windows-nt/Source/XPSP1/NT/windows/feime/chs/ntgen/basefunc.c
2020-09-26 16:20:57 +08:00

1624 lines
47 KiB
C

/*************************************************
* basefunc.c *
* *
* Copyright (C) 1995-1999 Microsoft Inc. *
* *
*************************************************/
#include <io.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <windows.h>
#include <string.h>
#include <winbase.h>
#include <commdlg.h>
#include "conv.h"
#include "propshet.h"
#define MAX_VALUE_NAME 256
#ifdef UNICODE
TCHAR szCaption[] = {0x8F93, 0x5165, 0x6CD5, 0x751F, 0x6210, 0x5668, 0x0000};
#else
BYTE szCaption[] = "ÊäÈë·¨Éú³ÉÆ÷"
#endif
/**** delete all spaces of string *****/
void DelSpace(LPTSTR szStr)
{
TCHAR szStr1[512];
int len,count=0;
register int i=0;
len = lstrlen(szStr);
do {
if(szStr[i] == 32||szStr[i] == TEXT('\t')) continue;
szStr1[count] = szStr[i];
if(szStr1[count] >= TEXT('A') && szStr1[count] <= TEXT('Z'))
szStr1[count] |= 0x20;
count ++;
} while(i++<len);
szStr1[count] = 0;
lstrcpy(szStr,szStr1);
}
//***** start
int GetEntryString(LPTSTR szSrcStr,
LPTSTR szEntryName,
LPTSTR szDefaultStr,
LPTSTR szGetStr,
DWORD dwLength
)
{
LPTSTR lpStr;
TCHAR szName[256];
GetEntryName(szSrcStr, szName);
lpStr = _tcschr(szSrcStr,TEXT('='));
if(lpStr == NULL)
{
lstrcpy(szGetStr, szDefaultStr);
return TRUE;
}
else if(lstrcmpi(szEntryName, szName) != 0)
{
lstrcpy(szGetStr, szDefaultStr);
return FALSE;
}
else
{
lstrcpy(szGetStr, lpStr+1);
return TRUE;
}
}
int GetEntryInt(LPTSTR szSrcStr,
LPTSTR szEntryName,
int nDefault,
LPINT fnPrivateInt
)
{
LPTSTR lpStr;
TCHAR szName[256];
GetEntryName(szSrcStr, szName);
lpStr = _tcschr(szSrcStr,TEXT('='));
if(lpStr == NULL)
{
*fnPrivateInt = nDefault;
return TRUE;
}
else if( lstrcmpi(szEntryName, szName) != 0)
{
*fnPrivateInt = nDefault;
return FALSE;
}
else
{
lstrcpy(szName, lpStr+1);
*fnPrivateInt = _ttoi(szName);
return TRUE;
}
}
void GetEntryName(LPTSTR szSrcStr, LPTSTR szEntryName)
{
LPTSTR lpStr;
lstrcpy(szEntryName,szSrcStr);
if((lpStr = _tcschr(szEntryName,TEXT('='))) == NULL)
szEntryName[0] = 0;
else
*lpStr = 0;
}
//***** end 95.10.11
BOOL ParseDBCSstr(HWND hWnd,
TCHAR *szInputStr,
LPTSTR szDBCS,
LPTSTR szCodeStr,
LPTSTR szCreateStr,
WORD wMaxCodes)
{
int i, len, nDBCS = 0, nCodes = 0;
TCHAR szStr[512], szTmpStr[256];
#ifdef UNICODE
len = lstrlen(szInputStr);
for(i=0; i<len-1; i++) {
if(szInputStr[i] > 0x100)
nDBCS++;
else
break;
}
#else
len = lstrlen(szInputStr);
for(i=0; i<len-1; i+= 2) {
if( ((UCHAR)szInputStr[i] < 0 || (UCHAR)szInputStr[i] > (UCHAR)0x80) &&
((UCHAR)szInputStr[i+1] >= 0x40 && (UCHAR)szInputStr[i+1] <= (UCHAR)0xfe &&
(UCHAR)szInputStr[i+1] != (UCHAR)0x7f) )
nDBCS += 2;
else
break;
}
#endif
if(nDBCS == 0)
{
/* LoadString(NULL, IDS_NOTEXISTDBCS, szTmpStr, sizeof(szTmpStr));
wsprintf(szStr,"\'%s%lu)",szTmpStr,dwLineNo);
FatalMessage(hWnd,szStr);*/
return -1;
}
lstrncpy(szDBCS,nDBCS,szInputStr);
szDBCS[nDBCS] = 0;
lstrcpy(szStr,&szInputStr[nDBCS]);
trim(szStr);
len = lstrlen(szStr);
if(len > 0)
{
for(i = 0; i<len; i++)
{
if((int)szStr[i] == 32 || szStr[i] == TEXT('\t'))
break;
nCodes++;
}
}
else
nCodes = 0;
if(nCodes > wMaxCodes) {
LoadString(NULL, IDS_DBCSCODELEN, szTmpStr, sizeof(szTmpStr)/sizeof(TCHAR));
#ifdef UNICODE
{
TCHAR UniTmp[] = {0x884C, 0x0000};
wsprintf(szStr, TEXT("\'%ws\'%ws%d!(%ws:%lu)"),
szDBCS,szTmpStr,wMaxCodes,UniTmp,dwLineNo);
}
#else
wsprintf(szStr,"\'%s\'%s%d!(ÐÐ:%lu)",
szDBCS,szTmpStr,wMaxCodes,dwLineNo);
#endif
FatalMessage(hWnd,szStr);
return FALSE;
//szStr[wMaxCodes] = 0;
}
lstrncpy(szCodeStr,nCodes, szStr);
szCodeStr[nCodes] = 0;
DelSpace(szCodeStr);
lstrcpy(szCreateStr,&szStr[nCodes]);
szCreateStr[MAXCODELEN] = 0;
DelSpace(szCreateStr);
return TRUE;
}
/**** delete spaces of string's head and tail *****/
void trim(LPTSTR szStr)
{
register int i=0;
UINT len ;
while(szStr[i] == 32 || szStr[i] == TEXT('\t'))
i++;
lstrcpy(szStr,&szStr[i]);
len = lstrlen(szStr);
if(len == 0) return;
i = 1;
while(szStr[len-i] == 32
|| szStr[len-i] == TEXT('\r')
|| szStr[len-i] == TEXT('\n')
|| szStr[len-i] == TEXT('\t')
|| szStr[len-i] == 0)
i++;
szStr[len-i+1] = 0;
len = lstrlen(szStr);
for(i=0; i<(int)len; i++)
{
if(szStr[i] > 0x100)
continue;
if(szStr[i] >= TEXT('A') && szStr[i] <= TEXT('Z'))
szStr[i] |= 0x20;
}
}
void fnsplit(LPCTSTR szFullPath, LPTSTR szFileName)
{
LPTSTR lpString;
#ifdef UNICODE
if((lpString=wcsrchr(szFullPath,TEXT('\\')))!=NULL)
#else
if((lpString=strrchr(szFullPath,TEXT('\\')))!=NULL)
#endif
lstrcpy(szFileName,lpString+1);
else
lstrcpy(szFileName,szFullPath);
}
BOOL ErrMessage(HANDLE hWnd,LPTSTR lpText)
{
int RetValue;
RetValue = MessageBox(hWnd,
lpText,
szCaption,
MB_ICONEXCLAMATION|MB_YESNO|MB_DEFBUTTON2);
