nl.topicus.jdbc.shaded.org.threeten.bp.format.DateTimeFormatter Maven / Gradle / Ivy
/*
* Copyright (c) 2007-present, Stephen Colebourne & Michael Nascimento Santos
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* * Neither the name of JSR-310 nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package nl.topicus.jdbc.shaded.org.threeten.bp.format;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.DAY_OF_MONTH;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.DAY_OF_WEEK;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.DAY_OF_YEAR;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.HOUR_OF_DAY;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.MINUTE_OF_HOUR;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.MONTH_OF_YEAR;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.NANO_OF_SECOND;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.SECOND_OF_MINUTE;
import static nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField.YEAR;
import java.io.IOException;
import java.text.FieldPosition;
import java.text.Format;
import java.text.ParseException;
import java.text.ParsePosition;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Locale;
import java.util.Map;
import java.util.Set;
import nl.topicus.jdbc.shaded.org.threeten.bp.DateTimeException;
import nl.topicus.jdbc.shaded.org.threeten.bp.Period;
import nl.topicus.jdbc.shaded.org.threeten.bp.ZoneId;
import nl.topicus.jdbc.shaded.org.threeten.bp.ZoneOffset;
import nl.topicus.jdbc.shaded.org.threeten.bp.chrono.Chronology;
import nl.topicus.jdbc.shaded.org.threeten.bp.chrono.IsoChronology;
import nl.topicus.jdbc.shaded.org.threeten.bp.format.DateTimeFormatterBuilder.CompositePrinterParser;
import nl.topicus.jdbc.shaded.org.threeten.bp.format.DateTimeParseContext.Parsed;
import nl.topicus.jdbc.shaded.org.threeten.bp.jdk8.Jdk8Methods;
import nl.topicus.jdbc.shaded.org.threeten.bp.temporal.ChronoField;
import nl.topicus.jdbc.shaded.org.threeten.bp.temporal.IsoFields;
import nl.topicus.jdbc.shaded.org.threeten.bp.temporal.TemporalAccessor;
import nl.topicus.jdbc.shaded.org.threeten.bp.temporal.TemporalField;
import nl.topicus.jdbc.shaded.org.threeten.bp.temporal.TemporalQuery;
/**
* Formatter for printing and parsing date-time objects.
*
* This class provides the main application entry point for printing and parsing.
* Common instances of {@code DateTimeFormatter} are provided:
*
* - Using pattern letters, such as {@code yyyy-MMM-dd}
*
- Using localized styles, such as {@code long} or {@code medium}
*
- Using predefined constants, such as {@link #ISO_LOCAL_DATE}
*
*
* For more complex formatters, a {@link DateTimeFormatterBuilder builder} is provided.
*
* In most cases, it is not necessary to use this class directly when formatting.
* The main date-time classes provide two methods - one for formatting,
* {@code format(DateTimeFormatter formatter)}, and one for parsing,
* For example:
*
* String text = date.format(formatter);
* LocalDate date = LocalDate.parse(text, formatter);
*
* Some aspects of printing and parsing are dependent on the locale.
* The locale can be changed using the {@link #withLocale(Locale)} method
* which returns a new formatter in the requested locale.
*
* Some applications may need to use the older {@link Format} class for formatting.
* The {@link #toFormat()} method returns an implementation of the old API.
*
*
Specification for implementors
* This class is immutable and thread-safe.
*/
public final class DateTimeFormatter {
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date without an offset,
* such as '2011-12-03'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended local date format.
* The format consists of:
*
* - Four digits or more for the {@link ChronoField#YEAR year}.
* Years in the range 0000 to 9999 will be pre-padded by zero to ensure four digits.
* Years outside that range will have a prefixed positive or negative symbol.
*
- A dash
*
- Two digits for the {@link ChronoField#MONTH_OF_YEAR month-of-year}.
* This is pre-padded by zero to ensure two digits.
*
- A dash
*
- Two digits for the {@link ChronoField#DAY_OF_MONTH day-of-month}.
* This is pre-padded by zero to ensure two digits.
*
*/
public static final DateTimeFormatter ISO_LOCAL_DATE;
static {
ISO_LOCAL_DATE = new DateTimeFormatterBuilder()
.appendValue(YEAR, 4, 10, SignStyle.EXCEEDS_PAD)
.appendLiteral('-')
.appendValue(MONTH_OF_YEAR, 2)
.appendLiteral('-')
.appendValue(DAY_OF_MONTH, 2)
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date with an offset,
* such as '2011-12-03+01:00'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended offset date format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_DATE}
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
*/
public static final DateTimeFormatter ISO_OFFSET_DATE;
static {
ISO_OFFSET_DATE = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.append(ISO_LOCAL_DATE)
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date with the
* offset if available, such as '2011-12-03' or '2011-12-03+01:00'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended date format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_DATE}
*
- If the offset is not available to print/parse then the format is complete.
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
* As this formatter has an optional element, it may be necessary to parse using
* {@link DateTimeFormatter#parseBest}.
*/
public static final DateTimeFormatter ISO_DATE;
static {
ISO_DATE = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.append(ISO_LOCAL_DATE)
.optionalStart()
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO time formatter that prints/parses a time without an offset,
* such as '10:15' or '10:15:30'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended local time format.
