/************************************************* * uimetool.c * * * * Copyright (C) 1995-1999 Microsoft Inc. * * * *************************************************/ // // Change log: // define UNIIME identifier // @D03 Fix Bug Use wrong miniime.tpl file name // @D04 Fix Bug Does show error message when invalid table file // @D05 Modified Add UNALIGNED to meet MIPS system // // 1/17/96 // @E01 Change for multi-threading // @E02 Untest DBCS for NT version // @E03 Change for multi-threading without extending function #include // required for all Windows applications #include #include #include "rc.h" // prototypes specific to this application #include "uimetool.h" #include "imeattr.h" #include "imerc.h" #ifdef UNICODE typedef DWORD UNALIGNED FAR *LPUNADWORD; typedef WORD UNALIGNED FAR *LPUNAWORD; typedef TCHAR UNALIGNED FAR *LPUNATCHAR; #else typedef DWORD FAR *LPUNADWORD; typedef WORD FAR *LPUNAWORD; typedef TCHAR FAR *LPUNATCHAR; #define TCHAR BYTE #endif HWND hwndMain; TCHAR szIme_Name[IME_NAME_LEN_TOOL]; TCHAR szTab_Name[MAX_PATH]; TCHAR szKey_Num_Str[KEY_NUM_STR_LEN]; TCHAR szFile_Out_Name[TAB_NAME_LEN]; TCHAR Show_Mess[MAX_PATH]; TCHAR Msg_buf[MAX_PATH]; BOOL bCandBeep; BOOL bOverMaxRadical; //@D02A HCURSOR hCursorWait; HCURSOR hCursorArrow; VALIDCHAR Valid; TABLEFILES Table; UINT uGenericID[]={ IDS_FILEDESCRIPTION_STR, IDS_VER_INTERNALNAME_STR, IDS_PRODUCTNAME_STR, IDS_IMENAME }; #ifdef UNICODE int cntChar = 2; #else int cntChar = 1; #endif UINT idxLine; extern HINSTANCE hInst; UINT SearchMem(BYTE *, UINT, BYTE *, UINT); BOOL Process_Bitmap(HWND, BYTE *, UINT); BOOL Process_Icon(HWND, BYTE *, UINT); BOOL Process_RT(HFILE, BYTE *, UINT, TCHAR *); BOOL WritetoFile(TCHAR *); WORD GetPhrase(UINT, TCHAR *); BOOL Parse(TCHAR *, UINT); BOOL PutRadical(TCHAR, WORD); BOOL PutPhrase(TCHAR *, TCHAR *, UINT); BOOL AllocRadical(); BOOL AllocPhrase(); void ErrMsg(UINT, UINT); void ErrIOMsg(UINT, TCHAR *); void MyFillMemory(TCHAR *dst, DWORD cnt, TCHAR v); void GetOpenFile( HWND hDlg) { OPENFILENAME ofn; TCHAR *pszFilterSpec; TCHAR szFilterSpec[128]; TCHAR szFileOpen[25]; TCHAR szExt[10]; TCHAR szCustFilter[10]; TCHAR szFileName[MAX_PATH]; TCHAR szFilePath[MAX_PATH]; TCHAR szStr[MAX_PATH]; szFileName[0]=0; LoadString (hInst, IDS_FILTERSPEC, szFilterSpec, sizeof(szFilterSpec) / sizeof(TCHAR)); LoadString (hInst, IDS_DEFAULTFILEEXT, szExt, sizeof(szExt) / sizeof(TCHAR)); pszFilterSpec = szFilterSpec; pszFilterSpec += lstrlen(pszFilterSpec) + 1; lstrcpy(pszFilterSpec, szExt); LoadString (hInst, IDS_FILTERSPEC_ALL, szStr, sizeof(szStr) / sizeof(TCHAR)); pszFilterSpec += lstrlen(pszFilterSpec) + 1; lstrcpy(pszFilterSpec,szStr); LoadString (hInst, IDS_ALLFILEEXT, szStr, sizeof(szStr) / sizeof(TCHAR)); pszFilterSpec += lstrlen(pszFilterSpec) + 1; lstrcpy(pszFilterSpec,szStr); pszFilterSpec += lstrlen(pszFilterSpec) + 1; *pszFilterSpec = 0; LoadString (hInst, IDS_OPENTITLE, szFileOpen, sizeof(szFileOpen) / sizeof(TCHAR)); szCustFilter[0] = 0; lstrcpy(&szCustFilter[1], szExt); lstrcpy(szFilePath, szExt); /* fill in non-variant fields of OPENFILENAME struct. */ ofn.lStructSize = sizeof(OPENFILENAME); ofn.hwndOwner = hDlg; ofn.lpstrFilter = szFilterSpec; ofn.lpstrCustomFilter = szCustFilter; ofn.nMaxCustFilter = sizeof(szCustFilter) / sizeof(TCHAR); ofn.nFilterIndex = 1; ofn.lpstrFile = szFilePath; ofn.nMaxFile = MAX_PATH; ofn.lpstrInitialDir = NULL; ofn.lpstrFileTitle = szFileName; ofn.nMaxFileTitle = MAX_PATH; ofn.lpstrTitle = szFileOpen; ofn.lpstrDefExt = szExt + 3; ofn.Flags = OFN_FILEMUSTEXIST | OFN_HIDEREADONLY | OFN_PATHMUSTEXIST; /* call common open dialog and return result */ if(GetOpenFileName ((LPOPENFILENAME)&ofn)) SetDlgItemText(hDlg, IDD_TABLE_NAME, szFilePath); } // <== @E01 //unsigned _stdcall MakeNewImeThread(LPVOID voidparam) void MakeNewImeThread(LPVOID voidparam) // <== @E03 { BOOL bOk; extern HWND hProgMain; extern BOOL bFinish; bOk = MakeNewIme(NULL); if (hProgMain) PostMessage(hProgMain, WM_CLOSE, 0, 0); if (!bOk) bFinish = 0; else bFinish = 1; //return bOk; } // <== @E01 void HideProgress(void) { extern HWND hProgMain; if (hProgMain) ShowWindow(hProgMain, SW_HIDE); } // <== @E01 void ShowProgress(void) { extern HWND hProgMain; if (hProgMain) ShowWindow(hProgMain, SW_SHOWNORMAL); } #define IDM_NEWSHELL 249 void HandleTaskBar_IME( ) { HWND hwndIndicate; TCHAR szIndicator[] = TEXT("Indicator"); // Handle the task bar indicator option. hwndIndicate = FindWindow(szIndicator, NULL); // // See if the indicator is already enabled. // if (hwndIndicate && IsWindow(hwndIndicate)) { SendMessage(hwndIndicate, WM_COMMAND, IDM_NEWSHELL, 0L); } } BOOL MakeNewIme(HWND hWnd) { HFILE hfFile,hfMainFile; BYTE *szImeBuf; TCHAR szBig5[MAX_PATH],szUniCode[MAX_PATH],szGeneric[MAX_PATH]; TCHAR szClass[MAX_PATH]; TCHAR szPure_Name[100]; TCHAR Ime_File_Name[MAX_PATH]; TCHAR Src_File_Name[MAX_PATH]; TCHAR szSystem[MAX_PATH]; UINT uLen,flen,len,unilen,classlen,genericlen; UINT uAddr; int i; // Get Windows System directory uLen = GetSystemDirectory((LPTSTR)szSystem, sizeof(szSystem)); if (szSystem[uLen - 1] != _TEXT('\\')) // consider C:\ ; { szSystem[uLen ++] = _TEXT('\\'); szSystem[uLen] = 0; } //--------------------------------------------------------------------------- // Check input data //--------------------------------------------------------------------------- //let Pure_Name be without .ime name, this is prevent user to input .ime for(i = 0; i < (int)lstrlen(szFile_Out_Name); i++) { if(szFile_Out_Name[i] == _TEXT('.')) break; szPure_Name[i] = szFile_Out_Name[i]; } szPure_Name[i] = 0; //end of string if(szPure_Name[0] == 0) { ErrMsg(IDS_ERR_INPUTIME, 0); return FALSE; //do nothing because didnt set ok } //limit it length <= 8 if(lstrlen(szPure_Name) > 8) szPure_Name[8] = 0; //Check if is reserved name miniime if(!lstrcmp(SOURCE_IME_NAME, szPure_Name)) { //is with reserved file name for .ime ErrMsg(IDS_ERR_USE_RESERVE, 0); return FALSE; } //Check input IME Name len = lstrlen(szIme_Name); #ifdef UNICODE if(len < 2) szIme_Name[1] = 0x3000; szIme_Name[2]=0; { char fname[MAX_PATH * 2]; int lenx = lstrlen(szTab_Name); WideCharToMultiByte(950, WC_COMPOSITECHECK, szTab_Name, lenx, (LPSTR)fname, lenx, NULL, NULL); fname[lenx] = 0; hfMainFile=_lopen(fname, OF_READ); } #else if(len < 4) { szIme_Name[2] = (BYTE) 0xa1; szIme_Name[3] = (BYTE) 0x40; } szIme_Name[4]=0; hfMainFile=_lopen(szTab_Name, OF_READ); #endif if(hfMainFile==-1) { ErrIOMsg(IDS_ERR_FILEOPEN, szTab_Name); return FALSE; } //--------------------------------------------------------------------------- // Read Base IME file - miniime.tpl //--------------------------------------------------------------------------- lstrcpy(Src_File_Name, szSystem); //System directory lstrcat(Src_File_Name, LIBRARY_NAME); #ifdef UNICODE { char fname[MAX_PATH * 2]; int len = lstrlen(Src_File_Name); // <== @D03 WideCharToMultiByte(950, WC_COMPOSITECHECK, Src_File_Name, len, (LPSTR)fname, len, NULL, NULL); fname[len] = 0; hfFile=_lopen(fname,OF_READ); } #else hfFile=_lopen(Src_File_Name, OF_READ); #endif if(hfFile==-1) { ErrIOMsg(IDS_ERR_FILEOPEN, Src_File_Name); _lclose(hfMainFile); return TRUE; // Can not continue } flen=_llseek(hfFile, 0L, 2); // get file length // Allocate Memory szImeBuf = (BYTE *)GlobalAlloc(GMEM_FIXED, flen); if(!szImeBuf) { ErrMsg(IDS_ERR_MEMORY, 0); _lclose(hfMainFile); return TRUE; // Can not continue } _llseek(hfFile, 0L, 0); //set to beginning if(flen != _lread(hfFile,szImeBuf,flen)) { ErrIOMsg(IDS_ERR_FILEREAD, Src_File_Name); _lclose(hfMainFile); GlobalFree((HGLOBAL)szImeBuf); return TRUE; // Can not continue } _lclose(hfFile); //--------------------------------------------------------------------------- // Search string and Patch them //--------------------------------------------------------------------------- // Translate input IME name to Unicod to instead of generic string LoadString(hInst, IDS_IMENAME, szBig5, sizeof(szBig5) / sizeof(TCHAR)); len = lstrlen(szBig5); #ifdef UNICODE lstrcpy(szUniCode, szBig5); unilen = len; #else unilen=MultiByteToWideChar(950, MB_PRECOMPOSED, szBig5, len, (LPWSTR)szUniCode, len); #endif lstrcpy(szBig5, szIme_Name); len=lstrlen(szBig5); #ifdef UNICODE lstrcpy(szGeneric, szBig5); genericlen = lstrlen(szBig5); #else for(i = len; i < (int)(len+unilen-2); i++) szBig5[i] = ' '; szBig5[i] = 0; len = lstrlen(szBig5); genericlen = MultiByteToWideChar(950, MB_PRECOMPOSED, szBig5, len, (LPWSTR)szGeneric, len); genericlen *= 2; #endif // Process Generic string #ifdef UNICODE for(i=0; i<(sizeof(uGenericID)/sizeof(UINT)); i++) { LoadString(hInst, uGenericID[i], szBig5, sizeof(szBig5) / sizeof(TCHAR)); len=lstrlen(szBig5); uAddr=SearchMem((LPSTR)szBig5, len * 2, szImeBuf, flen); if(uAddr == 0) { continue; } else if ( i == 0 ) { // this is for IDS_FILEDESCRIPTION_STR, // We just replace the first two Chinese Characters // and keep the rest. CopyMemory(&szImeBuf[uAddr], szGeneric,genericlen*2 ); } else CopyMemory(&szImeBuf[uAddr], szGeneric, (genericlen + 1) * 2); } #else