if(RetValue == IDYES)
return TRUE;
else
return FALSE;
}
VOID WarnMessage(HANDLE hWnd,LPTSTR lpText)
{
MessageBox(hWnd,lpText,szCaption,MB_ICONEXCLAMATION|MB_OK);
}
VOID InfoMessage(HANDLE hWnd,LPTSTR lpText)
{
MessageBox(hWnd,lpText,szCaption,MB_ICONINFORMATION|MB_OK);
}
VOID FatalMessage(HANDLE hWnd,LPTSTR lpText)
{
MessageBox(hWnd,lpText,szCaption,MB_ICONSTOP|MB_OK);
}
void lstrncpy(LPTSTR lpDest,int nCount,LPTSTR lpSrc)
{
register int i;
BOOL bEnd = FALSE;
for(i=0; i<nCount; i++) {
if(lpSrc[i] == 0)
bEnd = TRUE;
if(bEnd)
lpDest[i] = 0;
else
lpDest[i] = lpSrc[i];
}
}
void lstrncpy0(LPTSTR lpDest,int nCount,LPTSTR lpSrc)
{
register int i;
BOOL bEnd = FALSE;
for(i=0; i<nCount; i++)
lpDest[i] = lpSrc[i];
}
/**************************************************************************
* HANDLE CreateMapFile(HANDLE hWnd,char *MapFileName)
*
* Purpose: Create a Map file to map named share memory
*
* Inputs: hWnd - parent window's handle
* *MapFileName - pointer to map file name
*
* Returns: MapFileHandle - a handle to the file
* or NULL if failure
*
* Calls: CreateFile, ErrorOut
*
* History:
*
*
\**************************************************************************/
HANDLE CreateMapFile(HANDLE hWnd,TCHAR *MapFileName)
{
HANDLE MapFileHandle;
MapFileHandle= CreateFile(MapFileName,
GENERIC_READ | GENERIC_WRITE,
FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL,
CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL /* | STANDARD_RIGHTS_REQUIRED |
FILE_MAP_WRITE | FILE_MAP_READ */,
NULL);
if (MapFileHandle == (HANDLE)-1)
{
ErrorOut(hWnd,TEXT("CreateFile"));
return(NULL);
}
else
return(MapFileHandle);
}
/**************************************************************************
* HANDLE CreateMap(HANDLE hWnd,HANDLE *FileToBeMapped, char MapName[128] )
*
* Purpose: Create File Mapping object using the open file handle
*
* Inputs: hWnd - parent window's handle
* *FileToBeMapped - pointer to the file handle
*
* Returns: MapHandle - handle to the file mapping object
* or NULL if failure
*
* Calls: CreateFileMapping, ErrorOut
*
* History:
*
*
\**************************************************************************/
HANDLE CreateMap(HANDLE hWnd,HANDLE *FileToBeMapped, TCHAR MapName[128])
{
HANDLE MapHandle;
MapHandle= CreateFileMapping(*FileToBeMapped,
NULL,
PAGE_READWRITE,
0,
4096,
MapName);
if (MapHandle == NULL)
{
ErrorOut(hWnd,TEXT("CreateFileMapping"));
return(NULL);
}
else
return(MapHandle);
}
/**************************************************************************
* LPVOID MapView(HANDLE *hMap)
*
* Purpose: Map the file mapping object into address space
*
* Inputs: *hMap - pointer to the mapping object
*
* Returns: MappedPointer - pointer to the address space that the
* object is mapped into
* or NULL if failure
*
* Calls: MapViewOfFile, ErrorOut
*
* History:
*
*
\**************************************************************************/
LPVOID MapView(HANDLE hWnd,HANDLE *hMap)
{
LPVOID MappedPointer;
MappedPointer= MapViewOfFile(*hMap,
FILE_MAP_WRITE | FILE_MAP_READ,
0,
0,
4096);
if (MappedPointer == NULL)
{
ErrorOut(hWnd,TEXT("MapViewOfFile"));
return(NULL);
}
else
return(MappedPointer);
}
/************************************************************************
* void ErrorOut(HANDLE ghwndMain,char errstring[128])
*
* Purpose: Print out an meainful error code by means of
* GetLastError and printf
*
* Inputs: ghwndMain - WinMain's HANDLE
* errstring - the action that failed, passed by the
* calling proc.
*
* Returns: none
*
* Calls: GetLastError
*
* History:
*
*
\************************************************************************/
void ErrorOut(HANDLE ghwndMain,TCHAR errstring[128])
{
DWORD Error;
TCHAR str[80];
Error= GetLastError();
wsprintf((LPTSTR) str, TEXT("Error on %s = %d\n"), errstring, Error);
MessageBox(ghwndMain, (LPTSTR)str, TEXT("Error"), MB_OK);
}
/*************************************************************************
* HANDLE OpenMap(HANDLE hWnd,char MapName[128])
*
* Purpose: Open the mapping object pointed to by MapName
*
* Inputs: hWnd - parent window's handle
* * MapName - pointer to map file name
*
* Returns: handle to mapped object or NULL if failure
*
* Calls: OpenFileMapping, ErrorOut
*
* History:
*
*
\*************************************************************************/
HANDLE OpenMap(HANDLE hWnd,TCHAR MapName[128])
{
HANDLE hAMap;
hAMap= OpenFileMapping(FILE_MAP_READ | FILE_MAP_WRITE,
TRUE,
MapName);
if (hAMap == NULL)
{
ErrorOut(hWnd,TEXT("OpenFileMapping"));
return(NULL);
}
else
return(hAMap);
}
/*************************************************************************
* HANDLE Create_File(HANDLE hWnd,
