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/*
Miranda NG: the free IM client for Microsoft* Windows*
Copyright (c) 2012-14 Miranda NG project (http://miranda-ng.org)
all portions of this codebase are copyrighted to the people
listed in contributors.txt.
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 <string.h>
#include <mbstring.h>
#include <wchar.h>
#include <m_core.h>
#ifdef __MINGW32__
#include <limits.h>
__inline size_t strnlen(const char *string, size_t maxlen)
{
const char *end = (const char *)memchr ((const void *)string, '\0', maxlen);
return end ? (size_t) (end - string) : maxlen;
}
__inline size_t wcsnlen(const wchar_t *string, size_t maxlen)
{
const wchar_t *end = wmemchr (string, L'\0', maxlen);
return end ? (size_t) (end - string) : maxlen;
}
/* FIXME: This may be wrong assumption about Langpack_GetDefaultCodePage */
#define Langpack_GetDefaultCodePage() CP_THREAD_ACP
/* FIXME: This is unsafe */
#define memcpy_s(dest,size,src,count) memcpy(dest,src,count)
/* FIXME: This is quite silly implementation of _mbsstr */
#define _mbsstr(str,search) strstr((const char *)str,(const char *)search)
#define __max(x,y) (((x)<(y))?(y):(x))
#endif /* __MINGW32__ */
/////////////////////////////////////////////////////////////////////////////////////////
struct CMStringData;
MIR_CORE_DLL(CMStringData*) mirstr_allocate(int nChars, int nCharSize);
MIR_CORE_DLL(void) mirstr_free(CMStringData *pData);
MIR_CORE_DLL(CMStringData*) mirstr_realloc(CMStringData* pData, int nChars, int nCharSize);
MIR_CORE_DLL(CMStringData*) mirstr_getNil();
MIR_CORE_DLL(void) mirstr_lock(CMStringData* pThis);
MIR_CORE_DLL(void) mirstr_release(CMStringData* pThis);
MIR_CORE_DLL(void) mirstr_unlock(CMStringData* pThis);
/////////////////////////////////////////////////////////////////////////////////////////
struct CMStringData
{
int nDataLength; // Length of currently used data in XCHARs (not including terminating null)
int nAllocLength; // Length of allocated data in XCHARs (not including terminating null)
long nRefs; // Reference count: negative == locked
__forceinline void* data() { return (this + 1); }
__forceinline void AddRef() { InterlockedIncrement(&nRefs); }
__forceinline bool IsLocked() const { return nRefs < 0; }
__forceinline bool IsShared() const { return nRefs > 1; }
__forceinline void Lock() { mirstr_lock(this); }
__forceinline void Release() { mirstr_release(this); }
__forceinline void Unlock() { mirstr_unlock(this); }
};
template< typename BaseType = char >
class ChTraitsBase
{
public:
typedef char XCHAR;
typedef LPSTR PXSTR;
typedef LPCSTR PCXSTR;
typedef wchar_t YCHAR;
typedef LPWSTR PYSTR;
typedef LPCWSTR PCYSTR;
};
template<>
class ChTraitsBase< wchar_t >
{
public:
typedef wchar_t XCHAR;
typedef LPWSTR PXSTR;
typedef LPCWSTR PCXSTR;
typedef char YCHAR;
typedef LPSTR PYSTR;
typedef LPCSTR PCYSTR;
};
template< typename BaseType >
class CMSimpleStringT
{
public:
typedef typename ChTraitsBase< BaseType >::XCHAR XCHAR;
typedef typename ChTraitsBase< BaseType >::PXSTR PXSTR;
typedef typename ChTraitsBase< BaseType >::PCXSTR PCXSTR;
typedef typename ChTraitsBase< BaseType >::YCHAR YCHAR;
typedef typename ChTraitsBase< BaseType >::PYSTR PYSTR;
typedef typename ChTraitsBase< BaseType >::PCYSTR PCYSTR;
public:
explicit CMSimpleStringT()
{
CMStringData* pData = mirstr_getNil();
Attach(pData);
}
CMSimpleStringT(const CMSimpleStringT& strSrc)
{
CMStringData* pSrcData = strSrc.GetData();
CMStringData* pNewData = CloneData(pSrcData);
Attach(pNewData);
}
CMSimpleStringT(PCXSTR pszSrc)
{
int nLength = StringLength(pszSrc);
CMStringData* pData = mirstr_allocate(nLength, sizeof(XCHAR));
if (pData != NULL) {
Attach(pData);
SetLength(nLength);
CopyChars(m_pszData, nLength, pszSrc, nLength);
}
}
CMSimpleStringT(const XCHAR* pchSrc, int nLength)
{
CMStringData* pData = mirstr_allocate(nLength, sizeof(XCHAR));
if (pData != NULL) {
Attach(pData);
SetLength(nLength);
CopyChars(m_pszData, nLength, pchSrc, nLength);
}
}
~CMSimpleStringT()
{
CMStringData* pData = GetData();
pData->Release();
}
operator CMSimpleStringT<BaseType>&()
{
return *(CMSimpleStringT<BaseType>*)this;
}
CMSimpleStringT& operator=(const CMSimpleStringT& strSrc)
{
CMStringData* pSrcData = strSrc.GetData();
CMStringData* pOldData = GetData();
if (pSrcData != pOldData) {
if (pOldData->IsLocked())
SetString(strSrc.GetString(), strSrc.GetLength());
else {
CMStringData* pNewData = CloneData(pSrcData);
pOldData->Release();
Attach(pNewData);
}
}
return *this;
}
CMSimpleStringT& operator=(PCXSTR pszSrc)
{
SetString(pszSrc);
return *this;
}
CMSimpleStringT& operator+=(const CMSimpleStringT& strSrc)
{
Append(strSrc);
return *this;
}
CMSimpleStringT& operator+=(PCXSTR pszSrc)
{
Append(pszSrc);
return *this;
}
CMSimpleStringT& operator+=(char ch)
{
AppendChar(XCHAR(ch));
return *this;
}
CMSimpleStringT& operator+=(unsigned char ch)
{
AppendChar(XCHAR(ch));
return *this;
}
CMSimpleStringT& operator+=(wchar_t ch)
{
AppendChar(XCHAR(ch));
return *this;
}
XCHAR operator[](int iChar) const
{
return m_pszData[iChar];
}
operator PCXSTR() const
{
return m_pszData;
}
PCXSTR c_str() const
{
return m_pszData;
}
void Append(PCXSTR pszSrc)
{
Append(pszSrc, StringLength(pszSrc));
}
void Append(PCXSTR pszSrc, int nLength)
{
// See comment in SetString() about why we do this
UINT_PTR nOffset = UINT_PTR(pszSrc - GetString());
int nOldLength = GetLength();
if (nOldLength < 0) {
// protects from underflow
nOldLength = 0;
}
//Make sure we don't read pass end of the terminating NULL
int nSrcLength = StringLength(pszSrc);
nLength = nLength > nSrcLength ? nSrcLength: nLength;
int nNewLength = nOldLength+nLength;
PXSTR pszBuffer = GetBuffer(nNewLength);
if (nOffset <= UINT_PTR(nOldLength)) {
pszSrc = pszBuffer+nOffset;
// No need to call CopyCharsOverlapped, since the destination is
// beyond the end of the original buffer
}
CopyChars(pszBuffer+nOldLength, nLength, pszSrc, nLength);
ReleaseBufferSetLength(nNewLength);
}
void AppendChar(XCHAR ch)
{
UINT nOldLength = GetLength();
int nNewLength = nOldLength+1;
PXSTR pszBuffer = GetBuffer(nNewLength);
pszBuffer[nOldLength] = ch;
ReleaseBufferSetLength(nNewLength);
}
void Append(const CMSimpleStringT& strSrc)
{
Append(strSrc.GetString(), strSrc.GetLength());
}
void Empty()
{
CMStringData* pOldData = GetData();
