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631 lines
19 KiB
631 lines
19 KiB
// This is a part of the Microsoft Foundation Classes C++ library.
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// Copyright (C) 1992-1995 Microsoft Corporation
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// All rights reserved.
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//
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// This source code is only intended as a supplement to the
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// Microsoft Foundation Classes Reference and related
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// electronic documentation provided with the library.
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// See these sources for detailed information regarding the
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// Microsoft Foundation Classes product.
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#include <urlint.h>
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#include <map_kv.h>
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#include "coll.hxx"
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/*
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#include "stdafx.h"
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#ifdef AFX_CORE1_SEG
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#pragma code_seg(AFX_CORE1_SEG)
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#endif
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#ifdef _DEBUG
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#undef THIS_FILE
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static char THIS_FILE[] = __FILE__;
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#endif
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#define new DEBUG_NEW
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*/
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// The following macros are used on data declarations/definitions
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// (they are redefined for extension DLLs and the shared MFC DLL)
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#define AFX_DATA
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#define AFX_DATADEF
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// used when building the "core" MFC42.DLL
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#ifndef AFX_CORE_DATA
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#define AFX_CORE_DATA
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#define AFX_CORE_DATADEF
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#endif
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// used when building the MFC/OLE support MFCO42.DLL
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#ifndef AFX_OLE_DATA
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#define AFX_OLE_DATA
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#define AFX_OLE_DATADEF
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#endif
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#define TRACE1(x,a)
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//int AFX_CDECL _mbstowcsz(wchar_t* wcstr, const char* mbstr, size_t count);
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// conversion helpers
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int AFX_CDECL _wcstombsz(char* mbstr, const wchar_t* wcstr, size_t count);
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int AFX_CDECL _mbstowcsz(wchar_t* wcstr, const char* mbstr, size_t count);
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/////////////////////////////////////////////////////////////////////////////
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// static class data, special inlines
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// afxChNil is left for backward compatibility
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AFX_DATADEF TCHAR afxChNil = '\0';
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// For an empty string, m_pchData will point here
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// (note: avoids special case of checking for NULL m_pchData)
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// empty string data (and locked)
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static int rgInitData[] = { -1, 0, 0, 0 };
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static AFX_DATADEF CStringData* afxDataNil = (CStringData*)&rgInitData;
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static LPCTSTR afxPchNil = (LPCTSTR)(((BYTE*)&rgInitData)+sizeof(CStringData));
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// special function to make afxEmptyString work even during initialization
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const CString& AFXAPI AfxGetEmptyString()
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{ return *(CString*)&afxPchNil; }
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//////////////////////////////////////////////////////////////////////////////
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// Construction/Destruction
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CString::CString()
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{
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Init();
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}
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CString::CString(const CString& stringSrc)
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{
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ASSERT(stringSrc.GetData()->nRefs != 0);
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if (stringSrc.GetData()->nRefs >= 0)
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{
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ASSERT(stringSrc.GetData() != afxDataNil);
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m_pchData = stringSrc.m_pchData;
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InterlockedIncrement(&GetData()->nRefs);
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}
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else
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{
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Init();
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*this = stringSrc.m_pchData;
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}
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}
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void CString::AllocBuffer(int nLen)
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// always allocate one extra character for '\0' termination
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// assumes [optimistically] that data length will equal allocation length
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{
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ASSERT(nLen >= 0);
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ASSERT(nLen <= INT_MAX-1); // max size (enough room for 1 extra)
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if (nLen == 0)
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Init();
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else
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{
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CStringData* pData =
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(CStringData*)new BYTE[sizeof(CStringData) + (nLen+1)*sizeof(TCHAR)];
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pData->nRefs = 1;
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pData->data()[nLen] = '\0';
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pData->nDataLength = nLen;
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pData->nAllocLength = nLen;
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m_pchData = pData->data();
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}
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}
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void CString::Release()
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{
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if (GetData() != afxDataNil)
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{
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ASSERT(GetData()->nRefs != 0);
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if (InterlockedDecrement(&GetData()->nRefs) <= 0)
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delete[] (BYTE*)GetData();
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Init();
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}
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}
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void PASCAL CString::Release(CStringData* pData)
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{
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if (pData != afxDataNil)
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{
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ASSERT(pData->nRefs != 0);
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if (InterlockedDecrement(&pData->nRefs) <= 0)
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delete[] (BYTE*)pData;
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}
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}
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void CString::Empty()
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{
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if (GetData()->nDataLength == 0)