LPSTR lpFileName,
DWORD fdwAccess,
DWORD fdwCreate)
*
* Purpose: Open the object pointed to by lpFileName
*
* Inputs: hWnd - parent window's handle
* lpFileName - pointer to file name
* fdwAccess - access(read-write)mode
* fdwCreate - how to create
*
* Returns: handle to object or NULL if failure
*
* History:
*
*
\*************************************************************************/
HANDLE Create_File(HANDLE hWnd,
LPTSTR lpFileName,
DWORD fdwAccess,
DWORD fdwCreate)
{
HANDLE hFile;
TCHAR szStr[256],szStr1[256];
int RetValue;
RetValue=CREATE_ALWAYS;
if(fdwCreate == CREATE_ALWAYS) {
if(_taccess(lpFileName,0)==0) {
LoadString(NULL,IDS_OVERWRITE,szStr, sizeof(szStr)/sizeof(TCHAR));
wsprintf(szStr1,TEXT("\'%s\' %s"),lpFileName,szStr);
RetValue = MessageBox(hWnd,
szStr1,
szCaption,
MB_ICONQUESTION|MB_YESNO|MB_DEFBUTTON2);
if(RetValue != IDYES)
//*if(!SaveFileAs(hWnd,lpFileName))
return (HANDLE)-1;
}
}
else if(fdwCreate == OPEN_EXISTING)
{
if(_taccess(lpFileName,0)) {
/*LoadString(NULL,IDS_FILENOTEXIST,szStr, sizeof(szStr));
wsprintf(szStr1,"\'%s\' %s",lpFileName,szStr);
WarnMessage(hWnd,szStr1);*/
return (HANDLE)-1;
}
}
hFile = CreateFile(lpFileName,fdwAccess,FILE_SHARE_READ,NULL,
fdwCreate,0,NULL);
if (hFile == (HANDLE)-1) {
LoadString(NULL,IDS_FILEOPEN,szStr, sizeof(szStr)/sizeof(TCHAR));
wsprintf(szStr1,TEXT("\'%s\' %s\n"),lpFileName,szStr);
FatalMessage(hWnd,szStr1);
}
return hFile;
}
BOOL SaveFileAs(HWND hwnd, LPTSTR szFilename) {
OPENFILENAME ofn;
TCHAR szFile[256], szFileTitle[256];
static TCHAR *szFilter;
// szFilter = "ËùÓÐÎļþ(*.*)\0\0";
szFilter = TEXT("All files (*.*)\0\0");
lstrcpy(szFile, TEXT("*.*\0"));
ofn.lStructSize = sizeof(OPENFILENAME);
ofn.hwndOwner = hwnd;
ofn.lpstrFilter = szFilter;
ofn.lpstrCustomFilter = (LPTSTR) NULL;
ofn.nMaxCustFilter = 0L;
ofn.nFilterIndex = 0L;
ofn.lpstrFile = szFilename;
ofn.nMaxFile = sizeof(szFile)/sizeof(TCHAR);
ofn.lpstrFileTitle = szFileTitle;
ofn.nMaxFileTitle = sizeof(szFileTitle)/sizeof(TCHAR);
ofn.lpstrInitialDir = NULL;
ofn.lpstrTitle = TEXT("Save file As");
ofn.Flags = OFN_SHOWHELP | OFN_OVERWRITEPROMPT;
ofn.nFileOffset = 0;
ofn.nFileExtension = 0;
ofn.lpstrDefExt = (LPTSTR)NULL;
if (!GetSaveFileName(&ofn))
return 0L;
return 1L;
}
/****************************************************************************
*
* FUNCTION: ProcessCDError(DWORD)
*
* PURPOSE: Processes errors from the conversion functions.
*
* COMMENTS:
*
* This function is called whenever a conversion function
* fails. The string is loaded and displayed for the user.
*
* RETURN VALUES:
* void.
*
* HISTORY:
* 03-04-95 Yehfew Tie Created.
*
****************************************************************************/
void ProcessError(DWORD dwErrorCode, HWND hWnd,DWORD ErrorLevel)
{
WORD wStringID;
TCHAR buf[256];
switch(dwErrorCode)
{
case ERR_MBNAME: wStringID=IDS_MBNAME; break;
case ERR_FILENOTEXIST: wStringID=IDS_FILENOTEXIST; break;
case ERR_FILENOTOPEN: wStringID=IDS_FILEOPEN; break;
case ERR_OUTOFMEMORY: wStringID=IDS_MEMORY; break;
case ERR_GLOBALLOCK: wStringID=IDS_GLOBALLOCK; break;
case ERR_IMEUSE: wStringID=IDS_IMEUSE; break;
case ERR_MAXCODES: wStringID=IDS_MAXCODES; break;
case ERR_ELEMENT: wStringID=IDS_ELEMENT; break;
case ERR_USEDCODE: wStringID=IDS_USEDCODE; break;
case ERR_WILDCHAR: wStringID=IDS_WILDCHAR; break;
case ERR_RULEHEADER: wStringID=IDS_RULEHEAD; break;
case ERR_RULELOGICOPRA: wStringID=IDS_RULELOGIC; break;
case ERR_RULEWORDLEN: wStringID=IDS_RULEWORDLEN; break;
case ERR_RULEEQUAL: wStringID=IDS_RULEEQUAL; break;
case ERR_RULEDIRECTMODE: wStringID=IDS_RULEDIRECT; break;
case ERR_RULEDBCSPOS: wStringID=IDS_RULEDBCSPOS; break;
case ERR_RULECODEPOS: wStringID=IDS_RULECODEPOS; break;
case ERR_NORULE: wStringID=IDS_NORULE; break;
case ERR_NOTDEFRULE: wStringID=IDS_NOTDEFRULE; break;
case ERR_RULENUM: wStringID=IDS_RULENUM; break;
case ERR_DBCSCODE: wStringID=IDS_DBCSCODE; break;
case ERR_CODEUNITNOTEXIST: wStringID=IDS_CODEUNIT; break;
case ERR_CREATECODE: wStringID=IDS_CREATECODE; break;
case ERR_CREATENOTEXIST: wStringID=IDS_CRTCODEEMPTY; break;
case ERR_CODEEMPTY: wStringID=IDS_CODEEMPTY; break;
// case ERR_SINGLECODEWORDDOUBLE: wStringID=IDS_SCODEREP; break;
case ERR_SBCS_IN_DBCS: wStringID=IDS_SBCSINDBCS; break;
case ERR_GB2312NOTENTIRE: wStringID=IDS_GB2312; break;
case ERR_USERWORDLEN: wStringID=IDS_USERWORDLEN; break;
case ERR_WRITEID: wStringID=IDS_WRID; break;
case ERR_WRITEMAININDEX: wStringID=IDS_WRMAININDEX; break;
case ERR_WRITEDESCRIPT: wStringID=IDS_WRDESCRIPT; break;
case ERR_WRITERULE: wStringID=IDS_WRRULE; break;
case ERR_READID: wStringID=IDS_READID; break;
case ERR_READMAININDEX: wStringID=IDS_RDMAININDEX; break;