* The format consists of:
*
* - Two digits for the {@link ChronoField#HOUR_OF_DAY hour-of-day}.
* This is pre-padded by zero to ensure two digits.
*
- A colon
*
- Two digits for the {@link ChronoField#MINUTE_OF_HOUR minute-of-hour}.
* This is pre-padded by zero to ensure two digits.
*
- If the second-of-minute is not available to print/parse then the format is complete.
*
- A colon
*
- Two digits for the {@link ChronoField#SECOND_OF_MINUTE second-of-minute}.
* This is pre-padded by zero to ensure two digits.
*
- If the nano-of-second is zero or not available to print/parse then the format is complete.
*
- A decimal point
*
- One to nine digits for the {@link ChronoField#NANO_OF_SECOND nano-of-second}.
* As many digits will be printed as required.
*
*/
public static final DateTimeFormatter ISO_LOCAL_TIME;
static {
ISO_LOCAL_TIME = new DateTimeFormatterBuilder()
.appendValue(HOUR_OF_DAY, 2)
.appendLiteral(':')
.appendValue(MINUTE_OF_HOUR, 2)
.optionalStart()
.appendLiteral(':')
.appendValue(SECOND_OF_MINUTE, 2)
.optionalStart()
.appendFraction(NANO_OF_SECOND, 0, 9, true)
.toFormatter(ResolverStyle.STRICT);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO time formatter that prints/parses a time with an offset,
* such as '10:15+01:00' or '10:15:30+01:00'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended offset time format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_TIME}
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
*/
public static final DateTimeFormatter ISO_OFFSET_TIME;
static {
ISO_OFFSET_TIME = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.append(ISO_LOCAL_TIME)
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO time formatter that prints/parses a time, with the
* offset if available, such as '10:15', '10:15:30' or '10:15:30+01:00'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended offset time format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_TIME}
*
- If the offset is not available to print/parse then the format is complete.
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
* As this formatter has an optional element, it may be necessary to parse using
* {@link DateTimeFormatter#parseBest}.
*/
public static final DateTimeFormatter ISO_TIME;
static {
ISO_TIME = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.append(ISO_LOCAL_TIME)
.optionalStart()
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date-time
* without an offset, such as '2011-12-03T10:15:30'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended offset date-time format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_DATE}
*
- The letter 'T'. Parsing is case insensitive.
*
- The {@link #ISO_LOCAL_TIME}
*
*/
public static final DateTimeFormatter ISO_LOCAL_DATE_TIME;
static {
ISO_LOCAL_DATE_TIME = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.append(ISO_LOCAL_DATE)
.appendLiteral('T')
.append(ISO_LOCAL_TIME)
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date-time
* with an offset, such as '2011-12-03T10:15:30+01:00'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended offset date-time format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_DATE_TIME}
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
*/
public static final DateTimeFormatter ISO_OFFSET_DATE_TIME;
static {
ISO_OFFSET_DATE_TIME = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.append(ISO_LOCAL_DATE_TIME)
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date-time with
* offset and zone, such as '2011-12-03T10:15:30+01:00[Europe/Paris]'.
*
* This returns an immutable formatter capable of printing and parsing
* a format that extends the ISO-8601 extended offset date-time format
* to add the time-zone.
* The format consists of:
*
* - The {@link #ISO_OFFSET_DATE_TIME}
*
- If the zone ID is not available or is a {@code ZoneOffset} then the format is complete.
*
- An open square bracket '['.
*
- The {@link ZoneId#getId() zone ID}. This is not part of the ISO-8601 standard.
* Parsing is case sensitive.
*
- A close square bracket ']'.
*
*/
public static final DateTimeFormatter ISO_ZONED_DATE_TIME;
static {
ISO_ZONED_DATE_TIME = new DateTimeFormatterBuilder()
.append(ISO_OFFSET_DATE_TIME)
.optionalStart()
.appendLiteral('[')
.parseCaseSensitive()
.appendZoneRegionId()
.appendLiteral(']')
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date-time
* with the offset and zone if available, such as '2011-12-03T10:15:30',
* '2011-12-03T10:15:30+01:00' or '2011-12-03T10:15:30+01:00[Europe/Paris]'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended offset date-time format.
* The format consists of:
*
* - The {@link #ISO_LOCAL_DATE_TIME}
*
- If the offset is not available to print/parse then the format is complete.
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
*
- If the zone ID is not available or is a {@code ZoneOffset} then the format is complete.
*
- An open square bracket '['.
*
- The {@link ZoneId#getId() zone ID}. This is not part of the ISO-8601 standard.
* Parsing is case sensitive.
*
- A close square bracket ']'.
*
* As this formatter has an optional element, it may be necessary to parse using
* {@link DateTimeFormatter#parseBest}.
*/
public static final DateTimeFormatter ISO_DATE_TIME;
static {
ISO_DATE_TIME = new DateTimeFormatterBuilder()
.append(ISO_LOCAL_DATE_TIME)
.optionalStart()
.appendOffsetId()
.optionalStart()
.appendLiteral('[')
.parseCaseSensitive()
.appendZoneRegionId()
.appendLiteral(']')
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses the ordinal date
* without an offset, such as '2012-337'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended ordinal date format.
