/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #ifndef INCLUDED_SVL_ZFORMAT_HXX #define INCLUDED_SVL_ZFORMAT_HXX #include #include #include #include namespace utl { class DigitGroupingIterator; } namespace com::sun::star::i18n { struct NativeNumberXmlAttributes2; } class Color; class ImpSvNumberformatScan; // format code string scanner class ImpSvNumberInputScan; // input string scanner enum SvNumberformatLimitOps { NUMBERFORMAT_OP_NO = 0, // Undefined, no OP NUMBERFORMAT_OP_EQ = 1, // Operator = NUMBERFORMAT_OP_NE = 2, // Operator <> NUMBERFORMAT_OP_LT = 3, // Operator < NUMBERFORMAT_OP_LE = 4, // Operator <= NUMBERFORMAT_OP_GT = 5, // Operator > NUMBERFORMAT_OP_GE = 6 // Operator >= }; struct ImpSvNumberformatInfo // Struct for FormatInfo { std::vector sStrArray; // Array of symbols std::vector nTypeArray; // Array of infos sal_uInt16 nThousand; // Count of group separator sequences sal_uInt16 nCntPre; // Count of digits before decimal point sal_uInt16 nCntPost; // Count of digits after decimal point sal_uInt16 nCntExp; // Count of exponent digits, or AM/PM SvNumFormatType eScannedType; // Type determined by scan bool bThousand; // Has group (AKA thousand) separator void Copy( const ImpSvNumberformatInfo& rNumFor, sal_uInt16 nCount ); }; // NativeNumber, represent numbers using CJK or other digits if nNum>0, // eLang specifies the Locale to use. class SvNumberNatNum { OUString sParams; // For [NatNum12 ordinal-number]-like syntax LanguageType eLang; sal_uInt8 nNum; bool bDBNum :1; // DBNum, to be converted to NatNum bool bDate :1; // Used in date? (needed for DBNum/NatNum mapping) bool bSet :1; // If set, since NatNum0 is possible public: static sal_uInt8 MapDBNumToNatNum( sal_uInt8 nDBNum, LanguageType eLang, bool bDate ); static sal_uInt8 MapNatNumToDBNum( sal_uInt8 nNatNum, LanguageType eLang, bool bDate ); SvNumberNatNum() : eLang( LANGUAGE_DONTKNOW ), nNum(0), bDBNum(false), bDate(false), bSet(false) {} bool IsComplete() const { return bSet && eLang != LANGUAGE_DONTKNOW; } sal_uInt8 GetNatNum() const { return bDBNum ? MapDBNumToNatNum( nNum, eLang, bDate ) : nNum; } sal_uInt8 GetDBNum() const { return bDBNum ? nNum : MapNatNumToDBNum( nNum, eLang, bDate ); } LanguageType GetLang() const { return eLang; } void SetLang( LanguageType e ) { eLang = e; } void SetNum( sal_uInt8 nNumber, bool bDBNumber ) { nNum = nNumber; bDBNum = bDBNumber; bSet = true; } bool IsSet() const { return bSet; } void SetDate( bool bDateP ) { bDate = bDateP; } void SetParams(const OUString& s) { sParams = s; } OUString const & GetParams() const { return sParams; } }; class CharClass; class ImpSvNumFor // One of four subformats of the format code string { public: ImpSvNumFor(); // Ctor without filling the Info ~ImpSvNumFor(); void Enlarge(sal_uInt16 nCount); // Init of arrays to the right size // if pSc is set, it is used to get the Color pointer void Copy( const ImpSvNumFor& rNumFor, ImpSvNumberformatScan* pSc ); // Access to Info; call Enlarge before! ImpSvNumberformatInfo& Info() { return aI;} const ImpSvNumberformatInfo& Info() const { return aI; } // Get count of substrings (symbols) sal_uInt16 GetCount() const { return nStringsCnt;} Color* GetColor() const { return pColor; } void SetColor( Color* pCol, OUString const & rName ) { pColor = pCol; sColorName = rName; } const OUString& GetColorName() const { return sColorName; } // new SYMBOLTYPE_CURRENCY in subformat? bool HasNewCurrency() const; bool GetNewCurrencySymbol( OUString& rSymbol, OUString& rExtension ) const; // [NatNum1], [NatNum2], ... void SetNatNumNum( sal_uInt8 nNum, bool bDBNum ) { aNatNum.SetNum( nNum, bDBNum ); } void SetNatNumLang( LanguageType eLang ) { aNatNum.SetLang( eLang ); } void SetNatNumDate( bool bDate ) { aNatNum.SetDate( bDate ); } void SetNatNumParams(const OUString& sParams) { aNatNum.SetParams(sParams); } const SvNumberNatNum& GetNatNum() const { return aNatNum; } private: ImpSvNumberformatInfo aI; // helper struct for remaining information OUString sColorName; // color name Color* pColor; // pointer to color of subformat sal_uInt16 nStringsCnt; // count of symbols SvNumberNatNum aNatNum; // DoubleByteNumber }; class SVL_DLLPUBLIC SvNumberformat { struct SAL_DLLPRIVATE LocaleType { enum class Substitute : sal_uInt8 { NONE, TIME, LONGDATE }; LanguageType meLanguage; LanguageType meLanguageWithoutLocaleData; Substitute meSubstitute; sal_uInt8 mnNumeralShape; sal_uInt8 mnCalendarType; OUString generateCode() const; LocaleType(); LocaleType(sal_uInt32 nRawCode); bool isPlainLocale() const; }; public: // Normal ctor SvNumberformat( OUString& rString, ImpSvNumberformatScan* pSc, ImpSvNumberInputScan* pISc, sal_Int32& nCheckPos, LanguageType& eLan ); // Copy ctor SvNumberformat( SvNumberformat const & rFormat ); // Copy ctor with exchange of format code string scanner (used in merge) SvNumberformat( SvNumberformat const & rFormat, ImpSvNumberformatScan& rSc ); ~SvNumberformat(); /// Get type of format, may include css::util::NumberFormat::DEFINED bit SvNumFormatType GetType() const { return eType; } /// Get type of format, does not include css::util::NumberFormat::DEFINED SvNumFormatType GetMaskedType() const { return eType & ~SvNumFormatType::DEFINED; } void SetType(SvNumFormatType eSetType) { eType = eSetType; } // Standard means the I18N defined standard format of this type void SetStandard() { bStandard = true; } bool IsStandard() const { return bStandard; } // If this format is an additional built-in format defined by i18n. void SetAdditionalBuiltin() { bAdditionalBuiltin = true; } bool IsAdditionalBuiltin() const { return bAdditionalBuiltin; } LanguageType GetLanguage() const { return maLocale.meLanguage;} /** If the format is a placeholder and needs to be substituted. */ bool IsSubstituted() const { return maLocale.meSubstitute != LocaleType::Substitute::NONE; } /** If the format is a placeholder for the system time format and needs to be substituted during formatting time. */ bool IsSystemTimeFormat() const { return maLocale.meSubstitute == LocaleType::Substitute::TIME && maLocale.meLanguage == LANGUAGE_SYSTEM; } /** If the format is a placeholder for the system long date format and needs to be substituted during formatting time. */ bool IsSystemLongDateFormat() const { return maLocale.meSubstitute == LocaleType::Substitute::LONGDATE && maLocale.meLanguage == LANGUAGE_SYSTEM; } /** If the format is a MM:SS or [MM]:SS format, or MM:[SS] (sic!) or even MM:SS.00 or [MM]:SS.00 or MM:[SS].00 */ bool IsMinuteSecondFormat() const; const OUString& GetFormatstring() const { return sFormatstring; } // Build a format string of application defined keywords OUString GetMappedFormatstring( const NfKeywordTable& rKeywords, const LocaleDataWrapper& rLoc, LanguageType nOriginalLang = LANGUAGE_DONTKNOW, bool bSystemLanguage = false ) const; void SetStarFormatSupport( bool b ) { bStarFlag = b; } /** * Get output string from a numeric value that fits the number of * characters specified. */ bool GetOutputString( double fNumber, sal_uInt16 nCharCount, OUString& rOutString ) const; bool GetOutputString( double fNumber, OUString& OutString, Color** ppColor ); void GetOutputString( const OUString& sString, OUString& OutString, Color** ppColor ); // True if type text bool IsTextFormat() const { return bool(eType & SvNumFormatType::TEXT); } // True if 4th subformat present bool HasTextFormat() const { return (NumFor[3].GetCount() > 0) || (NumFor[3].Info().eScannedType == SvNumFormatType::TEXT); } void GetFormatSpecialInfo(bool& bThousand, bool& IsRed, sal_uInt16& nPrecision, sal_uInt16& nLeadingCnt) const; /// Get index of subformat (0..3) according to conditions and fNumber value sal_uInt16 GetSubformatIndex( double fNumber ) const; /// Count of decimal precision sal_uInt16 GetFormatPrecision( sal_uInt16 nIx = 0 ) const { return NumFor[nIx].Info().nCntPost; } /// Count of integer digits sal_uInt16 GetFormatIntegerDigits( sal_uInt16 nIx = 0 ) const { return NumFor[nIx].Info().nCntPre; } /** Count of hidden integer digits with thousands divisor: * formats like "0," to show only thousands */ sal_uInt16 GetThousandDivisorPrecision( sal_uInt16 nIx = 0 ) const { return NumFor[nIx].Info().nThousand * 3; } //! Read/write access on a special sal_uInt16 component, may only be used on the //! standard format 0, 10000, ... and only by the number formatter! struct FormatterPrivateAccess { friend SvNumberFormatter; private: FormatterPrivateAccess() {} }; sal_uInt16 GetLastInsertKey( const FormatterPrivateAccess& ) const { return NumFor[0].Info().nThousand; } void SetLastInsertKey( sal_uInt16 nKey, const FormatterPrivateAccess& ) { NumFor[0].Info().nThousand = nKey; } //! Only onLoad: convert from stored to current system language/country void ConvertLanguage( SvNumberFormatter& rConverter, LanguageType eConvertFrom, LanguageType eConvertTo ); // Substring of a subformat code nNumFor (0..3) // nPos == 0xFFFF => last substring // bString==true: first/last SYMBOLTYPE_STRING or SYMBOLTYPE_CURRENCY const OUString* GetNumForString( sal_uInt16 nNumFor, sal_uInt16 nPos, bool bString = false ) const; // Subtype of a subformat code nNumFor (0..3) // nPos == 0xFFFF => last substring short GetNumForType( sal_uInt16 nNumFor, sal_uInt16 nPos ) const; OUString GetPercentString( sal_uInt16 nNumFor = 0 ) const; OUString GetDenominatorString( sal_uInt16 nNumFor ) const; OUString GetNumeratorString( sal_uInt16 nNumFor ) const; OUString GetIntegerFractionDelimiterString( sal_uInt16 nNumFor ) const; /// Round fNumber to its fraction representation double GetRoundFractionValue ( double fNumber ) const; /// Create a format string for time with a new precision OUString GetFormatStringForTimePrecision( int nPrecision ) const; /** If the count of string elements (substrings, ignoring [modifiers] and so on) in a subformat code nNumFor (0..3) is equal to the given number. Used by ImpSvNumberInputScan::IsNumberFormatMain() to detect a matched format. */ bool IsNumForStringElementCountEqual( sal_uInt16 nNumFor, sal_uInt16 nAllCount, sal_uInt16 nNumCount ) const { if ( nNumFor < 4 ) { // First try a simple approach. Note that this is called only // if all MidStrings did match so far, to verify that all // strings of the format were matched and not just the starting // sequence, so we don't have to check if GetCount() includes // [modifiers] or anything else if both counts are equal. sal_uInt16 nCnt = NumFor[nNumFor].GetCount(); if ( nAllCount == nCnt ) return true; if ( nAllCount < nCnt ) // check ignoring [modifiers] and so on return ImpGetNumForStringElementCount( nNumFor ) == (nAllCount - nNumCount); } return false; } /** Get the count of numbers among string elements **/ sal_uInt16 GetNumForNumberElementCount( sal_uInt16 nNumFor ) const; /** Get the scanned type of the specified subformat. */ SvNumFormatType GetNumForInfoScannedType( sal_uInt16 nNumFor ) const { return (nNumFor < 4) ? NumFor[nNumFor].Info().eScannedType : SvNumFormatType::UNDEFINED; } // Whether the second subformat code is really for negative numbers // or another limit set. bool IsSecondSubformatRealNegative() const { return fLimit1 == 0.0 && fLimit2 == 0.0 && ( (eOp1 == NUMBERFORMAT_OP_GE && eOp2 == NUMBERFORMAT_OP_NO) || (eOp1 == NUMBERFORMAT_OP_GT && eOp2 == NUMBERFORMAT_OP_LT) || (eOp1 == NUMBERFORMAT_OP_NO && eOp2 == NUMBERFORMAT_OP_NO) ); } // Whether the first subformat code is really for negative numbers // or another limit set. bool IsFirstSubformatRealNegative() const { return fLimit1 == 0.0 && fLimit2 == 0.0 && ((eOp1 == NUMBERFORMAT_OP_LT && (eOp2 == NUMBERFORMAT_OP_GT || eOp2 == NUMBERFORMAT_OP_EQ || eOp2 == NUMBERFORMAT_OP_GE || eOp2 == NUMBERFORMAT_OP_NO)) || (eOp1 == NUMBERFORMAT_OP_LE && (eOp2 == NUMBERFORMAT_OP_NO || eOp2 == NUMBERFORMAT_OP_GT))); } // Whether the negative format is without a sign or not bool IsNegativeWithoutSign() const; bool IsNegativeInBracket() const; bool HasPositiveBracketPlaceholder() const; // Whether a new SYMBOLTYPE_CURRENCY is contained in the format bool HasNewCurrency() const; // strip [$-yyy] from all [$xxx-yyy] leaving only xxx's, static OUString StripNewCurrencyDelimiters( const OUString& rStr ); // If a new SYMBOLTYPE_CURRENCY is contained if the format is of type // css::util::NumberFormat::CURRENCY, and if so the symbol xxx and the extension nnn // of [$xxx-nnn] are returned bool GetNewCurrencySymbol( OUString& rSymbol, OUString& rExtension ) const; static bool HasStringNegativeSign( const OUString& rStr ); /** Whether a character at position nPos is somewhere between two matching cQuote or not. If nPos points to a cQuote, a true is returned on an opening cQuote, a false is returned on a closing cQuote. A cQuote between quotes may be escaped by a cEscIn, a cQuote outside of quotes may be escaped by a cEscOut. The default '\0' results in no escapement possible. Defaults are set right according to the "unlogic" of the Numberformatter */ static bool IsInQuote( const OUString& rString, sal_Int32 nPos, sal_Unicode cQuote = '"', sal_Unicode cEscIn = '\0', sal_Unicode cEscOut = '\\' ); /** Return the position of a matching closing cQuote if the character at position nPos is between two matching cQuote, otherwise return -1. If nPos points to an opening cQuote the position of the matching closing cQuote is returned. If nPos points to a closing cQuote nPos is returned. If nPos points into a part which starts with an opening cQuote but has no closing cQuote, rString.Len() is returned. Uses IsInQuote internally, so you don't have to call that prior to a call of this method. */ static sal_Int32 GetQuoteEnd( const OUString& rString, sal_Int32 nPos, sal_Unicode cQuote = '"', sal_Unicode cEscIn = '\0' ); void SetComment( const OUString& rStr ) { sComment = rStr; } const OUString& GetComment() const { return sComment; } /** Insert the number of blanks into the string that is needed to simulate the width of character c for underscore formats */ static sal_Int32 InsertBlanks( OUString& r, sal_Int32 nPos, sal_Unicode c ) { sal_Int32 result; OUStringBuffer sBuff(r); result = InsertBlanks(sBuff, nPos, c); r = sBuff.makeStringAndClear(); return result; } /** Insert the number of blanks into the string that is needed to simulate the width of character c for underscore formats */ static sal_Int32 InsertBlanks( OUStringBuffer& r, sal_Int32 nPos, sal_Unicode c ); /// One of YMD,DMY,MDY if date format DateOrder GetDateOrder() const; /** A coded value of the exact YMD combination used, if date format. For example: YYYY-MM-DD => ('Y' << 16) | ('M' << 8) | 'D' or: MM/YY => ('M' << 8) | 'Y' */ sal_uInt32 GetExactDateOrder() const; // used in XML export void GetConditions( SvNumberformatLimitOps& rOper1, double& rVal1, SvNumberformatLimitOps& rOper2, double& rVal2 ) const; Color* GetColor( sal_uInt16 nNumFor ) const; void GetNumForInfo( sal_uInt16 nNumFor, SvNumFormatType& rScannedType, bool& bThousand, sal_uInt16& nPrecision, sal_uInt16& nLeadingCnt ) const; // rAttr.Number