MultiMC5/mmc_updater/depends/win32cpp/cstring.h
Petr Mrázek 6aa9bd0f77 Renew the updater branch
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2013-12-02 00:55:24 +01:00

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C++

// Win32++ Version 7.2
// Released: 5th AUgust 2011
//
// David Nash
// email: dnash@bigpond.net.au
// url: https://sourceforge.net/projects/win32-framework
//
//
// Copyright (c) 2005-2011 David Nash
//
// Permission is hereby granted, free of charge, to
// any person obtaining a copy of this software and
// associated documentation files (the "Software"),
// to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify,
// merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom
// the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice
// shall be included in all copies or substantial portions
// of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
// ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
// TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
// PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
// SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
// ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE
// OR OTHER DEALINGS IN THE SOFTWARE.
//
////////////////////////////////////////////////////////
// Acknowledgements:
// Thanks to Adam Szulc for his initial CString code.
////////////////////////////////////////////////////////
// cstring.h
// Declaration of the cstring.h
// This class is intended to provide a simple alternative to the MFC/ATL
// CString class that ships with Microsoft compilers. The CString class
// specified here is compatible with other compilers such as Borland 5.5
// and MinGW.
// Differences between this class and the MFC/ATL CString class
// ------------------------------------------------------------
// 1) The constructors for this class accepts only TCHARs. The various text conversion
// functions can be used to convert from other character types to TCHARs.
//
// 2) This class is not reference counted, so these CStrings should be passed as
// references or const references when used as function arguments. As a result there
// is no need for functions like LockBuffer and UnLockBuffer.
//
// 3) The Format functions only accepts POD (Plain Old Data) arguments. It does not
// accept arguments which are class or struct objects. In particular it does not
// accept CString objects, unless these are cast to LPCTSTR.
// This is demonstrates valid and invalid usage:
// CString string1(_T("Hello World"));
// CString string2;
//
// // This is invalid, and produces undefined behaviour.
// string2.Format(_T("String1 is: %s"), string1); // No! you can't do this
//
// // This is ok
// string2.Format(_T("String1 is: %s"), (LPCTSTR)string1); // Yes, this is correct
//
// Note: The MFC/ATL CString class uses a non portable hack to make its CString class
// behave like a POD. Other compilers (such as the MinGW compiler) specifically
// prohibit the use of non POD types for functions with variable argument lists.
//
// 4) This class provides a few additional functions:
// b_str Returns a BSTR string. This an an alternative for casting to BSTR.
// c_str Returns a const TCHAR string. This is an alternative for casting to LPCTSTR.
// GetErrorString Assigns CString to the error string for the specified System Error Code
// (from ::GetLastErrror() for example).
// GetString Returns a reference to the underlying std::basic_string<TCHAR>. This
// reference can be used to modify the string directly.
#ifndef _WIN32XX_CSTRING_H_
#define _WIN32XX_CSTRING_H_
#include "wincore.h"
namespace Win32xx
{
class CString
{
// friend functions allow the left hand side to be something other than CString
friend CString operator + (const CString& string1, const CString& string2);
friend CString operator + (const CString& string, LPCTSTR pszText);
friend CString operator + (const CString& string, TCHAR ch);
friend CString operator + (LPCTSTR pszText, const CString& string);
friend CString operator + (TCHAR ch, const CString& string);
public:
CString();
~CString();
CString(const CString& str);
CString(LPCTSTR pszText);
CString(TCHAR ch, int nLength = 1);
CString(LPCTSTR pszText, int nLength);
CString& operator = (const CString& str);
CString& operator = (const TCHAR ch);
CString& operator = (LPCTSTR pszText);
