plasma-framework/declarativeimports/locale/locale.h

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/* This file is part of the KDE libraries
Copyright (C) 2012 Giorgos Tsiapaliwkas <terietor@gmail.com>
Copyright (C) 2012 Antonis Tsiapaliokas <kok3rs@gmail.com>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#ifndef LOCALE_H
#define LOCALE_H
#include <QObject>
#include <KLocale>
2012-02-10 15:04:57 +01:00
class QString;
class QDate;
class QTime;
class QDateTime;
/**
* \file klocale.h
*/
/**
*
* KLocale provides support for country specific stuff like
* the national language.
*
* KLocale supports translating, as well as specifying the format
* for numbers, currency, time, and date.
*
* Use KGlobal::locale() to get pointer to the global KLocale object,
* containing the applications current locale settings.
*
* For example, to format the date May 17, 1995 in the current locale, use:
*
* \code
* QString date = KGlobal::locale()->formatDate(QDate(1995,5,17));
* \endcode
*
* @author Stephan Kulow <coolo@kde.org>, Preston Brown <pbrown@kde.org>,
* Hans Petter Bieker <bieker@kde.org>, Lukas Tinkl <lukas.tinkl@suse.cz>
* @short class for supporting locale settings and national language
*/
class Locale : public QObject
{
Q_OBJECT
//enuns
Q_ENUMS(BinarySizeUnits)
Q_ENUMS(BinaryUnitDialect)
Q_ENUMS(CalendarSystem)
Q_ENUMS(DateFormat)
Q_ENUMS(DateTimeComponent)
Q_ENUMS(DateTimeComponentFormat)
Q_ENUMS(DateTimeFormatOption )
Q_ENUMS(DateTimeFormatStandard)
Q_ENUMS(DateTimeParseMode)
Q_ENUMS(DigitSet)
Q_ENUMS(MeasureSystem)
Q_ENUMS(ReadDateFlags)
Q_ENUMS(SignPosition)
Q_ENUMS(TimeFormatOption)
Q_ENUMS(TimeProcessingOption)
Q_ENUMS(WeekNumberSystem)
//properties
Q_PROPERTY(BinaryUnitDialect binaryUnitDialect READ binaryUnitDialect WRITE setBinaryUnitDialect NOTIFY binaryUnitDialectChanged)
Q_PROPERTY(Locale::CalendarSystem calendarSystem READ calendarSystem WRITE setCalendarSystem NOTIFY calendarSystemChanged)
Q_PROPERTY(QString country READ country NOTIFY countryChanged) //read-only
Q_PROPERTY(QString countryDivisionCode READ countryDivisionCode WRITE setCountryDivisionCode NOTIFY countryDivisionCodeChanged)
Q_PROPERTY(QString currencyCode READ currencyCode WRITE setCurrencyCode NOTIFY currencyCodeChanged)
Q_PROPERTY(QString currencySymbol READ currencySymbol WRITE setCurrencySymbol NOTIFY currencySymbolChanged)
Q_PROPERTY(QString dateFormat READ dateFormat WRITE setDateFormat NOTIFY dateFormatChanged)
Q_PROPERTY(QString dateFormatShort READ dateFormatShort WRITE setDateFormat NOTIFY dateFormatShortChanged)
Q_PROPERTY(bool dateMonthNamePossessive READ dateMonthNamePossessive WRITE setDateMonthNamePossessive NOTIFY dateMonthNamePossessiveChanged)
Q_PROPERTY(DigitSet dateTimeDigitSet READ dateTimeDigitSet WRITE setDateTimeDigitSet NOTIFY dateTimeDigitSetChanged)
Q_PROPERTY(int decimalPlaces READ decimalPlaces WRITE setDecimalPlaces NOTIFY decimalPlacesChanged)
Q_PROPERTY(QString decimalSymbol READ decimalSymbol WRITE setDecimalSymbol NOTIFY decimalSymbolChanged)
Q_PROPERTY(DigitSet digitSet READ digitSet WRITE setDigitSet NOTIFY digitSetChanged)
Q_PROPERTY(QString language READ language NOTIFY languageChanged) //read-only
Q_PROPERTY(MeasureSystem measureSystem READ measureSystem WRITE setMeasureSystem NOTIFY measureSystemChanged)
Q_PROPERTY(int monetaryDecimalPlaces READ monetaryDecimalPlaces WRITE setMonetaryDecimalPlaces NOTIFY monetaryDecimalPlacesChanged)
Q_PROPERTY(QString monetaryDecimalSymbol READ monetaryDecimalSymbol WRITE setMonetaryDecimalSymbol NOTIFY monetaryDecimalSymbolChanged)
Q_PROPERTY(DigitSet monetaryDigitSet READ monetaryDigitSet WRITE setMonetaryDigitSet NOTIFY monetaryDigitSetChanged)
Q_PROPERTY(QString monetaryThousandsSeparator READ monetaryThousandsSeparator WRITE setMonetaryThousandsSeparator NOTIFY monetaryThousandsSeparatorChanged)
Q_PROPERTY(SignPosition negativeMonetarySignPosition READ negativeMonetarySignPosition WRITE setNegativeMonetarySignPosition NOTIFY negativeMonetarySignPositionChanged)
Q_PROPERTY(bool negativePrefixCurrencySymbol READ negativePrefixCurrencySymbol WRITE setNegativePrefixCurrencySymbol NOTIFY negativePrefixCurrencySymbolChanged)
Q_PROPERTY(QString negativeSign READ negativeSign WRITE setNegativeSign NOTIFY negativeSignChanged)
Q_PROPERTY(int pageSize READ pageSize WRITE setPageSize NOTIFY pageSizeChanged)
Q_PROPERTY(SignPosition positiveMonetarySignPosition READ positiveMonetarySignPosition WRITE setPositiveMonetarySignPosition NOTIFY positiveMonetarySignPositionChanged)
Q_PROPERTY(bool positivePrefixCurrencySymbol READ positivePrefixCurrencySymbol WRITE setPositivePrefixCurrencySymbol NOTIFY positivePrefixCurrencySymbolChanged)
Q_PROPERTY(QString positiveSign READ positiveSign WRITE setPositiveSign NOTIFY positiveSignChanged)
Q_PROPERTY(QString thousandsSeparator READ thousandsSeparator WRITE setThousandsSeparator NOTIFY thousandsSeparatorChanged)
Q_PROPERTY(int weekDayOfPray READ weekDayOfPray WRITE setWeekDayOfPray NOTIFY weekDayOfPrayChanged)
Q_PROPERTY(Locale::WeekNumberSystem weekNumberSystem READ weekNumberSystem WRITE setWeekNumberSystem NOTIFY WeekNumberSystemChanged)
Q_PROPERTY(int weekStartDay READ weekStartDay WRITE setWeekStartDay NOTIFY weekStartDayChanged)
Q_PROPERTY(int workingWeekEndDay READ workingWeekEndDay WRITE setWorkingWeekEndDay NOTIFY workingWeekEndDayChanged)
Q_PROPERTY(int workingWeekStartDay READ workingWeekStartDay WRITE setWorkingWeekStartDay NOTIFY workingWeekStartDayChanged)
Q_PROPERTY(bool use12Clock READ use12Clock NOTIFY use12ClockChanged)
Q_PROPERTY(QString defaultLanguage READ defaultLanguage NOTIFY defaultLanguageChanged)//read-only
Q_PROPERTY(QString defaultCountry READ defaultCountry NOTIFY defaultCountryChanged)//read-only
Q_PROPERTY(QString defaultCurrencyCode READ defaultCurrencyCode NOTIFY defaultCurrencyCodeChanged)//read-only
Q_PROPERTY(bool useTranscript READ useTranscript NOTIFY useTranscriptChanged) //read-only
Q_PROPERTY(int fileEncodingMib READ fileEncodingMib NOTIFY fileEncodingMibChanged) //read-only
Q_PROPERTY(QStringList languageList READ languageList NOTIFY languageListChanged) //read-only
Q_PROPERTY(QStringList currencyCodeList READ currencyCodeList NOTIFY currencyCodeListChanged) //read-only
Q_PROPERTY(QStringList allLanguagesList READ allLanguagesList NOTIFY allLanguagesListChanged) //read-only
Q_PROPERTY(QStringList installedLanguages READ installedLanguages NOTIFY installedLanguagesChanged) //read-only
Q_PROPERTY(QStringList allCountriesList READ allCountriesList NOTIFY allCountriesListChanged) //read-only
Q_PROPERTY(QList<int> allDigitSetsList READ allDigitSetsList NOTIFY allDigitSetsListChanged) //read-only
public:
/**
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* ctor
*/
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Locale(QObject *parent = 0);
/**
* Various positions for where to place the positive or negative
* sign when they are related to a monetary value.
