Leaked source code of windows server 2003
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/*++
Copyright (c) 1997 Microsoft Corporation
Module Name:
cstring.h
Abstract:
Extracted from MFC
Author:
Revision History:
--*/
#ifndef _CSTRING_H_
#define _CSTRING_H_
# include <ctype.h>
# include <tchar.h>
#include <stidebug.h>
#define _AFX_NO_BSTR_SUPPORT 1
#define AFX_CDECL CDECL
#define AFXAPI WINAPI
#define AFX_DATA
#define AFX_DATADEF
#define DEBUG_NEW new
#define TRACE1(s,x) DPRINTF(DM_TRACE,s,x)
#define VERIFY REQUIRE
#define _AFX_INLINE inline
BOOL
AfxIsValidString(
LPCWSTR lpsz,
int nLength
) ;
BOOL
AfxIsValidString(
LPCSTR lpsz,
int nLength
) ;
BOOL
AfxIsValidAddress(
const void* lp,
UINT nBytes,
BOOL bReadWrite
);
/////////////////////////////////////////////////////////////////////////////
// Strings
#ifndef _OLEAUTO_H_
#ifdef OLE2ANSI
typedef LPSTR BSTR;
#else
typedef LPWSTR BSTR;// must (semantically) match typedef in oleauto.h
#endif
#endif
struct CStringData
{
long nRefs; // reference count
int nDataLength;
int nAllocLength;
// TCHAR data[nAllocLength]
TCHAR* data()
{ return (TCHAR*)(this+1); }
};
class CString
{
public:
// Constructors
CString();
CString(const CString& stringSrc);
CString(TCHAR ch, int nRepeat = 1);
CString(LPCSTR lpsz);
CString(LPCWSTR lpsz);
CString(LPCTSTR lpch, int nLength);
CString(const unsigned char* psz);
// Attributes & Operations
// as an array of characters
int GetLength() const;
BOOL IsEmpty() const;
void Empty(); // free up the data
TCHAR GetAt(int nIndex) const; // 0 based
TCHAR operator[](int nIndex) const; // same as GetAt
void SetAt(int nIndex, TCHAR ch);
operator LPCTSTR() const; // as a C string
// overloaded assignment
const CString& operator=(const CString& stringSrc);
const CString& operator=(TCHAR ch);
#ifdef _UNICODE
const CString& operator=(char ch);
#endif
const CString& operator=(LPCSTR lpsz);
const CString& operator=(LPCWSTR lpsz);
const CString& operator=(const unsigned char* psz);
// string concatenation
const CString& operator+=(const CString& string);
const CString& operator+=(TCHAR ch);
#ifdef _UNICODE
const CString& operator+=(char ch);
#endif
const CString& operator+=(LPCTSTR lpsz);
friend CString AFXAPI operator+(const CString& string1,
const CString& string2);
friend CString AFXAPI operator+(const CString& string, TCHAR ch);
friend CString AFXAPI operator+(TCHAR ch, const CString& string);
#ifdef _UNICODE
friend CString AFXAPI operator+(const CString& string, char ch);
friend CString AFXAPI operator+(char ch, const CString& string);
#endif
friend CString AFXAPI operator+(const CString& string, LPCTSTR lpsz);
friend CString AFXAPI operator+(LPCTSTR lpsz, const CString& string);
// string comparison
int Compare(LPCTSTR lpsz) const; // straight character
int CompareNoCase(LPCTSTR lpsz) const; // ignore case
int Collate(LPCTSTR lpsz) const; // NLS aware
// simple sub-string extraction
CString Mid(int nFirst, int nCount) const;
CString Mid(int nFirst) const;
CString Left(int nCount) const;
CString Right(int nCount) const;
CString SpanIncluding(LPCTSTR lpszCharSet) const;
CString SpanExcluding(LPCTSTR lpszCharSet) const;
// upper/lower/reverse conversion
void MakeUpper();
void MakeLower();
void MakeReverse();
// trimming whitespace (either side)
void TrimRight();
void TrimLeft();
// searching (return starting index, or -1 if not found)
// look for a single character match
int Find(TCHAR ch) const; // like "C" strchr
int ReverseFind(TCHAR ch) const;
int FindOneOf(LPCTSTR lpszCharSet) const;
// look for a specific sub-string
int Find(LPCTSTR lpszSub) const; // like "C" strstr
// simple formatting
void AFX_CDECL Format(LPCTSTR lpszFormat, ...);
void AFX_CDECL Format(UINT nFormatID, ...);
// formatting for localization (uses FormatMessage API)
void AFX_CDECL FormatMessage(LPCTSTR lpszFormat, ...);
void AFX_CDECL FormatMessage(UINT nFormatID, ...);
// input and output
//friend CArchive& AFXAPI operator<<(CArchive& ar, const CString& string);
//friend CArchive& AFXAPI operator>>(CArchive& ar, CString& string);
// Windows support
BOOL LoadString(UINT nID); // load from string resource
// 255 chars max
#ifndef _UNICODE
// ANSI <-> OEM support (convert string in place)