* The format consists of:
*
* - Four digits or more for the {@link ChronoField#YEAR year}.
* Years in the range 0000 to 9999 will be pre-padded by zero to ensure four digits.
* Years outside that range will have a prefixed positive or negative symbol.
*
- A dash
*
- Three digits for the {@link ChronoField#DAY_OF_YEAR day-of-year}.
* This is pre-padded by zero to ensure three digits.
*
- If the offset is not available to print/parse then the format is complete.
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
* As this formatter has an optional element, it may be necessary to parse using
* {@link DateTimeFormatter#parseBest}.
*/
public static final DateTimeFormatter ISO_ORDINAL_DATE;
static {
ISO_ORDINAL_DATE = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.appendValue(YEAR, 4, 10, SignStyle.EXCEEDS_PAD)
.appendLiteral('-')
.appendValue(DAY_OF_YEAR, 3)
.optionalStart()
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses the week-based date
* without an offset, such as '2012-W48-6'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 extended week-based date format.
* The format consists of:
*
* - Four digits or more for the {@link IsoFields#WEEK_BASED_YEAR week-based-year}.
* Years in the range 0000 to 9999 will be pre-padded by zero to ensure four digits.
* Years outside that range will have a prefixed positive or negative symbol.
*
- A dash
*
- The letter 'W'. Parsing is case insensitive.
*
- Two digits for the {@link IsoFields#WEEK_OF_WEEK_BASED_YEAR week-of-week-based-year}.
* This is pre-padded by zero to ensure three digits.
*
- A dash
*
- One digit for the {@link ChronoField#DAY_OF_WEEK day-of-week}.
* The value run from Monday (1) to Sunday (7).
*
- If the offset is not available to print/parse then the format is complete.
*
- The {@link ZoneOffset#getId() offset ID}. If the offset has seconds then
* they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
* As this formatter has an optional element, it may be necessary to parse using
* {@link DateTimeFormatter#parseBest}.
*/
public static final DateTimeFormatter ISO_WEEK_DATE;
static {
ISO_WEEK_DATE = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.appendValue(IsoFields.WEEK_BASED_YEAR, 4, 10, SignStyle.EXCEEDS_PAD)
.appendLiteral("-W")
.appendValue(IsoFields.WEEK_OF_WEEK_BASED_YEAR, 2)
.appendLiteral('-')
.appendValue(DAY_OF_WEEK, 1)
.optionalStart()
.appendOffsetId()
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* The ISO instant formatter that formats or parses an instant in UTC,
* such as '2011-12-03T10:15:30Z'.
*
* This returns an immutable formatter capable of formatting and parsing
* the ISO-8601 instant format.
* When formatting, the second-of-minute is always output.
* The nano-of-second outputs zero, three, six or nine digits digits as necessary.
* When parsing, time to at least the seconds field is required.
* Fractional seconds from zero to nine are parsed.
* The localized decimal style is not used.
*
* This is a special case formatter intended to allow a human readable form
* of an {@link nl.topicus.jdbc.shaded.org.threeten.bp.Instant Instant}.
* The {@code Instant} class is designed to
* only represent a point in time and internally stores a value in nanoseconds
* from a fixed epoch of 1970-01-01Z. As such, an {@code Instant} cannot be
* formatted as a date or time without providing some form of time-zone.
* This formatter allows the {@code Instant} to be formatted, by providing
* a suitable conversion using {@code ZoneOffset.UTC}.
*
* The format consists of:
*
* - The {@link #ISO_OFFSET_DATE_TIME} where the instant is converted from
* {@link ChronoField#INSTANT_SECONDS} and {@link ChronoField#NANO_OF_SECOND}
* using the {@code UTC} offset. Parsing is case insensitive.
*
*
* The returned formatter has no override chronology or zone.
* It uses the {@link ResolverStyle#STRICT STRICT} resolver style.
*/
public static final DateTimeFormatter ISO_INSTANT;
static {
ISO_INSTANT = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.appendInstant()
.toFormatter(ResolverStyle.STRICT);
}
//-----------------------------------------------------------------------
/**
* Returns the ISO date formatter that prints/parses a date without an offset,
* such as '20111203'.
*
* This returns an immutable formatter capable of printing and parsing
* the ISO-8601 basic local date format.
* The format consists of:
*
* - Four digits for the {@link ChronoField#YEAR year}.
* Only years in the range 0000 to 9999 are supported.
*
- Two digits for the {@link ChronoField#MONTH_OF_YEAR month-of-year}.
* This is pre-padded by zero to ensure two digits.
*
- Two digits for the {@link ChronoField#DAY_OF_MONTH day-of-month}.
* This is pre-padded by zero to ensure two digits.
*
- If the offset is not available to print/parse then the format is complete.
*
- The {@link ZoneOffset#getId() offset ID} without colons. If the offset has
* seconds then they will be handled even though this is not part of the ISO-8601 standard.
* Parsing is case insensitive.
*
* As this formatter has an optional element, it may be necessary to parse using
* {@link DateTimeFormatter#parseBest}.
