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windows-server-2003/windows/advcore/ctf/sapilayr/citn.h

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#ifndef CITN_H
#define CITN_H
#include "sphelper.h"
// Flags for number display
typedef enum DISPLAYFLAGS
{
DF_UNFORMATTED = (1L << 0),// No formatting
DF_ORDINAL = (1L << 1),// Ordinal number
DF_WHOLENUMBER = (1L << 2),// Should be displayed without decimal
DF_FIXEDWIDTH = (1L << 3),// Requiring a certain width
DF_LEADINGZERO = (1L << 4),// Presence of leading 0 of the number is between 0 and 1
DF_NOTHOUSANDSGROUP = (1L << 5),// Do not do any thousands grouping (commas)
DF_MILLIONBILLION = (1L << 6) // If the number is a flat "millions" or "billions"
// then display as "3 million"
} DISPLAYFLAGS;
class CSimpleITN
{
public:
CSimpleITN(LANGID langid)
{
m_langid = langid;
m_pwszNeg = NULL;
}
~CSimpleITN()
{
if (m_pwszNeg)
delete m_pwszNeg;
if ( m_nmfmtDefault.lpDecimalSep )
delete[] m_nmfmtDefault.lpDecimalSep;
if ( m_nmfmtDefault.lpThousandSep )
delete[] m_nmfmtDefault.lpThousandSep;
}
HRESULT _EnsureNumberFormatDefaults(void);
HRESULT MakeNumberNegative( WCHAR *pwszNumber, UINT cSize );
HRESULT MakeDisplayNumber( DOUBLE dblNum, DWORD dwDisplayFlags,
UINT uiFixedWidth, UINT uiDecimalPlaces,
WCHAR *pwszNum, UINT cSize );
HRESULT InterpretNumberSimple(const SPPHRASEPROPERTY *pProperties,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize)
{
HRESULT hr = _EnsureNumberFormatDefaults();
if (S_OK != hr)
return hr;
hr = E_NOTIMPL;
switch(PRIMARYLANGID(m_langid))
{
case LANG_ENGLISH:
hr = InterpretNumberEn(pProperties,
TRUE,
pdblVal,
pszVal,
cSize,
TRUE);
break;
case LANG_JAPANESE:
hr = InterpretNumberJp(pProperties,
TRUE,
pdblVal,
pszVal,
cSize,
TRUE);
break;
case LANG_CHINESE:
hr = InterpretNumberCh(pProperties,
TRUE,
pdblVal,
pszVal,
cSize,
TRUE);
break;
default:
break;
}
return hr;
}
HRESULT InterpretNumberEn(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt);
HRESULT InterpretIntegerEn(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt,
BOOL fNegative);
HRESULT InterpretDecimalEn(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt,
BOOL fNegative);
ULONG ComputeNum999En(const SPPHRASEPROPERTY *pProperties );
HRESULT InterpretNumberJp(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt);
HRESULT InterpretIntegerJp(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt,
BOOL fNegative);
HRESULT InterpretDecimalJp(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt,
BOOL fNegative);
ULONG ComputeNum9999Jp(const SPPHRASEPROPERTY *pProperties );
HRESULT InterpretNumberCh(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt);
HRESULT InterpretIntegerCh(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt,
BOOL fNegative);
HRESULT InterpretDecimalCh(const SPPHRASEPROPERTY *pProperties,
const bool fCardinal,
DOUBLE *pdblVal,
WCHAR *pszVal,
UINT cSize,
const bool fFinalDisplayFmt,
BOOL fNegative);
ULONG ComputeNum9999Ch(const SPPHRASEPROPERTY *pProperties);
ULONG ComputeNum10000Ch(const SPPHRASEPROPERTY *pProperties);
private:
WCHAR *m_pwszNeg;
LANGID m_langid;
NUMBERFMTW m_nmfmtDefault;
};
#define BILLIONS 1
#define MILLIONS 2
#define THOUSANDS 3
#define HUNDREDS 4
#define TENS 5
#define ONES 6
#define TEENS 200
#define NEGATIVE 7
#define MILLBILL 8
#define DIGIT 9
#define TWODIGIT 10
#define FP_PART 11
#define ZERO 12
#define POINT_ZERO 13
#define NUMERATOR 14
#define DENOMINATOR 15
#define WHOLE 16
#define ONEDIGIT 17
#define GRID_INTEGER_99 101
#define GRID_INTEGER_999 102
#define GRID_INTEGER_MILLBILL 103
#define GRID_INTEGER_STANDALONE 104
#define GRID_INTEGER 105
#define GRID_INTEGER_NONNEG 106
#define GRID_DIGIT_NUMBER 107
#define GRID_FP_NUMBER 108
#define GRID_FP_NUMBER_NONNEG 109
// Definition for Chinese Grammar.
#define CHS_HUNDREDMILLIONS 1
#define CHS_TENTHOUSANDS 2
#define CHS_TENTHOUSANDS_ 3
#define CHS_THOUSANDS 4
#define CHS_HUNDREDS 5
#define CHS_HUNDREDS_ 6
#define CHS_ONES 7
#define CHS_INTEGER 8
#define CHS_DECIMAL 9
#define CHS_NEGATIVE 10
#define CHS_PERIOD 23
#define CHS_DIGITS 24
#define CHS_POS_OF_MINUS 27
#define CHS_ONES_THOUSANDS 28
#define CHS_GRID_NUMBER 1001
#define CHS_GRID_NUMBER_MINUS 1002
#define CHS_GRID_DECIMAL 1003
#define CHS_GRID_NUMBER_ALL 1004
// Definition for Japanese Grammar
#define JPN_YENs 1
#define JPN_CHOOs 2
#define JPN_OKUs 3
#define JPN_MANNs 4
#define JPN_SENNs 5
#define JPN_HYAKUs 6
#define JPN_JUUs 7
#define JPN_ICHIs 8
#define JPN_NEGATIVE 9
#define JPN_DIGIT 10
#define JPN_FP_PART 12
#define JPN_FP_PART_D 95
#define JPN_ZERO 13
#define JPN_NUMERATOR 14
#define JPN_DENOMINATOR 15
#define JPN_WHOLE 16
#define JPN_GRID_INTEGER_9999 1001
#define JPN_GRID_INTEGER_STANDALONE 1002
#define JPN_GRID_INTEGER 1003
#define JPN_GRID_INTEGER_NONNEG 1004
#define JPN_GRID_DIGIT_NUMBER 1005
#define JPN_GRID_FP_NUMBER 1006
#define JPN_GRID_NUMBER_ALL 1007
#endif // CITN_H