not empty if NatNum attributes are to be stored void GetNatNumXml( css::i18n::NativeNumberXmlAttributes2& rAttr, sal_uInt16 nNumFor ) const; /** Switches to the first non-"gregorian" calendar, but only if the current calendar is "gregorian"; original calendar name and date/time returned, but only if calendar switched and rOrgCalendar was empty. */ void SwitchToOtherCalendar( OUString& rOrgCalendar, double& fOrgDateTime ) const; /** Switches to the "gregorian" calendar, but only if the current calendar is non-"gregorian" and rOrgCalendar is not empty. Thus a preceding ImpSwitchToOtherCalendar() call should have been placed prior to calling this method. */ void SwitchToGregorianCalendar( const OUString& rOrgCalendar, double fOrgDateTime ) const; #ifdef THE_FUTURE /** Switches to the first specified calendar, if any, in subformat nNumFor (0..3). Original calendar name and date/time returned, but only if calendar switched and rOrgCalendar was empty. @return if a calendar was specified and switched to, else. */ bool SwitchToSpecifiedCalendar( OUString& rOrgCalendar, double& fOrgDateTime, sal_uInt16 nNumFor ) const { if ( nNumFor < 4 ) return ImpSwitchToSpecifiedCalendar( rOrgCalendar, fOrgDateTime, NumFor[nNumFor] ); return false; } #endif /// Whether it's a (YY)YY-M(M)-D(D) format. bool IsIso8601( sal_uInt16 nNumFor ) const { if ( nNumFor < 4 ) return ImpIsIso8601( NumFor[nNumFor]); return false; } private: ImpSvNumFor NumFor[4]; // Array for the 4 subformats OUString sFormatstring; // The format code string OUString sComment; // Comment, since number formatter version 6 double fLimit1; // Value for first condition double fLimit2; // Value for second condition ImpSvNumberformatScan& rScan; // Format code scanner LocaleType maLocale; // Language/country of the format, numeral shape and calendar type from Excel. SvNumberformatLimitOps eOp1; // Operator for first condition SvNumberformatLimitOps eOp2; // Operator for second condition SvNumFormatType eType; // Type of format bool bAdditionalBuiltin; // If this is an additional built-in format defined by i18n bool bStarFlag; // Take *n format as ESC n bool bStandard; // If this is a default standard format bool bIsUsed; // Flag as used for storing SVL_DLLPRIVATE sal_uInt16 ImpGetNumForStringElementCount( sal_uInt16 nNumFor ) const; SVL_DLLPRIVATE bool ImpIsOtherCalendar( const ImpSvNumFor& rNumFor ) const; #ifdef THE_FUTURE SVL_DLLPRIVATE bool ImpSwitchToSpecifiedCalendar( OUString& rOrgCalendar, double& fOrgDateTime, const ImpSvNumFor& rNumFor ) const; #endif /** Whether to use possessive genitive case month name, or partitive case month name, instead of nominative name (noun). @param io_nState 0: execute check
set to 1 if nominative case is returned,
set to 2 if genitive case is returned,
set to 3 if partitive case is returned
1: don't execute check, return nominative case
2: don't execute check, return genitive case
3: don't execute check, return partitive case
@param eCodeType a NfKeywordIndex, must designate a month type code @returns one of css::i18n::CalendarDisplayCode values according to eCodeType and the check executed (or passed). */ SVL_DLLPRIVATE static sal_Int32 ImpUseMonthCase( int & io_nState, const ImpSvNumFor& rNumFor, NfKeywordIndex eCodeType ); /// Whether it's a (YY)YY-M(M)-D(D) format. SVL_DLLPRIVATE bool ImpIsIso8601( const ImpSvNumFor& rNumFor ) const; const CharClass& rChrCls() const; const LocaleDataWrapper& rLoc() const; CalendarWrapper& GetCal() const; const SvNumberFormatter& GetFormatter() const; // divide in substrings and color conditions SVL_DLLPRIVATE short ImpNextSymbol( OUStringBuffer& rString, sal_Int32& nPos, OUString& sSymbol ) const; // read string until ']' and strip blanks (after