*/
public static final DateTimeFormatter BASIC_ISO_DATE;
static {
BASIC_ISO_DATE = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.appendValue(YEAR, 4)
.appendValue(MONTH_OF_YEAR, 2)
.appendValue(DAY_OF_MONTH, 2)
.optionalStart()
.appendOffset("+HHMMss", "Z")
.toFormatter(ResolverStyle.STRICT).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Returns the RFC-1123 date-time formatter, such as 'Tue, 3 Jun 2008 11:05:30 GMT'.
*
* This returns an immutable formatter capable of printing and parsing
* most of the RFC-1123 format.
* RFC-1123 updates RFC-822 changing the year from two digits to four.
* This implementation requires a four digit year.
* This implementation also does not handle North American or military zone
* names, only 'GMT' and offset amounts.
*
* The format consists of:
*
* - If the day-of-week is not available to print/parse then jump to day-of-month.
*
- Three letter {@link ChronoField#DAY_OF_WEEK day-of-week} in English.
*
- A comma
*
- A space
*
- One or two digits for the {@link ChronoField#DAY_OF_MONTH day-of-month}.
*
- A space
*
- Three letter {@link ChronoField#MONTH_OF_YEAR month-of-year} in English.
*
- A space
*
- Four digits for the {@link ChronoField#YEAR year}.
* Only years in the range 0000 to 9999 are supported.
*
- A space
*
- Two digits for the {@link ChronoField#HOUR_OF_DAY hour-of-day}.
* This is pre-padded by zero to ensure two digits.
*
- A colon
*
- Two digits for the {@link ChronoField#MINUTE_OF_HOUR minute-of-hour}.
* This is pre-padded by zero to ensure two digits.
*
- If the second-of-minute is not available to print/parse then jump to the next space.
*
- A colon
*
- Two digits for the {@link ChronoField#SECOND_OF_MINUTE second-of-minute}.
* This is pre-padded by zero to ensure two digits.
*
- A space
*
- The {@link ZoneOffset#getId() offset ID} without colons or seconds.
* An offset of zero uses "GMT". North American zone names and military zone names are not handled.
*
* Parsing is case insensitive.
*/
public static final DateTimeFormatter RFC_1123_DATE_TIME;
static {
// manually code maps to ensure correct data always used
// (locale data can be changed by application code)
Map dow = new HashMap();
dow.put(1L, "Mon");
dow.put(2L, "Tue");
dow.put(3L, "Wed");
dow.put(4L, "Thu");
dow.put(5L, "Fri");
dow.put(6L, "Sat");
dow.put(7L, "Sun");
Map moy = new HashMap();
moy.put(1L, "Jan");
moy.put(2L, "Feb");
moy.put(3L, "Mar");
moy.put(4L, "Apr");
moy.put(5L, "May");
moy.put(6L, "Jun");
moy.put(7L, "Jul");
moy.put(8L, "Aug");
moy.put(9L, "Sep");
moy.put(10L, "Oct");
moy.put(11L, "Nov");
moy.put(12L, "Dec");
RFC_1123_DATE_TIME = new DateTimeFormatterBuilder()
.parseCaseInsensitive()
.parseLenient()
.optionalStart()
.appendText(DAY_OF_WEEK, dow)
.appendLiteral(", ")
.optionalEnd()
.appendValue(DAY_OF_MONTH, 1, 2, SignStyle.NOT_NEGATIVE)
.appendLiteral(' ')
.appendText(MONTH_OF_YEAR, moy)
.appendLiteral(' ')
.appendValue(YEAR, 4) // 2 digit year not handled
.appendLiteral(' ')
.appendValue(HOUR_OF_DAY, 2)
.appendLiteral(':')
.appendValue(MINUTE_OF_HOUR, 2)
.optionalStart()
.appendLiteral(':')
.appendValue(SECOND_OF_MINUTE, 2)
.optionalEnd()
.appendLiteral(' ')
.appendOffset("+HHMM", "GMT") // should handle UT/Z/EST/EDT/CST/CDT/MST/MDT/PST/MDT
.toFormatter(ResolverStyle.SMART).withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* Creates a formatter using the specified pattern.
*
* This method will create a formatter based on a simple pattern of letters and symbols.
* For example, {@code d MMM yyyy} will format 2011-12-03 as '3 Dec 2011'.
*
* The returned formatter will use the default locale, but this can be changed
* using {@link DateTimeFormatter#withLocale(Locale)}.
*
* All letters 'A' to 'Z' and 'a' to 'z' are reserved as pattern letters.
* The following pattern letters are defined:
*
* Symbol Meaning Presentation Examples
* ------ ------- ------------ -------
* G era number/text 1; 01; AD; Anno Domini
* y year year 2004; 04
* D day-of-year number 189
* M month-of-year number/text 7; 07; Jul; July; J
* d day-of-month number 10
*
* Q quarter-of-year number/text 3; 03; Q3
* Y week-based-year year 1996; 96
* w week-of-year number 27
* W week-of-month number 27
* e localized day-of-week number 2; Tue; Tuesday; T
* E day-of-week number/text 2; Tue; Tuesday; T
* F week-of-month number 3
*
* a am-pm-of-day text PM
* h clock-hour-of-am-pm (1-12) number 12
* K hour-of-am-pm (0-11) number 0
* k clock-hour-of-am-pm (1-24) number 0
*
* H hour-of-day (0-23) number 0
* m minute-of-hour number 30
* s second-of-minute number 55
* S fraction-of-second fraction 978
* A milli-of-day number 1234
* n nano-of-second number 987654321
* N nano-of-day number 1234000000
*
* V time-zone ID zone-id America/Los_Angeles; Z; -08:30
* z time-zone name zone-name Pacific Standard Time; PST
* X zone-offset 'Z' for zero offset-X Z; -08; -0830; -08:30; -083015; -08:30:15;
* x zone-offset offset-x +0000; -08; -0830; -08:30; -083015; -08:30:15;
* Z zone-offset offset-Z +0000; -0800; -08:00;
*
* p pad next pad modifier 1
*
* ' escape for text delimiter
* '' single quote literal '
* [ optional section start
* ] optional section end
* {} reserved for future use
*
*
* The count of pattern letters determine the format.