*/
enum SignPosition {
/**
* Put parantheses around the quantity, e.g. "$ (217)"
*/
ParensAround = 0,
/**
* Prefix the quantity with the sign, e.g. "$ -217"
*/
BeforeQuantityMoney = 1,
/**
* Suffix the quanitity with the sign, e.g. "$ 217-"
*/
AfterQuantityMoney = 2,
/**
* Prefix the currency symbol with the sign, e.g. "-$ 217"
*/
BeforeMoney = 3,
/**
* Suffix the currency symbol with the sign, e.g. "$- 217"
*/
AfterMoney = 4
};
/**
*
* The set of digit characters used to display and enter numbers.
*/
enum DigitSet {
ArabicDigits, /**< 0123456789 (European and some Asian
languages and western Arabic dialects) */
ArabicIndicDigits, /**< ٠١٢٣٤٥٦٧٨٩ (eastern Arabic dialects) */
EasternArabicIndicDigits, /**< ۰۱۲۳۴۵۶۷۸۹ (Persian and Urdu) */
DevenagariDigits, /**< ०१२३४५६७८९ (Hindi) */
BengaliDigits, /**< ০১২৩৪৫৬৭৮৯ (Bengali and Assamese) */
GujaratiDigits, /**< ૦૧૨૩૪૫૬૭૮૯ (Gujarati) */
GurmukhiDigits, /**< ੦੧੨੩੪੫੬੭੮੯ (Punjabi) */
KannadaDigits, /**< ೦೧೨೩೪೫೬೭೮೯ (Kannada) */
KhmerDigits, /**< ០១២៣៤៥៦៧៨៩ (Khmer) */
MalayalamDigits, /**< ൦൧൨൩൪൫൬൭൮൯ (Malayalam) */
OriyaDigits, /**< ୦୧୨୩୪୫୬୭୮୯ (Oriya) */
TamilDigits, /**< ௦௧௨௩௪௫௬௭௮ (Tamil) */
TeluguDigits, /**< ౦౧౨౩౪౫౬౭౯ (Telugu) */
ThaiDigits /**< ๐๑๒๓๔๕๖๗๘๙ (Thai) */
// The following Decimal Digit Sets are defined in Unicode but the associated
// languages are not yet translated in KDE, so are not yet enabled.
// The script names are taken from the Unicode standard, the associated
// languages from Wikipedia.
// BalineseDigits, /**< ᭐᭑᭒᭓᭔᭕᭖᭗᭘᭙ (Balinese) */
// ChamDigits, /**< ꩐꩑꩒꩓꩔꩕꩖꩗꩘꩙ (Cham) */
// JavaneseDigits, /**< ꧐꧑꧒꧓꧔꧕꧖꧗꧘꧙ (Javanese) */
// KayahLiDigits, /**< ꤀꤁꤂꤃꤄꤅꤆꤇꤈꤉ (Kayah) */
// LaoDigits, /**< ໐໑໒໓໔໕໖໗໘໙ (Lao) */
// LepchaDigits, /**< ᱀᱁᱂᱃᱄᱅᱆᱇᱈᱉ (Lepcha) */
// LimbuDigits, /**< ᥆᥇᥈᥉᥊᥋᥌᥍᥎᥏ (Limbu) */
// MeeteiMayekDigits, /**< ꯰꯱꯲꯳꯴꯵꯶꯷꯸꯹ (Meitei) */
// MongolianDigits, /**< ᠐᠑᠒᠓᠔᠕᠖᠗᠘᠙ (Mongolian) */
// MyanmarDigits, /**< ၀၁၂၃၄၅၆၇၈၉ (Myanmar/Burmese ) */
// MyanmarShanDigits, /**< ႐႑႒႓႔႕႖႗႘႙ (Shan) */
// NewTaiLueDigits, /**< ᧐᧑᧒᧓᧔᧕᧖᧗᧘᧙ (Tai Lü) */
// NKoDigits, /**< ߀߁߂߃߄߅߆߇߈߉ (Mande and N'Ko) */
// OlChikiDigits, /**< ᱐᱑᱒᱓᱔᱕᱖᱗᱘᱙ (Santali) */
// OsmanyaDigits, /**< ҠҡҢңҤҥҦҧҨҩ (Somali) */
// SaurashtraDigits, /**< ꣐꣑꣒꣓꣔꣕꣖꣗꣘꣙ (Saurashtra) */
// SundaneseDigits, /**< ᮰᮱᮲᮳᮴᮵᮶᮷᮸᮹ (Sundanese) */
// TaiThamDigits, /**< ᪐᪑᪒᪓᪔᪕᪖᪗᪘᪙ (Tai Lü) */
// TibetanDigits, /**< ༠༡༢༣༤༥༦༧༨༩ (Tibetan) */
// VaiDigits, /**< ꘠꘡꘢꘣꘤꘥꘦꘧꘨꘩ (Vai) */
};
/**
*
* Convert a digit set identifier to a human readable, localized name.
*
* @param digitSet the digit set identifier
* @param withDigits whether to add the digits themselves to the name
*
* @return the human readable and localized name of the digit set
*
* @see DigitSet
*/
QString digitSetToName(DigitSet digitSet, bool withDigits = false) const;
/**
*
* Provides list of all known digit set identifiers.
*
* @return list of all digit set identifiers
* @see DigitSet
* @see digitSetToName
*/
QList<int> allDigitSetsList() const;
/**
* Returns what a decimal point should look like ("." or "," etc.)
* according to the current locale or user settings.
*
* @return The decimal symbol used by locale.
*/
QString decimalSymbol() const;
/**
* Returns what the thousands separator should look
* like ("," or "." etc.)
* according to the current locale or user settings.
*
* @return The thousands separator used by locale.
*/
QString thousandsSeparator() const;
/**
*
* Returns the identifier of the digit set used to display numbers.
*
* @return the digit set identifier
* @see DigitSet
* @see digitSetToName
*/
DigitSet digitSet() const;
/**
*
* Returns the ISO 4217 Currency Code for the current locale
*
* @return The default ISO Currency Code used by locale.
*/
QString currencyCode() const;
/**
* Returns what the symbol denoting currency in the current locale
* as as defined by user settings should look like.
*
* @return The default currency symbol used by locale.
*/
QString currencySymbol() const;
/**
* Returns what a decimal point should look like ("." or "," etc.)
* for monetary values, according to the current locale or user
* settings.
*
* @return The monetary decimal symbol used by locale.
