Source code of Windows XP (NT5)
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176 lines
5.4 KiB

// Copyright (C) Microsoft Corporation 1993-1997
#if _MSC_VER > 1000
#pragma once
#endif
#ifdef DESCRIPTION
The CTable class is used for storing strings or data which will be
freed in one call when the destructor is called.
#endif // DESCRIPTION
#ifndef _CTABLE_INCLUDED
#define _CTABLE_INCLUDED
typedef struct {
int cb;
PCSTR pMem;
} TABLE_FREED_MEMORY;
const int OFF_FILENAME = 5; // offset to filename
class CTable ;
class CTable SI_COUNT(CTable)
{
public:
CTable();
CTable(int cbStrings); // cbStrings == maximum memory allocated for strings
virtual ~CTable();
const CTable& operator=(const CTable& tblSrc); // copy constructor
UINT GetPosFromPtr(PCSTR psz);
// Used for ALink -- adds index, hit number, and string
void AddIndexHitString(UINT index, UINT hit, PCSTR pszString);
UINT GetIndex(int pos) { ASSERT(pos > 0 && pos < endpos); return *(UINT*) ppszTable[pos]; };
UINT GetHit(int pos) { ASSERT(pos > 0 && pos < endpos); return *(UINT*) (ppszTable[pos] + sizeof(UINT)); };
PSTR GetIHPointer(int pos) { ASSERT(pos > 0 && pos < endpos); return (ppszTable[pos] + (sizeof(UINT) * 2)); };
/*
REVIEW: this is the complete set from ..\common\ctable.h. We use
very few of these. Theoretically, this shouldn't have any impact
on the size of WinHelp (linker should toss all non-used functions).
One alternative would be to create a derived class from the
ctable.h/ctable.cpp in the ..\common directory, and add the
above functions to the derived class.
*/
int AddData(int cb, const void* pdata);
int AddIntAndString(int lVal, PCSTR psz);
int AddString(PCSTR pszString);
int AddString(PCWSTR pszString);
int AddString(PCSTR pszStr1, PCSTR pszStr2);
int AddString(HASH hash, PCSTR psz) {
return AddIntAndString((int) hash, psz); };
int CountStrings(void) const { return endpos - 1; }
void Empty(void);
void FreeMemory(PCSTR psz, int cb);
BOOL GetIntAndString(int* plVal, PSTR pszDst);
int GetInt(int pos) { return *(int *) ppszTable[pos]; }
BOOL GetHashAndString(HASH* phash, PSTR pszDst) {
return GetIntAndString((int*) phash, pszDst); };
BOOL GetHashAndString(HASH* phash, PSTR pszDst, int pos) {
SetPosition(pos);
return GetIntAndString((int*) phash, pszDst); };
PSTR GetHashStringPointer(int pos) { return ppszTable[pos] + sizeof(HASH); };
PSTR GetPointer(int pos) const { return ppszTable[pos]; };
int GetPosition(void) const { return curpos; }
BOOL GetString(PSTR pszDst);
BOOL GetString(PSTR pszDst, int pos) const;
int IsPrimaryStringInTable(PCSTR pszString) const;
int IsSecondaryStringInTable(PCSTR pszString) const;
int IsStringInTable(PCSTR pszString) const;
int IsStringInTable(HASH hash, PCSTR pszString) const;
int IsCSStringInTable(PCSTR pszString) const;
BOOL ReplaceString(PCSTR pszNewString, int pos);
BOOL FASTCALL SetPosition(int pos = 1);
virtual void SortTable(int sortoffset = 0);
void FASTCALL SetSorting(LCID lcid, DWORD fsCompareI = 0, DWORD fsCompare = 0);
void SortTablei(int sortoffset = 0);
PSTR TableMalloc(int cb);
void IncreaseTableBuffer(void);
int IsHashInTable(HASH hash);
__inline PCSTR* GetStringPointers() { return (PCSTR*) ppszTable; }
/*
* Use this for efficient memory allocation for strings that will not
* be freed until the entire CIndex is freed.
*/
__inline PCSTR StrDup(PCSTR psz) { return strcpy(TableMalloc((int)strlen(psz) + 1), psz); }
// Warning! all variables must match hha\ctable.h
PSTR pszBase;
PSTR * ppszTable;
int cbMaxBase;
int cbMaxTable;
int endpos;
int maxpos;
protected:
int curpos;
int CurOffset;
int cbStrings;
int cbPointers;
int SortColumn;
LCID lcid;
DWORD fsCompareI;
DWORD fsCompare;
DWORD fsSortFlags;
int m_sortoffset;
TABLE_FREED_MEMORY* m_pFreed; // pointer to freed memory
int m_cFreedMax; // number of allocated items
int m_cFreedItems; // current number of freed items
// following are used by sort
PSTR pszTmp;
int j, sTmp;
void doSort(int left, int right);
void doLcidSort(int left, int right);
void doSorti(int left, int right);
void InitializeTable();
void Cleanup(void);
};
// retrieves only MBCS strings from the base CTable
// and converts them to Unicode according to the codepage
//
class CWTable : private CTable
{
public:
CWTable( UINT CodePage );
CWTable( int cbStrings, UINT CodePage );
virtual ~CWTable();
// new methods that return Unicode buffers
HRESULT GetStringW( int pos, WCHAR* pwsz, int cch );
HRESULT GetHashStringW( int pos, WCHAR* pwsz, int cch );
inline UINT GetCodePage() { return m_CodePage; }
// stuff from CTable we want to give access to
CTable::CountStrings;
CTable::AddString;
CTable::IsStringInTable;
CTable::AddIntAndString;
CTable::SetSorting;
CTable::SortTable;
CTable::GetInt;
// stuff from CTable that returns the MBCS string--BEWARE!!!
CTable::GetString;
CTable::GetStringPointers;
CTable::GetHashStringPointer;
private:
void _CWTable( UINT CodePage );
UINT m_CodePage;
};
#endif // _CTABLE_INCLUDED