*
* Text: The text style is determined based on the number of pattern letters used.
* Less than 4 pattern letters will use the {@link TextStyle#SHORT short form}.
* Exactly 4 pattern letters will use the {@link TextStyle#FULL full form}.
* Exactly 5 pattern letters will use the {@link TextStyle#NARROW narrow form}.
*
* Number: If the count of letters is one, then the value is printed using the minimum number
* of digits and without padding as per {@link DateTimeFormatterBuilder#appendValue(TemporalField)}.
* Otherwise, the count of digits is used as the width of the output field as per
* {@link DateTimeFormatterBuilder#appendValue(TemporalField, int)}.
*
* Number/Text: If the count of pattern letters is 3 or greater, use the Text rules above.
* Otherwise use the Number rules above.
*
* Fraction: Outputs the nano-of-second field as a fraction-of-second.
* The nano-of-second value has nine digits, thus the count of pattern letters is from 1 to 9.
* If it is less than 9, then the nano-of-second value is truncated, with only the most
* significant digits being output.
* When parsing in strict mode, the number of parsed digits must match the count of pattern letters.
* When parsing in lenient mode, the number of parsed digits must be at least the count of pattern
* letters, up to 9 digits.
*
* Year: The count of letters determines the minimum field width below which padding is used.
* If the count of letters is two, then a {@link DateTimeFormatterBuilder#appendValueReduced reduced}
* two digit form is used.
* For printing, this outputs the rightmost two digits. For parsing, this will parse using the
* base value of 2000, resulting in a year within the range 2000 to 2099 inclusive.
* If the count of letters is less than four (but not two), then the sign is only output for negative
* years as per {@link SignStyle#NORMAL}.
* Otherwise, the sign is output if the pad width is exceeded, as per {@link SignStyle#EXCEEDS_PAD}
*
* ZoneId: This outputs the time-zone ID, such as 'Europe/Paris'.
* If the count of letters is two, then the time-zone ID is output.
* Any other count of letters throws {@code IllegalArgumentException}.
*
* Zone names: This outputs the display name of the time-zone ID.
* If the count of letters is one, two or three, then the short name is output.
* If the count of letters is four, then the full name is output.
* Five or more letters throws {@code IllegalArgumentException}.
*
* Offset X and x: This formats the offset based on the number of pattern letters.
* One letter outputs just the hour', such as '+01', unless the minute is non-zero
* in which case the minute is also output, such as '+0130'.
* Two letters outputs the hour and minute, without a colon, such as '+0130'.
* Three letters outputs the hour and minute, with a colon, such as '+01:30'.
* Four letters outputs the hour and minute and optional second, without a colon, such as '+013015'.
* Five letters outputs the hour and minute and optional second, with a colon, such as '+01:30:15'.
* Six or more letters throws {@code IllegalArgumentException}.
* Pattern letter 'X' (upper case) will output 'Z' when the offset to be output would be zero,
* whereas pattern letter 'x' (lower case) will output '+00', '+0000', or '+00:00'.
*
* Offset Z: This formats the offset based on the number of pattern letters.
* One, two or three letters outputs the hour and minute, without a colon, such as '+0130'.
* Four or more letters throws {@code IllegalArgumentException}.
* The output will be '+0000' when the offset is zero.
*
* Optional section: The optional section markers work exactly like calling
* {@link DateTimeFormatterBuilder#optionalStart()} and {@link DateTimeFormatterBuilder#optionalEnd()}.
*
* Pad modifier: Modifies the pattern that immediately follows to be padded with spaces.
* The pad width is determined by the number of pattern letters.
* This is the same as calling {@link DateTimeFormatterBuilder#padNext(int)}.
*
* For example, 'ppH' outputs the hour-of-day padded on the left with spaces to a width of 2.
*
* Any unrecognized letter is an error.
* Any non-letter character, other than '[', ']', '{', '}' and the single quote will be output directly.
* Despite this, it is recommended to use single quotes around all characters that you want to
* output directly to ensure that future changes do not break your application.
*
* @param pattern the pattern to use, not null
* @return the formatter based on the pattern, not null
* @throws IllegalArgumentException if the pattern is invalid
* @see DateTimeFormatterBuilder#appendPattern(String)
*/
public static DateTimeFormatter ofPattern(String pattern) {
return new DateTimeFormatterBuilder().appendPattern(pattern).toFormatter();
}
/**
* Creates a formatter using the specified pattern.