*/
QString monetaryDecimalSymbol() const;
/**
* Returns what a thousands separator for monetary values should
* look like ("," or " " etc.) according to the current locale or
* user settings.
*
* @return The monetary thousands separator used by locale.
*/
QString monetaryThousandsSeparator() const;
/**
* Returns what a positive sign should look like ("+", " ", etc.)
* according to the current locale or user settings.
*
* @return The positive sign used by locale.
*/
QString positiveSign() const;
/**
* Returns what a negative sign should look like ("-", etc.)
* according to the current locale or user settings.
*
* @return The negative sign used by locale.
*/
QString negativeSign() const;
/**
*
* The number of decimal places to include in numeric values (usually 2).
*
* @return Default number of numeric decimal places used by locale.
*/
int decimalPlaces() const;
/**
*
* The number of decimal places to include in monetary values (usually 2).
*
* @return Default number of monetary decimal places used by locale.
*/
int monetaryDecimalPlaces() const;
/**
* If and only if the currency symbol precedes a positive value,
* this will be true.
*
* @return Where to print the currency symbol for positive numbers.
*/
bool positivePrefixCurrencySymbol() const;
/**
* If and only if the currency symbol precedes a negative value,
* this will be true.
*
* @return True if the currency symbol precedes negative numbers.
*/
bool negativePrefixCurrencySymbol() const;
/**
* Returns the position of a positive sign in relation to a
* monetary value.
*
* @return Where/how to print the positive sign.
* @see SignPosition
*/
SignPosition positiveMonetarySignPosition() const;
/**
* Denotes where to place a negative sign in relation to a
* monetary value.
*
* @return Where/how to print the negative sign.
* @see SignPosition
*/
SignPosition negativeMonetarySignPosition() const;
/**
*
* Retuns the digit set used to display monetary values.
*
* @return the digit set identifier
* @see DigitSet
* @see digitSetToName
*/
DigitSet monetaryDigitSet() const;
/**
* Given a double, converts that to a numeric string containing
* the localized monetary equivalent.
*
* e.g. given 123456, return "$ 123,456.00".
*
* If precision isn't specified or is < 0, then the default monetaryDecimalPlaces() is used.
*
* @param num The number we want to format
* @param currency The currency symbol you want.
* @param precision Number of decimal places displayed
*
* @return The number of money as a localized string
* @see monetaryDecimalPlaces()
*/
Q_INVOKABLE QString formatMoney(double num, const QString &currency = QString(), int precision = -1) const;
/**
* Given a double, converts that to a numeric string containing
* the localized numeric equivalent.
*
* e.g. given 123456.78F, return "123,456.78" (for some European country).
*
* If precision isn't specified or is < 0, then the default decimalPlaces() is used.
*
* This function is a wrapper that is provided for convenience.
*
* @param num The number to convert
* @param precision Number of decimal places used.
*
* @return The number as a localized string
* @see formatNumber(const QString, bool, int)
* @see decimalPlaces()
*/
Q_INVOKABLE QString formatNumber(double num, int precision = -1) const;
/**
* Given a string representing a number, converts that to a numeric
* string containing the localized numeric equivalent.
*
* e.g. given 123456.78F, return "123,456.78" (for some European country).
*
* If precision isn't specified or is < 0, then the default decimalPlaces() is used.
*
* @param numStr The number to format, as a string.
* @param round Round fractional digits. (default true)
* @param precision Number of fractional digits used for rounding. Unused if round=false.
*
* @return The number as a localized string
*/
Q_INVOKABLE QString formatNumber(const QString &numStr, bool round = true, int precision = -1) const;
/**
* Given an integer, converts that to a numeric string containing
* the localized numeric equivalent.
*
* e.g. given 123456L, return "123,456" (for some European country).
*
* @param num The number to convert
*
* @return The number as a localized string
*/
Q_INVOKABLE QString formatLong(long num) const;
/**
* These binary units are used in KDE by the formatByteSize()
* functions.
*
* NOTE: There are several different units standards:
* 1) SI (i.e. metric), powers-of-10.
* 2) IEC, powers-of-2, with specific units KiB, MiB, etc.
* 3) JEDEC, powers-of-2, used for solid state memory sizing which
* is why you see flash cards labels as e.g. 4GB. These (ab)use
* the metric units. Although JEDEC only defines KB, MB, GB, if
* JEDEC is selected all units will be powers-of-2 with metric
* prefixes for clarity in the event of sizes larger than 1024 GB.
*
* Although 3 different dialects are possible this enum only uses
* metric names since adding all 3 different names of essentially the same
* unit would be pointless. Use BinaryUnitDialect to control the exact
* units returned.
*
* @see binaryUnitDialect
*/
enum BinarySizeUnits {
/// Auto-choose a unit such that the result is in the range [0, 1000 or 1024)
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DefaultBinaryUnits = 1000,
// The first real unit must be 0 for the current implementation!
2012-03-16 16:03:18 +01:00
UnitByte = 0, ///< B 1 byte
UnitKiloByte, ///< KiB/KB/kB 1024/1000 bytes.
UnitMegaByte, ///< MiB/MB/MB 2^20/10^06 bytes.
UnitGigaByte, ///< GiB/GB/GB 2^30/10^09 bytes.
UnitTeraByte, ///< TiB/TB/TB 2^40/10^12 bytes.
UnitPetaByte, ///< PiB/PB/PB 2^50/10^15 bytes.
UnitExaByte, ///< EiB/EB/EB 2^60/10^18 bytes.
UnitZettaByte, ///< ZiB/ZB/ZB 2^70/10^21 bytes.
UnitYottaByte, ///< YiB/YB/YB 2^80/10^24 bytes.
UnitLastUnit = UnitYottaByte
};
/**
* This enum chooses what dialect is used for binary units.
*
* Note: Although JEDEC abuses the metric prefixes and can therefore be
* confusing, it has been used to describe *memory* sizes for quite some time
* and programs should therefore use either Default, JEDEC, or IEC 60027-2
* for memory sizes.
*
* On the other hand network transmission rates are typically in metric so
* Default, Metric, or IEC (which is unambiguous) should be chosen.
*
* Normally choosing DefaultBinaryUnits is the best option as that uses
* the user's selection for units.
*
* @see binaryUnitDialect
* @see setBinaryUnitDialect
*/
enum BinaryUnitDialect {
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DefaultBinaryDialect = 1000, ///< Used if no specific preference
IECBinaryDialect = 0, ///< KDE Default, KiB, MiB, etc. 2^(10*n)
JEDECBinaryDialect, ///< KDE 3.5 default, KB, MB, etc. 2^(10*n)
MetricBinaryDialect, ///< SI Units, kB, MB, etc. 10^(3*n)
LastBinaryDialect = MetricBinaryDialect
};
/**
* Converts @p size from bytes to the string representation using the
* user's default binary unit dialect. The default unit dialect is
* IEC 60027-2.
*
* Example:
* formatByteSize(1024) returns "1.0 KiB" by default.
*
* @param size size in bytes
* @return converted size as a string - e.g. 123.4 KiB , 12.0 MiB
* @see BinaryUnitDialect
* @todo KDE 5: Remove in favor of overload added in KDE 4.4.
*/
Q_INVOKABLE QString formatByteSize(double size) const;
/**
*
* Converts @p size from bytes to the appropriate string representation
* using the binary unit dialect @p dialect and the specific units @p specificUnit.
*
* Example:
* formatByteSize(1000, unit, Locale::BinaryUnitKilo) returns:
* for Locale::MetricBinaryUnits, "1.0 kB",
* for Locale::IECBinaryUnits, "0.9 KiB",
* for Locale::JEDECBinaryUnits, "0.9 KB".