if (pOldData->nDataLength == 0)
return;
if (pOldData->IsLocked()) {
// Don't reallocate a locked buffer that's shrinking
SetLength(0);
}
else {
pOldData->Release();
CMStringData* pNewData = mirstr_getNil();
Attach(pNewData);
}
}
void FreeExtra()
{
CMStringData* pOldData = GetData();
int nLength = pOldData->nDataLength;
if (pOldData->nAllocLength == nLength)
return;
if ( !pOldData->IsLocked()) { // Don't reallocate a locked buffer that's shrinking
CMStringData* pNewData = mirstr_allocate(nLength, sizeof(XCHAR));
if (pNewData == NULL) {
SetLength(nLength);
return;
}
CopyChars(PXSTR(pNewData->data()), nLength, PCXSTR(pOldData->data()), nLength);
pOldData->Release();
Attach(pNewData);
SetLength(nLength);
}
}
int GetAllocLength() const
{
return GetData()->nAllocLength;
}
XCHAR GetAt(int iChar) const
{
return m_pszData[iChar];
}
PXSTR GetBuffer()
{
CMStringData* pData = GetData();
if (pData->IsShared())
Fork(pData->nDataLength);
return m_pszData;
}
PXSTR GetBuffer(int nMinBufferLength)
{
return PrepareWrite(nMinBufferLength);
}
PXSTR GetBufferSetLength(int nLength)
{
PXSTR pszBuffer = GetBuffer(nLength);
SetLength(nLength);
return pszBuffer;
}
int GetLength() const
{
return GetData()->nDataLength;
}
PCXSTR GetString() const
{
return m_pszData;
}
PCXSTR GetTail() const
{
return m_pszData + GetData()->nDataLength;
}
bool IsEmpty() const
{
return GetLength() == 0;
}
PXSTR LockBuffer()
{
CMStringData* pData = GetData();
if (pData->IsShared())
{
Fork(pData->nDataLength);
pData = GetData(); // Do it again, because the fork might have changed it
}
pData->Lock();
return m_pszData;
}
void UnlockBuffer()
{
CMStringData* pData = GetData();
pData->Unlock();
}
void Preallocate(int nLength)
{
PrepareWrite(nLength);
}
void ReleaseBuffer(int nNewLength = -1)
{
if (nNewLength == -1)
{
int nAlloc = GetData()->nAllocLength;
nNewLength = StringLengthN(m_pszData, nAlloc);
}
SetLength(nNewLength);
}
void ReleaseBufferSetLength(int nNewLength)
{
SetLength(nNewLength);
}
void Truncate(int nNewLength)
{
GetBuffer(nNewLength);
ReleaseBufferSetLength(nNewLength);
}
void SetAt(int iChar, XCHAR ch)
{
int nLength = GetLength();
PXSTR pszBuffer = GetBuffer();
pszBuffer[iChar] = ch;
ReleaseBufferSetLength(nLength);
}
void SetString(PCXSTR pszSrc)
{
SetString(pszSrc, StringLength(pszSrc));
}
void SetString(PCXSTR pszSrc, int nLength)
{
if (nLength == 0)
Empty();
else {
UINT nOldLength = GetLength();
UINT_PTR nOffset = pszSrc - GetString();
PXSTR pszBuffer = GetBuffer(nLength);
if (nOffset <= nOldLength)
CopyCharsOverlapped(pszBuffer, GetAllocLength(), pszBuffer+nOffset, nLength);
else
CopyChars(pszBuffer, GetAllocLength(), pszSrc, nLength);
ReleaseBufferSetLength(nLength);
}
}
public:
friend CMSimpleStringT __stdcall operator+(const CMSimpleStringT& str1, const CMSimpleStringT& str2)
{
CMSimpleStringT s;
Concatenate(s, str1, str1.GetLength(), str2, str2.GetLength());
return s;
}
friend CMSimpleStringT __stdcall operator+(const CMSimpleStringT& str1, PCXSTR psz2)
{
CMSimpleStringT s;
Concatenate(s, str1, str1.GetLength(), psz2, StringLength(psz2));
return s;
}
friend CMSimpleStringT __stdcall operator+(PCXSTR psz1, const CMSimpleStringT& str2)
{
CMSimpleStringT s;
Concatenate(s, psz1, StringLength(psz1), str2, str2.GetLength());
return s;
}
static void __stdcall CopyChars(XCHAR* pchDest, const XCHAR* pchSrc, int nChars)
{
#pragma warning (push)
#pragma warning(disable : 4996)
memcpy(pchDest, pchSrc, nChars * sizeof(XCHAR));
#pragma warning (pop)
}
static void __stdcall CopyChars(XCHAR* pchDest, size_t nDestLen, const XCHAR* pchSrc, int nChars)
{
memcpy_s(pchDest, nDestLen * sizeof(XCHAR), pchSrc, nChars * sizeof(XCHAR));
}
static void __stdcall CopyCharsOverlapped(XCHAR* pchDest, const XCHAR* pchSrc, int nChars)
{
#pragma warning (push)
#pragma warning(disable : 4996)
memmove(pchDest, pchSrc, nChars * sizeof(XCHAR));
#pragma warning (pop)
}
static void __stdcall CopyCharsOverlapped(XCHAR* pchDest, size_t nDestLen, const XCHAR* pchSrc, int nChars)
{
memmove_s(pchDest, nDestLen * sizeof(XCHAR), pchSrc, nChars * sizeof(XCHAR));
}
static int __stdcall StringLength(const char* psz)
{
if (psz == NULL)
return(0);
return (int(strlen(psz)));
}
static int __stdcall StringLength(const wchar_t* psz)
{
if (psz == NULL)
return 0;
return int(wcslen(psz));
}
static int __stdcall StringLengthN(const char* psz, size_t sizeInXChar)
{
if (psz == NULL)
return 0;
return int(strnlen(psz, sizeInXChar));
}
static int __stdcall StringLengthN(const wchar_t* psz, size_t sizeInXChar)
{
if (psz == NULL)
return 0;
return int(wcsnlen(psz, sizeInXChar));
}
protected:
static void __stdcall Concatenate(CMSimpleStringT& strResult, PCXSTR psz1, int nLength1, PCXSTR psz2, int nLength2)
{
int nNewLength = nLength1+nLength2;
PXSTR pszBuffer = strResult.GetBuffer(nNewLength);
CopyChars(pszBuffer, nLength1, psz1, nLength1);
CopyChars(pszBuffer + nLength1, nLength2, psz2, nLength2);
strResult.ReleaseBufferSetLength(nNewLength);
}
// Implementation
private:
void Attach(CMStringData* pData)
{
m_pszData = static_cast<PXSTR>(pData->data());
}
void Fork(int nLength)
{
CMStringData* pOldData = GetData();
int nOldLength = pOldData->nDataLength;
CMStringData* pNewData = mirstr_allocate(nLength, sizeof(XCHAR));
if (pNewData != NULL) {
int nCharsToCopy = ((nOldLength < nLength) ? nOldLength : nLength)+1; // Copy '\0'
CopyChars(PXSTR(pNewData->data()), nCharsToCopy, PCXSTR(pOldData->data()), nCharsToCopy);
pNewData->nDataLength = nOldLength;
pOldData->Release();
Attach(pNewData);
}
}
CMStringData* GetData() const
{
return (reinterpret_cast<CMStringData *>(m_pszData) - 1);
}
PXSTR PrepareWrite(int nLength)
{
CMStringData* pOldData = GetData();
int nShared = 1 - pOldData->nRefs; // nShared < 0 means true, >= 0 means false
int nTooShort = pOldData->nAllocLength-nLength; // nTooShort < 0 means true, >= 0 means false
if ((nShared | nTooShort) < 0) // If either sign bit is set (i.e. either is less than zero), we need to copy data
PrepareWrite2(nLength);
return m_pszData;
}
void PrepareWrite2(int nLength)
{
CMStringData* pOldData = GetData();
if (pOldData->nDataLength > nLength)
nLength = pOldData->nDataLength;
if (pOldData->IsShared())
{
Fork(nLength);
}
else if (pOldData->nAllocLength < nLength) {
// Grow exponentially, until we hit 1K.