for(i=0; i<(sizeof(uGenericID)/sizeof(UINT)); i++) { LoadString(hInst, uGenericID[i], szBig5, sizeof(szBig5) / sizeof(TCHAR)); len=lstrlen(szBig5); unilen=MultiByteToWideChar(950, MB_PRECOMPOSED, szBig5, len, (LPWSTR)szUniCode, len); uAddr=SearchMem(szUniCode, unilen*2, szImeBuf, flen); if(uAddr == 0) { // ErrMsg(IDS_ERR_BASEIME, 0); // _lclose(hfMainFile); // GlobalFree((HGLOBAL)szImeBuf); // return TRUE; continue; } CopyMemory(&szImeBuf[uAddr], szGeneric, genericlen); } #endif // Process LIBERAY NAME { TCHAR szLibName[MAX_PATH]; int liblen; LoadString(hInst, IDS_LIBERARY_NAME, szLibName, sizeof(szLibName) / sizeof(TCHAR)); liblen = lstrlen(szLibName); #ifdef UNICODE { char name[MAX_PATH * 2]; WideCharToMultiByte(950, WC_COMPOSITECHECK, szLibName, liblen, (LPSTR)name, liblen, NULL, NULL); uAddr=SearchMem((LPSTR)name, liblen, szImeBuf, flen); } #else uAddr=SearchMem((LPSTR)szLibName, liblen, szImeBuf, flen); #endif if(uAddr == 0) { ErrMsg(IDS_ERR_BASEIME, 0); _lclose(hfMainFile); GlobalFree((HGLOBAL)szImeBuf); return TRUE; } lstrcpy(szLibName, szPure_Name); len=lstrlen(szPure_Name); szLibName[liblen-4] = 0; for(i=len; ibmiHeader.biBitCount; i++) nColor*=2; nHead=sizeof(BITMAPINFOHEADER)+nColor*sizeof(RGBQUAD); bmif=(BITMAPINFO *)GlobalAlloc(LMEM_FIXED, nHead); if(!bmif) { UnlockResource(hMem); FreeResource(hMem); ErrMsg(IDS_ERR_BASEIME, 0); return FALSE; } CopyMemory(bmif, lpBitmap, nHead); UnlockResource(hMem); FreeResource(hMem); // Create a Memory DC, and load bitmap to it hDC = GetDC(hWnd); hMemDC = CreateCompatibleDC(hDC); hBitmap = LoadBitmap(hInst, MAKEINTRESOURCE(IDBM_CMODE_NATIVE)); ReleaseDC(hWnd, hDC); hOldBitmap = SelectObject(hMemDC, hBitmap); // Select 16 point size font hOldFont = GetCurrentObject(hMemDC, OBJ_FONT); GetObject(hOldFont, sizeof(lfFont), &lfFont); lfFont.lfWeight=400; lfFont.lfHeight=-16; lfFont.lfWidth = 8; lfFont.lfOutPrecision= OUT_TT_ONLY_PRECIS; lfFont.lfPitchAndFamily = DEFAULT_PITCH|FF_DONTCARE; LoadString(hInst, IDS_FONT_NAME, szFont, sizeof(szFont) / sizeof(TCHAR)); lstrcpy(lfFont.lfFaceName, szFont); SelectObject(hMemDC, CreateFontIndirect(&lfFont)); // Set color SetTextColor(hMemDC, RGB(0x80, 0x00, 0x00)); // Dark red SetBkColor(hMemDC, RGB(0xC0, 0xC0, 0xC0)); // Light gray // Set rectangle, and write IME name 1st DBCS to Memory DC rect.left=3; rect.top=3; rect.right=rect.left-lfFont.lfHeight; rect.bottom=rect.top-lfFont.lfHeight; ExtTextOut(hMemDC, rect.left, rect.top, ETO_OPAQUE, &rect, szIme_Name, (cntChar == 2) ? 1 : 2, NULL); // Allocate bitmap buffer nBitmap=(UINT)bmif->bmiHeader.biSizeImage; lpBitmap=(BYTE *)GlobalAlloc(LMEM_FIXED, nBitmap); if(!lpBitmap) { GlobalFree((HGLOBAL)bmif); DeleteObject(SelectObject(hMemDC, hOldFont)); DeleteObject(SelectObject(hMemDC, hOldBitmap)); DeleteDC(hMemDC); ErrMsg(IDS_ERR_BASEIME, 0); return FALSE; } // Get Device Independent bitmap from Memory DC GetDIBits(hMemDC, hBitmap, 0, bmif->bmiHeader.biHeight, lpBitmap, bmif, DIB_RGB_COLORS); CopyMemory(&szImeBuf[uAddr], bmif, nHead); CopyMemory(&szImeBuf[uAddr+nHead], lpBitmap, nBitmap); DeleteObject(SelectObject(hMemDC, hOldFont)); DeleteObject(SelectObject(hMemDC, hOldBitmap)); DeleteDC(hMemDC); GlobalFree((HGLOBAL)bmif); GlobalFree((HGLOBAL)lpBitmap); return TRUE; } #define ENBOLD_ICONSIZE 24 BOOL UpdateMiniIMEIcon( HWND hWnd, LPBYTE lpbMiniImeFileImage, UINT uLen, int nIconID) { UINT uAddr; LPBITMAPINFOHEADER lpbmIconInfoHeader; DWORD dwHeaderSize; HDC hMemDC; HBITMAP hBitmap, hOldBitmap; LPVOID lpBitmap, lpBitmap_Section; DWORD dwBitmap; { HRSRC hResIcon; DWORD dwSize; LPBITMAPINFOHEADER lpResIcon; hResIcon = LoadResource(hInst, FindResource(hInst, MAKEINTRESOURCE(nIconID), RT_ICON)); if (!hResIcon) { HideProgress(); // <== @E01 MessageBox(NULL, _TEXT("Load icon fail !"), _TEXT("Bug"), MB_OK | MB_SETFOREGROUND ); return (FALSE); } dwSize = SizeofResource(hInst, hResIcon); uAddr = 0; lpResIcon = LockResource(hResIcon); if (!lpResIcon) { goto UpdateIconFreeRes; } uAddr = SearchMem((LPBYTE)lpResIcon, dwSize, lpbMiniImeFileImage, uLen); if (uAddr) { DWORD nColors; if (lpResIcon->biBitCount != 24) { UINT i; for (nColors = 1, i = 0; i < lpResIcon->biBitCount; i++) { nColors *= 2; } } else { // no RGBQUAD for 24 bit per pixel format nColors = 0; } dwHeaderSize = lpResIcon->biSize + nColors * sizeof(RGBQUAD); lpbmIconInfoHeader = (LPBITMAPINFOHEADER)GlobalAlloc(GMEM_FIXED, dwHeaderSize); if (lpbmIconInfoHeader) { CopyMemory(lpbmIconInfoHeader, lpResIcon, dwHeaderSize); lpbmIconInfoHeader->biHeight /= 2; dwBitmap = (lpbmIconInfoHeader->biWidth + 7) / 8 * lpbmIconInfoHeader->biHeight * lpResIcon->biBitCount; } else { uAddr = 0; } lpBitmap = GlobalAlloc(GMEM_FIXED, dwBitmap); if (!lpBitmap) { uAddr = 0; } } UnlockResource(hResIcon); UpdateIconFreeRes: FreeResource(hResIcon); if (uAddr == 0) { return (FALSE); } } { HDC hDC; // create a memory DC hDC = GetDC(hWnd); hMemDC = CreateCompatibleDC(hDC); ReleaseDC(hWnd, hDC); } hBitmap = CreateDIBSection(hMemDC, (LPBITMAPINFO)lpbmIconInfoHeader, DIB_RGB_COLORS, &lpBitmap_Section, NULL, 0); hOldBitmap = SelectObject(hMemDC, hBitmap); { HFONT hOldFont; LOGFONT lfFont; RECT rcRect; POINT ptOffset; rcRect.left = rcRect.top = 0; // biHeight - 1, biHeight is not including rcRect.right = rcRect.bottom = lpbmIconInfoHeader->biHeight; hOldFont = GetCurrentObject(hMemDC, OBJ_FONT); GetObject(hOldFont, sizeof(lfFont), &lfFont); if (lpbmIconInfoHeader->biHeight >= ENBOLD_ICONSIZE) { lfFont.lfHeight = ((rcRect.bottom - rcRect.top) - 4 - 2) * (-1); ptOffset.x = 4; ptOffset.y = 3; } else if (lpbmIconInfoHeader->biHeight >= 22) { lfFont.lfHeight = ((rcRect.bottom - rcRect.top) - 4) * (-1); ptOffset.x = 3; ptOffset.y = 3; } else if (lpbmIconInfoHeader->biHeight >= 18) { lfFont.lfHeight = ((rcRect.bottom - rcRect.top) - 3) * (-1); ptOffset.x = 3; ptOffset.y = 3; } else { lfFont.lfHeight = ((rcRect.bottom - rcRect.top) - 4) * (-1); ptOffset.x = 3; ptOffset.y = 3; } lfFont.lfWidth = 0; lfFont.lfWeight = 100; lfFont.lfOutPrecision = OUT_TT_ONLY_PRECIS; lfFont.lfPitchAndFamily = DEFAULT_PITCH|FF_DONTCARE; lfFont.lfFaceName[0] = '\0'; LoadString(hInst, IDS_FONT_NAME, lfFont.lfFaceName, sizeof(lfFont.lfFaceName) / sizeof(TCHAR)); hOldFont = SelectObject(hMemDC, CreateFontIndirect(&lfFont)); SetBkColor(hMemDC, RGB(0xC0, 0xC0, 0xC0)); // light gray // write 1st DBCS to memory DC for shadow SetTextColor(hMemDC, RGB(0xFF, 0xFF, 0xFF)); // white ExtTextOut(hMemDC, rcRect.left + ptOffset.x, rcRect.top + ptOffset.y, ETO_OPAQUE, &rcRect, szIme_Name, (cntChar == 2) ? 1 : 2, NULL); // write 1st DBCS to memory DC SetTextColor(hMemDC, RGB(0x00, 0x00, 0xFF)); // blue SetBkMode(hMemDC, TRANSPARENT); ptOffset.x -= 1; ptOffset.y -= 1; ExtTextOut(hMemDC, rcRect.left + ptOffset.x, rcRect.top + ptOffset.y, ETO_CLIPPED, &rcRect, szIme_Name, (cntChar == 2) ? 1 : 2, NULL); // write 1st DBCS to memory DC to enbold it if (lpbmIconInfoHeader->biHeight > ENBOLD_ICONSIZE) { ptOffset.x -= 1; ExtTextOut(hMemDC, rcRect.left + ptOffset.x, rcRect.top + ptOffset.y, ETO_CLIPPED, &rcRect, szIme_Name, (cntChar == 2) ? 1 : 2, NULL); } SelectObject(hMemDC, GetStockObject(NULL_BRUSH)); SelectObject(hMemDC, GetStockObject(BLACK_PEN)); Rectangle(hMemDC, rcRect.left, rcRect.top, rcRect.right, rcRect.bottom); rcRect.right = rcRect.bottom = lpbmIconInfoHeader->biHeight - 1; MoveToEx(hMemDC, rcRect.left, rcRect.top + 1, NULL); LineTo(hMemDC, rcRect.left + 2, rcRect.top + 1); MoveToEx(hMemDC, rcRect.right, rcRect.top + 1, NULL); LineTo(hMemDC, rcRect.right - 2, rcRect.top + 1); MoveToEx(hMemDC, rcRect.left, rcRect.bottom - 1, NULL); LineTo(hMemDC, rcRect.left + 2, rcRect.bottom - 1); MoveToEx(hMemDC, rcRect.right, rcRect.bottom - 1, NULL); LineTo(hMemDC, rcRect.right - 2, rcRect.bottom - 1); GetDIBits(hMemDC, hBitmap, 0, lpbmIconInfoHeader->biHeight, lpBitmap, (LPBITMAPINFO)lpbmIconInfoHeader, DIB_RGB_COLORS); CopyMemory(&lpbMiniImeFileImage[uAddr + dwHeaderSize], lpBitmap, dwBitmap); } DeleteObject(SelectObject(hMemDC, hOldBitmap)); DeleteObject(hMemDC); GlobalFree((HGLOBAL)lpbmIconInfoHeader); GlobalFree((HGLOBAL)lpBitmap); return (TRUE); } BOOL Process_Icon( HWND hWnd, LPBYTE lpbMiniImeFileImage, UINT uLen) { HRSRC hResIcon; LPVOID lpResIcon; int nIconID32, nIconID16, nIconID18, nIconID22; // Get Icon from resource, use to find base IME Icon address hResIcon = LoadResource(hInst, FindResource(hInst, MAKEINTRESOURCE(IDIC_IME_ICON), RT_GROUP_ICON)); if ( hResIcon == NULL ) return FALSE; lpResIcon = LockResource(hResIcon); if ( lpResIcon == NULL ) { FreeResource(hResIcon); return FALSE; } nIconID32 = LookupIconIdFromDirectoryEx(lpResIcon, TRUE, 32, 32, LR_DEFAULTCOLOR); nIconID16 = LookupIconIdFromDirectoryEx(lpResIcon, TRUE, 16, 16, LR_DEFAULTCOLOR); nIconID18 = LookupIconIdFromDirectoryEx(lpResIcon, TRUE, 18, 18, LR_DEFAULTCOLOR); nIconID22 = LookupIconIdFromDirectoryEx(lpResIcon, TRUE, 22, 22, LR_DEFAULTCOLOR); UnlockResource(hResIcon); FreeResource(hResIcon); if (!UpdateMiniIMEIcon(hWnd, lpbMiniImeFileImage, uLen, nIconID32)) { return (FALSE); } if (!UpdateMiniIMEIcon(hWnd, lpbMiniImeFileImage, uLen, nIconID16)) { return (FALSE); } if (!UpdateMiniIMEIcon(hWnd, lpbMiniImeFileImage, uLen, nIconID18)) { return (FALSE); } if (!UpdateMiniIMEIcon(hWnd, lpbMiniImeFileImage, uLen, nIconID22)) { return (FALSE); } return (TRUE); } BOOL Process_RT(HFILE hfFile, BYTE *szImeBuf, UINT Imelen, TCHAR *szPure_Name) { HGLOBAL hResData; TCHAR szStr[MAX_CHAR_NUM+10]; TCHAR *szBuf; UINT uAddr1,uAddr2; UINT len,flen,i; #ifdef UNICODE BOOL bUniCode = TRUE; TCHAR *buf; #endif LPVALIDCHAR lpValidChar; // load valid char in choose/input state hResData = LoadResource(hInst, FindResource(hInst, MAKEINTRESOURCE(IDRC_VALIDCHAR), RT_RCDATA)); if ( hResData == NULL ) { return FALSE; } lpValidChar = (LPVALIDCHAR)LockResource(hResData); if ( lpValidChar == NULL ) { FreeResource(hResData); return FALSE; } *(LPVALIDCHAR)&Valid = *lpValidChar; UnlockResource(hResData); FreeResource(hResData); uAddr1 = SearchMem((BYTE *)&Valid, sizeof(VALIDCHAR), szImeBuf, Imelen); if(uAddr1 == 0) { ErrMsg(IDS_ERR_BASEIME, 0); return FALSE; } // IME table files hResData = LoadResource(hInst, FindResource(hInst, MAKEINTRESOURCE(IDRC_TABLEFILES), RT_RCDATA)); if ( hResData == NULL ) return FALSE; *(LPTABLEFILES)&Table = *(LPTABLEFILES)LockResource(hResData); UnlockResource(hResData); FreeResource(hResData); uAddr2 = SearchMem((BYTE *)&Table, sizeof(TABLEFILES), szImeBuf, Imelen); if(uAddr2 == 0) { ErrMsg(IDS_ERR_BASEIME, 0); return FALSE; } // get file length flen = _llseek(hfFile, 0L, 2); // Allocate Memory szBuf = (TCHAR *)GlobalAlloc(GMEM_FIXED, flen); if(!szBuf) { ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } #ifdef UNICODE _llseek(hfFile,0L,0); // Skip 'FF FE' { BYTE ubuf[3]; if(2 != _lread(hfFile, ubuf, 2)) { GlobalFree((HGLOBAL)szBuf); ErrIOMsg(IDS_ERR_FILEREAD, szTab_Name); return FALSE; } if(ubuf[0] == 0xff && ubuf[1] == 0xfe) // UNICODE flen -= 2; else { _llseek(hfFile, 0L, 0); bUniCode = 0; } } #else _llseek(hfFile,0L,0); // Move file pointer to begining #endif // Read file to memory if(flen != _lread(hfFile, szBuf, flen)) { GlobalFree((HGLOBAL)szBuf); ErrIOMsg(IDS_ERR_FILEREAD, szTab_Name); return FALSE; } #ifdef UNICODE if(!bUniCode) { buf = (TCHAR *)GlobalAlloc(GMEM_FIXED, flen * 2); if(!buf) { GlobalFree((HGLOBAL)szBuf); ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } i = MultiByteToWideChar(950, MB_PRECOMPOSED, (BYTE *)szBuf, flen, (LPTSTR)buf, flen); GlobalFree((HGLOBAL)szBuf); szBuf = buf; flen = i * 2; } #endif // Allocate global memory hRadical = GlobalAlloc(GMEM_MOVEABLE, ALLOCBLOCK * sizeof(RADICALBUF)); if(!hRadical) { GlobalFree((HGLOBAL)szBuf); ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } nRadicalBuffsize = ALLOCBLOCK; iRadicalBuff = 0; lpRadical = (LPRADICALBUF)GlobalLock(hRadical); if(!lpRadical) { GlobalFree((HGLOBAL)szBuf); GlobalFree(hRadical); ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } hPhrase = GlobalAlloc(GMEM_MOVEABLE, ALLOCBLOCK * sizeof(PHRASEBUF)); if(!hPhrase) { GlobalFree((HGLOBAL)szBuf); GlobalUnlock(hRadical); GlobalFree(hRadical); ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } nPhraseBuffsize = ALLOCBLOCK; iPhraseBuff = 0; lpPhrase = (LPPHRASEBUF)GlobalLock(hPhrase); if(!lpPhrase) { GlobalFree((HGLOBAL)szBuf); GlobalUnlock(hRadical); GlobalFree(hRadical); GlobalFree(hPhrase); ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } len=0; idxLine = 0; for(i = 0; i < (flen/cntChar+1); i++) { if((szBuf[i] == 0x0d) || (szBuf[i] == 0x0a)) { if(len != 0) { if(!Parse(szStr, len)) break; len=0; idxLine ++; } continue; } if((szBuf[i] == 0x1a) || (i == flen/cntChar)) { if(len != 0) { if(!Parse(szStr, len)) break; } break; } if(len < MAX_CHAR_NUM) szStr[len ++] = szBuf[i]; } GlobalFree((HGLOBAL)szBuf); if(!WritetoFile(szPure_Name)) { GlobalUnlock(hRadical); GlobalUnlock(hPhrase); GlobalFree(hRadical); GlobalFree(hPhrase); return FALSE; } GlobalUnlock(hRadical); GlobalUnlock(hPhrase); GlobalFree(hRadical); GlobalFree(hPhrase); // Set Beep for candidates status Valid.fwProperties1 = (WORD)(bCandBeep ? 0 : 1); CopyMemory(&szImeBuf[uAddr1], &Valid, sizeof(VALIDCHAR)); CopyMemory(&szImeBuf[uAddr2], &Table, sizeof(TABLEFILES)); return TRUE; } int __cdecl subComp(const void *Pointer1, const void *Pointer2) { LPRADICALBUF lpRadical1 = (LPRADICALBUF)Pointer1; LPRADICALBUF lpRadical2 = (LPRADICALBUF)Pointer2; WORD wWord1,wWord2; UINT i; for(i = 0; i < Valid.nMaxKey; i++) { wWord1 = Valid.wChar2SeqTbl[lpRadical1->szRadical[i] - 0x20]; wWord2 = Valid.wChar2SeqTbl[lpRadical2->szRadical[i] - 0x20]; if(wWord1 == wWord2) continue; if(wWord1 > wWord2) return 1; else return -1; } return 0; } BOOL WritetoFile( TCHAR *szPure_Name) { HFILE hTbl,hTblPtr,hTblCode; HANDLE hKey; UCHAR *szKey; UCHAR szPtr[MAX_CHAR_NUM+10]; TCHAR szWindows[MAX_PATH]; TCHAR