*
* @param size size in bytes
* @param precision number of places after the decimal point to use. KDE uses
* 1 by default so when in doubt use 1.
* @param dialect binary unit standard to use. Use DefaultBinaryUnits to
* use the localized user selection unless you need to use a specific
* unit type (such as displaying a flash memory size in JEDEC).
* @param specificUnit specific unit size to use in result. Use
* DefaultBinarySize to automatically select a unit that will return
* a sanely-sized number.
* @return converted size as a translated string including the units.
* E.g. "1.23 KiB", "2 GB" (JEDEC), "4.2 kB" (Metric).
* @see BinaryUnitDialect
*/
QString formatByteSize(double size, int precision,
BinaryUnitDialect dialect = Locale::DefaultBinaryDialect,
BinarySizeUnits specificUnit = Locale::DefaultBinaryUnits) const;
/**
* Returns the user's configured binary unit dialect.
* e.g. if MetricBinaryDialect is returned then the values
* configured for how much a set of bytes are worth would
* be 10^(3*n) and KB (1000 bytes == 1 KB), in this case.
*
* Will never return DefaultBinaryDialect.
*
* @return User's configured binary unit dialect
* @see BinaryUnitDialect
*/
BinaryUnitDialect binaryUnitDialect() const;
/**
* Sets @p newDialect to be the default dialect for this locale (and only
* this locale). Newly created KLocale objects will continue to default
* to the user's choice.
*
* @param newDialect the new dialect to set as default for this locale object.
*/
void setBinaryUnitDialect(BinaryUnitDialect newDialect);
/**
* Given a number of milliseconds, converts that to a string containing
* the localized equivalent
*
* e.g. given formatDuration(60000), returns "1.0 minutes"
*
* @param mSec Time duration in milliseconds
* @return converted duration as a string - e.g. "5.5 seconds" "23.0 minutes"
*/
Q_INVOKABLE QString formatDuration(unsigned long mSec) const;
/**
* Given a number of milliseconds, converts that to a pretty string containing
* the localized equivalent.
*
* e.g. given prettyFormatDuration(60001) returns "1 minute"
* given prettyFormatDuration(62005) returns "1 minute and 2 seconds"
* given prettyFormatDuration(90060000) returns "1 day and 1 hour"
*
* @param mSec Time duration in milliseconds
* @return converted duration as a string.
* Units not interesting to the user, for example seconds or minutes when the first
* unit is day, are not returned because they are irrelevant. The same applies for
* seconds when the first unit is hour.
*/
Q_INVOKABLE QString prettyFormatDuration(unsigned long mSec) const;
/**
*
* Available Calendar Systems
*
* @see setCalendarSystem()
* @see calendarSystem()
*/
enum CalendarSystem {
QDateCalendar = 1, /**< KDE Default, hybrid of Gregorian and Julian as used by QDate */
//BahaiCalendar = 2, /**< Baha'i Calendar */
//BuddhistLunarCalendar = 3, /**< Buddhist Lunar Calendar*/
//ChineseCalendar = 4, /**< Chinese Calendar */
CopticCalendar = 5, /**< Coptic Calendar as used Coptic Church and some parts of Egypt */
EthiopianCalendar = 6, /**< Ethiopian Calendar, aka Ethiopic Calendar */
//EthiopianAmeteAlemCalendar = 7, /**< Ethiopian Amete Alem version, aka Ethiopic Amete Alem */
GregorianCalendar = 8, /**< Gregorian Calendar, pure proleptic implementation */
HebrewCalendar = 9, /**< Hebrew Calendar, aka Jewish Calendar */
//HinduCalendar = 10, /**< Hindu Lunar Calendar */
//IslamicLunarCalendar = 11, /**< Islamic Lunar Calendar */
IslamicCivilCalendar = 12, /**< Islamic Civil Calendar, aka Hijri, not the Lunar Calendar */
//IslamicUmAlQuraCalendar = 13, /**< Islamic Lunar Calendar, Um Al Qura varient used in Saudi Arabia */
IndianNationalCalendar = 14, /**< Indian National Calendar, not the Lunar Calendar */
//Iso8601Calendar = 15, /**< ISO 8601 Standard Calendar */
JalaliCalendar = 16, /**< Jalali Calendar, aka Persian or Iranian, also used in Afghanistan */
//JalaliBirashkCalendar = 17, /**< Jalali Calendar, Birashk Algorythm variant */
//Jalali33YearCalendar = 18, /**< Jalali Calendar, 33 Year cycle variant */
JapaneseCalendar= 19, /**< Japanese Calendar, Gregorian calculation using Japanese Era (Nengô) */
//JucheCalendar = 20, /**< Juche Calendar, used in North Korea */
JulianCalendar = 21, /**< Julian Calendar, as used in Orthodox Churches */
MinguoCalendar= 22, /**< Minguo Calendar, aka ROC, Republic of China or Taiwanese */
ThaiCalendar = 23 /**< Thai Calendar, aka Buddhist or Thai Buddhist */
};
/**
*
* System used for Week Numbers
*
* @see setWeekNumberSystem()
* @see weekNumberSystem()
*/
enum WeekNumberSystem {
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DefaultWeekNumber = 1000, /**< The system locale default */
IsoWeekNumber = 0, /**< ISO Week Number */
FirstFullWeek = 1, /**< Week 1 starts on the first Week Start Day in year ends after 7 days */
FirstPartialWeek = 2, /**< Week 1 starts Jan 1st ends day before first Week Start Day in year */
SimpleWeek = 3 /**< Week 1 starts Jan 1st ends after 7 days */
};
/**
*
* Standard used for Date Time Format String
*/
enum DateTimeFormatStandard {
KdeFormat, /**< KDE Standard */
PosixFormat, /**< POSIX Standard */
UnicodeFormat /**< UNICODE Standard (Qt/Java/OSX/Windows) */
};
/**
*
* Mode to use when parsing a Date Time input string
*/
enum DateTimeParseMode {
LiberalParsing /**< Parse Date/Time liberally. So long as the
input string contains at least a reconizable
month and day the input will be accepted. */
//ModerateParsing, /**< Parse Date/Time with modeate tolerance.
// The date components in the format must all
// occur in the input and in the same order,
// but the spacing and the componants themselves
// may vary from the strict format. */
//StrictParsing /**< Parse Date/Time strictly to the format. */
};
/**
*
* The various Components that make up a Date / Time
* In the future the Components may be combined as flags for dynamic
* generation of Date Formats.
