguid->Data2, pguid->Data3, pguid->Data4[0], pguid->Data4[1]);
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lpchDest += 1+8+1+4+1+4+1+2+2+1;
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for (int i = 2; i < 8; i++)
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{
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wsprintf(lpchDest, TEXT("%02X"), pguid->Data4[i]);
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lpchDest += 2;
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}
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lstrcpy(lpchDest, TEXT("}") );
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}
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/* S Z F I N D L A S T C H */
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/*----------------------------------------------------------------------------
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%%Function: SzFindLastCh
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Returns a pointer to the ch within the lpsz or NULL if not found
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----------------------------------------------------------------------------*/
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LPTSTR NMINTERNAL SzFindLastCh(LPTSTR lpsz, TCHAR ch)
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{
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LPTSTR lpchRet;
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for (lpchRet = NULL; *lpsz; lpsz = CharNext(lpsz))
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{
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if (ch == *lpsz)
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lpchRet = lpsz;
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}
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return lpchRet;
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}
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/* T R I M S Z */
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/*-------------------------------------------------------------------------
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%%Function: TrimSz
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Trim the whitespace around string.
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Returns the number of characters in the string.
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(chars/bytes in ANSI and DBCS, WCHARs/words in UNICODE)
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-------------------------------------------------------------------------*/
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UINT NMINTERNAL TrimSz(PTCHAR psz)
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{
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UINT ich; // character index into rgwCharType
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PTCHAR pchFirst;
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PTCHAR pchLast;
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PTCHAR pchCurr;
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WORD rgwCharType[MAX_PATH];
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if ((NULL == psz) || (0 == lstrlen(psz)))
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{
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return 0;
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}
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if (!GetStringTypeEx(LOCALE_SYSTEM_DEFAULT, CT_CTYPE1, psz, -1, rgwCharType))
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{
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WARNING_OUT(("TrimSz: Problem with GetStringTypeEx"));
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return 0;
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}
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// search for first non-space
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pchFirst = psz;
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ich = 0;
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while (_T('\0') != *pchFirst)
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{
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if (!(C1_SPACE & rgwCharType[ich]))
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break;
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pchFirst = CharNext(pchFirst);
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ich++;
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}
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if (_T('\0') == *pchFirst)
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{
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// The entire string is empty!
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*psz = _T('\0');
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return 0;
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}
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// search for last non-space
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pchCurr = pchFirst;
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pchLast = pchCurr;
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while (_T('\0') != *pchCurr)
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{
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if (!(C1_SPACE & rgwCharType[ich]))
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{
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pchLast = pchCurr;
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}
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pchCurr = CharNext(pchCurr);
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ich++;
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}
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ASSERT(_T('\0') != *pchLast);
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// Null terminate the string
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pchLast = CharNext(pchLast);
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*pchLast = _T('\0');
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// Update the original string
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lstrcpy(psz, pchFirst);
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// Return the new length
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return lstrlen(psz);
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}
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// Implement lstrcpyW when not on a Unicode platform
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#if !defined(UNICODE)
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/* L S T R C P Y W */
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/*-------------------------------------------------------------------------
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%%Function: LStrCpyW
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-------------------------------------------------------------------------*/
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LPWSTR NMINTERNAL LStrCpyW(LPWSTR pszDest, LPWSTR pszSrc)
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{
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ASSERT(NULL != pszDest);
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ASSERT(NULL != pszSrc);
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if ((NULL != pszDest) && (NULL != pszSrc))
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{
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LPWSTR pszT = pszDest;
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while (0 != (*pszT++ = *pszSrc++))
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;
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}
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return pszDest;
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}
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/* L S T R C P Y N W */
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/*-------------------------------------------------------------------------
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%%Function: LStrCpyNW
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-------------------------------------------------------------------------*/
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LPWSTR NMINTERNAL LStrCpyNW(LPWSTR pszDest, LPCWSTR pszSrc, INT iMaxLength)
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{
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ASSERT(NULL != pszDest);
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ASSERT(NULL != pszSrc);
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if ((NULL != pszDest) && (NULL != pszSrc))
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{
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LPWSTR pszT = pszDest;
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while ((--iMaxLength > 0) &&
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(0 != (*pszT++ = *pszSrc++)))
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{
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/*EXPLICIT */ ;
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}
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if (0 == iMaxLength)
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{
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*pszT = L'\0';
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}
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}
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return pszDest;
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}
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#endif // !defined(UNICODE)
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/* _ S T R C H R */
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/*-------------------------------------------------------------------------
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%%Function: _StrChr
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-------------------------------------------------------------------------*/
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LPCTSTR NMINTERNAL _StrChr ( LPCTSTR pcsz, TCHAR c )
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{
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LPCTSTR pcszFound = NULL;
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if (pcsz)
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{
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while (*pcsz)
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{
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if (*pcsz == c)
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{
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pcszFound = pcsz;
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break;
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}
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pcsz = CharNext(pcsz);
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}
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}
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return pcszFound;
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}
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/* _ S T R C M P N */
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/*-------------------------------------------------------------------------
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%%Function: _StrCmpN
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This does a case-sensitive compare of two strings, pcsz1 and pcsz2, of
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at most cchMax characters. If we reach the end of either string, we
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also stop, and the strings match if the other string is also at its end.