int nNewLength = pOldData->nAllocLength;
if (nNewLength > 1024)
nNewLength += 1024;
else
nNewLength *= 2;
if (nNewLength < nLength)
nNewLength = nLength;
Reallocate(nNewLength);
}
}
void Reallocate(int nLength)
{
CMStringData* pOldData = GetData();
if (pOldData->nAllocLength >= nLength || nLength <= 0)
return;
CMStringData* pNewData = mirstr_realloc(pOldData, nLength, sizeof(XCHAR));
if (pNewData != NULL)
Attach(pNewData);
}
void SetLength(int nLength)
{
GetData()->nDataLength = nLength;
m_pszData[nLength] = 0;
}
static CMStringData* __stdcall CloneData(CMStringData* pData)
{
CMStringData* pNewData = NULL;
if ( !pData->IsLocked()) {
pNewData = pData;
pNewData->AddRef();
}
return pNewData;
}
public :
// typedef CStrBufT<BaseType> CStrBuf;
private:
PXSTR m_pszData;
};
template< typename _CharType = char >
class ChTraitsCRT : public ChTraitsBase< _CharType >
{
public:
static char* __stdcall CharNext(const char* p)
{
return reinterpret_cast< char* >(_mbsinc(reinterpret_cast< const unsigned char* >(p)));
}
static int __stdcall IsDigit(char ch)
{
return _ismbcdigit(ch);
}
static int __stdcall IsSpace(char ch)
{
return _ismbcspace(ch);
}
static int __stdcall StringCompare(LPCSTR pszA, LPCSTR pszB)
{
return _mbscmp(reinterpret_cast< const unsigned char* >(pszA), reinterpret_cast< const unsigned char* >(pszB));
}
static int __stdcall StringCompareIgnore(LPCSTR pszA, LPCSTR pszB)
{
return _mbsicmp(reinterpret_cast< const unsigned char* >(pszA), reinterpret_cast< const unsigned char* >(pszB));
}
static int __stdcall StringCollate(LPCSTR pszA, LPCSTR pszB)
{
return _mbscoll(reinterpret_cast< const unsigned char* >(pszA), reinterpret_cast< const unsigned char* >(pszB));
}
static int __stdcall StringCollateIgnore(LPCSTR pszA, LPCSTR pszB)
{
return _mbsicoll(reinterpret_cast< const unsigned char* >(pszA), reinterpret_cast< const unsigned char* >(pszB));
}
static LPCSTR __stdcall StringFindString(LPCSTR pszBlock, LPCSTR pszMatch)
{
return reinterpret_cast< LPCSTR >(_mbsstr(reinterpret_cast< const unsigned char* >(pszBlock),
reinterpret_cast< const unsigned char* >(pszMatch)));
}
static LPSTR __stdcall StringFindString(LPSTR pszBlock, LPCSTR pszMatch)
{
return const_cast< LPSTR >(StringFindString(const_cast< LPCSTR >(pszBlock), pszMatch));
}
static LPCSTR __stdcall StringFindChar(LPCSTR pszBlock, char chMatch)
{
return reinterpret_cast< LPCSTR >(_mbschr(reinterpret_cast< const unsigned char* >(pszBlock), (unsigned char)chMatch));
}
static LPCSTR __stdcall StringFindCharRev(LPCSTR psz, char ch)
{
return reinterpret_cast< LPCSTR >(_mbsrchr(reinterpret_cast< const unsigned char* >(psz), (unsigned char)ch));
}
static LPCSTR __stdcall StringScanSet(LPCSTR pszBlock, LPCSTR pszMatch)
{
return reinterpret_cast< LPCSTR >(_mbspbrk(reinterpret_cast< const unsigned char* >(pszBlock),
reinterpret_cast< const unsigned char* >(pszMatch)));
}
static int __stdcall StringSpanIncluding(LPCSTR pszBlock, LPCSTR pszSet)
{
return (int)_mbsspn(reinterpret_cast< const unsigned char* >(pszBlock), reinterpret_cast< const unsigned char* >(pszSet));
}
static int __stdcall StringSpanExcluding(LPCSTR pszBlock, LPCSTR pszSet)
{
return (int)_mbscspn(reinterpret_cast< const unsigned char* >(pszBlock), reinterpret_cast< const unsigned char* >(pszSet));
}
static LPSTR __stdcall StringUppercase(LPSTR psz)
{
#pragma warning (push)
#pragma warning(disable : 4996)
return reinterpret_cast< LPSTR >(_mbsupr(reinterpret_cast< unsigned char* >(psz)));
#pragma warning (pop)
}
static LPSTR __stdcall StringLowercase(LPSTR psz)
{
#pragma warning (push)
#pragma warning(disable : 4996)
return reinterpret_cast< LPSTR >(_mbslwr(reinterpret_cast< unsigned char* >(psz)));
#pragma warning (pop)
}
static LPSTR __stdcall StringUppercase(LPSTR psz, size_t size)
{
#if _MSC_VER >= 1400
_mbsupr_s(reinterpret_cast< unsigned char* >(psz), size);
#else
_mbsupr(reinterpret_cast< unsigned char* >(psz));
#endif
return psz;
}
static LPSTR __stdcall StringLowercase(LPSTR psz, size_t size)
{
#if _MSC_VER >= 1400
_mbslwr_s(reinterpret_cast< unsigned char* >(psz), size);
#else
_mbslwr(reinterpret_cast< unsigned char* >(psz));
#endif
return psz;
}
static LPSTR __stdcall StringReverse(LPSTR psz)
{
return reinterpret_cast< LPSTR >(_mbsrev(reinterpret_cast< unsigned char* >(psz)));
}
static int __stdcall GetFormattedLength(LPCSTR pszFormat, va_list args);
static int __stdcall Format(LPSTR pszBuffer, size_t nlength, LPCSTR pszFormat, va_list args);
static int __stdcall GetBaseTypeLength(LPCSTR pszSrc)
{
// Returns required buffer length in XCHARs
return int(strlen(pszSrc));
}
static int __stdcall GetBaseTypeLength(LPCSTR pszSrc, int nLength)
{
(void)pszSrc;
// Returns required buffer length in XCHARs
return nLength;
}
static int __stdcall GetBaseTypeLength(LPCWSTR pszSource)
{
// Returns required buffer length in XCHARs
return ::WideCharToMultiByte(Langpack_GetDefaultCodePage(), 0, pszSource, -1, NULL, 0, NULL, NULL)-1;
}
static int __stdcall GetBaseTypeLength(LPCWSTR pszSource, int nLength)
{
// Returns required buffer length in XCHARs
return ::WideCharToMultiByte(Langpack_GetDefaultCodePage(), 0, pszSource, nLength, NULL, 0, NULL, NULL);
}
static void __stdcall ConvertToBaseType(LPSTR pszDest, int nDestLength, LPCSTR pszSrc, int nSrcLength = -1)
{
if (nSrcLength == -1) { nSrcLength=1 + GetBaseTypeLength(pszSrc); }
// nLen is in XCHARs
memcpy_s(pszDest, nDestLength*sizeof(char), pszSrc, nSrcLength*sizeof(char));
}
static void __stdcall ConvertToBaseType(LPSTR pszDest, int nDestLength, LPCWSTR pszSrc, int nSrcLength = -1)
{
// nLen is in XCHARs
::WideCharToMultiByte(Langpack_GetDefaultCodePage(), 0, pszSrc, nSrcLength, pszDest, nDestLength, NULL, NULL);
}
static void ConvertToOem(_CharType* pstrString)
{
BOOL fSuccess=::CharToOemA(pstrString, pstrString);
}
static void ConvertToAnsi(_CharType* pstrString)
{
BOOL fSuccess=::OemToCharA(pstrString, pstrString);
}
static void ConvertToOem(_CharType* pstrString, size_t size)
{
if (size>UINT_MAX)
{
return;
}
DWORD dwSize=static_cast<DWORD>(size);
BOOL fSuccess=::CharToOemBuffA(pstrString, pstrString, dwSize);
}
static void ConvertToAnsi(_CharType* pstrString, size_t size)
{
if (size>UINT_MAX)
return;
DWORD dwSize=static_cast<DWORD>(size);
BOOL fSuccess=::OemToCharBuffA(pstrString, pstrString, dwSize);
}
static void __stdcall FloodCharacters(char ch, int nLength, char* pch)
{
// nLength is in XCHARs
memset(pch, ch, nLength);
}
static BSTR __stdcall AllocSysString(const char* pchData, int nDataLength)
{
int nLen = ::MultiByteToWideChar(Langpack_GetDefaultCodePage(), 0, pchData, nDataLength, NULL, NULL);
BSTR bstr = ::SysAllocStringLen(NULL, nLen);
if (bstr != NULL)
::MultiByteToWideChar(Langpack_GetDefaultCodePage(), 0, pchData, nDataLength, bstr, nLen);
return bstr;
}
static BOOL __stdcall ReAllocSysString(const char* pchData, BSTR* pbstr, int nDataLength)
{
int nLen = ::MultiByteToWideChar(Langpack_GetDefaultCodePage(), 0, pchData, nDataLength, NULL, NULL);
BOOL bSuccess = ::SysReAllocStringLen(pbstr, NULL, nLen);
if (bSuccess)
::MultiByteToWideChar(Langpack_GetDefaultCodePage(), 0, pchData, nDataLength, *pbstr, nLen);
return bSuccess;
}
static int __stdcall SafeStringLen(LPCSTR psz)
{
// returns length in bytes
return (psz != NULL) ? int(strlen(psz)) : 0;
}
static int __stdcall SafeStringLen(LPCWSTR psz)
{
// returns length in wchar_ts
return (psz != NULL) ? int(wcslen(psz)) : 0;
}
static int __stdcall GetCharLen(const wchar_t* pch)