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return;
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if (GetData()->nRefs >= 0)
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Release();
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else
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*this = &afxChNil;
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ASSERT(GetData()->nDataLength == 0);
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ASSERT(GetData()->nRefs < 0 || GetData()->nAllocLength == 0);
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}
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void CString::CopyBeforeWrite()
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{
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if (GetData()->nRefs > 1)
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{
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CStringData* pData = GetData();
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Release();
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AllocBuffer(pData->nDataLength);
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memcpy(m_pchData, pData->data(), (pData->nDataLength+1)*sizeof(TCHAR));
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}
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ASSERT(GetData()->nRefs <= 1);
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}
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void CString::AllocBeforeWrite(int nLen)
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{
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if (GetData()->nRefs > 1 || nLen > GetData()->nAllocLength)
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{
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Release();
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AllocBuffer(nLen);
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}
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ASSERT(GetData()->nRefs <= 1);
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}
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CString::~CString()
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// free any attached data
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{
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if (GetData() != afxDataNil)
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{
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if (InterlockedDecrement(&GetData()->nRefs) <= 0)
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delete[] (BYTE*)GetData();
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}
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}
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//////////////////////////////////////////////////////////////////////////////
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// Helpers for the rest of the implementation
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void CString::AllocCopy(CString& dest, int nCopyLen, int nCopyIndex,
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int nExtraLen) const
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{
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// will clone the data attached to this string
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// allocating 'nExtraLen' characters
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// Places results in uninitialized string 'dest'
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// Will copy the part or all of original data to start of new string
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int nNewLen = nCopyLen + nExtraLen;
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if (nNewLen == 0)
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{
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dest.Init();
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}
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else
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{
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dest.AllocBuffer(nNewLen);
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memcpy(dest.m_pchData, m_pchData+nCopyIndex, nCopyLen*sizeof(TCHAR));
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}
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}
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//////////////////////////////////////////////////////////////////////////////
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// More sophisticated construction
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CString::CString(LPCTSTR lpsz)
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{
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Init();
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if (lpsz != NULL && (DWORD_PTR)lpsz <= 0xFFFF)
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{
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UINT nID = PtrToUlong(lpsz) & 0xFFFF;
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//if (!LoadString(nID))
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// TRACE1("Warning: implicit LoadString(%u) failed\n", nID);
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}
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else
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{
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int nLen = SafeStrlen(lpsz);
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if (nLen != 0)
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{
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AllocBuffer(nLen);
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memcpy(m_pchData, lpsz, nLen*sizeof(TCHAR));
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}
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}
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}
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/////////////////////////////////////////////////////////////////////////////
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// Special conversion constructors
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#ifdef _UNICODE
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CString::CString(LPCSTR lpsz)
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{
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Init();
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int nSrcLen = lpsz != NULL ? lstrlenA(lpsz) : 0;
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if (nSrcLen != 0)
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{
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AllocBuffer(nSrcLen);
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_mbstowcsz(m_pchData, lpsz, nSrcLen+1);
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ReleaseBuffer();
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}
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}
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#else //_UNICODE
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CString::CString(LPCWSTR lpsz)
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{
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Init();
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int nSrcLen = lpsz != NULL ? wcslen(lpsz) : 0;
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if (nSrcLen != 0)
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{
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AllocBuffer(nSrcLen*2);
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_wcstombsz(m_pchData, lpsz, (nSrcLen*2)+1);
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ReleaseBuffer();
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}
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}
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#endif //!_UNICODE
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//////////////////////////////////////////////////////////////////////////////
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// Diagnostic support
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#ifdef _DEBUG
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CDumpContext& AFXAPI operator<<(CDumpContext& dc, const CString& string)
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{
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dc << string.m_pchData;
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return dc;
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}
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#endif //_DEBUG
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//////////////////////////////////////////////////////////////////////////////
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// Assignment operators
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// All assign a new value to the string
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// (a) first see if the buffer is big enough
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// (b) if enough room, copy on top of old buffer, set size and type
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// (c) otherwise free old string data, and create a new one
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//
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// All routines return the new string (but as a 'const CString&' so that
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// assigning it again will cause a copy, eg: s1 = s2 = "hi there".