condition) SVL_DLLPRIVATE static sal_Int32 ImpGetNumber( OUStringBuffer& rString, sal_Int32& nPos, OUString& sSymbol ); /** * Parse the content of '[$-xxx] or '[$-xxxxxxxx]' and extract the locale * type from it. Given the string, start parsing at position specified by * nPos, and store the end position with nPos when the parsing is * complete. The nPos should point to the '$' before the parsing, and to * the closing bracket after the parsing. When the content is [$-xxx], * the xxx part represents the language type (aka LCID) in hex numerals. * When the content is [$-xxxxxxxx] the last 4 digits represent the LCID * (again in hex), the next 2 digits represent the calendar type, and the * 2 highest digits (if exists) is the numeral shape. * * @reference * http://office.microsoft.com/en-us/excel-help/creating-international-number-formats-HA001034635.aspx * * @param rString input string * @param nPos position (see above). * * @return struct containing numeral shape, calendar type, and LCID that * specifies language type. See i18nlangtag/lang.h for a complete * list of language types. These numbers also correspond with the * numbers used by Microsoft Office. */ SVL_DLLPRIVATE static LocaleType ImpGetLocaleType( const OUString& rString, sal_Int32& nPos ); /** Obtain calendar and numerals from a LocaleType that was parsed from a LCID with ImpGetLocaleType(). Inserts a NatNum modifier to rString at nPos if needed as determined from the numeral code. @ATTENTION: may modify maLocale to make it follow aTmpLocale, in which case also nLang is adapted. @returns a string with the calendar if one was determined from the calendar code, else an empty string. The calendar string needs to be inserted at a proper position to rString after all bracketed prefixes. */ SVL_DLLPRIVATE OUString ImpObtainCalendarAndNumerals( OUStringBuffer & rString, sal_Int32 nPos, LanguageType & nLang, const LocaleType & aTmpLocale ); // standard number output SVL_DLLPRIVATE void ImpGetOutputStandard( double& fNumber, OUString& OutString ) const; SVL_DLLPRIVATE void ImpGetOutputStandard( double& fNumber, OUStringBuffer& OutString ) const; SVL_DLLPRIVATE void ImpGetOutputStdToPrecision( double& rNumber, OUString& rOutString, sal_uInt16 nPrecision ) const; // numbers in input line SVL_DLLPRIVATE void ImpGetOutputInputLine( double fNumber, OUString& OutString ) const; // check subcondition // OP undefined => -1 // else 0 or 1 SVL_DLLPRIVATE static short ImpCheckCondition(double fNumber, double fLimit, SvNumberformatLimitOps eOp); // Helper function for number strings // append string symbols, insert leading 0 or ' ', or ... SVL_DLLPRIVATE bool ImpNumberFill( OUStringBuffer& sStr, double& rNumber, sal_Int32& k, sal_uInt16& j, sal_uInt16 nIx, short eSymbolType, bool bInsertRightBlank = false ); // Helper function to fill in the integer part and the group (AKA thousand) separators SVL_DLLPRIVATE bool ImpNumberFillWithThousands( OUStringBuffer& sStr, double& rNumber, sal_Int32 k, sal_uInt16 j, sal_uInt16 nIx, sal_Int32 nDigCnt, bool bAddDecSep = true ); // Helper function to fill in the group (AKA thousand) separators // or to skip additional digits SVL_DLLPRIVATE void ImpDigitFill( OUStringBuffer& sStr, sal_Int32 nStart, sal_Int32& k, sal_uInt16 nIx, sal_Int32 & nDigitCount, utl::DigitGroupingIterator & ); SVL_DLLPRIVATE bool ImpDecimalFill( OUStringBuffer& sStr, double& rNumber, sal_Int32 nDecPos, sal_uInt16 j, sal_uInt16 nIx, bool bInteger ); /** Calculate each element of fraction: * integer part, numerator part, denominator part * @param fNumber value to be represented as fraction. Will contain absolute fractional part * @param nIx subformat number 0..3 * @param fIntPart integral part of fraction * @param nFrac