*
* This method will create a formatter based on a simple pattern of letters and symbols.
* For example, {@code d MMM yyyy} will format 2011-12-03 as '3 Dec 2011'.
*
* See {@link #ofPattern(String)} for details of the pattern.
*
* The returned formatter will use the specified locale, but this can be changed
* using {@link DateTimeFormatter#withLocale(Locale)}.
*
* @param pattern the pattern to use, not null
* @param locale the locale to use, not null
* @return the formatter based on the pattern, not null
* @throws IllegalArgumentException if the pattern is invalid
* @see DateTimeFormatterBuilder#appendPattern(String)
*/
public static DateTimeFormatter ofPattern(String pattern, Locale locale) {
return new DateTimeFormatterBuilder().appendPattern(pattern).toFormatter(locale);
}
//-----------------------------------------------------------------------
/**
* Returns a locale specific date format.
*
* This returns a formatter that will print/parse a date.
* The exact format pattern used varies by locale.
*
* The locale is determined from the formatter. The formatter returned directly by
* this method will use the {@link Locale#getDefault() default locale}.
* The locale can be controlled using {@link DateTimeFormatter#withLocale(Locale) withLocale(Locale)}
* on the result of this method.
*
* Note that the localized pattern is looked up lazily.
* This {@code DateTimeFormatter} holds the style required and the locale,
* looking up the pattern required on demand.
*
* @param dateStyle the formatter style to obtain, not null
* @return the date formatter, not null
*/
public static DateTimeFormatter ofLocalizedDate(FormatStyle dateStyle) {
Jdk8Methods.requireNonNull(dateStyle, "dateStyle");
return new DateTimeFormatterBuilder().appendLocalized(dateStyle, null)
.toFormatter().withChronology(IsoChronology.INSTANCE);
}
/**
* Returns a locale specific time format.
*
* This returns a formatter that will print/parse a time.
* The exact format pattern used varies by locale.
*
* The locale is determined from the formatter. The formatter returned directly by
* this method will use the {@link Locale#getDefault() default locale}.
* The locale can be controlled using {@link DateTimeFormatter#withLocale(Locale) withLocale(Locale)}
* on the result of this method.
*
* Note that the localized pattern is looked up lazily.
* This {@code DateTimeFormatter} holds the style required and the locale,
* looking up the pattern required on demand.
*
* @param timeStyle the formatter style to obtain, not null
* @return the time formatter, not null
*/
public static DateTimeFormatter ofLocalizedTime(FormatStyle timeStyle) {
Jdk8Methods.requireNonNull(timeStyle, "timeStyle");
return new DateTimeFormatterBuilder().appendLocalized(null, timeStyle)
.toFormatter().withChronology(IsoChronology.INSTANCE);
}
/**
* Returns a locale specific date-time format, which is typically of short length.
*
* This returns a formatter that will print/parse a date-time.
* The exact format pattern used varies by locale.
*
* The locale is determined from the formatter. The formatter returned directly by
* this method will use the {@link Locale#getDefault() default locale}.
* The locale can be controlled using {@link DateTimeFormatter#withLocale(Locale) withLocale(Locale)}
* on the result of this method.
*
* Note that the localized pattern is looked up lazily.
* This {@code DateTimeFormatter} holds the style required and the locale,
* looking up the pattern required on demand.
*
* @param dateTimeStyle the formatter style to obtain, not null
* @return the date-time formatter, not null
*/
public static DateTimeFormatter ofLocalizedDateTime(FormatStyle dateTimeStyle) {
Jdk8Methods.requireNonNull(dateTimeStyle, "dateTimeStyle");
return new DateTimeFormatterBuilder().appendLocalized(dateTimeStyle, dateTimeStyle)
.toFormatter().withChronology(IsoChronology.INSTANCE);
}
/**
* Returns a locale specific date and time format.
*
* This returns a formatter that will print/parse a date-time.
* The exact format pattern used varies by locale.
*
* The locale is determined from the formatter. The formatter returned directly by
* this method will use the {@link Locale#getDefault() default locale}.
* The locale can be controlled using {@link DateTimeFormatter#withLocale(Locale) withLocale(Locale)}
* on the result of this method.
*
* Note that the localized pattern is looked up lazily.
* This {@code DateTimeFormatter} holds the style required and the locale,
* looking up the pattern required on demand.
*
* @param dateStyle the date formatter style to obtain, not null
* @param timeStyle the time formatter style to obtain, not null
* @return the date, time or date-time formatter, not null
*/
public static DateTimeFormatter ofLocalizedDateTime(FormatStyle dateStyle, FormatStyle timeStyle) {
Jdk8Methods.requireNonNull(dateStyle, "dateStyle");
Jdk8Methods.requireNonNull(timeStyle, "timeStyle");
return new DateTimeFormatterBuilder().appendLocalized(dateStyle, timeStyle)
.toFormatter().withChronology(IsoChronology.INSTANCE);
}
//-----------------------------------------------------------------------
/**
* A query that provides access to the excess days that were parsed.
*
* This returns a singleton {@linkplain TemporalQuery query} that provides
* access to additional information from the parse. The query always returns
* a non-null period, with a zero period returned instead of null.
*
* There are two situations where this query may return a non-zero period.
