/* -*- 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_UNOTOOLS_LOCALEDATAWRAPPER_HXX #define INCLUDED_UNOTOOLS_LOCALEDATAWRAPPER_HXX #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace com::sun::star::uno { class XComponentContext; } namespace com::sun::star::i18n { class XLocaleData5; } namespace com::sun::star::i18n { struct Calendar2; } namespace com::sun::star::i18n { struct Currency2; } namespace com::sun::star::i18n { struct FormatElement; } namespace com::sun::star::i18n { struct CalendarItem2; } class Date; namespace tools { class Time; } class CalendarWrapper; enum class DateOrder { Invalid = -1, MDY = 0, DMY, YMD, }; enum class MeasurementSystem { Metric, US }; class UNOTOOLS_DLLPUBLIC LocaleDataWrapper { static sal_uInt8 nLocaleDataChecking; // 0:=dontknow, 1:=yes, 2:=no css::uno::Reference< css::uno::XComponentContext > m_xContext; css::uno::Reference< css::i18n::XLocaleData5 > xLD; LanguageTag maLanguageTag; std::shared_ptr< css::i18n::Calendar2 > xDefaultCalendar; std::shared_ptr< css::i18n::Calendar2 > xSecondaryCalendar; css::i18n::LocaleDataItem2 aLocaleDataItem; css::uno::Sequence< OUString > aReservedWordSeq; css::uno::Sequence< OUString > aDateAcceptancePatterns; css::uno::Sequence< sal_Int32 > aGrouping; // cached items OUString aLocaleItem[css::i18n::LocaleItem::COUNT2]; OUString aReservedWord[css::i18n::reservedWords::COUNT]; OUString aCurrSymbol; OUString aCurrBankSymbol; DateOrder nDateOrder; DateOrder nLongDateOrder; sal_uInt16 nCurrPositiveFormat; sal_uInt16 nCurrNegativeFormat; sal_uInt16 nCurrDigits; bool bLocaleDataItemValid; bool bReservedWordValid; bool bSecondaryCalendarValid; mutable ::utl::ReadWriteMutex aMutex; struct SAL_DLLPRIVATE Locale_Compare { bool operator()(const css::lang::Locale& rLocale1, const css::lang::Locale& rLocale2) const; }; mutable std::map maDataItemCache; // whenever Locale changes void invalidateData(); void getOneLocaleItemImpl( sal_Int16 nItem ); const OUString& getOneLocaleItem( sal_Int16 nItem ) const; void getOneReservedWordImpl( sal_Int16 nWord ); const OUString& getOneReservedWord( sal_Int16 nWord ) const; void getCurrSymbolsImpl(); void getCurrFormatsImpl(); void scanCurrFormatImpl( const OUString& rCode, sal_Int32 nStart, sal_Int32& nSign, sal_Int32& nPar, sal_Int32& nNum, sal_Int32& nBlank, sal_Int32& nSym ) const; void getDateOrdersImpl(); DateOrder scanDateOrderImpl( const OUString& rCode ) const; void getDefaultCalendarImpl(); void getSecondaryCalendarImpl(); void ImplAddFormatNum( rtl::OUStringBuffer& rBuf, sal_Int64 nNumber, sal_uInt16 nDecimals, bool bUseThousandSep, bool bTrailingZeros ) const; void getDigitGroupingImpl(); public: LocaleDataWrapper( const css::uno::Reference< css::uno::XComponentContext > & rxContext, const LanguageTag& rLanguageTag ); LocaleDataWrapper( const LanguageTag& rLanguageTag ); ~LocaleDataWrapper(); /** Get the service factory, meant to be able to create a CalendarWrapper from a LocaleDataWrapper. Note that the service factory may be non-existent if this LocaleDataWrapper was created without one and lives "on the grassland". The CalendarWrapper ctor can handle that though. */ const css::uno::Reference< css::uno::XComponentContext > & getComponentContext() const { return m_xContext; } /// set a new Locale to request void setLanguageTag( const LanguageTag& rLanguageTag ); /// get current requested Locale const LanguageTag& getLanguageTag() const; /// get current loaded Locale, which might differ from the requested Locale LanguageTag getLoadedLanguageTag() const; // Wrapper implementations of service LocaleData css::i18n::LanguageCountryInfo getLanguageCountryInfo() const; /// NOTE: this wraps XLocaleData5::getLocaleItem2() in fact. const css::i18n::LocaleDataItem2& getLocaleItem() const; /// NOTE: this wraps XLocaleData3::getAllCalendars2() in fact. css::uno::Sequence< css::i18n::Calendar2 > getAllCalendars() const; /// NOTE: this wraps XLocaleData2::getAllCurrencies2() in fact. css::uno::Sequence< css::i18n::Currency2 > getAllCurrencies() const; css::uno::Sequence< css::i18n::FormatElement > getAllFormats() const; css::i18n::ForbiddenCharacters getForbiddenCharacters() const; css::uno::Sequence< OUString > getReservedWord() const; css::uno::Sequence< css::lang::Locale > getAllInstalledLocaleNames() const; css::uno::Sequence< OUString > getDateAcceptancePatterns() const; /** Override locale's date acceptance patterns. An empty sequence resets the patterns to the locale's pattern sequence. */ void setDateAcceptancePatterns( const css::uno::Sequence< OUString > & rPatterns ); /// same as the wrapper implementation but static static css::uno::Sequence< css::lang::Locale > getInstalledLocaleNames(); /** Get LanguageTypes for all installed locales which are unambiguous convertible back and forth between locale ISO strings and MS-LCID LanguageType. Upon the first time the function is called when locale data checking is enabled, messages are shown for locales not matching, excluding already known problems. (e.g. used in number formatter dialog init) */ static std::vector< LanguageType > getInstalledLanguageTypes(); /// maps the LocaleData string to the International enum MeasurementSystem mapMeasurementStringToEnum( const OUString& rMS ) const; /// Convenience method to obtain the default calendar. const std::shared_ptr< css::i18n::Calendar2 >& getDefaultCalendar() const; /// Convenience method to obtain the day names of the default calendar. css::uno::Sequence< css::i18n::CalendarItem2 > const & getDefaultCalendarDays() const; /// Convenience method to obtain the month names of the default calendar. css::uno::Sequence< css::i18n::CalendarItem2 > const & getDefaultCalendarMonths() const; /** If the secondary calendar, if any, is of the name passed AND number formats using it usually use the E or EE keyword (EC|EEC). */ bool doesSecondaryCalendarUseEC( const OUString& rName ) const; /** Obtain digit grouping. The usually known grouping by thousands (#,###) is actually only one of possible groupings. Another one, for example, used in India is group by 3 and then by 2 indefinitely (#,##,###). The integer sequence returned here specifies grouping from right to left (!), with a 0 entry designating the end of rules and the previous value to be repeated indefinitely. Hence the sequence {3,0} specifies the usual grouping by thousands, whereas the sequence {3,2,0} specifies Indian grouping. The sal_Int32* getConstArray() can be passed directly to the ::rtl::math::doubleToString() methods as argument for the pGroups parameter. */ css::uno::Sequence< sal_Int32 > getDigitGrouping() const; // Functionality of class International methods, LocaleItem const OUString& getDateSep() const { return getOneLocaleItem( css::i18n::LocaleItem::DATE_SEPARATOR ); } const OUString& getNumThousandSep() const { return getOneLocaleItem( css::i18n::LocaleItem::THOUSAND_SEPARATOR ); } const OUString& getNumDecimalSep() const { return getOneLocaleItem( css::i18n::LocaleItem::DECIMAL_SEPARATOR ); } const OUString& getNumDecimalSepAlt() const { return getOneLocaleItem( css::i18n::LocaleItem::DECIMAL_SEPARATOR_ALTERNATIVE ); } const OUString& getTimeSep() const { return getOneLocaleItem( css::i18n::LocaleItem::TIME_SEPARATOR ); } const OUString& getTime100SecSep() const { return