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//
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void CString::AssignCopy(int nSrcLen, LPCTSTR lpszSrcData)
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{
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AllocBeforeWrite(nSrcLen);
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memcpy(m_pchData, lpszSrcData, nSrcLen*sizeof(TCHAR));
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GetData()->nDataLength = nSrcLen;
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m_pchData[nSrcLen] = '\0';
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}
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const CString& CString::operator=(const CString& stringSrc)
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{
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if (m_pchData != stringSrc.m_pchData)
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{
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if ((GetData()->nRefs < 0 && GetData() != afxDataNil) ||
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stringSrc.GetData()->nRefs < 0)
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{
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// actual copy necessary since one of the strings is locked
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AssignCopy(stringSrc.GetData()->nDataLength, stringSrc.m_pchData);
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}
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else
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{
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// can just copy references around
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Release();
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ASSERT(stringSrc.GetData() != afxDataNil);
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m_pchData = stringSrc.m_pchData;
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InterlockedIncrement(&GetData()->nRefs);
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}
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}
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return *this;
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}
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const CString& CString::operator=(LPCTSTR lpsz)
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{
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ASSERT(lpsz == NULL || AfxIsValidString(lpsz, FALSE));
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AssignCopy(SafeStrlen(lpsz), lpsz);
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return *this;
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}
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/////////////////////////////////////////////////////////////////////////////
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// Special conversion assignment
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#ifdef _UNICODE
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const CString& CString::operator=(LPCSTR lpsz)
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{
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int nSrcLen = lpsz != NULL ? lstrlenA(lpsz) : 0;
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AllocBeforeWrite(nSrcLen);
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_mbstowcsz(m_pchData, lpsz, nSrcLen+1);
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ReleaseBuffer();
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return *this;
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}
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#else //!_UNICODE
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const CString& CString::operator=(LPCWSTR lpsz)
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{
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int nSrcLen = lpsz != NULL ? wcslen(lpsz) : 0;
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AllocBeforeWrite(nSrcLen*2);
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_wcstombsz(m_pchData, lpsz, (nSrcLen*2)+1);
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ReleaseBuffer();
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return *this;
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}
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#endif //!_UNICODE
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//////////////////////////////////////////////////////////////////////////////
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// concatenation
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// NOTE: "operator+" is done as friend functions for simplicity
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// There are three variants:
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// CString + CString
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// and for ? = TCHAR, LPCTSTR
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// CString + ?
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// ? + CString
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void CString::ConcatCopy(int nSrc1Len, LPCTSTR lpszSrc1Data,
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int nSrc2Len, LPCTSTR lpszSrc2Data)
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{
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// -- master concatenation routine
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// Concatenate two sources
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// -- assume that 'this' is a new CString object
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int nNewLen = nSrc1Len + nSrc2Len;
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if (nNewLen != 0)
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{
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AllocBuffer(nNewLen);
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memcpy(m_pchData, lpszSrc1Data, nSrc1Len*sizeof(TCHAR));
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memcpy(m_pchData+nSrc1Len, lpszSrc2Data, nSrc2Len*sizeof(TCHAR));
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}
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}
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CString AFXAPI operator+(const CString& string1, const CString& string2)
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{
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CString s;
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s.ConcatCopy(string1.GetData()->nDataLength, string1.m_pchData,
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string2.GetData()->nDataLength, string2.m_pchData);
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return s;
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}
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CString AFXAPI operator+(const CString& string, LPCTSTR lpsz)
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{
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ASSERT(lpsz == NULL || AfxIsValidString(lpsz, FALSE));
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CString s;
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s.ConcatCopy(string.GetData()->nDataLength, string.m_pchData,
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CString::SafeStrlen(lpsz), lpsz);
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return s;
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}
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CString AFXAPI operator+(LPCTSTR lpsz, const CString& string)
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{
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ASSERT(lpsz == NULL || AfxIsValidString(lpsz, FALSE));
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CString s;
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s.ConcatCopy(CString::SafeStrlen(lpsz), lpsz, string.GetData()->nDataLength,
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string.m_pchData);
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return s;
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}
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//////////////////////////////////////////////////////////////////////////////
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// concatenate in place
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void CString::ConcatInPlace(int nSrcLen, LPCTSTR lpszSrcData)
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{
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// -- the main routine for += operators
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// concatenating an empty string is a no-op!