{
// returns char length
return 1;
}
static int __stdcall GetCharLen(const char* pch)
{
// returns char length
return int(_mbclen(reinterpret_cast< const unsigned char* >(pch)));
}
static DWORD __stdcall GetEnvironmentVariable(LPCSTR pszVar, LPSTR pszBuffer, DWORD dwSize)
{
return ::GetEnvironmentVariableA(pszVar, pszBuffer, dwSize);
}
};
// specialization for wchar_t
template<>
class ChTraitsCRT< wchar_t > : public ChTraitsBase< wchar_t >
{
static DWORD __stdcall _GetEnvironmentVariableW(LPCWSTR pszName, LPWSTR pszBuffer, DWORD nSize)
{
return ::GetEnvironmentVariableW(pszName, pszBuffer, nSize);
}
public:
static LPWSTR __stdcall CharNext(LPCWSTR psz)
{
return const_cast< LPWSTR >(psz+1);
}
static int __stdcall IsDigit(wchar_t ch)
{
return iswdigit(static_cast<unsigned short>(ch));
}
static int __stdcall IsSpace(wchar_t ch)
{
return iswspace(static_cast<unsigned short>(ch));
}
static int __stdcall StringCompare(LPCWSTR pszA, LPCWSTR pszB)
{
return wcscmp(pszA, pszB);
}
static int __stdcall StringCompareIgnore(LPCWSTR pszA, LPCWSTR pszB)
{
return _wcsicmp(pszA, pszB);
}
static int __stdcall StringCollate(LPCWSTR pszA, LPCWSTR pszB)
{
return wcscoll(pszA, pszB);
}
static int __stdcall StringCollateIgnore(LPCWSTR pszA, LPCWSTR pszB)
{
return _wcsicoll(pszA, pszB);
}
static LPCWSTR __stdcall StringFindString(LPCWSTR pszBlock, LPCWSTR pszMatch)
{
return wcsstr(pszBlock, pszMatch);
}
static LPWSTR __stdcall StringFindString(LPWSTR pszBlock, LPCWSTR pszMatch)
{
return const_cast< LPWSTR >(StringFindString(const_cast< LPCWSTR >(pszBlock), pszMatch));
}
static LPCWSTR __stdcall StringFindChar(LPCWSTR pszBlock, wchar_t chMatch)
{
return wcschr(pszBlock, chMatch);
}
static LPCWSTR __stdcall StringFindCharRev(LPCWSTR psz, wchar_t ch)
{
return wcsrchr(psz, ch);
}
static LPCWSTR __stdcall StringScanSet(LPCWSTR pszBlock, LPCWSTR pszMatch)
{
return wcspbrk(pszBlock, pszMatch);
}
static int __stdcall StringSpanIncluding(LPCWSTR pszBlock, LPCWSTR pszSet)
{
return (int)wcsspn(pszBlock, pszSet);
}
static int __stdcall StringSpanExcluding(LPCWSTR pszBlock, LPCWSTR pszSet)
{
return (int)wcscspn(pszBlock, pszSet);
}
static LPWSTR __stdcall StringUppercase(LPWSTR psz)
{
#pragma warning (push)
#pragma warning(disable : 4996)
return _wcsupr(psz);
#pragma warning (pop)
}
static LPWSTR __stdcall StringLowercase(LPWSTR psz)
{
#pragma warning (push)
#pragma warning(disable : 4996)
return _wcslwr(psz);
#pragma warning (pop)
}
static LPWSTR __stdcall StringUppercase(LPWSTR psz, size_t)
{
return _wcsupr(psz);
}
static LPWSTR __stdcall StringLowercase(LPWSTR psz, size_t)
{
return _wcslwr(psz);
}
static LPWSTR __stdcall StringReverse(LPWSTR psz)
{
return _wcsrev(psz);
}
static int __stdcall GetFormattedLength(LPCWSTR pszFormat, va_list args);
static int __stdcall Format(LPWSTR pszBuffer, LPCWSTR pszFormat, va_list args)
{
#pragma warning (push)
#pragma warning(disable : 4996)
return vswprintf(pszBuffer, pszFormat, args); //!!!!!!!!!
#pragma warning (pop)
}
static int __stdcall Format(LPWSTR pszBuffer, size_t nLength, LPCWSTR pszFormat, va_list args);
static int __stdcall GetBaseTypeLength(LPCSTR pszSrc)
{
// Returns required buffer size in wchar_ts
return ::MultiByteToWideChar(CP_ACP, 0, pszSrc, -1, NULL, 0)-1;
}
static int __stdcall GetBaseTypeLength(LPCSTR pszSrc, int nLength)
{
// Returns required buffer size in wchar_ts
return ::MultiByteToWideChar(CP_ACP, 0, pszSrc, nLength, NULL, 0);
}
static int __stdcall GetBaseTypeLength(LPCWSTR pszSrc)
{
// Returns required buffer size in wchar_ts
return (int)wcslen(pszSrc);
}
static int __stdcall GetBaseTypeLength(LPCWSTR pszSrc, int nLength)
{
(void)pszSrc;
// Returns required buffer size in wchar_ts
return nLength;
}
static void __stdcall ConvertToBaseType(LPWSTR pszDest, int nDestLength, LPCSTR pszSrc, int nSrcLength = -1)
{
// nLen is in wchar_ts
::MultiByteToWideChar(CP_ACP, 0, pszSrc, nSrcLength, pszDest, nDestLength);
}
static void __stdcall ConvertToBaseType(LPWSTR pszDest, int nDestLength, LPCWSTR pszSrc, int nSrcLength = -1)
{
if (nSrcLength == -1) { nSrcLength=1 + GetBaseTypeLength(pszSrc); }
// nLen is in wchar_ts
#if _MSC_VER >= 1400
wmemcpy_s(pszDest, nDestLength, pszSrc, nSrcLength);
#else
wmemcpy(pszDest, pszSrc, nDestLength);
#endif
}
static void __stdcall FloodCharacters(wchar_t ch, int nLength, LPWSTR psz)
{
// nLength is in XCHARs
for (int i = 0; i < nLength; i++)
{
psz[i] = ch;
}
}
static BSTR __stdcall AllocSysString(const wchar_t* pchData, int nDataLength)
{
return ::SysAllocStringLen(pchData, nDataLength);
}
static BOOL __stdcall ReAllocSysString(const wchar_t* pchData, BSTR* pbstr, int nDataLength)
{
return ::SysReAllocStringLen(pbstr, pchData, nDataLength);
}
static int __stdcall SafeStringLen(LPCSTR psz)
{
// returns length in bytes
return (psz != NULL) ? (int)strlen(psz) : 0;
}
static int __stdcall SafeStringLen(LPCWSTR psz)
{
// returns length in wchar_ts
return (psz != NULL) ? (int)wcslen(psz) : 0;
}
static int __stdcall GetCharLen(const wchar_t* pch)
{
(void)pch;
// returns char length
return 1;
}
static int __stdcall GetCharLen(const char* pch)
{
// returns char length
return (int)(_mbclen(reinterpret_cast< const unsigned char* >(pch)));
}
static DWORD __stdcall GetEnvironmentVariable(LPCWSTR pszVar, LPWSTR pszBuffer, DWORD dwSize)
{
return _GetEnvironmentVariableW(pszVar, pszBuffer, dwSize);
}
static void __stdcall ConvertToOem(LPWSTR /*psz*/)
{
}
static void __stdcall ConvertToAnsi(LPWSTR /*psz*/)
{
}
static void __stdcall ConvertToOem(LPWSTR /*psz*/, size_t)
{
}
static void __stdcall ConvertToAnsi(LPWSTR /*psz*/, size_t)
{
}
};
template< typename BaseType, class StringTraits >
class CMStringT : public CMSimpleStringT< BaseType >
{
public:
typedef CMSimpleStringT< BaseType> CThisSimpleString;
typedef typename CThisSimpleString::XCHAR XCHAR;
typedef typename CThisSimpleString::PXSTR PXSTR;
typedef typename CThisSimpleString::PCXSTR PCXSTR;
typedef typename CThisSimpleString::YCHAR YCHAR;
typedef typename CThisSimpleString::PYSTR PYSTR;
typedef typename CThisSimpleString::PCYSTR PCYSTR;
public:
CMStringT() : CThisSimpleString()
{
}
static void __stdcall Construct(CMStringT* pString)
{
new(pString) CMStringT;
}
// Copy constructor
CMStringT(const CMStringT& strSrc) :
CThisSimpleString(strSrc)
{
}
CMStringT(const XCHAR* pszSrc) :
CThisSimpleString()
{
// nDestLength is in XCHARs
*this = pszSrc;
}
CMStringT(const YCHAR* pszSrc) :
CThisSimpleString()
{
*this = pszSrc;
}
CMStringT(const unsigned char* pszSrc) :
CThisSimpleString()
{
*this = reinterpret_cast< const char* >(pszSrc);
}
CMStringT(char ch, int nLength = 1) :
CThisSimpleString()
{
if (nLength > 0)
{
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::FloodCharacters(XCHAR(ch), nLength, pszBuffer);
this->ReleaseBufferSetLength(nLength);
}
}
CMStringT(wchar_t ch, int nLength = 1) :
CThisSimpleString()
{
if (nLength > 0)
{
//Convert ch to the BaseType
wchar_t pszCh[2] = { ch , 0 };
int nBaseTypeCharLen = 1;
if (ch != L'\0')
{
nBaseTypeCharLen = StringTraits::GetBaseTypeLength(pszCh);
}
XCHAR *buffBaseTypeChar = new XCHAR[nBaseTypeCharLen+1];
StringTraits::ConvertToBaseType(buffBaseTypeChar, nBaseTypeCharLen+1, pszCh, 1);
//allocate enough characters in String and flood (replicate) with the (converted character)*nLength
PXSTR pszBuffer = this->GetBuffer(nLength*nBaseTypeCharLen);
if (nBaseTypeCharLen == 1)
{ //Optimization for a common case - wide char translates to 1 ansi/wide char.