case ERR_READDESCRIPT: wStringID=IDS_RDDESCRIPT; break;
case ERR_READRULE: wStringID=IDS_RDRULE; break;
case ERR_DESCRIPTSEG: wStringID=IDS_DESCRIPTSEG; break;
case ERR_RULESEG: wStringID=IDS_RULESEG; break;
case ERR_TEXTSEG: wStringID=IDS_TEXTSEG; break;
case ERR_TOOMANYUSERWORD: wStringID=IDS_TOOMANYUSERWORD; break;
case ERR_OVERWRITE: wStringID=IDS_OVERWRITE; break;
case ERR_IMENAMEENTRY: wStringID=IDS_IMENAMEENTRY; break;
case ERR_MAXCODESENTRY: wStringID=IDS_MAXCODESENTRY; break;
case ERR_ELEMENTENTRY: wStringID=IDS_ELEMENTENTRY; break;
case ERR_USEDCODEENTRY: wStringID=IDS_USEDCODEENTRY; break;
case ERR_NUMRULEENTRY: wStringID=IDS_NUMRULESENTRY; break;
case ERR_CONVEND: wStringID=IDS_CONVEND; break;
case ERR_RECONVEND: wStringID=IDS_RECONVEND; break;
case ERR_SORTEND: wStringID=IDS_SORTEND; break;
case ERR_VERSION: wStringID=IDS_VERSIONEMPTY; break;
case ERR_GROUP: wStringID=IDS_GROUP; break;
case 0: //User may have hit CANCEL or we got a *very* random error
return;
default:
wStringID=IDS_UNKNOWNERROR;
}
LoadString(NULL, wStringID, buf, sizeof(buf)/sizeof(TCHAR));
switch(ErrorLevel) {
case INFO:
MessageBox(hWnd, buf, szCaption, MB_OK|MB_ICONINFORMATION);
break;
case WARNING:
MessageBox(hWnd, buf, szCaption, MB_OK|MB_ICONEXCLAMATION);
break;
case ERR:
default:
MessageBox(hWnd, buf, szCaption, MB_OK|MB_ICONSTOP);
break;
}
return;
}
HANDLE IndexReAlloc(HANDLE hMem,LPINT nPages)
{
HANDLE hReMem;
DWORD dwSize;
*nPages++;
dwSize = (DWORD)(*nPages)*GMEM_PAGESIZE*sizeof(WORDINDEX);
GlobalUnlock(hMem);
hReMem = GlobalReAlloc(hMem, dwSize, GMEM_MODIFY|GMEM_MOVEABLE);
return hReMem;
}
BOOL ConvSort(HANDLE hWnd,LPWORDINDEX lpWordIndex,int nCount)
{
int i;
TCHAR szStr[256];
HANDLE hDlgItem;
SetCursor (LoadCursor (NULL, IDC_WAIT));
SetDlgItemText (hWnd,TM_TOTALINFO,TEXT(""));
LoadString (NULL,IDS_TOTALINFO,szStr,sizeof(szStr)/sizeof(TCHAR));
SetDlgItemText (hWnd,TM_TOTAL,szStr);
LoadString(NULL,IDS_SORTWORDS,szStr,sizeof(szStr)/sizeof(TCHAR));
SetDlgItemText (hWnd,TM_CONVINFO,szStr);
SetDlgItemInt (hWnd,TM_TOTALNUM, nCount, FALSE);
i = 0;
SetDlgItemInt (hWnd,TM_CONVNUM,i,FALSE);
InvalidateRect (hWnd,NULL,FALSE);
hDlgItem = GetDlgItem(hWnd, TM_CONVNUM);
for(i=1 ; i<= nCount; i++)
{
searchPos(lpWordIndex, i);
if(i%100 == 0 || i == nCount)
{
SetDlgItemInt (hWnd,TM_CONVNUM,i,FALSE);
InvalidateRect(hDlgItem,NULL,FALSE);
}
}
SetCursor (LoadCursor (NULL, IDC_ARROW));
return TRUE;
}
/******** Quick sort structure function ********/
void qSort(LPWORDINDEX item, DWORD left,DWORD right)
{
int i,j,k,mid;
WORDINDEX MidWord,SwapWord;
if ( left > right ) return;
i=(int)left;
j=(int)right;
mid = (i+j)/2;
MidWord = item[mid];
do {
while( i < (int)right)
{
k = lstrcmpi(MidWord.szCode,item[i].szCode);
if ( ( k > 0 ) || ( k==0 && i< mid ) )
i++;
else
break;
}
while( j > (int)left )
{
k=lstrcmpi(MidWord.szCode,item[j].szCode);
if ( ( k < 0 ) || (k == 0 && j > mid) )
j--;
else
break;
}
if(i <= j) {
SwapWord = item[i];
item[i] = item[j];
item[j] = SwapWord;
i++;
j--;
}
} while(i <= j);
if((int)left < j) qSort(item,left,j);
if(i < (int)right) qSort(item,i,right);
}
/******** Quick sort char function ********/
void qSortChar(LPTSTR item, DWORD left,DWORD right)
{
int i,j,mid;
TCHAR MidChar,SwapChar;
if ( left > right ) return ;
i=(int)left;
j=(int)right;
mid = (i+j)/2;
MidChar = item[mid];
do {
while( ( MidChar > item[i] && i < (int)right)
||(MidChar == item[i] && i != mid) )
i++;
while( (MidChar <item[j] && j > (int)left)
||(MidChar == item[j] && j!=mid) )
j--;
if(i <= j) {
SwapChar = item[i];
item[i] = item[j];
item[j] = SwapChar;
i++;
j--;
}
} while(i <= j);
if((int)left < j) qSortChar(item,left,j);
if(i < (int)right) qSortChar(item,i,right);
}
DWORD EncodeToNo(LPTSTR szDBCS)
{
WORD wCode;
LPENCODEAREA lpEncode;
DWORD dwNo = 0xffffffff, i;
lpEncode = (LPENCODEAREA) GlobalLock(hEncode);
#ifdef UNICODE
wCode = szDBCS[0];
#else
wCode = (WORD)((UCHAR)szDBCS[0])*256 + (WORD)(UCHAR)szDBCS[1];
#endif
for( i = NUMENCODEAREA -1; (long)i>=0; i--) {
if(wCode >= lpEncode[i].StartEncode) {
dwNo = lpEncode[i].PreCount;
dwNo += wCode - lpEncode[i].StartEncode;
break;
}
}
if(dwNo > NUM_OF_ENCODE)
dwNo = 0xffffffff;
GlobalUnlock(hEncode);
return dwNo;
}
DWORD EncodeToGBNo(UCHAR szDBCS[3])
{
DWORD dwNo;
if(szDBCS[0] < 0xa1 || szDBCS[1] < 0xa1 || szDBCS[1] > 0xfe)
{
dwNo = 0xffffffff;
return dwNo;
}
dwNo = (DWORD)(szDBCS[0]-0xa0-16) ;
dwNo = dwNo * 94 + (DWORD)(szDBCS[1]-0xa0-1) - ((dwNo > 39)?5:0);
return dwNo;
}
void NoToEncode(DWORD dwNo,LPBYTE szDBCS, DWORD dwNumArea,
LPENCODEAREA lpEncode)
{
DWORD Value,i;
for( i =dwNumArea-1; (long)i>=0; i--) {
if(dwNo >= lpEncode[i].PreCount) {