BOOL operator == (LPCTSTR pszText);
BOOL operator != (LPCTSTR pszText);
BOOL operator < (LPCTSTR pszText);
BOOL operator > (LPCTSTR pszText);
BOOL operator <= (LPCTSTR pszText);
BOOL operator >= (LPCTSTR pszText);
operator LPCTSTR() const;
operator BSTR() const;
TCHAR& operator [] (int nIndex);
CString& operator += (const CString& str);
// Attributes
BSTR b_str() const { return T2W(m_str.c_str()); } // alternative for casting to BSTR
LPCTSTR c_str() const { return m_str.c_str(); } // alternative for casting to LPCTSTR
tString& GetString() { return m_str; } // returns a reference to the underlying std::basic_string<TCHAR>
int GetLength() const { return (int)m_str.length(); } // returns the length in characters
// Operations
BSTR AllocSysString() const;
void AppendFormat(LPCTSTR pszFormat,...);
void AppendFormat(UINT nFormatID, ...);
int Compare(LPCTSTR pszText) const;
int CompareNoCase(LPCTSTR pszText) const;
int Delete(int nIndex, int nCount = 1);
int Find(TCHAR ch, int nIndex = 0 ) const;
int Find(LPCTSTR pszText, int nStart = 0) const;
int FindOneOf(LPCTSTR pszText) const;
void Format(UINT nID, ...);
void Format(LPCTSTR pszFormat,...);
void FormatV(LPCTSTR pszFormat, va_list args);
void FormatMessage(LPCTSTR pszFormat,...);
void FormatMessageV(LPCTSTR pszFormat, va_list args);
TCHAR GetAt(int nIndex) const;
LPTSTR GetBuffer(int nMinBufLength);
void GetErrorString(DWORD dwError);
void Empty();
int Insert(int nIndex, TCHAR ch);
int Insert(int nIndex, const CString& str);
BOOL IsEmpty() const;
CString Left(int nCount) const;
BOOL LoadString(UINT nID);
void MakeLower();
void MakeReverse();
void MakeUpper();
CString Mid(int nFirst) const;
CString Mid(int nFirst, int nCount) const;
void ReleaseBuffer( int nNewLength = -1 );
int Remove(LPCTSTR pszText);
int Replace(TCHAR chOld, TCHAR chNew);
int Replace(const LPCTSTR pszOld, LPCTSTR pszNew);
int ReverseFind(LPCTSTR pszText, int nStart = -1) const;
CString Right(int nCount) const;
void SetAt(int nIndex, TCHAR ch);
BSTR SetSysString(BSTR* pBstr) const;
CString SpanExcluding(LPCTSTR pszText) const;
CString SpanIncluding(LPCTSTR pszText) const;
CString Tokenize(LPCTSTR pszTokens, int& iStart) const;
void Trim();
void TrimLeft();
void TrimLeft(TCHAR chTarget);
void TrimLeft(LPCTSTR pszTargets);
void TrimRight();
void TrimRight(TCHAR chTarget);
void TrimRight(LPCTSTR pszTargets);
void Truncate(int nNewLength);
#ifndef _WIN32_WCE
int Collate(LPCTSTR pszText) const;
int CollateNoCase(LPCTSTR pszText) const;
BOOL GetEnvironmentVariable(LPCTSTR pszVar);
#endif
private:
tString m_str;
std::vector<TCHAR> m_buf;
};
inline CString::CString()
{
}
inline CString::~CString()
{
}
inline CString::CString(const CString& str)
{
m_str.assign(str);
}
inline CString::CString(LPCTSTR pszText)
{
m_str.assign(pszText);
}
inline CString::CString(TCHAR ch, int nLength)
{
m_str.assign(nLength, ch);
}
inline CString::CString(LPCTSTR pszText, int nLength)
{
m_str.assign(pszText, nLength);
}
inline CString& CString::operator = (const CString& str)
{
m_str.assign(str);
return *this;
}
inline CString& CString::operator = (const TCHAR ch)
{
m_str.assign(1, ch);
return *this;
}
inline CString& CString::operator = (LPCTSTR pszText)
{
m_str.assign(pszText);
return *this;
}
inline BOOL CString::operator == (LPCTSTR pszText)
// Returns TRUE if the strings have the same content
{
assert(pszText);
return (0 == Compare(pszText));
}
inline BOOL CString::operator != (LPCTSTR pszText)
// Returns TRUE if the strings have a different content
{
assert(pszText);
return Compare(pszText) != 0;
}
inline BOOL CString::operator < (LPCTSTR pszText)
{
assert(pszText);
return Compare(pszText) < 0;
}
inline BOOL CString::operator > (LPCTSTR pszText)
{
assert(pszText);
return Compare(pszText) > 0;
}
inline BOOL CString::operator <= (LPCTSTR pszText)
{
assert(pszText);
return Compare(pszText) <= 0;
}
inline BOOL CString::operator >= (LPCTSTR pszText)
{
assert(pszText);
return Compare(pszText) >= 0;
}
inline CString::operator LPCTSTR() const
{
return m_str.c_str();
}
inline TCHAR& CString::operator [] (int nIndex)
{
assert(nIndex >= 0);
assert(nIndex < GetLength());
return m_str[nIndex];
}
inline CString& CString::operator += (const CString& str)
{
m_str.append(str);
return *this;
}
inline BSTR CString::AllocSysString() const
// Allocates a BSTR from the CString content.
