/* TCString.h - TCString class Copyright (c) 2005-2008 Chervov Dmitry This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #pragma once #include #include #include #ifdef CHARARRAY_CONVERT #include "TMyArray.h" #endif #include "newpluginapi.h" #include "m_system.h" #include "m_database.h" __inline int My_lstrlen(LPCSTR lpString) {return mir_strlen(lpString);} __inline int My_lstrlen(LPCWSTR lpString) {return mir_wstrlen(lpString);} __inline int My_lstrcmp(LPCSTR lpString1, LPCSTR lpString2) {return lstrcmpA(lpString1, lpString2);} __inline int My_lstrcmp(LPCWSTR lpString1, LPCWSTR lpString2) {return lstrcmpW(lpString1, lpString2);} __inline LPCSTR My_strstr(LPCSTR lpString1, LPCSTR lpString2) {return strstr(lpString1, lpString2);} __inline LPWSTR My_strstr(LPCWSTR lpString1, LPCWSTR lpString2) {return (LPWSTR)wcsstr(lpString1, lpString2);} __inline LPSTR My_lstrcpy(LPSTR lpString1, LPCSTR lpString2) {return mir_strcpy(lpString1, lpString2);} __inline LPWSTR My_lstrcpy(LPWSTR lpString1, LPCWSTR lpString2) {return mir_wstrcpy(lpString1, lpString2);} __inline LPSTR My_strncpy(LPSTR lpString1, LPCSTR lpString2, int Len) {return strncpy(lpString1, lpString2, Len);} __inline LPWSTR My_strncpy(LPWSTR lpString1, LPCWSTR lpString2, int Len) {return wcsncpy(lpString1, lpString2, Len);} __inline LPSTR My_strlwr(LPSTR lpString) {return _strlwr(lpString);} __inline LPWSTR My_strlwr(LPWSTR lpString) {return _wcslwr(lpString);} template class TString { public: TString(): pBuf(NULL), nBufSize(0), nAllocSize(0) {} TString(const T *pStr): pBuf(NULL), nBufSize(0), nAllocSize(0) {*this = pStr;} TString(const TString &Str): pBuf(NULL), nBufSize(0), nAllocSize(0) {*this = Str.pBuf;} ~TString() {Free();} int GetLen() const {return (nBufSize) ? (nBufSize - 1) : 0;}; int IsEmpty() const {return (!GetLen());}; T *GetBuffer(int nNewLen = -1); void ReleaseBuffer(int nNewLen = -1); TString& Cat(const T *pStr); TString& Cat(const T c); TString& DiffCat(const T *pStart, const T *pEnd); TString& Replace(const T *szFind, const T *szReplaceBy); TString& Replace(int nIndex, int nCount, const T *szReplaceBy); TString Left(int nCount) const; TString Right(int nCount) const; TString SubStr(int nIndex, int nCount) const; TString ToLower() const; void Empty(); void Free(); T& operator [] (int nIndex) {_ASSERT(nIndex >= 0 && nIndex <= GetLen()); return pBuf[nIndex];} operator const T*() const {return pBuf;} operator T*() {return pBuf;} TString& operator = (const T *pStr); TString& operator = (const TString &Str) {return *this = Str.pBuf;} // TCString& operator + (const char *pStr) // {_ASSERT(pBuf && pStr); TCString Result(*this); return Result.Cat(pStr);} friend TString operator + (const TString &Str1, const T *Str2) {_ASSERT(Str1.pBuf && Str2); TString Result(Str1); return Result.Cat(Str2);} /* friend TCString operator + (const char *Str1, const TCString &Str2) {_ASSERT(Str1 && Str2.pBuf); TCString Result(Str1); return Result.Cat(Str2);}*/ TString& operator += (const T *pStr) {_ASSERT(pBuf && pStr); return this->Cat(pStr);} TString& operator += (const T c) {_ASSERT(pBuf); return this->Cat(c);} int operator == (const T *pStr) const {return (!pBuf || !pStr) ? (pBuf == pStr) : !My_lstrcmp(pBuf, pStr);} int operator != (const T *pStr) const {return (!pBuf || !pStr) ? (pBuf != pStr) : My_lstrcmp(pBuf, pStr);} int operator < (const T *pStr) const {_ASSERT(pBuf && pStr); return My_lstrcmp(pBuf, pStr) > 0;} int operator > (const T *pStr) const {_ASSERT(pBuf && pStr); return My_lstrcmp(pBuf, pStr) < 0;} int operator <= (const T *pStr) const {_ASSERT(pBuf && pStr); return My_lstrcmp(pBuf, pStr) >= 0;} int operator >= (const T *pStr) const {_ASSERT(pBuf && pStr); return My_lstrcmp(pBuf, pStr) <= 0;} // TCString& Format(char *pszFormat, ...); private: void SetBufSize(int nNewBufSize); void SetAllocSize(int nNewAllocSize); T *pBuf; int nBufSize; // current string length + 1 (including 0 at the end) int nAllocSize; // allocated memory size }; typedef TString TCString; typedef TString CString; typedef TString WCString; #ifdef CHARARRAY_CONVERT __inline CHARARRAY WCHAR2ANSI_ARRAY(CHARARRAY &c) { CHARARRAY Result; int Len = WideCharToMultiByte(CP_ACP, 0, (WCHAR*)c.GetData(), c.GetSize() / sizeof(WCHAR), NULL, 0, NULL, NULL); if (Len) { Result.SetAtGrow(Len - 1); if (!WideCharToMultiByte(CP_ACP, 0, (WCHAR*)c.GetData(), c.GetSize() / sizeof(WCHAR), Result.GetData(), Len, NULL, NULL)) { Result.RemoveAll(); } if (Result.GetSize()) { Result.RemoveElem(Result.GetSize() - 1); // remove the null terminator } } return Result; } __inline CHARARRAY ANSI2WCHAR_ARRAY(CHARARRAY &c) { CHARARRAY Result; int Len = MultiByteToWideChar(CP_ACP, 0, c.GetData(), c.GetSize(), NULL, 0); if (Len) { Result.SetAtGrow(Len * sizeof(WCHAR) - 1); if (!MultiByteToWideChar(CP_ACP, 0, c.GetData(), c.GetSize(), (WCHAR*)Result.GetData(), Len)) { Result.RemoveAll(); } if (Result.GetSize()) { Result.RemoveElem(Result.GetSize() - 1); Result.RemoveElem(Result.GetSize() - 1); // remove the null terminator } } return Result; } __inline CHARARRAY WCHAR2UTF8(WCString Str) { CHARARRAY Result; int Len = WideCharToMultiByte(CP_UTF8, 0, Str, -1, NULL, 0, NULL, NULL); if (Len) { Result.SetAtGrow(Len - 1); if (!WideCharToMultiByte(CP_UTF8, 0, Str, -1, Result.GetData(), Len, NULL, NULL)) { Result.RemoveAll(); } } return Result; } #endif // CHARARRAY_CONVERT #undef db_get_s CString db_get_s(MCONTACT hContact, const char *szModule, const char *szSetting, const char *szDefaultValue); TCString db_get_s(MCONTACT hContact, const char *szModule, const char *szSetting, const TCHAR *szDefaultValue); int db_get_s(MCONTACT hContact, const char *szModule, const char *szSetting, DBVARIANT *dbv); TCString DBGetContactSettingAsString(MCONTACT hContact, const char *szModule, const char *szSetting, const TCHAR *szDefaultValue); // also converts numeric values to a string // various string helpers. their return values are valid only while the class is visible class UTF8Encode { public: UTF8Encode(const char *str) { p = mir_utf8encode(str); } UTF8Encode(const wchar_t *str) { p = mir_utf8encodeW(str); } ~UTF8Encode() { mir_free(p); } operator char*() { return p; } private: char *p; }; class UTF8DecodeA { public: UTF8DecodeA(const char *str) { p = mir_strdup(str); mir_utf8decode(p, NULL); } ~UTF8DecodeA() { mir_free(p); } operator char*() { return p; } private: char *p; }; class UTF8DecodeW { public: UTF8DecodeW(const char *str) { p = mir_utf8decodeW(str); } ~UTF8DecodeW() { mir_free(p); } operator wchar_t*() { return p; } private: wchar_t *p; }; #define UTF8Decode UTF8DecodeW /*class mallocStrA { public: mallocStrA(int n) { p = (char*)malloc((n + 1) * sizeof(char)); } mallocStrA(const char *str) { p = str ? strdup(str) : NULL; } ~mallocStrA() { if (p) free(p); } operator char*() { return p; } private: char *p; }; class mallocStrW { public: mallocStrW(int n) { p = (wchar_t*)malloc((n + 1) * sizeof(wchar_t)); } mallocStrW(const wchar_t *str) { p = str ? _wcsdup(str) : NULL; } ~mallocStrW() { if (p) free(p); } operator wchar_t*() { return p; } private: wchar_t *p; }; #define mallocStr mallocStrW */