Value = dwNo-lpEncode[i].PreCount;
Value += lpEncode[i].StartEncode;
#ifdef UNICODE
szDBCS[0] = (UCHAR)(Value&0xff);
szDBCS[1] = (UCHAR)((Value>>8)&0xff);
#else
szDBCS[0] = (UCHAR)((Value>>8)&0xff);
szDBCS[1] = (UCHAR)(Value&0xff);
#endif
break;
}
}
}
void NoToGB2312Code(DWORD dwNo,LPBYTE szDBCS, DWORD dwNumArea)
{
DWORD Value;
szDBCS[0] = 0;
szDBCS[1] = 0;
if(dwNo > GB2312WORDNUM)
return;
Value = dwNo + ((dwNo >= 3755)?5:0);
szDBCS[0] = (BYTE)(Value/94 +16 +0xa0);
szDBCS[1] = (BYTE)(Value%94 + 0xa1);
}
void RuleToText(LPRULE lpRule, LPTSTR szStr)
{
DWORD dwTemp;
int nCount=0,i;
szStr[0]=TEXT('c');
dwTemp = lpRule->byLogicOpra;
szStr[1]=(dwTemp==0)?TEXT('e'):(dwTemp==1)?TEXT('a'):TEXT('b');
dwTemp = lpRule->byLength;
szStr[2]=(dwTemp<10)?TEXT('0')+(TCHAR)dwTemp:TEXT('a')+(TCHAR)dwTemp-10;
szStr[3]=TEXT('=');
nCount = lpRule->wNumCodeUnits;
for(i=0; i< nCount; i++) {
dwTemp = lpRule->CodeUnit[i].dwDirectMode;
szStr[4+i*4] = (dwTemp==0)?TEXT('p'):TEXT('n');
dwTemp = lpRule->CodeUnit[i].wDBCSPosition;
szStr[4+i*4+1] = (dwTemp<10)?TEXT('0')+(TCHAR)dwTemp:TEXT('a')+(TCHAR)dwTemp-10;
dwTemp = lpRule->CodeUnit[i].wCodePosition;
szStr[4+i*4+2] = (dwTemp<10)?TEXT('0')+(TCHAR)dwTemp:TEXT('a')+(TCHAR)dwTemp-10;
szStr[4+i*4+3] = TEXT('+');
}
szStr[4+4*nCount-1] = 0;
lstrcat(szStr,TEXT("\r\n"));
}
void MoveFileBlock(HANDLE hFile,DWORD dwOffset,DWORD dwSize, DWORD dwDirect)
//** if (dwDirect==0) move block to file begin, else move to file end
{
BYTE Buffer[MAXREADBUFFER];
static BYTE space[MAXREADBUFFER];
DWORD i,dwReadBytes,dwFilePtr;
SetFilePointer(hFile,dwOffset,0,FILE_BEGIN);
if(dwDirect == 0) {
do {
ReadFile(hFile,Buffer,sizeof(Buffer),&dwReadBytes,NULL);
SetFilePointer(hFile, (0-dwReadBytes-dwSize),0,FILE_CURRENT);
WriteFile(hFile,Buffer,dwReadBytes,&dwReadBytes,NULL);
SetFilePointer(hFile, dwSize,0,FILE_CURRENT);
}while(dwReadBytes == MAXREADBUFFER);
SetFilePointer(hFile, 0-dwSize,0,FILE_CURRENT);
for(i=0;i<dwSize;i++)
//#60639 10/18/96
space[i] = (BYTE)0;
WriteFile(hFile,space,dwSize,&dwReadBytes,NULL);
}
else {
dwFilePtr = SetFilePointer(hFile,0,0,FILE_END);
while(dwFilePtr > dwOffset) {
if(dwFilePtr > dwOffset+MAXREADBUFFER)
dwReadBytes = MAXREADBUFFER;
else
dwReadBytes = dwFilePtr - dwOffset;
dwFilePtr = SetFilePointer(hFile,(0-dwReadBytes),0,FILE_CURRENT);
ReadFile(hFile,Buffer,dwReadBytes,&dwReadBytes,NULL);
SetFilePointer(hFile, (dwSize-dwReadBytes),0,FILE_CURRENT);
WriteFile(hFile,Buffer,dwReadBytes,&dwReadBytes,NULL);
SetFilePointer(hFile, (0-dwSize-dwReadBytes),0,FILE_CURRENT);
}
}
}
BOOL Copy_File(LPCTSTR SrcFile,LPCTSTR DestFile)
{
BYTE Buffer[MAXREADBUFFER];
HANDLE hSrcFile, hDestFile;
DWORD dwReadBytes;
hSrcFile = Create_File(GetFocus(),(LPTSTR)SrcFile,GENERIC_READ,OPEN_EXISTING);
hDestFile = CreateFile((LPTSTR)DestFile,GENERIC_WRITE|GENERIC_READ,FILE_SHARE_READ,NULL,OPEN_ALWAYS,0,NULL);
if(hSrcFile == (HANDLE)-1)
return FALSE;
if(hDestFile == (HANDLE)-1)
{
CloseHandle(hSrcFile);
return FALSE;
}
SetFilePointer(hSrcFile,0,0,FILE_BEGIN);
do {
ReadFile(hSrcFile,Buffer,sizeof(Buffer),&dwReadBytes,NULL);
WriteFile(hDestFile,Buffer,dwReadBytes,&dwReadBytes,NULL);
}while(dwReadBytes == MAXREADBUFFER);
CloseHandle(hSrcFile);
CloseHandle(hDestFile);
return TRUE;
}
/****************************************************************************
*
* FUNCTION: CheckCrtData(HANDLE hWnd,
* LPCREATEWORD lpCreateWords,
* LPENCODEAREA lpEncode,
* DWORD dwMaxCodes)
*
* PURPOSE: check whether create word data is entired or not.
*
* RETURN VALUES:
* TRUE or FALSE.
*
* HISTORY:
*
*
****************************************************************************/
BOOL CheckCrtData(HANDLE hWnd,
LPCREATEWORD lpCreateWords,
LPENCODEAREA lpEncode,
DWORD dwMaxCodes)
{
DWORD i;
TCHAR szDBCS[3],szCreate[13];
TCHAR szTemp[128],szTmpStr[128];
BOOL bErr = FALSE;
#ifdef UNICODE
//check CJK Unified Ideograph subset only
for (i=0x250; i< 0x250+NUM_OF_CJK_CHINESE; i++) {
#else
for (i=0; i< NUM_OF_ENCODE ; i++) {
#endif
lstrncpy(szCreate,dwMaxCodes,&lpCreateWords[i*dwMaxCodes]);
szCreate[dwMaxCodes] = 0;
if(lstrlen(szCreate) == 0) {
NoToEncode(i, (LPBYTE)szDBCS, NUMENCODEAREA, lpEncode);
//NoToGB2312Code(i,szDBCS,NUMENCODEAREA);
szDBCS[1] =0; //#62550
LoadString(NULL, IDS_WORDNOTEXIST, szTmpStr, sizeof(szTmpStr)/sizeof(TCHAR));
wsprintf(szTemp,TEXT("\'%s\' %s"),szDBCS,szTmpStr);
if(ErrMessage(hWnd,szTemp))
return FALSE;
bErr = TRUE;
}
}
return (!bErr) ;
}
void DispInfo(HANDLE hWnd,WORD wStrID)
{
TCHAR text[80];
LoadString(NULL,wStrID,text,sizeof(text)/sizeof(TCHAR));
SetDlgItemText(hWnd,TM_TOTALINFO,text);
SetDlgItemText(hWnd,TM_TOTAL,TEXT(""));
SetDlgItemText(hWnd,TM_TOTALNUM,TEXT(""));
SetDlgItemText(hWnd,TM_CONVINFO,TEXT(""));