{
return ::SysAllocStringLen(T2W(m_str.c_str()), (UINT)m_str.size());
}
inline void CString::AppendFormat(LPCTSTR pszFormat,...)
// Appends formatted data to an the CString content.
{
CString str;
str.Format(pszFormat);
m_str.append(str);
}
inline void CString::AppendFormat(UINT nFormatID, ...)
// Appends formatted data to an the CString content.
{
CString str1;
CString str2;
if (str1.LoadString(nFormatID))
{
str2.Format(str1);
m_str.append(str2);
}
}
#ifndef _WIN32_WCE
inline int CString::Collate(LPCTSTR pszText) const
// Performs a case sensitive comparison of the two strings using locale-specific information.
{
assert(pszText);
return _tcscoll(m_str.c_str(), pszText);
}
inline int CString::CollateNoCase(LPCTSTR pszText) const
// Performs a case insensitive comparison of the two strings using locale-specific information.
{
assert(pszText);
return _tcsicoll(m_str.c_str(), pszText);
}
#endif // _WIN32_WCE
inline int CString::Compare(LPCTSTR pszText) const
// Performs a case sensitive comparison of the two strings.
{
assert(pszText);
return m_str.compare(pszText);
}
inline int CString::CompareNoCase(LPCTSTR pszText) const
// Performs a case insensitive comparison of the two strings.
{
assert(pszText);
return _tcsicmp(m_str.data(), pszText);
}
inline int CString::Delete(int nIndex, int nCount /* = 1 */)
// Deletes a character or characters from the string.
{
assert(nIndex >= 0);
assert(nCount >= 0);
m_str.erase(nIndex, nCount);
return (int)m_str.size();
}
inline void CString::Empty()
// Erases the contents of the string.
{
m_str.erase();
}
inline int CString::Find(TCHAR ch, int nIndex /* = 0 */) const
// Finds a character in the string.
{
assert(nIndex >= 0);
return (int)m_str.find(ch, nIndex);
}
inline int CString::Find(LPCTSTR pszText, int nIndex /* = 0 */) const
// Finds a substring within the string.
{
assert(pszText);
assert(nIndex >= 0);
return (int)m_str.find(pszText, nIndex);
}
inline int CString::FindOneOf(LPCTSTR pszText) const
// Finds the first matching character from a set.
{
assert(pszText);
return (int)m_str.find_first_of(pszText);
}
inline void CString::Format(LPCTSTR pszFormat,...)
// Formats the string as sprintf does.
{
va_list args;
va_start(args, pszFormat);
FormatV(pszFormat, args);
va_end(args);
}
inline void CString::Format(UINT nID, ...)
// Formats the string as sprintf does.
{
Empty();
CString str;
if (str.LoadString(nID))
Format(str);
}
inline void CString::FormatV(LPCTSTR pszFormat, va_list args)
// Formats the string using a variable list of arguments.
{
if (pszFormat)
{
int nResult = -1, nLength = 256;
// A vector is used to store the TCHAR array
std::vector<TCHAR> vBuffer;( nLength+1, _T('\0') );
while (-1 == nResult)
{
vBuffer.assign( nLength+1, _T('\0') );
nResult = _vsntprintf(&vBuffer[0], nLength, pszFormat, args);
nLength *= 2;
}
m_str.assign(&vBuffer[0]);
}
}
inline void CString::FormatMessage(LPCTSTR pszFormat,...)