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This function is NOT DBCS safe.
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-------------------------------------------------------------------------*/
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int NMINTERNAL _StrCmpN(LPCTSTR pcsz1, LPCTSTR pcsz2, UINT cchMax)
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{
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UINT ich;
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for (ich = 0; ich < cchMax; ich++)
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{
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if (*pcsz1 != *pcsz2)
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{
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// No match.
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return((*pcsz1 > *pcsz2) ? 1 : -1);
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}
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//
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// Are we at the end (if we're here, both strings are at the
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// end. If only one is, the above compare code kicks in.
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//
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if ('\0' == *pcsz1)
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return 0;
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pcsz1++;
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pcsz2++;
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}
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// If we get here, cchMax characters matched, so success.
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return 0;
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}
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/* _ S T R S T R */
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/*-------------------------------------------------------------------------
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%%Function: _StrStr
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-------------------------------------------------------------------------*/
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// BUGBUG - This function is *not* DBCS-safe
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LPCTSTR NMINTERNAL _StrStr (LPCTSTR pcsz1, LPCTSTR pcsz2)
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{
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PTSTR pszcp = (PTSTR) pcsz1;
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PTSTR pszs1, pszs2;
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if ( !*pcsz2 )
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return pcsz1;
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while (*pszcp)
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{
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pszs1 = pszcp;
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pszs2 = (PTSTR) pcsz2;
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while ( *pszs1 && *pszs2 && !(*pszs1-*pszs2) )
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pszs1++, pszs2++;
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if (!*pszs2)
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return pszcp;
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pszcp++;
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}
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return NULL;
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}
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/* _ S T R S T R */
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/*-------------------------------------------------------------------------
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%%Function: _StrStr
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-------------------------------------------------------------------------*/
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// BUGBUG - This function is *not* DBCS-safe
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LPCWSTR _StrStrW(LPCWSTR pcsz1, LPCWSTR pcsz2)
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{
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PWSTR pszcp = (PWSTR) pcsz1;
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while (*pszcp)
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{
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PWSTR psz1 = pszcp;
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PWSTR psz2 = (PWSTR) pcsz2;
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while ( *psz1 && *psz2 && !(*psz1-*psz2) )
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{
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psz1++;
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psz2++;
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}
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if (!*psz2)
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return pszcp;
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pszcp++;
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}
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return NULL;
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}
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/* _ S T R P B R K */
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/*-------------------------------------------------------------------------
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%%Function: _StrPbrkA, _StrPbrkW
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Private, DBCS-safe version of CRT strpbrk function. Like strchr but
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accepts more than one character for which to search. The ANSI version
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does not support searching for DBCS chars.
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In the Unicode version, we do a nested search. In the ANSI version,
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we build up a table of chars and use this to scan the string.