StringTraits::FloodCharacters(buffBaseTypeChar[0], nLength, pszBuffer);
} else
{
XCHAR* p=pszBuffer;
for (int i=0 ; i < nLength ;i++)
{
for (int j=0 ; j < nBaseTypeCharLen ;++j)
{
*p=buffBaseTypeChar[j];
++p;
}
}
}
this->ReleaseBufferSetLength(nLength*nBaseTypeCharLen);
delete [] buffBaseTypeChar;
}
}
CMStringT(const XCHAR* pch, int nLength) :
CThisSimpleString(pch, nLength)
{
}
CMStringT(const YCHAR* pch, int nLength) :
CThisSimpleString()
{
if (nLength > 0)
{
int nDestLength = StringTraits::GetBaseTypeLength(pch, nLength);
PXSTR pszBuffer = this->GetBuffer(nDestLength);
StringTraits::ConvertToBaseType(pszBuffer, nDestLength, pch, nLength);
this->ReleaseBufferSetLength(nDestLength);
}
}
// Destructor
~CMStringT()
{
}
// Assignment operators
CMStringT& operator=(const CMStringT& strSrc)
{
CThisSimpleString::operator=(strSrc);
return *this;
}
CMStringT& operator=(PCXSTR pszSrc)
{
CThisSimpleString::operator=(pszSrc);
return *this;
}
CMStringT& operator=(PCYSTR pszSrc)
{
// nDestLength is in XCHARs
int nDestLength = (pszSrc != NULL) ? StringTraits::GetBaseTypeLength(pszSrc) : 0;
if (nDestLength > 0)
{
PXSTR pszBuffer = this->GetBuffer(nDestLength);
StringTraits::ConvertToBaseType(pszBuffer, nDestLength, pszSrc);
this->ReleaseBufferSetLength(nDestLength);
}
else
{
this->Empty();
}
return *this;
}
CMStringT& operator=(const unsigned char* pszSrc)
{
return operator=(reinterpret_cast< const char* >(pszSrc));
}
CMStringT& operator=(char ch)
{
char ach[2] = { ch, 0 };
return operator=(ach);
}
CMStringT& operator=(wchar_t ch)
{
wchar_t ach[2] = { ch, 0 };
return operator=(ach);
}
// CMStringT& operator=(const VARIANT& var);
CMStringT& operator+=(const CMStringT& str)
{
CThisSimpleString::operator+=(str);
return *this;
}
CMStringT& operator+=(const CThisSimpleString& str)
{
CThisSimpleString::operator+=(str);
return *this;
}
CMStringT& operator+=(PCXSTR pszSrc)
{
CThisSimpleString::operator+=(pszSrc);
return *this;
}
// template< int t_nSize >
// CMStringT& operator+=(const CStaticString< XCHAR, t_nSize >& strSrc)
// {
// CThisSimpleString::operator+=(strSrc);
//
// return *this;
// }
CMStringT& operator+=(PCYSTR pszSrc)
{
CMStringT str(pszSrc);
return operator+=(str);
}
CMStringT& operator+=(char ch)
{
CThisSimpleString::operator+=(ch);
return *this;
}
CMStringT& operator+=(unsigned char ch)
{
CThisSimpleString::operator+=(ch);
return *this;
}
CMStringT& operator+=(wchar_t ch)
{
CThisSimpleString::operator+=(ch);
return *this;
}
// Comparison
int Compare(PCXSTR psz) const
{
return StringTraits::StringCompare(this->GetString(), psz);
}
int CompareNoCase(PCXSTR psz) const
{
return StringTraits::StringCompareIgnore(this->GetString(), psz);
}
int Collate(PCXSTR psz) const
{
return StringTraits::StringCollate(this->GetString(), psz);
}
int CollateNoCase(PCXSTR psz) const
{
return StringTraits::StringCollateIgnore(this->GetString(), psz);
}
// Advanced manipulation
// Delete 'nCount' characters, starting at index 'iIndex'
int Delete(int iIndex, int nCount = 1)
{
if (iIndex < 0)
iIndex = 0;
if (nCount < 0)
nCount = 0;
int nLength = this->GetLength();
if (nCount + iIndex > nLength)
{
nCount = nLength-iIndex;
}
if (nCount > 0)
{
int nNewLength = nLength-nCount;
int nXCHARsToCopy = nLength-(iIndex+nCount)+1;
PXSTR pszBuffer = this->GetBuffer();
#if _MSC_VER >= 1400
memmove_s(pszBuffer+iIndex, nXCHARsToCopy*sizeof(XCHAR), pszBuffer+iIndex+nCount, nXCHARsToCopy*sizeof(XCHAR));
#else
memmove(pszBuffer+iIndex, pszBuffer+iIndex+nCount, nXCHARsToCopy*sizeof(XCHAR));
#endif
this->ReleaseBufferSetLength(nNewLength);
}
return this->GetLength();
}
// Insert character 'ch' before index 'iIndex'
int Insert(int iIndex, XCHAR ch)
{
if (iIndex < 0)
iIndex = 0;
if (iIndex > this->GetLength())
iIndex = this->GetLength();
int nNewLength = this->GetLength()+1;
PXSTR pszBuffer = this->GetBuffer(nNewLength);
// move existing bytes down
#if _MSC_VER >= 1400
memmove_s(pszBuffer+iIndex+1, (nNewLength-iIndex)*sizeof(XCHAR), pszBuffer+iIndex, (nNewLength-iIndex)*sizeof(XCHAR));
#else
memmove(pszBuffer+iIndex+1, pszBuffer+iIndex, (nNewLength-iIndex)*sizeof(XCHAR));
#endif
pszBuffer[iIndex] = ch;
this->ReleaseBufferSetLength(nNewLength);
return nNewLength;
}
// Insert string 'psz' before index 'iIndex'
int Insert(int iIndex, PCXSTR psz)
{
if (iIndex < 0)
iIndex = 0;
if (iIndex > this->GetLength())
{
iIndex = this->GetLength();
}
// nInsertLength and nNewLength are in XCHARs
int nInsertLength = StringTraits::SafeStringLen(psz);
int nNewLength = this->GetLength();
if (nInsertLength > 0)
{
nNewLength += nInsertLength;
PXSTR pszBuffer = this->GetBuffer(nNewLength);
// move existing bytes down
#if _MSC_VER >= 1400
memmove_s(pszBuffer+iIndex+nInsertLength, (nNewLength-iIndex-nInsertLength+1)*sizeof(XCHAR), pszBuffer+iIndex, (nNewLength-iIndex-nInsertLength+1)*sizeof(XCHAR));
memcpy_s(pszBuffer+iIndex, nInsertLength*sizeof(XCHAR), psz, nInsertLength*sizeof(XCHAR));
#else
memmove(pszBuffer+iIndex+nInsertLength, pszBuffer+iIndex, (nNewLength-iIndex-nInsertLength+1)*sizeof(XCHAR));
memcpy(pszBuffer+iIndex, psz, nInsertLength*sizeof(XCHAR));
#endif
this->ReleaseBufferSetLength(nNewLength);
}
return nNewLength;
}
// Replace all occurrences of character 'chOld' with character 'chNew'
int Replace(XCHAR chOld, XCHAR chNew)
{
int nCount = 0;
// short-circuit the nop case
if (chOld != chNew)
{
// otherwise modify each character that matches in the string
bool bCopied = false;
PXSTR pszBuffer = const_cast< PXSTR >(this->GetString()); // We don't actually write to pszBuffer until we've called GetBuffer().