// Formats a message string.
{
va_list args;
va_start(args, pszFormat);
FormatMessageV(pszFormat, args);
va_end(args);
}
inline void CString::FormatMessageV(LPCTSTR pszFormat, va_list args)
// Formats a message string using a variable argument list.
{
LPTSTR pszTemp = 0;
if (pszFormat)
{
DWORD dwResult = ::FormatMessage(FORMAT_MESSAGE_FROM_STRING|FORMAT_MESSAGE_ALLOCATE_BUFFER, pszFormat, 0, 0, pszTemp, 0, &args);
if (0 == dwResult || 0 == pszTemp )
throw std::bad_alloc();
m_str = pszTemp;
LocalFree(pszTemp);
}
}
inline TCHAR CString::GetAt(int nIndex) const
// Returns the character at the specified location within the string.
{
assert(nIndex >= 0);
assert(nIndex < GetLength());
return m_str[nIndex];
}
inline LPTSTR CString::GetBuffer(int nMinBufLength)
// Creates a buffer of nMinBufLength charaters (+1 extra for NULL termination) and returns
// a pointer to this buffer. This buffer can be used by any function which accepts a LPTSTR.
// Care must be taken not to exceed the length of the buffer. Use ReleaseBuffer to safely
// copy this buffer back to the CString object.
//
// Note: The buffer uses a vector. Vectors are required to be contiguous in memory under
// the current standard, whereas std::strings do not have this requirement.
{
assert (nMinBufLength >= 0);
m_buf.assign(nMinBufLength + 1, _T('\0'));
tString::iterator it_end;
if (m_str.length() >= (size_t)nMinBufLength)
{
it_end = m_str.begin();
std::advance(it_end, nMinBufLength);
}
else
it_end = m_str.end();
std::copy(m_str.begin(), it_end, m_buf.begin());
return &m_buf[0];
}
#ifndef _WIN32_WCE
inline BOOL CString::GetEnvironmentVariable(LPCTSTR pszVar)
// Sets the string to the value of the specified environment variable.
{
assert(pszVar);
Empty();
int nLength = ::GetEnvironmentVariable(pszVar, NULL, 0);
if (nLength > 0)
{
std::vector<TCHAR> vBuffer( nLength+1, _T('\0') );
::GetEnvironmentVariable(pszVar, &vBuffer[0], nLength);
m_str = &vBuffer[0];
}
return (BOOL)nLength;
}
#endif // _WIN32_WCE
inline void CString::GetErrorString(DWORD dwError)
// Returns the error string for the specified System Error Code (e.g from GetLastErrror).
{
m_str.erase();
if (dwError != 0)
{
TCHAR* pTemp = 0;
DWORD dwFlags = FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS;
::FormatMessage(dwFlags, NULL, dwError, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR)&pTemp, 1, NULL);
m_str.assign(pTemp);
::LocalFree(pTemp);
}
}
inline int CString::Insert(int nIndex, TCHAR ch)
// Inserts a single character or a substring at the given index within the string.
{
assert(nIndex >= 0);
assert(ch);
m_str.insert(nIndex, &ch, 1);
return (int)m_str.size();
}
inline int CString::Insert(int nIndex, const CString& str)
// Inserts a single character or a substring at the given index within the string.
{
assert(nIndex >= 0);
m_str.insert(nIndex, str);
return (int)m_str.size();
}
inline BOOL CString::IsEmpty() const
// Returns TRUE if the string is empty
{
return m_str.empty();
}
inline CString CString::Left(int nCount) const
// Extracts the left part of a string.
{
assert(nCount >= 0);
CString str;
str.m_str.assign(c_str(), 0, nCount);
return str;
}
inline BOOL CString::LoadString(UINT nID)
// Loads the string from a Windows resource.