*
* - If the {@code ResolverStyle} is {@code LENIENT} and a time is parsed
* without a date, then the complete result of the parse consists of a
* {@code LocalTime} and an excess {@code Period} in days.
*
*
- If the {@code ResolverStyle} is {@code SMART} and a time is parsed
* without a date where the time is 24:00:00, then the complete result of
* the parse consists of a {@code LocalTime} of 00:00:00 and an excess
* {@code Period} of one day.
*
*
* In both cases, if a complete {@code ChronoLocalDateTime} or {@code Instant}
* is parsed, then the excess days are added to the date part.
* As a result, this query will return a zero period.
*
* The {@code SMART} behaviour handles the common "end of day" 24:00 value.
* Processing in {@code LENIENT} mode also produces the same result:
*
* Text to parse Parsed object Excess days
* "2012-12-03T00:00" LocalDateTime.of(2012, 12, 3, 0, 0) ZERO
* "2012-12-03T24:00" LocalDateTime.of(2012, 12, 4, 0, 0) ZERO
* "00:00" LocalTime.of(0, 0) ZERO
* "24:00" LocalTime.of(0, 0) Period.ofDays(1)
*
* The query can be used as follows:
*
* TemporalAccessor parsed = formatter.parse(str);
* LocalTime time = parsed.query(LocalTime.FROM);
* Period extraDays = parsed.query(DateTimeFormatter.parsedExcessDays());
*
* @return a query that provides access to the excess days that were parsed
*/
public static final TemporalQuery parsedExcessDays() {
return PARSED_EXCESS_DAYS;
}
private static final TemporalQuery PARSED_EXCESS_DAYS = new TemporalQuery() {
public Period queryFrom(TemporalAccessor temporal) {
if (temporal instanceof DateTimeBuilder) {
return ((DateTimeBuilder) temporal).excessDays;
} else {
return Period.ZERO;
}
}
};
/**
* A query that provides access to whether a leap-second was parsed.
*
* This returns a singleton {@linkplain TemporalQuery query} that provides
* access to additional information from the parse. The query always returns
* a non-null boolean, true if parsing saw a leap-second, false if not.
*
* Instant parsing handles the special "leap second" time of '23:59:60'.
* Leap seconds occur at '23:59:60' in the UTC time-zone, but at other
* local times in different time-zones. To avoid this potential ambiguity,
* the handling of leap-seconds is limited to
* {@link DateTimeFormatterBuilder#appendInstant()}, as that method
* always parses the instant with the UTC zone offset.
*
* If the time '23:59:60' is received, then a simple conversion is applied,
* replacing the second-of-minute of 60 with 59. This query can be used
* on the parse result to determine if the leap-second adjustment was made.
* The query will return one second of excess if it did adjust to remove
* the leap-second, and zero if not. Note that applying a leap-second
* smoothing mechanism, such as UTC-SLS, is the responsibility of the
* application, as follows:
*
* TemporalAccessor parsed = formatter.parse(str);
* Instant instant = parsed.query(Instant::from);
* if (parsed.query(DateTimeFormatter.parsedLeapSecond())) {
* // validate leap-second is correct and apply correct smoothing
* }
*
* @return a query that provides access to whether a leap-second was parsed
*/
public static final TemporalQuery parsedLeapSecond() {
return PARSED_LEAP_SECOND;
}
private static final TemporalQuery PARSED_LEAP_SECOND = new TemporalQuery() {
public Boolean queryFrom(TemporalAccessor temporal) {
if (temporal instanceof DateTimeBuilder) {
return ((DateTimeBuilder) temporal).leapSecond;
} else {
return Boolean.FALSE;
}
}
};
//-----------------------------------------------------------------------
/**
* The printer and/or parser to use, not null.
*/
private final CompositePrinterParser printerParser;
/**
* The locale to use for formatting, not null.
*/
private final Locale locale;
/**
* The symbols to use for formatting, not null.
*/
private final DecimalStyle decimalStyle;
/**
* The resolver style to use, not null.
*/
private final ResolverStyle resolverStyle;
/**
* The fields to use in resolving, null for all fields.
*/
private final Set resolverFields;
/**
* The chronology to use for formatting, null for no override.
*/
private final Chronology chrono;
/**
* The zone to use for formatting, null for no override.
*/
private final ZoneId zone;
//-----------------------------------------------------------------------
/**
* Constructor.
*
* @param printerParser the printer/parser to use, not null
* @param locale the locale to use, not null
* @param decimalStyle the decimal style to use, not null
* @param resolverStyle the resolver style to use, not null
* @param resolverFields the fields to use during resolving, null for all fields
* @param chrono the chronology to use, null for no override
* @param zone the zone to use, null for no override
*/
DateTimeFormatter(CompositePrinterParser printerParser, Locale locale,
DecimalStyle decimalStyle, ResolverStyle resolverStyle,
Set resolverFields, Chronology chrono, ZoneId zone) {
this.printerParser = Jdk8Methods.requireNonNull(printerParser, "printerParser");
this.locale = Jdk8Methods.requireNonNull(locale, "locale");
this.decimalStyle = Jdk8Methods.requireNonNull(decimalStyle, "decimalStyle");
this.resolverStyle = Jdk8Methods.requireNonNull(resolverStyle, "resolverStyle");
this.resolverFields = resolverFields;
this.chrono = chrono;
this.zone = zone;
}
//-----------------------------------------------------------------------
/**
* Gets the locale to be used during formatting.