*
2012-03-09 12:25:25 +01:00
* @see CalendarSystem
* @see KLocalizedDate
* @see DateTimeComponentFormat
*/
enum DateTimeComponent {
Year = 0x1, /**< The Year portion of a date, may be number or name */
YearName = 0x2, /**< The Year Name portion of a date */
Month = 0x4, /**< The Month portion of a date, may be number or name */
MonthName = 0x8, /**< The Month Name portion of a date */
Day = 0x10, /**< The Day portion of a date, may be number or name */
DayName = 0x20, /**< The Day Name portion of a date */
JulianDay = 0x40, /**< The Julian Day of a date */
EraName = 0x80, /**< The Era Name portion of a date */
EraYear = 0x100, /**< The Era and Year portion of a date */
YearInEra = 0x200, /**< The Year In Era portion of a date */
DayOfYear = 0x400, /**< The Day Of Year portion of a date, may be number or name */
DayOfYearName = 0x800, /**< The Day Of Year Name portion of a date */
DayOfWeek = 0x1000, /**< The Day Of Week / Weekday portion of a date, may be number or name */
DayOfWeekName = 0x2000, /**< The Day Of Week Name / Weekday Name portion of a date */
Week = 0x4000, /**< The Week Number portion of a date */
WeekYear = 0x8000, /**< The Week Year portion of a date */
MonthsInYear = 0x10000, /**< The Months In Year portion of a date */
WeeksInYear = 0x20000, /**< The Weeks In Year portion of a date */
DaysInYear = 0x40000, /**< The Days In Year portion of a date */
DaysInMonth = 0x80000, /**< The Days In Month portion of a date */
DaysInWeek = 0x100000, /**< The Days In Week portion of a date */
Hour = 0x200000, /**< The Hours portion of a date */
Minute = 0x400000, /**< The Minutes portion of a date */
Second = 0x800000, /**< The Seconds portion of a date */
Millisecond = 0x1000000, /**< The Milliseconds portion of a date */
DayPeriod = 0x2000000, /**< The Day Period portion of a date, e.g. AM/PM */
DayPeriodHour = 0x4000000, /**< The Day Period Hour portion of a date */
Timezone = 0x8000000, /**< The Time Zone portion of a date, may be offset or name */
TimezoneName = 0x10000000, /**< The Time Zone Name portion of a date */
UnixTime = 0x20000000 /**< The UNIX Time portion of a date */
};
/**
*
* Format used for individual Date/Time Components when converted to/from a string
* Largely equivalent to the UNICODE CLDR format width definitions 1..5
*
* @see DateTimeComponentFormat
*/
enum DateTimeComponentFormat {
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DefaultComponentFormat = 1000, /**< The system locale default for the componant */
ShortNumber = 0, /**< Number at its natural width, e.g. 2 for the 2nd*/
LongNumber, /**< Number padded to a required width, e.g. 02 for the 2nd*/
//OrdinalNumber /**< Ordinal number format, e.g. "2nd" for the 2nd */
NarrowName = 3, /**< Narrow text format, may not be unique, e.g. M for Monday */
ShortName, /**< Short text format, e.g. Mon for Monday */
LongName /**< Long text format, e.g. Monday for Monday */
};
Q_DECLARE_FLAGS(DateTimeComponents, DateTimeComponent)
/**
* Format for date string.
*/
enum DateFormat {
ShortDate, /**< Locale Short date format, e.g. 08-04-2007 */
LongDate, /**< Locale Long date format, e.g. Sunday 08 April 2007 */
FancyShortDate, /**< Same as ShortDate for dates a week or more ago. For more
recent dates, it is represented as Today, Yesterday, or
the weekday name. */
FancyLongDate, /**< Same as LongDate for dates a week or more ago. For more
recent dates, it is represented as Today, Yesterday, or
the weekday name. */
IsoDate, /**< ISO-8601 Date format YYYY-MM-DD, e.g. 2009-12-31 */
IsoWeekDate, /**< ISO-8601 Week Date format YYYY-Www-D, e.g. 2009-W01-1 */
IsoOrdinalDate /**< ISO-8601 Ordinal Date format YYYY-DDD, e.g. 2009-001 */
};
/**
* Returns a string formatted to the current locale's conventions
* regarding dates.
*
* @param date the date to be formatted
* @param format category of date format to use
*
* @return the date as a string
*/
Q_INVOKABLE QString formatDate(const QDate &date, DateFormat format = LongDate) const;
/**
* Returns a string formatted to the current locale's conventions
* regarding both date and time.
*
* @param dateTime the date and time to be formatted
* @param format category of date format to use
* @param includeSecs if @c true, the string will include the seconds part
* of the time; otherwise, the seconds will be omitted
*
* @return the date and time as a string
*/
Q_INVOKABLE QString formatDateTime(const QDateTime &dateTime, DateFormat format = ShortDate,
bool includeSecs = false) const;
/**
* Options for formatting date-time values.
*/
enum DateTimeFormatOption {
TimeZone = 0x01, /**< Include a time zone string */
Seconds = 0x02 /**< Include the seconds value */
};
Q_DECLARE_FLAGS(DateTimeFormatOptions, DateTimeFormatOption)
/**
* Returns a string formatted to the current locale's conventions
* regarding both date and time.
*
* @param dateTime the date and time to be formatted
* @param format category of date format to use
* @param options additional output options
*
* @return The date and time as a string
*/
Q_INVOKABLE QString formatDateTime(const KDateTime &dateTime, DateFormat format = ShortDate,
DateTimeFormatOptions options = 0) const;//TODO
/**
* Use this to determine whether in dates a possessive form of month
* name is preferred ("of January" rather than "January")
*
* @return If possessive form should be used
*/
bool dateMonthNamePossessive() const;
/**
*
* Format flags for readLocaleTime() and formatLocaleTime()
*/
enum TimeFormatOption {
TimeDefault = 0x0, ///< Default formatting using seconds and the format
///< as specified by the locale.
TimeWithoutSeconds = 0x1, ///< Exclude the seconds part of the time from display
TimeWithoutAmPm = 0x2, ///< Read/format time string without am/pm suffix but
///< keep the 12/24h format as specified by locale time
///< format, eg. "07.33.05" instead of "07.33.05 pm" for
///< time format "%I.%M.%S %p".
TimeDuration = 0x6, ///< Read/format time string as duration. This will strip
///< the am/pm suffix and read/format times with an hour
///< value of 0-23 hours, eg. "19.33.05" instead of
///< "07.33.05 pm" for time format "%I.%M.%S %p".
///< This automatically implies @c TimeWithoutAmPm.
TimeFoldHours = 0xE ///< Read/format time string as duration. This will not
///< not output the hours part of the duration but will
///< add the hours (times sixty) to the number of minutes,
///< eg. "70.23" instead of "01.10.23" for time format
///< "%I.%M.%S %p".
};
Q_DECLARE_FLAGS(TimeFormatOptions, TimeFormatOption)
/**
*
* Returns a string formatted to the current locale's conventions
* regarding times.
*
* @param pTime the time to be formatted
* @param options format option to use when formatting the time
* @return The time as a string
*/
Q_INVOKABLE QString formatLocaleTime(const QTime &pTime,
TimeFormatOptions options = Locale::TimeDefault) const;
/**
*
* Returns the identifier of the digit set used to display dates and time.
*
* @return the digit set identifier
* @see DigitSet
* @see digitSetToName
*/
DigitSet dateTimeDigitSet() const;
/**
* Use this to determine if the user wants a 12 hour clock.
*
* @return If the user wants 12h clock
*/
bool use12Clock() const;
/**
*
* Returns the Day Period matching the time given
*
* @param time the time to return the day period for
* @param format the format to return teh day period in
* @return the Day Period for the given time
*/
Q_INVOKABLE QString dayPeriodText(const QTime &time, DateTimeComponentFormat format = DefaultComponentFormat) const;
/**
* Use this to determine which day is the first day of the week.
*
* @return an integer (Monday=1..Sunday=7)
*/
int weekStartDay() const;
/**
* Use this to determine which day is the first working day of the week.
*
* @return an integer (Monday=1..Sunday=7)
*/
int workingWeekStartDay() const;
/**
* Use this to determine which day is the last working day of the week.
*
* @return an integer (Monday=1..Sunday=7)
*/
int workingWeekEndDay() const;
/**
* Use this to determine which day is reserved for religious observance
*
* @return day number (None = 0, Monday = 1, ..., Sunday = 7)
*/
int weekDayOfPray() const;
/**
* What should I do with the above?
* It won't work in QML.
**/
/**
* Returns a pointer to the calendar system object.