{
assert (GetApp());
int nSize = 64;
TCHAR* pTCharArray = 0;
std::vector<TCHAR> vString;
int nTChars = nSize;
Empty();
// Increase the size of our array in a loop until we load the entire string
// The ANSI and _UNICODE versions of LoadString behave differently. This technique works for both.
while ( nSize-1 <= nTChars )
{
nSize = nSize * 4;
vString.assign(nSize+1, _T('\0'));
pTCharArray = &vString[0];
nTChars = ::LoadString (GetApp()->GetResourceHandle(), nID, pTCharArray, nSize);
}
if (nTChars > 0)
m_str.assign(pTCharArray);
return (nTChars != 0);
}
inline void CString::MakeLower()
// Converts all the characters in this string to lowercase characters.
{
std::transform(m_str.begin(), m_str.end(), m_str.begin(), &::tolower);
}
inline void CString::MakeReverse()
// Reverses the string.
{
std::reverse(m_str.begin(), m_str.end());
}
inline void CString::MakeUpper()
// Converts all the characters in this string to uppercase characters.
{
std::transform(m_str.begin(), m_str.end(), m_str.begin(), &::toupper);
}
inline CString CString::Mid(int nFirst) const
// Extracts the middle part of a string.
{
return Mid(nFirst, GetLength());
}
inline CString CString::Mid(int nFirst, int nCount) const
// Extracts the middle part of a string.
{
assert(nFirst >= 0);
assert(nCount >= 0);
CString str;
str.m_str.assign(c_str(), nFirst, nFirst + nCount);
return str;
}
inline int CString::ReverseFind(LPCTSTR pszText, int nIndex /* = -1 */) const
// Search for a substring within the string, starting from the end.
{
assert(pszText);
return (int)m_str.rfind(pszText, nIndex);
}
inline void CString::SetAt(int nIndex, TCHAR ch)
// Sets the character at the specificed position to the specified value.
{
assert(nIndex >= 0);
assert(nIndex < GetLength());
m_str[nIndex] = ch;
}
inline void CString::ReleaseBuffer( int nNewLength /*= -1*/ )
// This copies the contents of the buffer (acquired by GetBuffer) to this CString,
// and releases the contents of the buffer. The default length of -1 copies from the
// buffer until a null terminator is reached. If the buffer doesn't contain a null
// terminator, you must specify the buffer's length.
{
assert (nNewLength > 0 || -1 == nNewLength);
assert (nNewLength < (int)m_buf.size());
if (-1 == nNewLength)
nNewLength = lstrlen(&m_buf[0]);
m_str.assign(nNewLength+1, _T('\0'));
std::vector<TCHAR>::iterator it_end = m_buf.begin();
std::advance(it_end, nNewLength);
std::copy(m_buf.begin(), it_end, m_str.begin());
m_buf.clear();
}
inline int CString::Remove(LPCTSTR pszText)
// Removes each occurrence of the specified substring from the string.
{
assert(pszText);
int nCount = 0;
size_t pos = 0;
while ((pos = m_str.find(pszText, pos)) != std::string::npos)
{
m_str.erase(pos, lstrlen(pszText));
++nCount;
}
return nCount;
}
inline int CString::Replace(TCHAR chOld, TCHAR chNew)
// Replaces each occurance of the old character with the new character.
{
int nCount = 0;
tString::iterator it = m_str.begin();
while (it != m_str.end())
{
if (*it == chOld)
{
*it = chNew;
++nCount;
}
++it;
}
return nCount;
}
inline int CString::Replace(LPCTSTR pszOld, LPCTSTR pszNew)
// Replaces each occurance of the old substring with the new substring.
{
assert(pszOld);
assert(pszNew);
int nCount = 0;
size_t pos = 0;
while ((pos = m_str.find(pszOld, pos)) != std::string::npos)
{
m_str.replace(pos, lstrlen(pszOld), pszNew);
pos += lstrlen(pszNew);
++nCount;
}
return nCount;
}
inline CString CString::Right(int nCount) const
// Extracts the right part of a string.
{
assert(nCount >= 0);
CString str;
str.m_str.assign(c_str(), m_str.size() - nCount, nCount);
return str;
}
inline BSTR CString::SetSysString(BSTR* pBstr) const
// Sets an existing BSTR object to the string.
{
assert(pBstr);
if ( !::SysReAllocStringLen(pBstr, T2W(m_str.c_str()), (UINT)m_str.length()) )
throw std::bad_alloc();
return *pBstr;
}
inline CString CString::SpanExcluding(LPCTSTR pszText) const
// Extracts characters from the string, starting with the first character,
// that are not in the set of characters identified by pszCharSet.