int nLength = this->GetLength();
int iChar = 0;
while(iChar < nLength)
{
// replace instances of the specified character only
if (pszBuffer[iChar] == chOld)
{
if ( !bCopied)
{
bCopied = true;
pszBuffer = this->GetBuffer(nLength);
}
pszBuffer[iChar] = chNew;
nCount++;
}
iChar = int(StringTraits::CharNext(pszBuffer+iChar)-pszBuffer);
}
if (bCopied)
{
this->ReleaseBufferSetLength(nLength);
}
}
return nCount;
}
// Replace all occurrences of string 'pszOld' with string 'pszNew'
int Replace(PCXSTR pszOld, PCXSTR pszNew)
{
// can't have empty or NULL lpszOld
// nSourceLen is in XCHARs
int nSourceLen = StringTraits::SafeStringLen(pszOld);
if (nSourceLen == 0)
return 0;
// nReplacementLen is in XCHARs
int nReplacementLen = StringTraits::SafeStringLen(pszNew);
// loop once to figure out the size of the result string
int nCount = 0;
{
PCXSTR pszStart = this->GetString();
PCXSTR pszEnd = pszStart+this->GetLength();
while(pszStart < pszEnd)
{
PCXSTR pszTarget;
while((pszTarget = StringTraits::StringFindString(pszStart, pszOld)) != NULL)
{
nCount++;
pszStart = pszTarget+nSourceLen;
}
pszStart += StringTraits::SafeStringLen(pszStart)+1;
}
}
// if any changes were made, make them
if (nCount > 0)
{
// if the buffer is too small, just
// allocate a new buffer (slow but sure)
int nOldLength = this->GetLength();
int nNewLength = nOldLength+(nReplacementLen-nSourceLen)*nCount;
PXSTR pszBuffer = this->GetBuffer(__max(nNewLength, nOldLength));
PXSTR pszStart = pszBuffer;
PXSTR pszEnd = pszStart+nOldLength;
// loop again to actually do the work
while(pszStart < pszEnd)
{
PXSTR pszTarget;
while((pszTarget = StringTraits::StringFindString(pszStart, pszOld)) != NULL)
{
int nBalance = nOldLength-int(pszTarget-pszBuffer+nSourceLen);
memmove_s(pszTarget+nReplacementLen, nBalance*sizeof(XCHAR),
pszTarget+nSourceLen, nBalance*sizeof(XCHAR));
memcpy_s(pszTarget, nReplacementLen*sizeof(XCHAR),
pszNew, nReplacementLen*sizeof(XCHAR));
pszStart = pszTarget+nReplacementLen;
pszTarget[nReplacementLen+nBalance] = 0;
nOldLength += (nReplacementLen-nSourceLen);
}
pszStart += StringTraits::SafeStringLen(pszStart)+1;
}
this->ReleaseBufferSetLength(nNewLength);
}
return nCount;
}
// Remove all occurrences of character 'chRemove'
int Remove(XCHAR chRemove)
{
int nLength = this->GetLength();
PXSTR pszBuffer = this->GetBuffer(nLength);
PXSTR pszSource = pszBuffer;
PXSTR pszDest = pszBuffer;
PXSTR pszEnd = pszBuffer+nLength;
while(pszSource < pszEnd)
{
PXSTR pszNewSource = StringTraits::CharNext(pszSource);
if (*pszSource != chRemove)
{
// Copy the source to the destination. Remember to copy all bytes of an MBCS character
// Copy the source to the destination. Remember to copy all bytes of an MBCS character
size_t NewSourceGap = (pszNewSource-pszSource);
PXSTR pszNewDest = pszDest + NewSourceGap;
size_t i = 0;
for (i = 0; pszDest != pszNewDest && i < NewSourceGap; i++)
{
*pszDest = *pszSource;
pszSource++;
pszDest++;
}
}
pszSource = pszNewSource;
}
*pszDest = 0;
int nCount = int(pszSource-pszDest);
this->ReleaseBufferSetLength(nLength-nCount);
return nCount;
}
CMStringT Tokenize(PCXSTR pszTokens, int& iStart) const
{
if ((pszTokens == NULL) || (*pszTokens == (XCHAR)0))
{
if (iStart < this->GetLength())
return CMStringT(this->GetString()+iStart);
}
else
{
PCXSTR pszPlace = this->GetString()+iStart;
PCXSTR pszEnd = this->GetString()+this->GetLength();
if (pszPlace < pszEnd)
{
int nIncluding = StringTraits::StringSpanIncluding(pszPlace, pszTokens);
if ((pszPlace+nIncluding) < pszEnd)
{
pszPlace += nIncluding;
int nExcluding = StringTraits::StringSpanExcluding(pszPlace, pszTokens);
int iFrom = iStart+nIncluding;
int nUntil = nExcluding;
iStart = iFrom+nUntil+1;
return Mid(iFrom, nUntil);
}
}
}
// return empty string, done tokenizing
iStart = -1;
return CMStringT();
}
// find routines
// Find the first occurrence of character 'ch', starting at index 'iStart'
int Find(XCHAR ch, int iStart = 0) const
{
// nLength is in XCHARs
int nLength = this->GetLength();
if (iStart < 0 || iStart >= nLength)
return -1;
// find first single character
PCXSTR psz = StringTraits::StringFindChar(this->GetString()+iStart, ch);
// return -1 if not found and index otherwise
return (psz == NULL) ? -1 : int(psz-this->GetString());
}
// look for a specific sub-string
// Find the first occurrence of string 'pszSub', starting at index 'iStart'
int Find(PCXSTR pszSub, int iStart = 0) const
{
// iStart is in XCHARs
if (pszSub == NULL)
return -1;
// nLength is in XCHARs
int nLength = this->GetLength();
if (iStart < 0 || iStart > nLength)
return -1;
// find first matching substring
PCXSTR psz = StringTraits::StringFindString(this->GetString()+iStart, pszSub);
// return -1 for not found, distance from beginning otherwise
return (psz == NULL) ? -1 : int(psz-this->GetString());
}
// Find the first occurrence of any of the characters in string 'pszCharSet'
int FindOneOf(PCXSTR pszCharSet) const
{
PCXSTR psz = StringTraits::StringScanSet(this->GetString(), pszCharSet);
return (psz == NULL) ? -1 : int(psz-this->GetString());
}
// Find the last occurrence of character 'ch'
int ReverseFind(XCHAR ch) const
{
// find last single character
PCXSTR psz = StringTraits::StringFindCharRev(this->GetString(), ch);
// return -1 if not found, distance from beginning otherwise
return (psz == NULL) ? -1 : int(psz-this->GetString());
}
// manipulation
// Convert the string to uppercase
CMStringT& MakeUpper()
{
int nLength = this->GetLength();
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::StringUppercase(pszBuffer, nLength+1);
this->ReleaseBufferSetLength(nLength);
return *this;
}
// Convert the string to lowercase
CMStringT& MakeLower()
{
int nLength = this->GetLength();
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::StringLowercase(pszBuffer, nLength+1);
this->ReleaseBufferSetLength(nLength);
return *this;
}
// Reverse the string
CMStringT& MakeReverse()
{
int nLength = this->GetLength();
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::StringReverse(pszBuffer);
this->ReleaseBufferSetLength(nLength);
return *this;
}
// trimming
// Remove all trailing whitespace
CMStringT& TrimRight()
{
// find beginning of trailing spaces by starting
// at beginning (DBCS aware)
PCXSTR psz = this->GetString();
PCXSTR pszLast = NULL;
while(*psz != 0) {
if (StringTraits::IsSpace(*psz)) {
if (pszLast == NULL)
pszLast = psz;
}
else pszLast = NULL;