*
* @return the current calendar system instance
*/
/**
*
* Returns the type of Calendar System used in this Locale
*
* @see Locale::CalendarSystem
2012-03-09 12:25:25 +01:00
* @see CalendarSystem
* @return the type of Calendar System
*/
Locale::CalendarSystem calendarSystem() const;
/**
*
* Sets the type of Calendar System to use in this Locale
*
* @see Locale::CalendarSystem
2012-03-09 12:25:25 +01:00
* @see CalendarSystem
* @param calendarSystem the Calendar System to use
*/
void setCalendarSystem(Locale::CalendarSystem calendarSystem);
/**
*
* Sets the type of Week Number System to use in this Locale
*
* @see Klocale::WeekNumberSystem
* @see weekNumberSystem()
* @param weekNumberSystem the Week Number System to use
*/
void setWeekNumberSystem(Locale::WeekNumberSystem weekNumberSystem);
//KDE5 remove in favour of const version
/**
*
* Returns the type of Week Number System used in this Locale
*
* @see Klocale::WeekNumberSystem
* @see setWeekNumberSystem()
* @returns the Week Number System used
*/
Locale::WeekNumberSystem weekNumberSystem();
/**
*
* Returns the type of Week Number System used in this Locale
*
* @see Klocale::WeekNumberSystem
* @see setWeekNumberSystem()
* @returns the Week Number System used
*/
Locale::WeekNumberSystem weekNumberSystem() const;
/**
* Converts a localized monetary string to a double.
*
* @param numStr the string we want to convert.
* @param ok the boolean that is set to false if it's not a number.
* If @p ok is 0, it will be ignored
*
* @return The string converted to a double
*/
Q_INVOKABLE double readMoney(const QString &numStr, bool * ok = 0) const;
/**
* Converts a localized numeric string to a double.
*
* @param numStr the string we want to convert.
* @param ok the boolean that is set to false if it's not a number.
* If @p ok is 0, it will be ignored
*
* @return The string converted to a double
*/
Q_INVOKABLE double readNumber(const QString &numStr, bool * ok = 0) const;
/**
* Converts a localized date string to a QDate. This method will try all
* ReadDateFlag formats in preferred order to read a valid date.
*
* The bool pointed by ok will be invalid if the date entered was not valid.
*
* @param str the string we want to convert.
* @param ok the boolean that is set to false if it's not a valid date.
* If @p ok is 0, it will be ignored
*
* @return The string converted to a QDate
2012-03-09 12:25:25 +01:00
* @see CalendarSystem::readDate()
*/
Q_INVOKABLE QDate readDate(const QString &str, bool* ok = 0) const;
/**
* Converts a localized date string to a QDate, using the specified format.
* You will usually not want to use this method.
2012-03-09 12:25:25 +01:00
* @see CalendarSystem::readDate()
*/
Q_INVOKABLE QDate readDate(const QString &intstr, const QString &fmt, bool* ok = 0) const;
/**
* Flags for readDate()
*/
enum ReadDateFlags {
NormalFormat = 1, /**< Only accept a date string in
the locale LongDate format */
ShortFormat = 2, /**< Only accept a date string in
the locale ShortDate format */
IsoFormat = 4, /**< Only accept a date string in
ISO date format (YYYY-MM-DD) */
IsoWeekFormat = 8, /**< Only accept a date string in
ISO Week date format (YYYY-Www-D) */
IsoOrdinalFormat = 16 /**< Only accept a date string in
ISO Week date format (YYYY-DDD) */
};
/**
* Converts a localized date string to a QDate.
* This method is stricter than readDate(str,&ok): it will only accept
* a date in a specific format, depending on @p flags.
*
* @param str the string we want to convert.
* @param flags what format the the date string will be in
* @param ok the boolean that is set to false if it's not a valid date.
* If @p ok is 0, it will be ignored
*
* @return The string converted to a QDate
2012-03-09 12:25:25 +01:00
* @see CalendarSystem::readDate()
*/
Q_INVOKABLE QDate readDate(const QString &str, ReadDateFlags flags, bool *ok = 0) const;
/**
* Converts a localized time string to a QTime.
* This method will try to parse it with seconds, then without seconds.
* The bool pointed to by @p ok will be set to false if the time entered was
* not valid.
*
* @param str the string we want to convert.
* @param ok the boolean that is set to false if it's not a valid time.
* If @p ok is 0, it will be ignored
*
* @return The string converted to a QTime
*/
Q_INVOKABLE QTime readTime(const QString &str, bool* ok = 0) const;
/**
* Additional processing options for readLocaleTime().
*
* @remarks This is currently used as an enum but declared as a flag
* to be extensible
*/
enum TimeProcessingOption {
ProcessStrict = 0x1, ///< Process time in a strict manner, ie.
///< a read time string has to exactly match
///< the defined time format.
ProcessNonStrict = 0x2 ///< Process time in a lax manner, ie.
///< allow spaces in the time-format to be
///< left out when entering a time string.
};
Q_DECLARE_FLAGS(TimeProcessingOptions, TimeProcessingOption)
/**
*
* Converts a localized time string to a QTime.
* This method is stricter than readTime(str, &ok) in that it will either
* accept a time with seconds or a time without seconds.
*
* @param str the string we want to convert
* @param ok the boolean that is set to false if it's not a valid time.
* If @p ok is 0, it will be ignored.
* @param options format option to apply when formatting the time
* @param processing if set to @c ProcessStrict, checking will be strict
* and the read time string has to have the exact time format
* specified. If set to @c ProcessNonStrict processing the time
* is lax and spaces in the time string can be left out.
*
* @return The string converted to a QTime
*/
Q_INVOKABLE QTime readLocaleTime(const QString &str, bool *ok = 0,
TimeFormatOptions options = Locale::TimeDefault,
TimeProcessingOptions processing = ProcessNonStrict) const;
/**
* Returns the language code used by this object. The domain AND the
* library translation must be available in this language.
* defaultLanguage() is returned by default, if no other available.
*
* Use languageCodeToName(language) to get human readable, localized
* language name.
*
* @return the currently used language code
*
* @see languageCodeToName
*/
QString language() const;
/**
* Returns the country code of the country where the user lives.
*
* The returned code complies with the ISO 3166-1 alpha-2 standard,
* except by KDE convention it is returned in lowercase whereas the
* official standard is uppercase.
* See http://en.wikipedia.org/wiki/ISO_3166-1_alpha-2 for details.
*
* defaultCountry() is returned by default, if no other available,
* this will always be uppercase 'C'.
*
* Use countryCodeToName(country) to get human readable, localized
* country names.
*
* @return the country code for the user
*
* @see countryCodeToName
*/
QString country() const;
/**
*
* Returns the Country Division Code of the Country where the user lives.
* When no value is set, then the Country Code will be returned.
*
* The returned code complies with the ISO 3166-2 standard.
* See http://en.wikipedia.org/wiki/ISO_3166-2 for details.
*
* Note that unlike country() this method will return the correct case,
* i.e. normally uppercase..
*
* In KDE 4.6 it is the apps responsibility to obtain a translation for the
* code, translation and other services will be priovided in KDE 4.7.
*
* @return the Country Division Code for the user
* @see setCountryDivisionCode
*/
QString countryDivisionCode() const;
/**
* Returns the language codes selected by user, ordered by decreasing
* priority.
*
* Use languageCodeToName(language) to get human readable, localized
* language name.
*
* @return list of language codes
*
* @see languageCodeToName
*/
QStringList languageList() const;
/**
*
* Returns the ISO Currency Codes used in the locale, ordered by decreasing
* priority.
*
* Use KCurrency::currencyCodeToName(currencyCode) to get human readable,
* localized language name.