SetDlgItemText(hWnd,TM_CONVNUM,TEXT(""));
InvalidateRect(hWnd,NULL,FALSE);
}
BOOL WriteEMBToFile(LPCTSTR path_name,LPEMB_Head EMB_Table) {
HANDLE hFile;
DWORD byte_t_write;
TCHAR szStr[256],szStr1[256];
hFile = CreateFile(path_name,GENERIC_WRITE,0,NULL,CREATE_ALWAYS,0,NULL);
if(hFile==INVALID_HANDLE_VALUE) {
LoadString(NULL,IDS_FILEOPEN,szStr, sizeof(szStr)/sizeof(TCHAR));
wsprintf(szStr1,TEXT("\'%s\' %s\n"),path_name,szStr);
FatalMessage(GetFocus(),szStr1);
return(0);
}
WriteFile(hFile,&EMB_Count,sizeof(EMB_Count),&byte_t_write,NULL);
WriteFile(hFile,EMB_Table,EMB_Count*sizeof(EMB_Head), &byte_t_write, NULL);
GlobalUnlock(HmemEMB_Table);
SetEndOfFile(hFile);
CloseHandle(hFile);
return (1);
}
BOOL ReadEMBFromFile(LPCTSTR path_name, LPEMB_Head EMB_Table) {
HANDLE hFile;
DWORD byte_t_write;
hFile = CreateFile(path_name,GENERIC_READ,
FILE_SHARE_READ,NULL,OPEN_ALWAYS,0,NULL);
if(hFile==INVALID_HANDLE_VALUE) {
ProcessError(ERR_IMEUSE, GetFocus(), ERR);
return FALSE;
}
/* if(hFile == INVALID_HANDLE_VALUE) {
ProcessError(ERR_FILENOTOPEN,GetFocus(),ERR);
return(0);
}*/
SetFilePointer(hFile,0,0,FILE_BEGIN);
EMB_Count = 0;
ReadFile(hFile,&EMB_Count,sizeof(EMB_Count),&byte_t_write,NULL);
if(EMB_Count > 1000) {
CloseHandle(hFile);
return (0);
}
HmemEMB_Table = GlobalAlloc(GMEM_DISCARDABLE,(EMB_Count+1)*sizeof(EMB_Head));
EMB_Table = GlobalLock(HmemEMB_Table);
ReadFile(hFile,EMB_Table,EMB_Count*sizeof(EMB_Head), &byte_t_write, NULL);
GlobalUnlock(HmemEMB_Table);
SetEndOfFile(hFile);
CloseHandle(hFile);
return (1);
}
int AddZCItem(LPCTSTR path_name,LPEMB_Head EMB_Table,LPTSTR wai_code,LPTSTR cCharStr) { //string must end by '\0'
int i;
if(EMB_Count >= 1000)
return FALSE;
for(i=0; i<EMB_Count;i++) {
#ifdef UNICODE
if(wcsncmp(wai_code,EMB_Table[i].W_Code,MAXCODELEN) == 0 &&
wcsncmp(cCharStr,EMB_Table[i].C_Char,USER_WORD_SIZE) == 0)
{
return FALSE;
}
if(wcsncmp(wai_code,EMB_Table[i].W_Code,MAXCODELEN) < 0 )
break;
#else
if(strncmp(wai_code,EMB_Table[i].W_Code,MAXCODELEN) == 0 &&
strncmp(cCharStr,EMB_Table[i].C_Char,USER_WORD_SIZE) == 0)
{
return FALSE;
}
if(strncmp(wai_code,EMB_Table[i].W_Code,MAXCODELEN) < 0 )
break;
#endif
}
EMB_Count ++;
memmove(&EMB_Table[i+1],&EMB_Table[i], (EMB_Count-i-1)*sizeof(EMB_Head));
lstrncpy(EMB_Table[i].W_Code,MAXCODELEN,wai_code);
lstrncpy(EMB_Table[i].C_Char,USER_WORD_SIZE,cCharStr);
// GlobalUnlock(HmemEMB_Table);
WriteEMBToFile(path_name,EMB_Table);
return TRUE;
}
void DelSelCU(LPCTSTR path_name,LPEMB_Head EMB_Table, int item) {
memcpy(EMB_Table+item,EMB_Table+item+1,(EMB_Count-item-1)*sizeof(EMB_Head));
EMB_Count --;
WriteEMBToFile(path_name,EMB_Table);
}
/****************************************************************************
*
* FUNCTION: ReadUserWord(HWND hWnd,LPSTR lpFileName,LPDWORD fdwUserWords)
*
* PURPOSE: read user words from file pointed by lpFileName.
*
* INPUTS: hWnd - parent window's handle
* lpFileName - pointer to file name
fdwUserWord - pointer to number of user words
*
* RETURN VALUES:
* TRUE or FALSE.
*
* HISTORY:
*
*
****************************************************************************/
BOOL ReadUserWord(HWND hWnd,LPTSTR lpFileName,LPDWORD fdwUserWords,WORD wMaxCodes)
{
HANDLE hFile;
TCHAR Buffer[MAXREADBUFFER];
DWORD dwReadBytes;
TCHAR szStr[256];
int nRet;
register int i,j;
*fdwUserWords = 0;
hFile = Create_File(hWnd,lpFileName,GENERIC_READ,OPEN_EXISTING);
if (hFile == (HANDLE)-1)
return FALSE;
SendDlgItemMessage(hWnd,IDC_LIST,LB_RESETCONTENT,0,0L);
SetFilePointer(hFile,0,0,FILE_BEGIN);
SetCursor (LoadCursor (NULL, IDC_WAIT));
dwLineNo = 0;
while(ReadFile(hFile,Buffer,MAXREADBUFFER,&dwReadBytes,NULL))
{
lstrcpy(szStr,TEXT(""));
j=0;
dwReadBytes = dwReadBytes/sizeof(TCHAR);
for(i=0;i<(int)dwReadBytes;i++) {
if(Buffer[i] == 0x0d || Buffer[i] == 0xfeff)
continue;
else if(Buffer[i] == TEXT('\n')) {
dwLineNo ++;
szStr[j]=0;
j=0;
if(lstrlen(szStr) == 0) continue;
nRet = CheckUserWord(hWnd,szStr,wMaxCodes);
if(nRet == FALSE) {
CloseHandle(hFile);
SetCursor (LoadCursor (NULL, IDC_ARROW));
return FALSE;
}
else if(nRet == -1)
{
szStr[0]=0;
continue;
}
SendDlgItemMessage(hWnd,IDC_LIST,LB_ADDSTRING,0,(LPARAM)szStr);
(*fdwUserWords)++;
if((*fdwUserWords) >= 1000) {
ProcessError(ERR_TOOMANYUSERWORD,hWnd,WARNING);
CloseHandle(hFile);
SetCursor (LoadCursor (NULL, IDC_ARROW));
return FALSE;
}
szStr[0]=0;
}
else {
szStr[j]=Buffer[i];
j++;
}
} /*** for (i=0;...) ****/
if(j)
SetFilePointer(hFile,0-j,0,FILE_CURRENT);
if(dwReadBytes*sizeof(TCHAR) < MAXREADBUFFER) break;
};
CloseHandle(hFile);
SetCursor (LoadCursor (NULL, IDC_ARROW));
return TRUE;
}
int CheckUserWord(HWND hWnd,LPTSTR szUserWord,WORD wMaxCodes)
{
int retValue;