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if (nSrcLen == 0)
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return;
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// if the buffer is too small, or we have a width mis-match, just
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// allocate a new buffer (slow but sure)
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if (GetData()->nRefs > 1 || GetData()->nDataLength + nSrcLen > GetData()->nAllocLength)
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{
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// we have to grow the buffer, use the ConcatCopy routine
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CStringData* pOldData = GetData();
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ConcatCopy(GetData()->nDataLength, m_pchData, nSrcLen, lpszSrcData);
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ASSERT(pOldData != NULL);
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CString::Release(pOldData);
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}
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else
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{
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// fast concatenation when buffer big enough
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memcpy(m_pchData+GetData()->nDataLength, lpszSrcData, nSrcLen*sizeof(TCHAR));
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GetData()->nDataLength += nSrcLen;
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ASSERT(GetData()->nDataLength <= GetData()->nAllocLength);
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m_pchData[GetData()->nDataLength] = '\0';
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}
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}
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const CString& CString::operator+=(LPCTSTR lpsz)
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{
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ASSERT(lpsz == NULL || AfxIsValidString(lpsz, FALSE));
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ConcatInPlace(SafeStrlen(lpsz), lpsz);
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return *this;
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}
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const CString& CString::operator+=(TCHAR ch)
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{
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ConcatInPlace(1, &ch);
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return *this;
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}
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const CString& CString::operator+=(const CString& string)
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{
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ConcatInPlace(string.GetData()->nDataLength, string.m_pchData);
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return *this;
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}
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///////////////////////////////////////////////////////////////////////////////
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// Advanced direct buffer access
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LPTSTR CString::GetBuffer(int nMinBufLength)
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{
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ASSERT(nMinBufLength >= 0);
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if (GetData()->nRefs > 1 || nMinBufLength > GetData()->nAllocLength)
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{
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// we have to grow the buffer
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CStringData* pOldData = GetData();
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int nOldLen = GetData()->nDataLength; // AllocBuffer will tromp it
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if (nMinBufLength < nOldLen)
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nMinBufLength = nOldLen;
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AllocBuffer(nMinBufLength);
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memcpy(m_pchData, pOldData->data(), (nOldLen+1)*sizeof(TCHAR));
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GetData()->nDataLength = nOldLen;
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CString::Release(pOldData);
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}
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ASSERT(GetData()->nRefs <= 1);
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// return a pointer to the character storage for this string
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ASSERT(m_pchData != NULL);
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return m_pchData;
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}
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void CString::ReleaseBuffer(int nNewLength)
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{
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CopyBeforeWrite(); // just in case GetBuffer was not called
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if (nNewLength == -1)
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nNewLength = lstrlen(m_pchData); // zero terminated
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ASSERT(nNewLength <= GetData()->nAllocLength);
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GetData()->nDataLength = nNewLength;
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m_pchData[nNewLength] = '\0';
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}
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LPTSTR CString::GetBufferSetLength(int nNewLength)
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{
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ASSERT(nNewLength >= 0);
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GetBuffer(nNewLength);
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GetData()->nDataLength = nNewLength;
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m_pchData[nNewLength] = '\0';
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return m_pchData;
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}
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void CString::FreeExtra()
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{
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ASSERT(GetData()->nDataLength <= GetData()->nAllocLength);
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if (GetData()->nDataLength != GetData()->nAllocLength)
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{
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CStringData* pOldData = GetData();
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AllocBuffer(GetData()->nDataLength);
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memcpy(m_pchData, pOldData->data(), pOldData->nDataLength*sizeof(TCHAR));
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ASSERT(m_pchData[GetData()->nDataLength] == '\0');
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CString::Release(pOldData);
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}
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ASSERT(GetData() != NULL);
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}
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LPTSTR CString::LockBuffer()
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{
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LPTSTR lpsz = GetBuffer(0);
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GetData()->nRefs = -1;
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return lpsz;
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}
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void CString::UnlockBuffer()
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{
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ASSERT(GetData()->nRefs == -1);
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if (GetData() != afxDataNil)
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GetData()->nRefs = 1;
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}
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///////////////////////////////////////////////////////////////////////////////
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// Commonly used routines (rarely used routines in STREX.CPP)
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#ifdef unused
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int CString::Find(TCHAR ch) const
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{
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// find first single character
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LPTSTR lpsz = _tcschr(m_pchData, (_TUCHAR)ch);
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|
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// return -1 if not found and index otherwise
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return (lpsz == NULL) ? -1 : (int)(lpsz - m_pchData);
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}
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int CString::FindOneOf(LPCTSTR lpszCharSet) const
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{
|
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ASSERT(AfxIsValidString(lpszCharSet, FALSE));
|
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LPTSTR lpsz = _tcspbrk(m_pchData, lpszCharSet);
|
|
return (lpsz == NULL) ? -1 : (int)(lpsz - m_pchData);
|
|
}
|
|
void CString::MakeReverse()
|
|
{
|
|
CopyBeforeWrite();
|
|
_tcsrev(m_pchData);
|
|
}
|
|
#endif //unused
|
|
|
|
void CString::MakeUpper()
|
|
{
|
|
CopyBeforeWrite();
|
|
::CharUpper(m_pchData);
|
|
}
|
|
|
|
void CString::MakeLower()
|
|
{
|
|
CopyBeforeWrite();
|
|
::CharLower(m_pchData);
|
|
}
|
|
|
|
|
|
void CString::SetAt(int nIndex, TCHAR ch)
|
|
{
|
|
ASSERT(nIndex >= 0);
|
|
ASSERT(nIndex < GetData()->nDataLength);
|
|
|
|
CopyBeforeWrite();
|
|
m_pchData[nIndex] = ch;
|
|
}
|
|
|
|
#ifndef _UNICODE
|
|
void CString::AnsiToOem()
|
|
{
|
|
CopyBeforeWrite();
|
|
::AnsiToOem(m_pchData, m_pchData);
|
|
}
|
|
void CString::OemToAnsi()
|
|
{
|
|
CopyBeforeWrite();
|
|
#pragma prefast(suppress:56, "We don't hit this piece of code in the current codebase")
|
|
::OemToAnsi(m_pchData, m_pchData);
|
|
}
|
|
#endif
|
|
|
|
///////////////////////////////////////////////////////////////////////////////
|
|
// CString conversion helpers (these use the current system locale)
|
|
|
|
int AFX_CDECL _wcstombsz(char* mbstr, const wchar_t* wcstr, size_t count)
|
|
{
|
|
if (count == 0 && mbstr != NULL)
|
|
return 0;
|
|
|
|
int result = ::WideCharToMultiByte(CP_ACP, 0, wcstr, -1,
|
|
mbstr, count, NULL, NULL);
|
|
ASSERT(mbstr == NULL || result <= (int)count);
|
|
if (result > 0)
|
|
mbstr[result-1] = 0;
|
|
return result;
|
|
}
|
|
|
|
int AFX_CDECL _mbstowcsz(wchar_t* wcstr, const char* mbstr, size_t count)
|
|
{
|
|
if (count == 0 && wcstr != NULL)
|
|
return 0;
|
|
|
|
int result = ::MultiByteToWideChar(CP_ACP, 0, mbstr, -1,
|
|
wcstr, count);
|
|
ASSERT(wcstr == NULL || result <= (int)count);
|
|
if (result > 0)
|
|
wcstr[result-1] = 0;
|
|
return result;
|
|
}
|
|
|
|
LPWSTR AFXAPI AfxA2WHelper(LPWSTR lpw, LPCSTR lpa, int nChars)
|
|
{
|
|
if (lpa == NULL)
|
|
return NULL;
|
|
ASSERT(lpw != NULL);
|
|
// verify that no illegal character present
|
|
// since lpw was allocated based on the size of lpa
|
|
// don't worry about the number of chars
|
|
lpw[0] = '\0';
|
|
VERIFY(MultiByteToWideChar(CP_ACP, 0, lpa, -1, lpw, nChars));
|
|
return lpw;
|
|
}
|
|
|
|
LPSTR AFXAPI AfxW2AHelper(LPSTR lpa, LPCWSTR lpw, int nChars)
|
|
{
|
|
if (lpw == NULL)
|
|
return NULL;
|
|
ASSERT(lpa != NULL);
|
|
// verify that no illegal character present
|
|
// since lpa was allocated based on the size of lpw
|
|
// don't worry about the number of chars
|
|
lpa[0] = '\0';
|
|
VERIFY(WideCharToMultiByte(CP_ACP, 0, lpw, -1, lpa, nChars, NULL, NULL));
|
|
return lpa;
|
|
}
|
|
|
|
///////////////////////////////////////////////////////////////////////////////
|