*
* @return list of ISO Currency Codes
*
* @see currencyCodeToName
*/
QStringList currencyCodeList() const;
/**
* Returns the file encoding.
*
* @return The Mib of the file encoding
*
* @see QFile::encodeName
* @see QFile::decodeName
*/
int fileEncodingMib() const;
/**
* Changes the current date format.
*
* The format of the date is a string which contains variables that will
* be replaced:
* @li %Y with the whole year (e.g. "2004" for "2004")
* @li %y with the lower 2 digits of the year (e.g. "04" for "2004")
* @li %n with the month (January="1", December="12")
* @li %m with the month with two digits (January="01", December="12")
* @li %e with the day of the month (e.g. "1" on the first of march)
* @li %d with the day of the month with two digits (e.g. "01" on the first of march)
* @li %b with the short form of the month (e.g. "Jan" for January)
* @li %B with the long form of the month (e.g. "January")
* @li %a with the short form of the weekday (e.g. "Wed" for Wednesday)
* @li %A with the long form of the weekday (e.g. "Wednesday" for Wednesday)
*
* Everything else in the format string will be taken as is.
* For example, March 20th 1989 with the format "%y:%m:%d" results
* in "89:03:20".
*
* @param format The new date format
*/
void setDateFormat(const QString & format);
/**
* Changes the current short date format.
*
* The format of the date is a string which contains variables that will
* be replaced:
* @li %Y with the whole year (e.g. "1984" for "1984")
* @li %y with the lower 2 digits of the year (e.g. "84" for "1984")
* @li %n with the month (January="1", December="12")
* @li %m with the month with two digits (January="01", December="12")
* @li %e with the day of the month (e.g. "1" on the first of march)
* @li %d with the day of the month with two digits(e.g. "01" on the first of march)
* @li %b with the short form of the month (e.g. "Jan" for January)
* @li %B with the long form of the month (e.g. "January")
* @li %a with the short form of the weekday (e.g. "Wed" for Wednesday)
* @li %A with the long form of the weekday (e.g. "Wednesday" for Wednesday)
*
* Everything else in the format string will be taken as is.
* For example, March 20th 1989 with the format "%y:%m:%d" results
* in "89:03:20".
*
* @param format The new short date format
*/
void setDateFormatShort(const QString & format);
/**
* Changes the form of month name used in dates.
*
* @param possessive True if possessive forms should be used
*/
void setDateMonthNamePossessive(bool possessive);
/**
* Changes the current time format.
*
* The format of the time is string a which contains variables that will
* be replaced:
* @li %H with the hour in 24h format and 2 digits (e.g. 5pm is "17", 5am is "05")
* @li %k with the hour in 24h format and one digits (e.g. 5pm is "17", 5am is "5")
* @li %I with the hour in 12h format and 2 digits (e.g. 5pm is "05", 5am is "05")
* @li %l with the hour in 12h format and one digits (e.g. 5pm is "5", 5am is "5")
* @li %M with the minute with 2 digits (e.g. the minute of 07:02:09 is "02")
* @li %S with the seconds with 2 digits (e.g. the minute of 07:02:09 is "09")
* @li %p with pm or am (e.g. 17.00 is "pm", 05.00 is "am")
*
* Everything else in the format string will be taken as is.
* For example, 5.23pm with the format "%H:%M" results
* in "17:23".
*
* @param format The new time format
*/
void setTimeFormat(const QString & format);
/**
*
* Set digit characters used to display dates and time.
*
* @param digitSet the digit set identifier
* @see DigitSet
*/
void setDateTimeDigitSet(DigitSet digitSet);
/**
* Changes how KLocale defines the first day in week.
*
* @param day first day of the week (Monday=1..Sunday=7) as integer
*/
void setWeekStartDay(int day);
/**
* Changes how KLocale defines the first working day in week.
*
* @param day first working day of the week (Monday=1..Sunday=7) as integer
*/
void setWorkingWeekStartDay(int day);
/**
* Changes how KLocale defines the last working day in week.
*
* @param day last working day of the week (Monday=1..Sunday=7) as integer
*/
void setWorkingWeekEndDay(int day);
/**
* Changes how KLocale defines the day reserved for religious observance.
*
* @param day day of the week for religious observance (None=0,Monday=1..Sunday=7) as integer
*/
void setWeekDayOfPray(int day);
/**
* Returns the currently selected date format.
*
* @return Current date format.
* @see setDateFormat()
*/
QString dateFormat() const;
/**
* Returns the currently selected short date format.
*
* @return Current short date format.
* @see setDateFormatShort()
*/
QString dateFormatShort() const;
/**
* Returns the currently selected time format.
*
* @return Current time format.
* @see setTimeFormat()
*/
QString timeFormat() const;
/**
* Changes the symbol used to identify the decimal pointer.
*
* @param symbol The new decimal symbol.
*/
void setDecimalSymbol(const QString & symbol);
/**
* Changes the separator used to group digits when formating numbers.
*
* @param separator The new thousands separator.
*/
void setThousandsSeparator(const QString & separator);
/**
* Changes the sign used to identify a positive number. Normally this is
* left blank.
*
* @param sign Sign used for positive numbers.
*/
void setPositiveSign(const QString & sign);
/**
* Changes the sign used to identify a negative number.
*
* @param sign Sign used for negative numbers.
*/
void setNegativeSign(const QString & sign);
/**
*
* Changes the set of digit characters used to display numbers.
*
* @param digitSet the digit set identifier
* @see DigitSet
*/
void setDigitSet(DigitSet digitSet);
/**
* Changes the sign position used for positive monetary values.
*
* @param signpos The new sign position
*/
void setPositiveMonetarySignPosition(SignPosition signpos);
/**
* Changes the sign position used for negative monetary values.
*
* @param signpos The new sign position
*/
void setNegativeMonetarySignPosition(SignPosition signpos);
/**
* Changes the position where the currency symbol should be printed for
* positive monetary values.
*
* @param prefix True if the currency symbol should be prefixed instead of
* postfixed
*/
void setPositivePrefixCurrencySymbol(bool prefix);
/**
* Changes the position where the currency symbol should be printed for
* negative monetary values.
*
* @param prefix True if the currency symbol should be prefixed instead of
* postfixed
*/
void setNegativePrefixCurrencySymbol(bool prefix);
/**
*
* Changes the number of decimal places used when formating numbers.
*
* @param digits The default number of digits to use.
*/
void setDecimalPlaces(int digits);
/**
*
* Changes the number of decimal places used when formating money.
*
* @param digits The default number of digits to use.
*/
void setMonetaryDecimalPlaces(int digits);
/**
* Changes the separator used to group digits when formating monetary values.
*
* @param separator The new thousands separator.
*/
void setMonetaryThousandsSeparator(const QString & separator);
/**
* Changes the symbol used to identify the decimal pointer for monetary
* values.
*
* @param symbol The new decimal symbol.
*/
void setMonetaryDecimalSymbol(const QString & symbol);
/**
*
* Changes the current ISO Currency Code.
*
* @param newCurrencyCode The new Currency Code
*/
void setCurrencyCode(const QString &newCurrencyCode);
/**
* Changes the current currency symbol.
*
* This symbol should be consistant with the selected Currency Code
*
* @param symbol The new currency symbol
* @see currencyCode, KCurrency::currencySymbols
*/
void setCurrencySymbol(const QString & symbol);
/**
*
* Set digit characters used to display monetary values.
*
* @param digitSet the digit set identifier
* @see DigitSet
*/
void setMonetaryDigitSet(DigitSet digitSet);
/**
* Returns the preferred page size for printing.