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-------------------------------------------------------------------------*/
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LPSTR NMINTERNAL _StrPbrkA(LPCSTR pcszString, LPCSTR pcszSearch)
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{
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ASSERT(NULL != pcszString && NULL != pcszSearch);
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BYTE rgbSearch[(UCHAR_MAX + 1) / CHAR_BIT];
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ZeroMemory(rgbSearch, sizeof(rgbSearch));
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// Scan the search string
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while ('\0' != *pcszSearch)
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{
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ASSERT(!IsDBCSLeadByte(*pcszSearch));
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// Set the appropriate bit in the appropriate byte
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rgbSearch[*pcszSearch / CHAR_BIT] |= (1 << (*pcszSearch % CHAR_BIT));
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pcszSearch++;
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}
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// Scan the source string, compare to the bits in the search array
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while ('\0' != *pcszString)
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{
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if (rgbSearch[*pcszString / CHAR_BIT] & (1 << (*pcszString % CHAR_BIT)))
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{
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// We have a match
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return (LPSTR) pcszString;
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}
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pcszString = CharNextA(pcszString);
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}
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// If we get here, there was no match
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return NULL;
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}
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LPWSTR NMINTERNAL _StrPbrkW(LPCWSTR pcszString, LPCWSTR pcszSearch)
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{
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ASSERT(NULL != pcszString && NULL != pcszSearch);
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// Scan the string, matching each character against those in the search string
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while (L'\0' != *pcszString)
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{
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LPCWSTR pcszCurrent = pcszSearch;
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while (L'\0' != *pcszCurrent)
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{
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if (*pcszString == *pcszCurrent)
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{
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// We have a match
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return (LPWSTR) pcszString;
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}
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// pcszCurrent = CharNextW(pcszCurrent);
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pcszCurrent++;
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}
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// pcszString = CharNextW(pcszString);
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pcszString++;
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}
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// If we get here, there was no match
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return NULL;
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}
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// BUGBUG - Are DecimalStringToUINT and StrToInt the same?
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/* D E C I M A L S T R I N G T O U I N T */
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/*-------------------------------------------------------------------------
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%%Function: DecimalStringToUINT
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-------------------------------------------------------------------------*/
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UINT NMINTERNAL DecimalStringToUINT(LPCTSTR pcszString)
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{
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ASSERT(pcszString);
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UINT uRet = 0;
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LPTSTR pszStr = (LPTSTR) pcszString;
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while (_T('\0') != pszStr[0])
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{
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ASSERT((pszStr[0] >= _T('0')) &&
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(pszStr[0] <= _T('9')));
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uRet = (10 * uRet) + (BYTE) (pszStr[0] - _T('0'));
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pszStr++; // NOTE: DBCS characters are not allowed!
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}
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return uRet;
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}
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/****************************************************************************
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FUNCTION: StrToInt
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PURPOSE: The atoi equivalent, to avoid using the C runtime lib
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PARAMETERS: lpSrc - pointer to a source string to convert to integer
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RETURNS: 0 for failure, the integer otherwise
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(what if the string was converted to 0 ?)
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****************************************************************************/
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int WINAPI RtStrToInt(LPCTSTR lpSrc) // atoi()
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{
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int n = 0;
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BOOL bNeg = FALSE;
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if (*lpSrc == _T('-')) {
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bNeg = TRUE;
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lpSrc++;
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}
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while (((*lpSrc) >= _T('0') && (*lpSrc) <= _T('9')))
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{
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n *= 10;
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n += *lpSrc - _T('0');
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lpSrc++;
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}
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return bNeg ? -n : n;
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}
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/* _ S T R L W R W */
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/*-------------------------------------------------------------------------
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%%Function: _StrLwrW
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-------------------------------------------------------------------------*/
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// BUGBUG - This function does *not* handle all UNICODE character sets
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LPWSTR NMINTERNAL _StrLwrW(LPWSTR pwszSrc)
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{
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for (PWSTR pwszCur = pwszSrc; (L'\0' != *pwszCur); pwszCur++)
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{
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if ( (*pwszCur >= L'A') && (*pwszCur <= L'Z') )
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{
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*pwszCur = *pwszCur - L'A' + L'a';
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}
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}
|
|
return pwszSrc;
|
|
}
|
|
|