{
assert (pszText);
CString str;
size_t pos = 0;
while ((pos = m_str.find_first_not_of(pszText, pos)) != std::string::npos)
{
str.m_str.append(1, m_str[pos++]);
}
return str;
}
inline CString CString::SpanIncluding(LPCTSTR pszText) const
// Extracts a substring that contains only the characters in a set.
{
assert (pszText);
CString str;
size_t pos = 0;
while ((pos = m_str.find_first_of(pszText, pos)) != std::string::npos)
{
str.m_str.append(1, m_str[pos++]);
}
return str;
}
inline CString CString::Tokenize(LPCTSTR pszTokens, int& iStart) const
// Extracts specified tokens in a target string.
{
assert(pszTokens);
assert(iStart >= 0);
CString str;
size_t pos1 = m_str.find_first_not_of(pszTokens, iStart);
size_t pos2 = m_str.find_first_of(pszTokens, pos1);
iStart = (int)pos2 + 1;
if (pos2 == m_str.npos)
iStart = -1;
if (pos1 != m_str.npos)
str.m_str = m_str.substr(pos1, pos2-pos1);
return str;
}
inline void CString::Trim()
// Trims all leading and trailing whitespace characters from the string.
{
TrimLeft();
TrimRight();
}
inline void CString::TrimLeft()
// Trims leading whitespace characters from the string.
{
// This method is supported by the Borland 5.5 compiler
tString::iterator iter;
for (iter = m_str.begin(); iter < m_str.end(); ++iter)
{
if (!isspace(*iter))
break;
}
m_str.erase(m_str.begin(), iter);
}
inline void CString::TrimLeft(TCHAR chTarget)
// Trims the specified character from the beginning of the string.
{
m_str.erase(0, m_str.find_first_not_of(chTarget));
}
inline void CString::TrimLeft(LPCTSTR pszTargets)
// Trims the specified set of characters from the beginning of the string.
{
assert(pszTargets);
m_str.erase(0, m_str.find_first_not_of(pszTargets));
}
inline void CString::TrimRight()
// Trims trailing whitespace characters from the string.
{
// This method is supported by the Borland 5.5 compiler
tString::reverse_iterator riter;
for (riter = m_str.rbegin(); riter < m_str.rend(); ++riter)
{
if (!isspace(*riter))
break;
}
m_str.erase(riter.base(), m_str.end());
}
inline void CString::TrimRight(TCHAR chTarget)
// Trims the specified character from the end of the string.
{
size_t pos = m_str.find_last_not_of(chTarget);
if (pos != std::string::npos)
m_str.erase(++pos);
}
inline void CString::TrimRight(LPCTSTR pszTargets)
// Trims the specified set of characters from the end of the string.
{
assert(pszTargets);
size_t pos = m_str.find_last_not_of(pszTargets);
if (pos != std::string::npos)
m_str.erase(++pos);
}
inline void CString::Truncate(int nNewLength)
// Reduces the length of the string to the specified amount.
{
if (nNewLength < GetLength())
{
assert(nNewLength >= 0);
m_str.erase(nNewLength);
}
}
///////////////////////////////////
// Global Functions
//
// friend functions of CString
inline CString operator + (const CString& string1, const CString& string2)
{
CString str(string1);
str.m_str.append(string2.m_str);
return str;
}
inline CString operator + (const CString& string, LPCTSTR pszText)
{
CString str(string);
str.m_str.append(pszText);
return str;
}
inline CString operator + (const CString& string, TCHAR ch)
{
CString str(string);
str.m_str.append(1, ch);
return str;
}
inline CString operator + (LPCTSTR pszText, const CString& string)
{
CString str(pszText);
str.m_str.append(string);
return str;
}
inline CString operator + (TCHAR ch, const CString& string)
{
CString str(ch);
str.m_str.append(string);
return str;
}
// Global LoadString
inline CString LoadString(UINT nID)
{
CString str;
str.LoadString(nID);
return str;
}
} // namespace Win32xx
#endif//_WIN32XX_CSTRING_H_