void AnsiToOem();
void OemToAnsi();
#endif
#ifndef _AFX_NO_BSTR_SUPPORT
// OLE BSTR support (use for OLE automation)
BSTR AllocSysString() const;
BSTR SetSysString(BSTR* pbstr) const;
#endif
// Access to string implementation buffer as "C" character array
LPTSTR GetBuffer(int nMinBufLength);
void ReleaseBuffer(int nNewLength = -1);
LPTSTR GetBufferSetLength(int nNewLength);
void FreeExtra();
// Use LockBuffer/UnlockBuffer to turn refcounting off
LPTSTR LockBuffer();
void UnlockBuffer();
// Implementation
public:
~CString();
int GetAllocLength() const;
protected:
LPTSTR m_pchData; // pointer to ref counted string data
// implementation helpers
CStringData* GetData() const;
void Init();
void AllocCopy(CString& dest, int nCopyLen, int nCopyIndex, int nExtraLen) const;
void AllocBuffer(int nLen);
void AssignCopy(int nSrcLen, LPCTSTR lpszSrcData);
void ConcatCopy(int nSrc1Len, LPCTSTR lpszSrc1Data, int nSrc2Len, LPCTSTR lpszSrc2Data);
void ConcatInPlace(int nSrcLen, LPCTSTR lpszSrcData);
void FormatV(LPCTSTR lpszFormat, va_list argList);
void CopyBeforeWrite();
void AllocBeforeWrite(int nLen);
void Release();
static void PASCAL Release(CStringData* pData);
static int PASCAL SafeStrlen(LPCTSTR lpsz);
};
// Compare helpers
bool AFXAPI operator==(const CString& s1, const CString& s2);
bool AFXAPI operator==(const CString& s1, LPCTSTR s2);
bool AFXAPI operator==(LPCTSTR s1, const CString& s2);
bool AFXAPI operator!=(const CString& s1, const CString& s2);
bool AFXAPI operator!=(const CString& s1, LPCTSTR s2);
bool AFXAPI operator!=(LPCTSTR s1, const CString& s2);
bool AFXAPI operator<(const CString& s1, const CString& s2);
bool AFXAPI operator<(const CString& s1, LPCTSTR s2);
bool AFXAPI operator<(LPCTSTR s1, const CString& s2);
bool AFXAPI operator>(const CString& s1, const CString& s2);
bool AFXAPI operator>(const CString& s1, LPCTSTR s2);
bool AFXAPI operator>(LPCTSTR s1, const CString& s2);
bool AFXAPI operator<=(const CString& s1, const CString& s2);
bool AFXAPI operator<=(const CString& s1, LPCTSTR s2);
bool AFXAPI operator<=(LPCTSTR s1, const CString& s2);
bool AFXAPI operator>=(const CString& s1, const CString& s2);
bool AFXAPI operator>=(const CString& s1, LPCTSTR s2);
bool AFXAPI operator>=(LPCTSTR s1, const CString& s2);
// conversion helpers
int AFX_CDECL _wcstombsz(char* mbstr, const wchar_t* wcstr, size_t count);
int AFX_CDECL _mbstowcsz(wchar_t* wcstr, const char* mbstr, size_t count);
// Globals
//extern AFX_DATA TCHAR afxChNil;
const CString& AFXAPI AfxGetEmptyString();
#define afxEmptyString AfxGetEmptyString()
// CString
_AFX_INLINE CStringData* CString::GetData() const
{ ASSERT(m_pchData != NULL); return ((CStringData*)m_pchData)-1; }
_AFX_INLINE void CString::Init()
{ m_pchData = afxEmptyString.m_pchData; }
_AFX_INLINE CString::CString(const unsigned char* lpsz)
{ Init(); *this = (LPCSTR)lpsz; }
_AFX_INLINE const CString& CString::operator=(const unsigned char* lpsz)
{ *this = (LPCSTR)lpsz; return *this; }
#ifdef _UNICODE
_AFX_INLINE const CString& CString::operator+=(char ch)
{ *this += (TCHAR)ch; return *this; }
_AFX_INLINE const CString& CString::operator=(char ch)
{ *this = (TCHAR)ch; return *this; }
_AFX_INLINE CString AFXAPI operator+(const CString& string, char ch)
{ return string + (TCHAR)ch; }
_AFX_INLINE CString AFXAPI operator+(char ch, const CString& string)
{ return (TCHAR)ch + string; }
#endif
_AFX_INLINE int CString::GetLength() const
{ return GetData()->nDataLength; }
_AFX_INLINE int CString::GetAllocLength() const
{ return GetData()->nAllocLength; }
_AFX_INLINE BOOL CString::IsEmpty() const
{ return GetData()->nDataLength == 0; }
_AFX_INLINE CString::operator LPCTSTR() const
{ return m_pchData; }
_AFX_INLINE int PASCAL CString::SafeStrlen(LPCTSTR lpsz)
{ return (lpsz == NULL) ? 0 : lstrlen(lpsz); }
// CString support (windows specific)
_AFX_INLINE int CString::Compare(LPCTSTR lpsz) const
{ return _tcscmp(m_pchData, lpsz); } // MBCS/Unicode aware
_AFX_INLINE int CString::CompareNoCase(LPCTSTR lpsz) const
{ return _tcsicmp(m_pchData, lpsz); } // MBCS/Unicode aware
// CString::Collate is often slower than Compare but is MBSC/Unicode
// aware as well as locale-sensitive with respect to sort order.