psz = StringTraits::CharNext(psz);
}
if (pszLast != NULL) {
// truncate at trailing space start
int iLast = int(pszLast-this->GetString());
this->Truncate(iLast);
}
return *this;
}
// Remove all leading whitespace
CMStringT& TrimLeft()
{
// find first non-space character
PCXSTR psz = this->GetString();
while(StringTraits::IsSpace(*psz))
{
psz = StringTraits::CharNext(psz);
}
if (psz != this->GetString())
{
// fix up data and length
int iFirst = int(psz-this->GetString());
PXSTR pszBuffer = this->GetBuffer(this->GetLength());
psz = pszBuffer+iFirst;
int nDataLength = this->GetLength()-iFirst;
memmove_s(pszBuffer, (this->GetLength()+1)*sizeof(XCHAR),
psz, (nDataLength+1)*sizeof(XCHAR));
this->ReleaseBufferSetLength(nDataLength);
}
return *this;
}
// Remove all leading and trailing whitespace
CMStringT& Trim()
{
return TrimRight().TrimLeft();
}
// Remove all leading and trailing occurrences of character 'chTarget'
CMStringT& Trim(XCHAR chTarget)
{
return TrimRight(chTarget).TrimLeft(chTarget);
}
// Remove all leading and trailing occurrences of any of the characters in the string 'pszTargets'
CMStringT& Trim(PCXSTR pszTargets)
{
return TrimRight(pszTargets).TrimLeft(pszTargets);
}
// trimming anything (either side)
// Remove all trailing occurrences of character 'chTarget'
CMStringT& TrimRight(XCHAR chTarget)
{
// find beginning of trailing matches
// by starting at beginning (DBCS aware)
PCXSTR psz = this->GetString();
PCXSTR pszLast = NULL;
while(*psz != 0)
{
if (*psz == chTarget)
{
if (pszLast == NULL)
{
pszLast = psz;
}
}
else
{
pszLast = NULL;
}
psz = StringTraits::CharNext(psz);
}
if (pszLast != NULL)
{
// truncate at left-most matching character
int iLast = int(pszLast-this->GetString());
this->Truncate(iLast);
}
return *this;
}
// Remove all trailing occurrences of any of the characters in string 'pszTargets'
CMStringT& TrimRight(PCXSTR pszTargets)
{
// if we're not trimming anything, we're not doing any work
if ((pszTargets == NULL) || (*pszTargets == 0))
{
return *this;
}
// find beginning of trailing matches
// by starting at beginning (DBCS aware)
PCXSTR psz = this->GetString();
PCXSTR pszLast = NULL;
while(*psz != 0)
{
if (StringTraits::StringFindChar(pszTargets, *psz) != NULL)
{
if (pszLast == NULL)
{
pszLast = psz;
}
}
else
{
pszLast = NULL;
}
psz = StringTraits::CharNext(psz);
}
if (pszLast != NULL)
{
// truncate at left-most matching character
int iLast = int(pszLast-this->GetString());
this->Truncate(iLast);
}
return *this;
}
// Remove all leading occurrences of character 'chTarget'
CMStringT& TrimLeft(XCHAR chTarget)
{
// find first non-matching character
PCXSTR psz = this->GetString();
while(chTarget == *psz)
{
psz = StringTraits::CharNext(psz);
}
if (psz != this->GetString())
{
// fix up data and length
int iFirst = int(psz-this->GetString());
PXSTR pszBuffer = this->GetBuffer(this->GetLength());
psz = pszBuffer+iFirst;
int nDataLength = this->GetLength()-iFirst;
memmove_s(pszBuffer, (this->GetLength()+1)*sizeof(XCHAR),
psz, (nDataLength+1)*sizeof(XCHAR));
this->ReleaseBufferSetLength(nDataLength);
}
return *this;
}
// Remove all leading occurrences of any of the characters in string 'pszTargets'
CMStringT& TrimLeft(PCXSTR pszTargets)
{
// if we're not trimming anything, we're not doing any work
if ((pszTargets == NULL) || (*pszTargets == 0))
{
return *this;
}
PCXSTR psz = this->GetString();
while((*psz != 0) && (StringTraits::StringFindChar(pszTargets, *psz) != NULL))
{
psz = StringTraits::CharNext(psz);
}
if (psz != this->GetString())
{
// fix up data and length
int iFirst = int(psz-this->GetString());
PXSTR pszBuffer = this->GetBuffer(this->GetLength());
psz = pszBuffer+iFirst;
int nDataLength = this->GetLength()-iFirst;
memmove_s(pszBuffer, (this->GetLength()+1)*sizeof(XCHAR),
psz, (nDataLength+1)*sizeof(XCHAR));
this->ReleaseBufferSetLength(nDataLength);
}
return *this;
}
// Convert the string to the OEM character set
void AnsiToOem()
{
int nLength = this->GetLength();
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::ConvertToOem(pszBuffer, nLength+1);
this->ReleaseBufferSetLength(nLength);
}
// Convert the string to the ANSI character set
void OemToAnsi()
{
int nLength = this->GetLength();
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::ConvertToAnsi(pszBuffer, nLength+1);
this->ReleaseBufferSetLength(nLength);
}
// Very simple sub-string extraction
// Return the substring starting at index 'iFirst'
CMStringT Mid(int iFirst) const
{
return Mid(iFirst, this->GetLength()-iFirst);
}
// Return the substring starting at index 'iFirst', with length 'nCount'
CMStringT Mid(int iFirst, int nCount) const
{
// nCount is in XCHARs
// out-of-bounds requests return sensible things
if (iFirst < 0)
iFirst = 0;
if (nCount < 0)
nCount = 0;
if ((iFirst + nCount) > this->GetLength())
nCount = this->GetLength()-iFirst;
if (iFirst > this->GetLength())
nCount = 0;
// optimize case of returning entire string
if ((iFirst == 0) && ((iFirst+nCount) == this->GetLength()))
return *this;
return CMStringT(this->GetString()+iFirst, nCount);
}
// Return the substring consisting of the rightmost 'nCount' characters
CMStringT Right(int nCount) const
{
// nCount is in XCHARs
if (nCount < 0)
nCount = 0;
int nLength = this->GetLength();
if (nCount >= nLength)
{
return *this;
}
return CMStringT(this->GetString()+nLength-nCount, nCount);
}
// Return the substring consisting of the leftmost 'nCount' characters
CMStringT Left(int nCount) const
{
// nCount is in XCHARs
if (nCount < 0)
nCount = 0;
int nLength = this->GetLength();
if (nCount >= nLength)
return *this;
return CMStringT(this->GetString(), nCount);
}
// Return the substring consisting of the leftmost characters in the set 'pszCharSet'
CMStringT SpanIncluding(PCXSTR pszCharSet) const
{
return Left(StringTraits::StringSpanIncluding(this->GetString(), pszCharSet));
}
// Return the substring consisting of the leftmost characters not in the set 'pszCharSet'
CMStringT SpanExcluding(PCXSTR pszCharSet) const
{
return Left(StringTraits::StringSpanExcluding(this->GetString(), pszCharSet));
}
// Format data using format string 'pszFormat'
PCXSTR Format(PCXSTR pszFormat, ...)
{
va_list argList;
va_start(argList, pszFormat);
FormatV(pszFormat, argList);
va_end(argList);
return GetString();
}
// Append formatted data using format string 'pszFormat'
PCXSTR AppendFormat(PCXSTR pszFormat, ...)