szFName[MAX_PATH]; TCHAR szTotal[MAX_CHAR_NUM]; UCHAR szPhrase[MAX_CHAR_NUM]; UINT len, i, j, k, l; UINT nKey,nPtr,nBit,nByte; WORD wlen,wTotalLen; WORD wSeq; WORD wWord; DWORD dwRadical; BOOL bPhrase; UINT nAlloc; #ifdef UNICODE DWORD lPtrlen,lPrevlen; UINT ii; #else WORD wPtrlen,wPrevlen; #endif // Get System directory len = GetSystemDirectory((LPTSTR)szWindows, sizeof(szWindows)); if (szWindows[len - 1] != '\\') { // consider C:\ ; szWindows[len++] = '\\'; szWindows[len] = 0; } Valid.nMaxKey=szKey_Num_Str[0] - _TEXT('0'); j=(UINT)Valid.nSeqCode; if(j < 1) { ErrMsg(IDS_ERR_NORADICAL, 0); return FALSE; } for(nBit=1; (j/=2) != 0; nBit++) ; nByte=(nBit * Valid.nMaxKey + 7) / 8; if(nByte > MAX_BYTE) { TCHAR szErrStr[MAX_PATH]; TCHAR szShowMsg[MAX_PATH]; UINT nMaxKey; nMaxKey=(MAX_BYTE*8)/nBit; HideProgress();// <== @E01 LoadString(hInst, IDS_ERR_OVER_BITLEN, szErrStr, sizeof(szErrStr) / sizeof(TCHAR)); wsprintf(szShowMsg, szErrStr, Valid.nSeqCode, nMaxKey); MessageBox(NULL, szShowMsg, NULL, MB_OK | MB_ICONEXCLAMATION | MB_SETFOREGROUND); bOverMaxRadical=TRUE; return FALSE; } qsort(lpRadical, iRadicalBuff, sizeof(RADICALBUF), subComp); // Allocate Memory nAlloc=ALLOCBLOCK*(nByte+sizeof(WORD)); hKey = GlobalAlloc(GMEM_MOVEABLE, nAlloc+100); if(!hKey) { ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } szKey = GlobalLock(hKey); if(!szKey) { GlobalFree(hKey); ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } nKey=nByte+sizeof(WORD); ZeroMemory(szKey, nKey); ZeroMemory(szPtr, nKey); //@D02A nPtr=0; bPhrase=FALSE; for(i=0; i 5) len=5; CopyMemory(Table.szTblFile[0], szPure_Name, len * cntChar); Table.szTblFile[0][len]=0; lstrcpy(Table.szTblFile[1], Table.szTblFile[0]); lstrcpy(Table.szTblFile[2], Table.szTblFile[0]); lstrcat(Table.szTblFile[0], _TEXT(".TBL")); lstrcat(Table.szTblFile[1], _TEXT("PTR.TBL")); lstrcat(Table.szTblFile[2], _TEXT("PHR.TBL")); lstrcpy(szFName, szWindows); lstrcat(szFName, Table.szTblFile[0]); #ifdef UNICODE { char fname[MAX_PATH * 2]; int lenx = lstrlen(szFName); WideCharToMultiByte(950, WC_COMPOSITECHECK, szFName, lenx, (LPSTR)fname, lenx, NULL, NULL); fname[lenx] = 0; hTbl=_lcreat(fname, 0); } #else hTbl=_lcreat(szFName, 0); #endif if(hTbl == -1) { ErrIOMsg(IDS_ERR_FILEOPEN, Table.szTblFile[0]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } lstrcpy(szFName, szWindows); lstrcat(szFName, Table.szTblFile[1]); #ifdef UNICODE { char fname[MAX_PATH * 2]; int lenx = lstrlen(szFName); WideCharToMultiByte(950, WC_COMPOSITECHECK, szFName, lenx, (LPSTR)fname, lenx, NULL, NULL); fname[lenx] = 0; hTblPtr = _lcreat(fname, 0); } #else hTblPtr = _lcreat(szFName, 0); #endif if(hTblPtr == -1) { ErrIOMsg(IDS_ERR_FILEOPEN, Table.szTblFile[1]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } lstrcpy(szFName, szWindows); lstrcat(szFName, Table.szTblFile[2]); #ifdef UNICODE { char fname[MAX_PATH * 2]; int lenx = lstrlen(szFName); WideCharToMultiByte(950, WC_COMPOSITECHECK, szFName, lenx, (LPSTR)fname, lenx, NULL, NULL); fname[lenx] = 0; hTblCode = _lcreat(fname, 0); } #else hTblCode = _lcreat(szFName, 0); #endif if(hTblCode == -1) { ErrIOMsg(IDS_ERR_FILEOPEN, Table.szTblFile[2]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } #ifdef UNICODE nPtr = nByte+sizeof(DWORD); #else nPtr = nByte+sizeof(WORD); #endif //ZeroMemory(szKey, nPtr*2); ZeroMemory(szKey, nByte+sizeof(WORD) ); #ifdef UNICODE lPtrlen=0; lPrevlen=0; #else wPtrlen=0; wPrevlen=0; #endif bPhrase=TRUE; } #ifdef UNICODE CopyMemory(szTotal, szPhrase, wlen + cntChar); ii = 0; for(j = 0; j < (UINT)wlen / cntChar; j ++) { if(lPtrlen >= 0xfffffffd) { #else for(j = 0; j < (UINT)wlen; j += 2) { if(wPtrlen >= 0xfffd) { #endif ErrMsg(IDS_ERR_OVER_MAXLEN, 0); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } #ifdef UNICODE if(szTotal[j] != 1) { lPtrlen++; // *((TCHAR *)&szPhrase[ii]) = szTotal[j]; *((LPUNATCHAR)&szPhrase[ii]) = szTotal[j]; // <== @D05 ii += 2; continue; } #else wPtrlen++; if(*((LPUNAWORD)&szPhrase[j]) & END_PHRASE) // <== @D05 continue; #endif if(nPtr >= MAX_CHAR_NUM) { // Write file from key buffer if(nPtr != _lwrite(hTblPtr, (BYTE *)szPtr, nPtr)) { ErrIOMsg(IDS_ERR_FILEWRITE, Table.szTblFile[1]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } nPtr=0; } #ifndef UNICODE *((LPUNAWORD)&szPhrase[j]) |= END_PHRASE; // <== @D05 *((LPUNADWORD)&szPtr[nPtr])=dwRadical; // <== @D05 *((LPUNAWORD)&szPtr[nPtr+nByte])=wPrevlen; // <== @D05 nPtr+=(nByte+sizeof(WORD)); wPrevlen=wPtrlen; #else *((LPUNADWORD)&szPtr[nPtr])=dwRadical; // <== @D05 *((LPUNADWORD)&szPtr[nPtr+nByte])=lPrevlen; // <== @D05 nPtr+=(nByte+sizeof(DWORD)); lPrevlen=lPtrlen; #endif } #ifdef UNICODE wlen = ii / 2; #endif if((wlen * (UINT)cntChar) != _lwrite(hTblCode, szPhrase, wlen * cntChar)) { ErrIOMsg(IDS_ERR_FILEWRITE, Table.szTblFile[2]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } } } if(bPhrase) { szPhrase[0] = (BYTE) 0xff; szPhrase[1] = (BYTE) 0xff; if(2 != _lwrite(hTblCode, (BYTE *)szPhrase, 2)) { ErrIOMsg(IDS_ERR_FILEWRITE, Table.szTblFile[2]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } _lclose(hTblCode); } else { lstrcpy(Table.szTblFile[0], szPure_Name); lstrcat(Table.szTblFile[0], _TEXT(".TBL")); lstrcpy(szFName, szWindows); lstrcat(szFName, Table.szTblFile[0]); #ifdef UNICODE { char fname[MAX_PATH * 2]; int lenx = lstrlen(szFName); WideCharToMultiByte(950, WC_COMPOSITECHECK, szFName, lenx, (LPSTR)fname, lenx, NULL, NULL); fname[lenx] = 0; hTbl = _lcreat(fname, 0); } #else hTbl = _lcreat(szFName, 0); #endif if(hTbl == -1) { ErrIOMsg(IDS_ERR_FILEOPEN, Table.szTblFile[0]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } } for(i = 0; i < nByte+sizeof(WORD); i++) szKey[nKey++] = (BYTE) 0xff; // Write file from key buffer if(nKey != _lwrite(hTbl, szKey, nKey)) { ErrIOMsg(IDS_ERR_FILEWRITE, Table.szTblFile[0]); GlobalUnlock(hKey); GlobalFree(hKey); return FALSE; } _lclose(hTbl); GlobalUnlock(hKey); GlobalFree(hKey); if(bPhrase) { for(i = 0; i < nByte; i++) szPtr[nPtr++] = (BYTE) 0xff; #ifdef UNICODE *((LPUNADWORD)&szPtr[nPtr]) = lPtrlen; // <== @D05 nPtr += 4; #else *((LPUNAWORD)&szPtr[nPtr]) = wPtrlen; // <== @D05 nPtr += 2; #endif // Write file from key buffer if(nPtr != _lwrite(hTblPtr, (BYTE *)szPtr, nPtr)) { ErrIOMsg(IDS_ERR_FILEWRITE, Table.szTblFile[1]); return FALSE; } _lclose(hTblPtr); } return TRUE; } WORD GetPhrase(UINT iRadical, TCHAR *szPhrase) { LPPHRASEBUF Phrase; WORD wLen=0; UINT iAddr; iAddr = lpRadical[iRadical].iFirst_Seg; if(iAddr == NULL_SEG) return 0; Phrase=&lpPhrase[iAddr]; while(Phrase->iNext_Seg != NULL_SEG) { if((wLen+SEGMENT_SIZE) > MAX_CHAR_NUM ) { CopyMemory(&szPhrase[wLen], Phrase->szPhrase, (MAX_CHAR_NUM-wLen) * cntChar); wLen = MAX_CHAR_NUM; szPhrase[wLen] = 0; return wLen; } CopyMemory((char *)(szPhrase + wLen), Phrase->szPhrase, SEGMENT_SIZE * cntChar); Phrase = &lpPhrase[Phrase->iNext_Seg]; wLen += SEGMENT_SIZE; } if((wLen+SEGMENT_SIZE) > MAX_CHAR_NUM ) { CopyMemory(szPhrase + wLen, Phrase->szPhrase, (MAX_CHAR_NUM-wLen) * cntChar); wLen = MAX_CHAR_NUM; } else { CopyMemory(szPhrase + wLen, Phrase->szPhrase, SEGMENT_SIZE * cntChar); wLen += SEGMENT_SIZE; } szPhrase[wLen] = 0; wLen = (WORD)lstrlen(szPhrase); return wLen; } BOOL Parse(TCHAR *szStr, UINT len) { UINT i,j,k; TCHAR szRadical[MAX_RADICAL]; // Skip blank for(i=0; (i= len) return TRUE; for(i=j+1; i= _TEXT('a')) && (szStr[j] <= _TEXT('z'))) szStr[j] -= ('a'-'A'); szRadical[k++] = szStr[j]; } if(j == len) return TRUE; if(k==MAX_RADICAL) { // Skip radical of over length for(i=j; (j= _TEXT('a')) && (cRadical <= _TEXT('z'))) cRadical -= ('a' - 'A'); // Check Radical if((cRadical < 0x20) || (cRadical > 0x5f)) return FALSE; // Check DBCS if(!is_DBCS(wChinese)) { ErrMsg(IDS_ERR_SBCS, 0); return FALSE; } iAddr = cRadical - 0x20; if(Valid.wChar2SeqTbl[iAddr] != 0) return FALSE; Valid.wChar2SeqTbl[iAddr] = (++Valid.nSeqCode); Valid.wSeq2CompTbl[Valid.nSeqCode] = wChinese; Valid.fChooseChar[iAddr/16] |= (1 << (iAddr % 16)); Valid.fCompChar[iAddr/16] |= (1 << (iAddr % 16)); return TRUE; } BOOL PutPhrase(TCHAR *szRadical, TCHAR *szPhrase, UINT len) { LPPHRASEBUF Phrase; UINT iAddr,iRadical; UINT iStart,i,j; TCHAR szBuf[MAX_PATH]; UINT iBuflen; #ifndef UNICODE // <== @E02 // Check DBCS for(i = 0; i < len; i++) { if(szPhrase[i] == _TEXT(' ')) continue; if(!is_DBCS(*((LPUNAWORD)(&szPhrase[i])))) // <== @D05 { //ErrMsg(IDS_ERR_SBCS, 0); TCHAR szErrStr[MAX_PATH]; TCHAR szStr1[MAX_PATH]; TCHAR szStr2[MAX_PATH]; LoadString(hInst, IDS_ERR_SBCS, szStr1, sizeof(szStr1) / sizeof(TCHAR)); wsprintf(szErrStr, _TEXT("²Ä %d ¦æ : "), idxLine + 1); CopyMemory(szStr2, szPhrase, len * cntChar); szStr2[len] = 0; lstrcat(szErrStr, szStr2); lstrcat(szErrStr, _TEXT("\n")); lstrcat(szErrStr, szStr1); if (MessageBox(NULL, szErrStr, NULL, MB_OKCANCEL | MB_ICONEXCLAMATION | MB_SETFOREGROUND) == IDCANCEL) return FALSE; else return TRUE; // ©¿²¤¤§ } i++; } #endif // <== @E02 // Search Radical buffer for(i = 0; i < iRadicalBuff; i++) { for(j = 0; j < MAX_RADICAL; j++) if(lpRadical[i].szRadical[j] != szRadical[j]) break; if(j == MAX_RADICAL) break; } // Allocate new buffer if New Radical if(i == iRadicalBuff) { if(iRadicalBuff+1 == nRadicalBuffsize) if(!AllocRadical()) return FALSE; CopyMemory(lpRadical[i].szRadical, szRadical, MAX_RADICAL * cntChar); iRadicalBuff++; lpRadical[i].iFirst_Seg = NULL_SEG; lpRadical[i].wCode = 0; } // Search Starting address in Phrase table iRadical = i; iAddr = lpRadical[i].iFirst_Seg; if(iAddr != NULL_SEG) { Phrase = &lpPhrase[iAddr]; while(Phrase->iNext_Seg != NULL_SEG) Phrase=&lpPhrase[Phrase->iNext_Seg]; for(i = 0; i < SEGMENT_SIZE; i++) if(Phrase->szPhrase[i] == 0) break; iStart = i; } // Put Phrase iBuflen = 0; for(i = 0; i < len; i++) { if(szPhrase[i] != _TEXT(' ') && (szPhrase[i] != _TEXT('\t'))) { szBuf[iBuflen++] = szPhrase[i]; if((i+1) != len) continue; } if(iBuflen == 0) continue; #ifdef UNICODE if((iBuflen == 1) && (lpRadical[iRadical].wCode == 0)) { lpRadical[iRadical].wCode = szBuf[0]; } else { #else if((iBuflen == 2) && (lpRadical[iRadical].wCode == 0)) { lpRadical[iRadical].wCode = (((WORD)szBuf[0])<< 8)+ (WORD)szBuf[1]; } else { szBuf[iBuflen-2] &= 0x7f; #endif // if(lpRadical[iRadical].wCode == 0) // return FALSE; if(iAddr == NULL_SEG) { if(iPhraseBuff + 1 == nPhraseBuffsize) if(!AllocPhrase()) return FALSE; lpRadical[iRadical].iFirst_Seg=iPhraseBuff; iAddr=iPhraseBuff; Phrase=&lpPhrase[iAddr]; ZeroMemory(Phrase->szPhrase, SEGMENT_SIZE * cntChar); Phrase->iNext_Seg=NULL_SEG; iPhraseBuff++; iStart=0; } #ifdef UNICODE for(j = 0; j < iBuflen; j ++) #else for(j = 0; j < iBuflen; j += 2) #endif { if(iStart == SEGMENT_SIZE) { if(iPhraseBuff + 1 == nPhraseBuffsize) if(!AllocPhrase()) return FALSE; Phrase=&lpPhrase[iAddr]; while (Phrase->iNext_Seg != NULL_SEG) Phrase=&lpPhrase[Phrase->iNext_Seg]; Phrase->iNext_Seg=iPhraseBuff; Phrase=&lpPhrase[iPhraseBuff]; ZeroMemory(Phrase->szPhrase, SEGMENT_SIZE * cntChar); Phrase->iNext_Seg=NULL_SEG; iPhraseBuff++; iStart=0; } #ifdef UNICODE *((LPUNAWORD)&Phrase->szPhrase[iStart ++]) = szBuf[j]; // <== @D05 #else *((LPUNAWORD)&Phrase->szPhrase[iStart])= // <== @D05 (((WORD)szBuf[j])<< 8)+ (WORD)szBuf[j+1]; iStart += 2; #endif } #ifdef UNICODE if(iStart == SEGMENT_SIZE) { if(iPhraseBuff + 1 == nPhraseBuffsize) if(!AllocPhrase()) return FALSE; Phrase=&lpPhrase[iAddr]; while (Phrase->iNext_Seg != NULL_SEG) Phrase=&lpPhrase[Phrase->iNext_Seg]; Phrase->iNext_Seg=iPhraseBuff; Phrase=&lpPhrase[iPhraseBuff]; ZeroMemory(Phrase->szPhrase, SEGMENT_SIZE * cntChar); Phrase->iNext_Seg=NULL_SEG; iPhraseBuff++; iStart=0; } *((LPUNAWORD)&Phrase->szPhrase[iStart ++]) = 1; // <== @D05 #endif } iBuflen=0; } return TRUE; } BOOL AllocRadical() { HANDLE hTemp; nRadicalBuffsize += ALLOCBLOCK; GlobalUnlock(hRadical); hTemp= GlobalReAlloc(hRadical, nRadicalBuffsize * sizeof(RADICALBUF), GMEM_MOVEABLE); if(hTemp == NULL) { nRadicalBuffsize -= ALLOCBLOCK; ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } hRadical=hTemp; lpRadical=(LPRADICALBUF)GlobalLock(hRadical); if(lpRadical == NULL) { nRadicalBuffsize -= ALLOCBLOCK; ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } return TRUE; } BOOL AllocPhrase() { HANDLE hTemp; nPhraseBuffsize += ALLOCBLOCK; GlobalUnlock(hPhrase); hTemp= GlobalReAlloc(hPhrase, nPhraseBuffsize * sizeof(PHRASEBUF), GMEM_MOVEABLE); if(hTemp == NULL) { nPhraseBuffsize -= ALLOCBLOCK; ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } hPhrase=hTemp; lpPhrase=(LPPHRASEBUF)GlobalLock(hPhrase); if(lpPhrase == NULL) { nPhraseBuffsize -= ALLOCBLOCK; ErrMsg(IDS_ERR_MEMORY, 0); return FALSE; } return TRUE; } BOOL is_DBCS(UINT wWord) { #ifdef UNICODE if(wWord < 0x0080) return FALSE; #else if((LOBYTE(wWord) < 0x81) || (LOBYTE(wWord) > 0xFE)) return FALSE; if((HIBYTE(wWord) < 0x40) || (HIBYTE(wWord) > 0xFE)) return FALSE; #endif return TRUE; } void ErrMsg(UINT iMsgID, UINT iTitle) { TCHAR szErrStr[MAX_PATH]; TCHAR szTitle[MAX_PATH]; HideProgress(); // <== @E01 LoadString(hInst, iTitle, szTitle, sizeof(szTitle) / sizeof(TCHAR)); LoadString(hInst, iMsgID, szErrStr, sizeof(szErrStr) / sizeof(TCHAR)); MessageBox(NULL, szErrStr, (iTitle) ? szTitle : NULL, MB_OK | MB_ICONEXCLAMATION | MB_SETFOREGROUND | MB_TASKMODAL); ShowProgress();// <== @E01 } void ErrIOMsg(UINT iMsgID, TCHAR *szFileName) { TCHAR szErrStr[MAX_PATH]; TCHAR szShowMsg[MAX_PATH]; HideProgress();// <== @E01 LoadString(hInst, iMsgID, szErrStr, sizeof(szErrStr) / sizeof(TCHAR)); wsprintf(szShowMsg, szErrStr, szFileName); MessageBox(NULL, szShowMsg, NULL, MB_OK | MB_ICONEXCLAMATION | MB_SETFOREGROUND | MB_TASKMODAL); ShowProgress();// <== @E01 } void MyFillMemory(TCHAR *dst, DWORD cnt, TCHAR v) { #ifdef UNICODE DWORD i; for(i = 0; i < cnt; i ++) dst[i] = v; #else FillMemory(dst, cnt, v); #endif }