*
* @return The preferred page size, cast it to QPrinter::PageSize
*/
int pageSize() const;
/**
* Changes the preferred page size when printing.
*
* @param paperFormat the new preferred page size in the format QPrinter::PageSize
*/
void setPageSize(int paperFormat);
/**
* The Metric system will give you information in mm, while the
* Imperial system will give you information in inches.
*/
enum MeasureSystem {
Metric, ///< Metric system (used e.g. in Europe)
Imperial ///< Imperial system (used e.g. in the United States)
};
/**
* Returns which measuring system we use.
*
* @return The preferred measuring system
*/
MeasureSystem measureSystem() const;
/**
* Changes the preferred measuring system.
*
* @return value The preferred measuring system
*/
void setMeasureSystem(MeasureSystem value);
/**
* Sets the active catalog for translation lookup.
* @param catalog The catalog to activate.
*/
Q_INVOKABLE void setActiveCatalog(const QString &catalog);
/**
* Translates a message as a QTranslator is supposed to.
* The parameters are similar to i18n(), but the result
* value has other semantics (it can be QString())
*/
Q_INVOKABLE QString translateQt(const char *context, const char *sourceText, const char *comment) const;
/**
* Provides list of all known language codes.
*
* Use languageCodeToName(language) to get human readable, localized
* language names.
*
* @return list of all language codes
*
* @see languageCodeToName
* @see installedLanguages
*/
QStringList allLanguagesList() const;
/**
*
* Provides list of all installed KDE Language Translations.
*
* Use languageCodeToName(language) to get human readable, localized
* language names.
*
* @return list of all installed language codes
*
* @see languageCodeToName
*/
QStringList installedLanguages() const;
/**
* Convert a known language code to a human readable, localized form.
* If an unknown language code is supplied, empty string is returned;
* this will never happen if the code has been obtained by one of the
* KLocale methods.
*
* @param language the language code
*
* @return the human readable and localized form if the code is known,
* empty otherwise
*
* @see language
* @see languageList
* @see allLanguagesList
* @see installedLanguages
*/
Q_INVOKABLE QString languageCodeToName(const QString &language) const;
/**
* Provides list of all known country codes.
*
* Use countryCodeToName(country) to get human readable, localized
* country names.
*
* @return a list of all country codes
*
* @see countryCodeToName
*/
QStringList allCountriesList() const;
/**
* Convert a known country code to a human readable, localized form.
*
* If an unknown country code is supplied, empty string is returned;
* this will never happen if the code has been obtained by one of the
* KLocale methods.
*
* @param country the country code
*
* @return the human readable and localized form of the country name
*
* @see country
* @see allCountriesList
*/
Q_INVOKABLE QString countryCodeToName(const QString &country) const;
/**
* Parses locale string into distinct parts.
* The format of locale is language_COUNTRY@modifier.CHARSET
*
* @param locale the locale string to split
* @param language set to the language part of the locale
* @param country set to the country part of the locale
* @param modifier set to the modifer part of the locale
* @param charset set to the charset part of the locale
*/
Q_INVOKABLE static void splitLocale(const QString &locale, QString &language, QString &country,
QString &modifier, QString &charset);
/**
* Use this as main catalog for *all* KLocales, if not the appname
* will be used. This function is best to be the very first instruction
* in your program's main function as it only has an effect before the
* first KLocale object is created.
*
* @param catalog Catalog to override all other main Catalogs.
*/
Q_INVOKABLE static void setMainCatalog(const char *catalog);
/**
* Returns the name of the internal language.
*
* @return Name of the default language
*/
QString defaultLanguage();
/**
* Returns the code of the default country, i.e. "C"
*
* This function will not provide a sensible value to use in your app,
* please use country() instead.
*
* @see country
*
* @return Name of the default country
*/
QString defaultCountry();
/**
*
* Returns the ISO Code of the default currency.
*
* @return ISO Currency Code of the default currency
*/
QString defaultCurrencyCode();
/**
* Reports whether evaluation of translation scripts is enabled.
*
* @return true if script evaluation is enabled, false otherwise.
*/
bool useTranscript() const;
/**
* Checks whether or not the active catalog is found for the given language.
*
* @param language language to check
*/
Q_INVOKABLE bool isApplicationTranslatedInto(const QString & language);
/**
*
* Sets the Country Division Code of the Country where the user lives.
*
* The code must comply with the ISO 3166-2 standard.
* See http://en.wikipedia.org/wiki/ISO_3166-2 for details.
*
* In KDE 4.6 it is the apps responsibility to validate the input,
* full validation and other services will be provided in KDE 4.7.
*
* @param countryDivision the Country Division Code for the user
* @return @c true on success, @c false on failure
* @see countryDivisionCode
*/
bool setCountryDivisionCode(const QString & countryDivision);
/**
*
* Removes accelerator marker from a UI text label.
*
* Accelerator marker is not always a plain ampersand (&),
* so it is not enough to just remove it by @c QString::remove().
* The label may contain escaped markers ("&&") which must be resolved
* and skipped, as well as CJK-style markers ("Foo (&F)") where
* the whole parenthesis construct should be removed.
* Therefore always use this function to remove accelerator marker
* from UI labels.
*
* @param label UI label which may contain an accelerator marker
* @return label without the accelerator marker
*/
Q_INVOKABLE QString removeAcceleratorMarker(const QString &label) const;
/**
*
* Convert all digits in the string to the given digit set.
*
* Conversion is normally not performed if the given digit set
* is not appropriate in the current locale and language context.
* Unconditional conversion may be requested by setting
* @p ignoreContext to @c true.
*
* @param str the string to convert
* @param digitSet the digit set identifier
* @param ignoreContext unconditional conversion if @c true
*
* @return string with converted digits
*
* @see DigitSet
*/
Q_INVOKABLE QString convertDigits(const QString &str, DigitSet digitSet,
bool ignoreContext = false) const;
/**
*
* Reparse locale configuration files for the current selected
* language.
*/
Q_INVOKABLE void reparseConfiguration();
private:
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KLocale *m_locale;
Q_SIGNALS:
void binaryUnitDialectChanged();
void calendarSystemChanged();
void countryChanged();
void countryDivisionCodeChanged();
void currencyCodeChanged();
void decimalSymbolChanged();
void currencySymbolChanged();
void dateFormatChanged();
void dateFormatShortChanged();
void dateMonthNamePossessiveChanged();
void dateTimeDigitSetChanged();
void decimalPlacesChanged();
void digitSetChanged();
void languageChanged();
void measureSystemChanged();
void monetaryDecimalPlacesChanged();
void monetaryDecimalSymbolChanged();
void monetaryDigitSetChanged();
void monetaryThousandsSeparatorChanged();
void negativeMonetarySignPositionChanged();
void negativePrefixCurrencySymbolChanged();
void negativeSignChanged();
void pageSizeChanged();
void positiveMonetarySignPositionChanged();
void positivePrefixCurrencySymbolChanged();
void positiveSignChanged();
void thousandsSeparatorChanged();
void timeFormatChanged();
void weekDayOfPrayChanged();
void WeekNumberSystemChanged();
void weekStartDayChanged();
void workingWeekEndDayChanged();
void workingWeekStartDayChanged();
void use12ClockChanged();
void defaultCountryChanged();
void defaultCurrencyCodeChanged();
void defaultLanguageChanged();
void useTranscriptChanged();
void fileEncodingMibChanged();
void languageListChanged();
void currencyCodeListChanged();
void allLanguagesListChanged();
void installedLanguagesChanged();
void allCountriesListChanged();
void allDigitSetsListChanged();
};
2012-02-09 18:27:48 +01:00
#endif