{
va_list argList;
va_start(argList, pszFormat);
AppendFormatV(pszFormat, argList);
va_end(argList);
return GetString();
}
void AppendFormatV(PCXSTR pszFormat, va_list args)
{
int nCurrentLength = this->GetLength();
int nAppendLength = StringTraits::GetFormattedLength(pszFormat, args);
PXSTR pszBuffer = this->GetBuffer(nCurrentLength+nAppendLength);
StringTraits::Format(pszBuffer+nCurrentLength,
nAppendLength+1, pszFormat, args);
this->ReleaseBufferSetLength(nCurrentLength+nAppendLength);
}
PCXSTR FormatV(PCXSTR pszFormat, va_list args)
{
int nLength = StringTraits::GetFormattedLength(pszFormat, args);
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::Format(pszBuffer, nLength+1, pszFormat, args);
this->ReleaseBufferSetLength(nLength);
return GetString();
}
// OLE BSTR support
// allocate a BSTR containing a copy of the string
BSTR AllocSysString() const
{
BSTR bstrResult = StringTraits::AllocSysString(this->GetString(), this->GetLength());
return bstrResult;
}
BSTR SetSysString(BSTR* pbstr) const
{
StringTraits::ReAllocSysString(this->GetString(), pbstr, this->GetLength());
return *pbstr;
}
// Set the string to the value of environment variable 'pszVar'
BOOL GetEnvironmentVariable(PCXSTR pszVar)
{
ULONG nLength = StringTraits::GetEnvironmentVariable(pszVar, NULL, 0);
BOOL bRetVal = FALSE;
if (nLength == 0)
{
this->Empty();
}
else
{
PXSTR pszBuffer = this->GetBuffer(nLength);
StringTraits::GetEnvironmentVariable(pszVar, pszBuffer, nLength);
this->ReleaseBuffer();
bRetVal = TRUE;
}
return bRetVal;
}
// Load the string from resource 'nID'
BOOL LoadString(UINT nID)
{
HINSTANCE hInst = StringTraits::FindStringResourceInstance(nID);
if (hInst == NULL)
return FALSE;
return LoadString(hInst, nID);
}
friend CMStringT __stdcall operator+(const CMStringT& str1, const CMStringT& str2)
{
CMStringT strResult;
Concatenate(strResult, str1, str1.GetLength(), str2, str2.GetLength());
return strResult;
}
friend CMStringT __stdcall operator+(const CMStringT& str1, PCXSTR psz2)
{
CMStringT strResult;
Concatenate(strResult, str1, str1.GetLength(), psz2, StringLength(psz2));
return strResult;
}
friend CMStringT __stdcall operator+(PCXSTR psz1, const CMStringT& str2)
{
CMStringT strResult;
Concatenate(strResult, psz1, StringLength(psz1), str2, str2.GetLength());
return strResult;
}
friend CMStringT __stdcall operator+(const CMStringT& str1, wchar_t ch2)
{
CMStringT strResult;
XCHAR chTemp = XCHAR(ch2);
Concatenate(strResult, str1, str1.GetLength(), &chTemp, 1);
return strResult;
}
friend CMStringT __stdcall operator+(const CMStringT& str1, char ch2)
{
CMStringT strResult;
XCHAR chTemp = XCHAR(ch2);
Concatenate(strResult, str1, str1.GetLength(), &chTemp, 1);
return strResult;
}
friend CMStringT __stdcall operator+(wchar_t ch1, const CMStringT& str2)
{
CMStringT strResult;
XCHAR chTemp = XCHAR(ch1);
Concatenate(strResult, &chTemp, 1, str2, str2.GetLength());
return strResult;
}
friend CMStringT __stdcall operator+(char ch1, const CMStringT& str2)
{
CMStringT strResult;
XCHAR chTemp = XCHAR(ch1);
Concatenate(strResult, &chTemp, 1, str2, str2.GetLength());
return strResult;
}
friend bool __stdcall operator==(const CMStringT& str1, const CMStringT& str2)
{
return str1.Compare(str2) == 0;
}
friend bool __stdcall operator==(const CMStringT& str1, PCXSTR psz2)
{
return str1.Compare(psz2) == 0;
}
friend bool __stdcall operator==(PCXSTR psz1, const CMStringT& str2)
{
return str2.Compare(psz1) == 0;
}
friend bool __stdcall operator==(const CMStringT& str1, PCYSTR psz2)
{
CMStringT str2(psz2);
return str1 == str2;
}
friend bool __stdcall operator==(PCYSTR psz1, const CMStringT& str2)
{
CMStringT str1(psz1);
return str1 == str2;
}
friend bool __stdcall operator!=(const CMStringT& str1, const CMStringT& str2)
{
return str1.Compare(str2) != 0;
}
friend bool __stdcall operator!=(const CMStringT& str1, PCXSTR psz2)
{
return str1.Compare(psz2) != 0;
}
friend bool __stdcall operator!=(PCXSTR psz1, const CMStringT& str2)
{
return str2.Compare(psz1) != 0;
}
friend bool __stdcall operator!=(const CMStringT& str1, PCYSTR psz2)
{
CMStringT str2(psz2);
return str1 != str2;
}
friend bool __stdcall operator!=(PCYSTR psz1, const CMStringT& str2)
{
CMStringT str1(psz1);
return str1 != str2;
}
friend bool __stdcall operator<(const CMStringT& str1, const CMStringT& str2)
{
return str1.Compare(str2) < 0;
}
friend bool __stdcall operator<(const CMStringT& str1, PCXSTR psz2)
{
return str1.Compare(psz2) < 0;
}
friend bool __stdcall operator<(PCXSTR psz1, const CMStringT& str2)
{
return str2.Compare(psz1) > 0;
}
friend bool __stdcall operator>(const CMStringT& str1, const CMStringT& str2)
{
return str1.Compare(str2) > 0;
}
friend bool __stdcall operator>(const CMStringT& str1, PCXSTR psz2)
{
return str1.Compare(psz2) > 0;
}
friend bool __stdcall operator>(PCXSTR psz1, const CMStringT& str2)
{
return str2.Compare(psz1) < 0;
}
friend bool __stdcall operator<=(const CMStringT& str1, const CMStringT& str2)
{
return str1.Compare(str2) <= 0;
}
friend bool __stdcall operator<=(const CMStringT& str1, PCXSTR psz2)
{
return str1.Compare(psz2) <= 0;
}
friend bool __stdcall operator<=(PCXSTR psz1, const CMStringT& str2)
{
return str2.Compare(psz1) >= 0;
}
friend bool __stdcall operator>=(const CMStringT& str1, const CMStringT& str2)
{
return str1.Compare(str2) >= 0;
}
friend bool __stdcall operator>=(const CMStringT& str1, PCXSTR psz2)
{
return str1.Compare(psz2) >= 0;
}
friend bool __stdcall operator>=(PCXSTR psz1, const CMStringT& str2)
{
return str2.Compare(psz1) <= 0;
}
friend bool __stdcall operator==(XCHAR ch1, const CMStringT& str2)
{
return (str2.GetLength() == 1) && (str2[0] == ch1);
}
friend bool __stdcall operator==(const CMStringT& str1, XCHAR ch2)
{
return (str1.GetLength() == 1) && (str1[0] == ch2);
}
friend bool __stdcall operator!=(XCHAR ch1, const CMStringT& str2)
{
return (str2.GetLength() != 1) || (str2[0] != ch1);
}
friend bool __stdcall operator!=(const CMStringT& str1, XCHAR ch2)
{
return (str1.GetLength() != 1) || (str1[0] != ch2);
}
};
typedef CMStringT< wchar_t, ChTraitsCRT< wchar_t > > CMStringW;
typedef CMStringT< char, ChTraitsCRT< char > > CMStringA;
typedef CMStringT< TCHAR, ChTraitsCRT< TCHAR > > CMString;
/////////////////////////////////////////////////////////////////////////////////////////
// ChTraitsCRT<wchar_t>
__forceinline int ChTraitsCRT<wchar_t>::GetFormattedLength( LPCWSTR pszFormat, va_list args )
{
return _vscwprintf(pszFormat, args);
}
__forceinline int ChTraitsCRT<wchar_t>::Format( LPWSTR pszBuffer, size_t nLength, LPCWSTR pszFormat, va_list args)
{
return _vsnwprintf(pszBuffer, nLength, pszFormat, args);
}
/////////////////////////////////////////////////////////////////////////////////////////
// ChTraitsCRT<char>
__forceinline int ChTraitsCRT<char>::GetFormattedLength( LPCSTR pszFormat, va_list args )
{
return _vscprintf(pszFormat, args);
}
__forceinline int ChTraitsCRT<char>::Format( LPSTR pszBuffer, size_t nlength, LPCSTR pszFormat, va_list args )
{
return vsprintf_s(pszBuffer, nlength, pszFormat, args);
}
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