numerator of fraction * @param nDic denominator of fraction */ SVL_DLLPRIVATE void ImpGetFractionElements( double& fNumber, sal_uInt16 nIx, double& fIntPart, sal_uInt64& nFrac, sal_uInt64& nDiv ) const; SVL_DLLPRIVATE bool ImpGetFractionOutput(double fNumber, sal_uInt16 nIx, OUStringBuffer& OutString); SVL_DLLPRIVATE bool ImpGetScientificOutput(double fNumber, sal_uInt16 nIx, OUStringBuffer& OutString); SVL_DLLPRIVATE bool ImpGetDateOutput( double fNumber, sal_uInt16 nIx, OUStringBuffer& OutString ); SVL_DLLPRIVATE bool ImpGetTimeOutput( double fNumber, sal_uInt16 nIx, OUStringBuffer& OutString ); SVL_DLLPRIVATE bool ImpGetDateTimeOutput( double fNumber, sal_uInt16 nIx, OUStringBuffer& OutString ); // Switches to the "gregorian" calendar if the current calendar is // non-"gregorian" and the era is a "Dummy" era of a calendar which doesn't // know a "before" era (like zh_TW ROC or ja_JP Gengou). If switched and // rOrgCalendar was "gregorian" the string is emptied. If rOrgCalendar was // empty the previous calendar name and date/time are returned. SVL_DLLPRIVATE bool ImpFallBackToGregorianCalendar( OUString& rOrgCalendar, double& fOrgDateTime ); // Append a "G" short era string of the given calendar. In the case of a // Gengou calendar this is a one character abbreviation, for other // calendars the XExtendedCalendar::getDisplayString() method is called. SVL_DLLPRIVATE static void ImpAppendEraG( OUStringBuffer& OutStringBuffer, const CalendarWrapper& rCal, sal_Int16 nNatNum ); SVL_DLLPRIVATE bool ImpGetNumberOutput( double fNumber, sal_uInt16 nIx, OUStringBuffer& OutString ); SVL_DLLPRIVATE void ImpCopyNumberformat( const SvNumberformat& rFormat ); // normal digits or other digits, depending on ImpSvNumFor.aNatNum, // [NatNum1], [NatNum2], ... SVL_DLLPRIVATE OUString ImpGetNatNumString( const SvNumberNatNum& rNum, sal_Int32 nVal, sal_uInt16 nMinDigits ) const; OUString ImpIntToString( sal_uInt16 nIx, sal_Int32 nVal, sal_uInt16 nMinDigits = 0 ) const { const SvNumberNatNum& rNum = NumFor[nIx].GetNatNum(); if ( nMinDigits || rNum.IsComplete() ) { return ImpGetNatNumString( rNum, nVal, nMinDigits ); } return OUString::number(nVal); } // Obtain the string of the fraction of second, without leading "0.", // rounded to nFractionDecimals (or nFractionDecimals+1 if // bAddOneRoundingDecimal==true but then truncated at nFractionDecimals, // for use with the result of tools::Time::GetClock()) with the length of // nFractionDecimals, unless nMinimumInputLineDecimals>0 is given for input // line string where extra trailing "0" are discarded. SVL_DLLPRIVATE sal_uInt16 ImpGetFractionOfSecondString( OUStringBuffer& rBuf, double fFractionOfSecond, int nFractionDecimals, bool bAddOneRoundingDecimal, sal_uInt16 nIx, sal_uInt16 nMinimumInputLineDecimals ); // transliterate according to NativeNumber SVL_DLLPRIVATE OUString impTransliterateImpl(const OUString& rStr, const SvNumberNatNum& rNum) const; SVL_DLLPRIVATE void impTransliterateImpl(OUStringBuffer& rStr, const SvNumberNatNum& rNum) const; SVL_DLLPRIVATE OUString impTransliterateImpl(const OUString& rStr, const SvNumberNatNum& rNum, sal_uInt16 nDateKey) const; OUString impTransliterate(const OUString& rStr, const SvNumberNatNum& rNum) const { return rNum.IsComplete() ? impTransliterateImpl(rStr, rNum) : rStr; } SVL_DLLPRIVATE void impTransliterate(OUStringBuffer& rStr, const SvNumberNatNum& rNum) const { if(rNum.IsComplete()) { impTransliterateImpl(rStr, rNum); } } OUString impTransliterate(const OUString& rStr, const SvNumberNatNum& rNum, sal_uInt16 nDateKey) const { return rNum.IsComplete() ? impTransliterateImpl(rStr, rNum, nDateKey) : rStr; } }; #endif // INCLUDED_SVL_ZFORMAT_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */