static int fetchWordFromUTF8(const chConstStringA& strText, WCHAR& result)
{
int nLength = strText.length();
if(nLength <= ) return ; LPCSTR lpszTextA = strText.c_ptr();
BYTE byte = *lpszTextA;
if ((byte >> ) == 0x00)
{
result = (WCHAR)(BYTE)*lpszTextA;
return ;
}
else if ((byte >> ) == 0x06)
{
if(nLength >= )
{
DWORD dw0 = (DWORD)(BYTE)lpszTextA[];
DWORD dw1 = (DWORD)(BYTE)lpszTextA[];
result = (WCHAR)((dw1&0x3F) | ((dw0&0x1F) << ));
return ;
}
}
else if ((byte >> ) == 0x0E)
{
if(nLength >= )
{
DWORD dw0 = (DWORD)(BYTE)lpszTextA[];
DWORD dw1 = (DWORD)(BYTE)lpszTextA[];
DWORD dw2 = (DWORD)(BYTE)lpszTextA[];
result = (WCHAR)((dw2&0x3F) | ((dw1&0x3F) << ) | ((dw0&0x0F)<<));
return ;
}
}
result = '?';
return ;
} static int fetchUTF8FromWord(const UINT& word, LPSTR szResult)
{
if (word < 0x0080)
{
szResult[] = (ACHAR)word;
return ;
}
else if (word < 0x0800)
{
szResult[] = (ACHAR)(0xC0 | (BYTE)(word>>));
szResult[] = (ACHAR)(0x80 | (BYTE)(word&0x003F));
return ;
}
else// if (word <= 0xFFFF)
{
szResult[] = (ACHAR)(0xE0 | (BYTE)(word>>));
szResult[] = (ACHAR)(0x80 | (BYTE)((word>>) & 0x3F));
szResult[] = (ACHAR)(0x80 | (BYTE)(word&0x3F));
return ;
}
szResult[] = '?';
return ;
}