TCHAR szTemp[256];
TCHAR szDBCS[256],szCode[30];
retValue = ParseDBCSstr(hWnd,szUserWord, szDBCS,szCode,szTemp,wMaxCodes);
if(retValue != TRUE)
return retValue;
if(lstrlen(szDBCS) == 0 || lstrlen(szCode) == 0)
return -1;
else
return retValue;
}
BOOL CheckUserDBCS(HWND hWnd,LPTSTR szDBCS)
{
int nDBCS=0,i;
static TCHAR szTmpStr[256],szTemp[256];
nDBCS=lstrlen(szDBCS);
if(nDBCS == 0)
return FALSE;
#ifndef UNICODE
if(nDBCS%2 == 1) {
MessageBeep((UINT)-1);
for(i=0; i <nDBCS; i += 2) {
if((BYTE)szDBCS[i] < 0x81)
memcpy(&szDBCS[i],&szDBCS[i+1], nDBCS-i);
}
return FALSE;
}
#endif
return TRUE;
}
BOOL CheckCodeLegal(HWND hWnd,LPTSTR szDBCS,LPTSTR szCode,LPTSTR szCreate, LPDESCRIPTION lpDescript)
{
int len = lstrlen(szCode);
int i;
TCHAR szTemp[256],szTmpStr[256];
if(len==0) return TRUE;
if(len > lpDescript->wMaxCodes) {
LoadString(NULL, IDS_DBCSCODELEN, szTmpStr, sizeof(szTmpStr)/sizeof(TCHAR));
#ifdef UNICODE
{
TCHAR UniTmp[] = {0x884C, 0x0000};
wsprintf(szTemp,TEXT("\'%ws\'%ws %d(%ws:%ld)!"), szDBCS,szTmpStr,(int)lpDescript->wMaxCodes, UniTmp, dwLineNo);
}
#else
wsprintf(szTemp,"\'%s\'%s %d(ÐÐ:%ld)!", szDBCS,szTmpStr,(int)lpDescript->wMaxCodes, dwLineNo);
#endif
FatalMessage(hWnd,szTemp);
return FALSE;
}
for(i=0; i<len; i++) {
if(_tcschr(lpDescript->szUsedCode,szCode[i]) == NULL) {
LoadString(NULL, IDS_DBCSCODE, szTmpStr, sizeof(szTmpStr)/sizeof(TCHAR));
#ifdef UNICODE
{
TCHAR UniTmp[] = {0x884C, 0x0000};
wsprintf(szTemp,TEXT("\'%ws%ws\' %ws(%ws:%ld) "), szDBCS,szCode,szTmpStr, UniTmp, dwLineNo);
}
#else
wsprintf(szTemp,"\'%s%s\' %s(ÐÐ:%ld) ", szDBCS,szCode,szTmpStr, dwLineNo);
#endif
FatalMessage(hWnd,szTemp);
return FALSE;
}
}
len = lstrlen(szCreate);
if(lpDescript->byMaxElement == 1 || len == 0)
return TRUE;
for(i=0; i<len; i++) {
if(_tcschr(lpDescript->szUsedCode,szCreate[i]) == NULL) {
LoadString(NULL, IDS_DBCSCODE, szTmpStr, sizeof(szTmpStr)/sizeof(TCHAR));
#ifdef UNICODE
{
TCHAR UniTmp[] = {0x884C, 0x0000};
wsprintf(szTemp, TEXT("\'%ws%ws %ws\' %ws(%ws:%ld) "), szDBCS,szCode,szCreate,szTmpStr, UniTmp, dwLineNo);
}
#else
wsprintf(szTemp,"\'%s%s %s\' %s(ÐÐ:%ld) ", szDBCS,szCode,szCreate,szTmpStr, dwLineNo);
#endif
FatalMessage(hWnd,szTemp);
return FALSE;
}
}
return TRUE;
}
void DelIllegalCode(TCHAR *szCode)
{
static TCHAR collection[48]=
TEXT("`1234567890-=\\[];',./abcdefghijklmnopqrstuvwxyz");
int i,len = lstrlen(szCode), j;
TCHAR szStr[512];
if(len==0)
return ;
j = 0;
for(i=0; i<len;i++)
if(_tcschr(collection,szCode[i]) != NULL)
{
szStr[j] = szCode[i];
j ++;
}
szStr[j] = 0;
lstrcpy(szCode,szStr);
return ;
}
BOOL CheckCodeCollection(HWND hWnd,LPTSTR szUsedCode)
{
static TCHAR collection[48]=
TEXT("`1234567890-=\\[];',./abcdefghijklmnopqrstuvwxyz");
int i,len = lstrlen(szUsedCode);
if(len==0) {
ProcessError(ERR_USEDCODE,hWnd,ERR);
return FALSE;
}
qSortChar(szUsedCode,0,len-1);
for(i=0; i<len-1 ;i++)
{
if(szUsedCode[i] == szUsedCode[i+1]
|| _tcschr(collection,szUsedCode[len-1])== NULL
|| _tcschr(collection,szUsedCode[i])== NULL) {
ProcessError(ERR_USEDCODE,hWnd,ERR);
return FALSE;
}
}
return TRUE;
}
// QueryKey - enumerates the subkeys of a given key and the associated
// values and then copies the information about the keys and values
// into a pair of edit controls and list boxes.
// hDlg - dialog box that contains the edit controls and list boxes
// hKey - key whose subkeys and values are to be enumerated
//
BOOL QueryKey(HWND hDlg, HANDLE hKey)
{
TCHAR achKey[MAX_PATH];
TCHAR achClass[MAX_PATH] = TEXT(""); /* buffer for class name */
DWORD cchClassName = MAX_PATH; /* length of class string */
DWORD cSubKeys; /* number of subkeys */
DWORD cbMaxSubKey; /* longest subkey size */
DWORD cchMaxClass; /* longest class string */
DWORD cValues; /* number of values for key */
DWORD cchMaxValue; /* longest value name */
DWORD cbMaxValueData; /* longest value data */
DWORD cbSecurityDescriptor; /* size of security descriptor */
FILETIME ftLastWriteTime; /* last write time */
DWORD i, j;
DWORD retCode;
DWORD dwcValueName = MAX_VALUE_NAME;
// Get the class name and the value count.
RegQueryInfoKey(hKey, /* key handle */
achClass, /* buffer for class name */
&cchClassName, /* length of class string */
NULL, /* reserved */
&cSubKeys, /* number of subkeys */
&cbMaxSubKey, /* longest subkey size */
&cchMaxClass, /* longest class string */
&cValues, /* number of values for this key */
&cchMaxValue, /* longest value name */
&cbMaxValueData, /* longest value data */
&cbSecurityDescriptor, /* security descriptor */
&ftLastWriteTime); /* last write time */
// Enumerate the child keys, looping until RegEnumKey fails. Then
// get the name of each child key and copy it into the list box.
