Introduction
There is a high demand for converting float data and datetime to textual presentation. You can find its application in many different actual situations such as declaring bank amount, tax amount, money invoice amount etc, especially in IVR (Interactive Voice Response)applications.
I was involved in a IVR application, specifically a Telephone Banking center in which we produced voice stream to state customers' balance. If you have a TTS (Text to speech) engine, everything would be simple: you select balance amount from the database as a float number and the engine will speak it out. The fact is not so wonderful, when we developed this program, there was no such Vietnamese TTS engine. Hence we have to do everything by hand, i.e. convert customer's balance to a texttual representation, then produce voice stream from a series of pre-recorded voice files.
From that time, my application runs fine. If you want, you can dial 84-4-8313895 and ask for Telephone Banking ext. The pseudo TTS engine I created is wrapped in a DLL because the script we used in our IVR system can only call a DLL with a predetermine function type, i.e. :
char* extern C yourfunction(char* inputstring)
Details
Hence my DLL has the following functions:
extern "C" NUMANALYSE_API char *VS_MainNum(char *numstr)
extern "C" NUMANALYSE_API char *VS_NonCount(char *numstr)
extern "C" NUMANALYSE_API char *VS_DateTimeV(
char *numstr="0000 00 00 00:00:00")
extern "C" NUMANALYSE_API char *VS_DateTimeE(
char *numstr="0000 00 00 00:00:00")
extern "C" NUMANALYSE_API char *VS_CardinalE(char *numstr)
extern "C" NUMANALYSE_API char *VS_OrdinalE(char *numstr)
And in the core are the classes:
class CSonNumV
{
public:
static char * NoncountV(char * numstr, char * g_num);
static char * CardinalV(char *numstr, char *g_num);
CSonNumV();
virtual ~CSonNumV();
private:
static CString FirstTwo(int tw);
static CString FirstThree(int th);
static CString Fractal(CString cstw);
static CString NumComb(double x, char *s);
};
class CSonTime : public CTime
{
public:
CString FormatE(LPCTSTR fmtString);
CSonTime(LPCTSTR mstr);
typedef char * (*funcptr)(char *);
void put_pfnV(funcptr x);
CString FormatV(LPCTSTR fmtString);
CSonTime(int nYear, int nMonth, int nDay, int nHour, int nMin,
int nSec, int nDST = -1 );
CSonTime();
CSonTime(const CSonTime& timeSrc);
CSonTime& CSonTime::operator =(const CSonTime &timeSrc);
CSonTime& CSonTime::operator =(LPCTSTR mstr);
virtual ~CSonTime();
private:
CString get_partE(char b);
CString get_partV(char a);
funcptr m_pfnV;
};
class CSonJFancolNumE
{
public:
static char * OrdinalE(char * numstr, char * g_num);
static char * CardinalE(char *numstr, char *g_num);
CSonJFancolNumE(); virtual ~CSonJFancolNumE();
};
Conclusion
I also want to give credit to Eduardo Velasquez for his Tokenizer
class and Jeremy Lee Falcon for his NumWord
English textual representation as I use his work to produce English representation in my DLL. Thank you and have fun