getOneLocaleItem( css::i18n::LocaleItem::TIME_100SEC_SEPARATOR ); } const OUString& getListSep() const { return getOneLocaleItem( css::i18n::LocaleItem::LIST_SEPARATOR ); } const OUString& getQuotationMarkStart() const { return getOneLocaleItem( css::i18n::LocaleItem::SINGLE_QUOTATION_START ); } const OUString& getQuotationMarkEnd() const { return getOneLocaleItem( css::i18n::LocaleItem::SINGLE_QUOTATION_END ); } const OUString& getDoubleQuotationMarkStart() const { return getOneLocaleItem( css::i18n::LocaleItem::DOUBLE_QUOTATION_START ); } const OUString& getDoubleQuotationMarkEnd() const { return getOneLocaleItem( css::i18n::LocaleItem::DOUBLE_QUOTATION_END ); } MeasurementSystem getMeasurementSystemEnum() const { return mapMeasurementStringToEnum( getOneLocaleItem( css::i18n::LocaleItem::MEASUREMENT_SYSTEM ) ); } const OUString& getTimeAM() const { return getOneLocaleItem( css::i18n::LocaleItem::TIME_AM ); } const OUString& getTimePM() const { return getOneLocaleItem( css::i18n::LocaleItem::TIME_PM ); } const OUString& getLongDateDayOfWeekSep() const { return getOneLocaleItem( css::i18n::LocaleItem::LONG_DATE_DAY_OF_WEEK_SEPARATOR ); } const OUString& getLongDateDaySep() const { return getOneLocaleItem( css::i18n::LocaleItem::LONG_DATE_DAY_SEPARATOR ); } const OUString& getLongDateMonthSep() const { return getOneLocaleItem( css::i18n::LocaleItem::LONG_DATE_MONTH_SEPARATOR ); } const OUString& getLongDateYearSep() const { return getOneLocaleItem( css::i18n::LocaleItem::LONG_DATE_YEAR_SEPARATOR ); } /** A wrapper around rtl::math::stringToDouble() using the locale dependent decimal separator, group separator, and if needed decimal separator alternative. The decimal separator is tried first, if the conversion does not match the entire string then the decimal separator alternative is tried if it occurs in the string and was the reason to stop. Leading blanks are skipped, trailing blanks are not skipped. The number is parsed up to the first non-floating point number character, same as rtl::math::stringToDouble() does. The caller is responsible for proper error checking and end comparison. @param rString The string to parse as floating point number. @param bUseGroupSep Whether group separator is used/accepted during parsing. @param pStatus Pointer to receive the conversion status as in rtl::math::stringToDouble(). @param pParseEnd Pointer to receive the parse end (exclusive) as in rtl::math::stringToDouble(). @return The floating point number as parsed. */ double stringToDouble( const OUString& rString, bool bUseGroupSep, rtl_math_ConversionStatus* pStatus, sal_Int32* pParseEnd ) const; /** A wrapper around rtl_math_uStringToDouble() using the locale dependent decimal separator, group separator, and if needed decimal separator alternative. The decimal separator is tried first, if the conversion does not match the entire string then the decimal separator alternative is tried if it occurs in the string and was the reason to stop. Leading blanks are skipped, trailing blanks are not skipped. The number is parsed up to the first non-floating point number character, same as rtl_math_uStringToDouble() does. The caller is responsible for proper error checking and end comparison. @param pBegin The string position to start parsing a floating point number. @param pEnd The string position to stop parsing, exclusive. @param bUseGroupSep Whether group separator is used/accepted during parsing. @param pStatus Pointer to receive the conversion status as in rtl_math_uStringToDouble(). @param pParseEnd Pointer to receive the parse end (exclusive) as in rtl_math_uStringToDouble(). @return The floating point number as parsed. */ double stringToDouble( const sal_Unicode* pBegin, const sal_Unicode* pEnd, bool bUseGroupSep, rtl_math_ConversionStatus* pStatus, const sal_Unicode** ppParseEnd ) const; // currency const OUString& getCurrSymbol() const; const OUString& getCurrBankSymbol() const; sal_uInt16 getCurrPositiveFormat() const; sal_uInt16 getCurrNegativeFormat() const; sal_uInt16 getCurrDigits() const; // simple date and time formatting DateOrder getDateOrder() const; DateOrder getLongDateOrder() const; /// only numerical values of Gregorian calendar OUString getDate( const Date& rDate ) const; OUString getTime( const tools::Time& rTime, bool bSec = true, bool b100Sec = false ) const; OUString getDuration( const tools::Time& rTime, bool bSec = true, bool b100Sec = false ) const; /** The CalendarWrapper already MUST have loaded a calendar. @param bTwoDigitYear := full year := year % 100 */ OUString getLongDate( const Date& rDate, CalendarWrapper& rCal, bool bTwoDigitYear ) const; /** Simple number formatting @param nNumber value * 10**nDecimals @param bTrailingZeros := always display trailing zeros in decimal places, even if integer value. := trailing zeros are only displayed if the value is not an integer value. */ OUString getNum( sal_Int64 nNumber, sal_uInt16 nDecimals, bool bUseThousandSep = true, bool bTrailingZeros = true ) const; /// "Secure" currency formatted string. OUString getCurr( sal_Int64 nNumber, sal_uInt16 nDecimals, const OUString& rCurrencySymbol, bool bUseThousandSep = true ) const; // dummy returns, to be implemented sal_Unicode getCurrZeroChar() const { return '0'; } static bool isNumLeadingZero() { return true; } /// standard decimal places static sal_uInt16 getNumDigits() { return 2; } static bool isNumTrailingZeros() { return true; } // reserved words const OUString& getTrueWord() const { return getOneReservedWord( css::i18n::reservedWords::TRUE_WORD ); } const OUString& getFalseWord() const { return getOneReservedWord( css::i18n::reservedWords::FALSE_WORD ); } const OUString& getAboveWord() const { return getOneReservedWord( css::i18n::reservedWords::ABOVE_WORD ); } const OUString& getBelowWord() const { return getOneReservedWord( css::i18n::reservedWords::BELOW_WORD ); } /// return a quarter abbreviation string matching nQuarter (0..3) => "Q1" .. "Q2" const OUString& getQuarterAbbreviation( sal_Int16 nQuarter ) const { return getOneReservedWord( css::i18n::reservedWords::QUARTER1_ABBREVIATION + nQuarter ); } /** Return whether locale data checks are enabled. Checks are enabled if the environment variable OOO_ENABLE_LOCALE_DATA_CHECKS is set to 'Y' or 'Yes' (or any other string starting with 'Y') or '1'. Also used in conjunction with the number formatter. */ static bool areChecksEnabled() { if (nLocaleDataChecking == 0) evaluateLocaleDataChecking(); return nLocaleDataChecking == 1; } /** Append locale info to string, used with locale data checking. A string similar to "de_DE requested\n en_US loaded" is appended. */ OUString appendLocaleInfo(const OUString& rDebugMsg) const; /** Output a message during locale data checking. The (UTF-8) string is written to stderr and in a non-product build or if DBG_UTIL is enabled also raised as an assertion message box. */ static void outputCheckMessage( const OUString& rMsg ); static void outputCheckMessage( const char* pStr); LocaleDataWrapper(const LocaleDataWrapper&) = delete; LocaleDataWrapper& operator=(const LocaleDataWrapper&) = delete; private: const css::lang::Locale & getMyLocale() const; static void evaluateLocaleDataChecking(); }; #endif // INCLUDED_UNOTOOLS_LOCALEDATAWRAPPER_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */