windows-nt/Source/XPSP1/NT/windows/feime/tools/winhk/convhk.c

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2020-09-26 03:20:57 -05:00
/*************************************************
* winhk.c *
* *
* Copyright (C) 1995-1999 Microsoft Inc. *
* *
*************************************************/
//
//
// this program converts Table source file for HK from NTGEN format to
// UIMETOOL format
//
#include <stdio.h>
#include <windows.h>
void _cdecl main( int argc, TCHAR **argv) {
HANDLE hInFile, hOutFile;
HANDLE hInMap;
LPWORD lpInFile, lpCur;
WORD OutLine[30];
DWORD dwInFileSize, i, NumberOfBytesWritten;
if ( argc != 3 ) {
printf("Usage: convhk <NTGEN-File> <UIMETOOL-File>\n");
return;
}
hInFile = CreateFile( argv[1], // pointer to name of the file
GENERIC_READ, // access (read-write) mode
FILE_SHARE_READ, // share mode
NULL, // pointer to security attributes
OPEN_EXISTING, // how to create
FILE_ATTRIBUTE_NORMAL, // file attributes
NULL);
if ( hInFile == INVALID_HANDLE_VALUE ) return;
dwInFileSize = GetFileSize(hInFile, NULL);
hOutFile=CreateFile( argv[2], // pointer to name of the file
GENERIC_WRITE, // access (read-write) mode
FILE_SHARE_WRITE, // share mode
NULL, // pointer to security attributes
CREATE_ALWAYS, // how to create
FILE_ATTRIBUTE_NORMAL, // file attributes
NULL);
if ( hOutFile == INVALID_HANDLE_VALUE ) {
printf("hOutFile is INVALID_HANDLE_VALUE\n");
return;
}
hInMap = CreateFileMapping(hInFile, // handle to file to map
NULL, // optional security attributes
PAGE_READONLY, // protection for mapping object
0, // high-order 32 bits of object size
0, // low-order 32 bits of object size
NULL); // name of file-mapping object);
if ( !hInMap ) {
printf("hInMap is NULL\n");
return;
}
lpInFile = (LPWORD) MapViewOfFile(hInMap, FILE_MAP_READ, 0, 0, 0);
OutLine[0] = 0xFEFF;
WriteFile(hOutFile, // handle to file to write to
OutLine, // pointer to data to write to file
2, // number of bytes to write
&NumberOfBytesWritten, // pointer to number of bytes written
NULL); // pointer to structure needed for
// overlapped I/O
WriteFile(hOutFile,
L"/S A",
8,
&NumberOfBytesWritten,
NULL);
for ( i=0; i<26; i++) {
OutLine[i] = (WORD)0xff21 + (WORD)i;
}
OutLine[26] = 0x000D;
OutLine[27] = 0x000A;
WriteFile(hOutFile,
OutLine,
28 * sizeof(WORD),
&NumberOfBytesWritten,
NULL);
lpCur = lpInFile + 1; // skip FEFF
i = 0;
while ( i < (dwInFileSize / sizeof(WORD) -1)) {
WORD iStart, *lpLineStart, ExtLen;
iStart = 0;
// get a line
lpLineStart = lpCur;
while ( *lpCur != 0x000D ) {
lpCur ++;
i++;
}
ExtLen = lpCur - lpLineStart - 1;
//
//
// a line of Input file has following format:
//
// <Unicode>?????<0D><0A>
//
// ? stands for variable length external code
//
//
// a line of output file has following format:
//
// XXXXXX<09><Unicode><0D><0A>
//
// it contains 6 external code, if there is less 6 external codes, the rest
// will be fill in Blank.
//
for (iStart=0; iStart<ExtLen; iStart++)
{
WCHAR wch;
wch = lpLineStart[iStart+1];
if (( wch <= L'z') && (wch >= L'a') ) {
wch -= L'a' - L'A' ;
}
OutLine[iStart] = wch;
}
if (ExtLen < 6) {
for (iStart=ExtLen; iStart<6; iStart++)
OutLine[iStart] = L' ';
}
OutLine[6] = 0x0009;
OutLine[7] = lpLineStart[0];
OutLine[8] = 0x000D;
OutLine[9] = 0x000A;
WriteFile(hOutFile, // handle to file to write to
OutLine, // pointer to data to write to file
10 * sizeof(WORD), // number of bytes to write
&NumberOfBytesWritten, // number of bytes written
NULL); // pointer to structure needed for
// overlapped I/O
lpCur += 2;
i += 2; //skip 000D and 000A
} // while i<dwInFileSize
UnmapViewOfFile(lpInFile);
CloseHandle(hInMap);
CloseHandle(hInFile);
CloseHandle(hOutFile);
return;
}