SetCursor(LoadCursor(NULL, IDC_WAIT));
j = 0;
for (i = 0, retCode = ERROR_SUCCESS;
retCode == ERROR_SUCCESS; i++) {
retCode = RegEnumKey(hKey, i, achKey, MAX_PATH);
if (retCode == (DWORD)ERROR_SUCCESS) {
SendMessage(GetDlgItem(hDlg, IDC_LIST),
LB_ADDSTRING, 0,
(LPARAM)achKey);
}
}
SetCursor(LoadCursor (NULL, IDC_ARROW));
return TRUE;
}
BOOL CreateMbKey(PHKEY phKey,LPCTSTR FileName,LPCTSTR KeyName)
{
HKEY hkResult;
DWORD i;
DWORD Value=1;
#ifdef UNICODE
static TCHAR ValueName[][12]= {
0x7801, 0x8868, 0x6587, 0x4EF6, 0x540D,0x0000,
0x8BCD, 0x8BED, 0x8054, 0x60F3, 0x0000,
0x8BCD, 0x8BED, 0x8F93, 0x5165, 0x0000,
0x9010, 0x6E10, 0x63D0, 0x793A, 0x0000,
0x5916, 0x7801, 0x63D0, 0x793A, 0x0000,
'<','S','P','A','C','E','>', 0x0000,
'<','E','N','T','E','R','>', 0x0000,
0x5149, 0x6807, 0x8DDF, 0x968F, 0x0000
};
#else
static TCHAR ValueName[][12]= {
"Âë±íÎļþÃû",
"´ÊÓïÁªÏë",
"´ÊÓïÊäÈë",
"Öð½¥Ìáʾ",
"ÍâÂëÌáʾ",
"<SPACE>",
"<ENTER>",
"¹â±ê¸úËæ"
};
#endif \\UNICODE
if(!RegOpenKey(*phKey,KeyName,&hkResult))
return FALSE;
if(RegCreateKey(*phKey,KeyName,&hkResult))
return FALSE;
RegSetValueEx(hkResult,ValueName[0],0,REG_SZ,(BYTE*)FileName,(lstrlen(FileName)+1) * sizeof(TCHAR) );
for(i=1;i<6;i++)
RegSetValueEx(hkResult,ValueName[i],0,REG_DWORD,(LPSTR)&Value,sizeof(DWORD));
RegSetValueEx(hkResult,ValueName[7],0,REG_DWORD,(LPSTR)&Value,sizeof(DWORD));
Value = 0;
RegSetValueEx(hkResult,ValueName[5],0,REG_DWORD,(LPSTR)&Value,sizeof(DWORD));
RegSetValueEx(hkResult,ValueName[6],0,REG_DWORD,(LPSTR)&Value,sizeof(DWORD));
RegCloseKey(hkResult);
return TRUE;
}
BOOL SetRegValue(HKEY hKey,LPDWORD Value)
{
DWORD i;
#ifdef UNICODE
static TCHAR ValueName[][12]= {
0x8BCD, 0x8BED, 0x8054, 0x60F3, 0x0000,
0x8BCD, 0x8BED, 0x8F93, 0x5165, 0x0000,
0x9010, 0x6E10, 0x63D0, 0x793A, 0x0000,
0x5916, 0x7801, 0x63D0, 0x793A, 0x0000,
'<','S','P','A','C','E','>', 0x0000,
'<','E','N','T','E','R','>', 0x0000,
0x5149, 0x6807, 0x8DDF, 0x968F, 0x0000
};
#else
static TCHAR ValueName[][12]= {
"´ÊÓïÁªÏë",
"´ÊÓïÊäÈë",
"Öð½¥Ìáʾ",
"ÍâÂëÌáʾ",
"<SPACE>",
"<ENTER>",
"¹â±ê¸úËæ"
};
#endif \\UNICODE
for(i=0;i<7;i++)
RegSetValueEx(hKey,ValueName[i],0,REG_DWORD,(LPSTR)&Value[i],sizeof(DWORD));
return TRUE;
}
BOOL GetRegValue(HWND hDlg,HKEY hKey,LPDWORD Value)
{
#ifdef UNICODE
static TCHAR ValueName[][12]= {
0x8BCD, 0x8BED, 0x8054, 0x60F3, 0x0000,
0x8BCD, 0x8BED, 0x8F93, 0x5165, 0x0000,
0x9010, 0x6E10, 0x63D0, 0x793A, 0x0000,
0x5916, 0x7801, 0x63D0, 0x793A, 0x0000,
'<','S','P','A','C','E','>', 0x0000,
'<','E','N','T','E','R','>', 0x0000,
0x5149, 0x6807, 0x8DDF, 0x968F, 0x0000
};
#else
static TCHAR ValueName[][12]= {
"´ÊÓïÁªÏë",
"´ÊÓïÊäÈë",
"Öð½¥Ìáʾ",
"ÍâÂëÌáʾ",
"<SPACE>",
"<ENTER>",
"¹â±ê¸úËæ"
};
#endif \\UNICODE
DWORD i,j,retValue,dwcValueName;
TCHAR Buf[80];
SetCursor (LoadCursor (NULL, IDC_WAIT));
for (j = 0, retValue = ERROR_SUCCESS; j < 7; j++)
{
dwcValueName = MAX_VALUE_NAME;
i=sizeof(DWORD);
retValue = RegQueryValueEx (hKey, ValueName[j],
NULL,
NULL, //&dwType,
(LPSTR)&Value[j], //&bData,
&i); //&bcData);
if (retValue != (DWORD)ERROR_SUCCESS &&
retValue != ERROR_INSUFFICIENT_BUFFER)
{
wsprintf (Buf, TEXT("Line:%d 0 based index = %d, retValue = %d, ValueLen = %d"),
__LINE__, j, retValue, dwcValueName);
MessageBox (hDlg, Buf, TEXT("Debug"), MB_OK);
}
}// end for(;;)
SetCursor (LoadCursor (NULL, IDC_ARROW));
return TRUE;
}
LPTSTR _tcschr(LPTSTR string, TCHAR c)
{
#ifdef UNICODE
return (wcschr(string, c));
#else
return (strchr(string, c));
#endif
}
LPTSTR _tcsrchr(LPTSTR string, TCHAR c)
{
#ifdef UNICODE
return (wcsrchr(string, c));
#else
return (strrchr(string, c));
#endif
}
LPTSTR _tcsstr(LPTSTR string1, LPTSTR string2)
{
#ifdef UNICODE
return (wcsstr(string1, string2));
#else
return (strstr(string1, string2));
#endif
}
LPTSTR _tcsupr(LPTSTR string)
{
#ifdef UNICODE
return (_wcsupr(string));
#else
return (_strupr(string));
#endif
}
int _ttoi(LPTSTR string)
{
#ifdef UNICODE
return (_wtoi(string));
#else
return (atoi(string));
#endif
}
int _taccess(LPTSTR szFileName, int mode)
{
char szDbcsName[256];
#ifdef UNICODE
WideCharToMultiByte(CP_ACP, WC_COMPOSITECHECK, szFileName, -1, szDbcsName,
sizeof(szDbcsName), NULL, NULL);
#else
lstrcpy(szDbcsName, szFileName);
#endif
return (_access(szDbcsName, mode));
}