_AFX_INLINE int CString::Collate(LPCTSTR lpsz) const
{ return _tcscoll(m_pchData, lpsz); } // locale sensitive
_AFX_INLINE TCHAR CString::GetAt(int nIndex) const
{
ASSERT(nIndex >= 0);
ASSERT(nIndex < GetData()->nDataLength);
return m_pchData[nIndex];
}
_AFX_INLINE TCHAR CString::operator[](int nIndex) const
{
// same as GetAt
ASSERT(nIndex >= 0);
ASSERT(nIndex < GetData()->nDataLength);
return m_pchData[nIndex];
}
_AFX_INLINE bool AFXAPI operator==(const CString& s1, const CString& s2)
{ return s1.Compare(s2) == 0; }
_AFX_INLINE bool AFXAPI operator==(const CString& s1, LPCTSTR s2)
{ return s1.Compare(s2) == 0; }
_AFX_INLINE bool AFXAPI operator==(LPCTSTR s1, const CString& s2)
{ return s2.Compare(s1) == 0; }
_AFX_INLINE bool AFXAPI operator!=(const CString& s1, const CString& s2)
{ return s1.Compare(s2) != 0; }
_AFX_INLINE bool AFXAPI operator!=(const CString& s1, LPCTSTR s2)
{ return s1.Compare(s2) != 0; }
_AFX_INLINE bool AFXAPI operator!=(LPCTSTR s1, const CString& s2)
{ return s2.Compare(s1) != 0; }
_AFX_INLINE bool AFXAPI operator<(const CString& s1, const CString& s2)
{ return s1.Compare(s2) < 0; }
_AFX_INLINE bool AFXAPI operator<(const CString& s1, LPCTSTR s2)
{ return s1.Compare(s2) < 0; }
_AFX_INLINE bool AFXAPI operator<(LPCTSTR s1, const CString& s2)
{ return s2.Compare(s1) > 0; }
_AFX_INLINE bool AFXAPI operator>(const CString& s1, const CString& s2)
{ return s1.Compare(s2) > 0; }
_AFX_INLINE bool AFXAPI operator>(const CString& s1, LPCTSTR s2)
{ return s1.Compare(s2) > 0; }
_AFX_INLINE bool AFXAPI operator>(LPCTSTR s1, const CString& s2)
{ return s2.Compare(s1) < 0; }
_AFX_INLINE bool AFXAPI operator<=(const CString& s1, const CString& s2)
{ return s1.Compare(s2) <= 0; }
_AFX_INLINE bool AFXAPI operator<=(const CString& s1, LPCTSTR s2)
{ return s1.Compare(s2) <= 0; }
_AFX_INLINE bool AFXAPI operator<=(LPCTSTR s1, const CString& s2)
{ return s2.Compare(s1) >= 0; }
_AFX_INLINE bool AFXAPI operator>=(const CString& s1, const CString& s2)
{ return s1.Compare(s2) >= 0; }
_AFX_INLINE bool AFXAPI operator>=(const CString& s1, LPCTSTR s2)
{ return s1.Compare(s2) >= 0; }
_AFX_INLINE bool AFXAPI operator>=(LPCTSTR s1, const CString& s2)
{ return s2.Compare(s1) <= 0; }
#endif