*
* This is used to lookup any part of the formatter needing specific
* localization, such as the text or localized pattern.
*
* @return the locale of this formatter, not null
*/
public Locale getLocale() {
return locale;
}
/**
* Returns a copy of this formatter with a new locale.
*
* This is used to lookup any part of the formatter needing specific
* localization, such as the text or localized pattern.
*
* This instance is immutable and unaffected by this method call.
*
* @param locale the new locale, not null
* @return a formatter based on this formatter with the requested locale, not null
*/
public DateTimeFormatter withLocale(Locale locale) {
if (this.locale.equals(locale)) {
return this;
}
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, resolverFields, chrono, zone);
}
//-----------------------------------------------------------------------
/**
* Gets the decimal style to be used during formatting.
*
* @return the decimal style of this formatter, not null
*/
public DecimalStyle getDecimalStyle() {
return decimalStyle;
}
/**
* Returns a copy of this formatter with a new decimal style.
*
* This instance is immutable and unaffected by this method call.
*
* @param decimalStyle the new decimal style, not null
* @return a formatter based on this formatter with the requested symbols, not null
*/
public DateTimeFormatter withDecimalStyle(DecimalStyle decimalStyle) {
if (this.decimalStyle.equals(decimalStyle)) {
return this;
}
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, resolverFields, chrono, zone);
}
//-----------------------------------------------------------------------
/**
* Gets the overriding chronology to be used during formatting.
*
* This returns the override chronology, used to convert dates.
* By default, a formatter has no override chronology, returning null.
* See {@link #withChronology(Chronology)} for more details on overriding.
*
* @return the chronology of this formatter, null if no override
*/
public Chronology getChronology() {
return chrono;
}
/**
* Returns a copy of this formatter with a new override chronology.
*
* This returns a formatter with similar state to this formatter but
* with the override chronology set.
* By default, a formatter has no override chronology, returning null.
*
* If an override is added, then any date that is printed or parsed will be affected.
*
* When printing, if the {@code Temporal} object contains a date then it will
* be converted to a date in the override chronology.
* Any time or zone will be retained unless overridden.
* The converted result will behave in a manner equivalent to an implementation
* of {@code ChronoLocalDate},{@code ChronoLocalDateTime} or {@code ChronoZonedDateTime}.
*
* When parsing, the override chronology will be used to interpret the
* {@linkplain ChronoField fields} into a date unless the
* formatter directly parses a valid chronology.
*
* This instance is immutable and unaffected by this method call.
*
* @param chrono the new chronology, not null
* @return a formatter based on this formatter with the requested override chronology, not null
*/
public DateTimeFormatter withChronology(Chronology chrono) {
if (Jdk8Methods.equals(this.chrono, chrono)) {
return this;
}
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, resolverFields, chrono, zone);
}
//-----------------------------------------------------------------------
/**
* Gets the overriding zone to be used during formatting.
*
* This returns the override zone, used to convert instants.
* By default, a formatter has no override zone, returning null.
* See {@link #withZone(ZoneId)} for more details on overriding.
*
* @return the chronology of this formatter, null if no override
*/
public ZoneId getZone() {
return zone;
}
/**
* Returns a copy of this formatter with a new override zone.
*
* This returns a formatter with similar state to this formatter but
* with the override zone set.
* By default, a formatter has no override zone, returning null.
*
* If an override is added, then any instant that is printed or parsed will be affected.
*
* When printing, if the {@code Temporal} object contains an instant then it will
* be converted to a zoned date-time using the override zone.
* If the input has a chronology then it will be retained unless overridden.
* If the input does not have a chronology, such as {@code Instant}, then
* the ISO chronology will be used.
* The converted result will behave in a manner equivalent to an implementation
* of {@code ChronoZonedDateTime}.
*
* When parsing, the override zone will be used to interpret the
* {@linkplain ChronoField fields} into an instant unless the
* formatter directly parses a valid zone.
*
* This instance is immutable and unaffected by this method call.
*
* @param zone the new override zone, not null
* @return a formatter based on this formatter with the requested override zone, not null
*/
public DateTimeFormatter withZone(ZoneId zone) {
if (Jdk8Methods.equals(this.zone, zone)) {
return this;
}
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, resolverFields, chrono, zone);
}
//-----------------------------------------------------------------------
/**
* Gets the resolver style to use during parsing.
*
* This returns the resolver style, used during the second phase of parsing
* when fields are resolved into dates and times.
* By default, a formatter has the {@link ResolverStyle#SMART SMART} resolver style.
* See {@link #withResolverStyle(ResolverStyle)} for more details.
*
* @return the resolver style of this formatter, not null
*/
public ResolverStyle getResolverStyle() {
return resolverStyle;
}
/**
* Returns a copy of this formatter with a new resolver style.
*
* This returns a formatter with similar state to this formatter but
* with the resolver style set. By default, a formatter has the
* {@link ResolverStyle#SMART SMART} resolver style.
*
* Changing the resolver style only has an effect during parsing.
* Parsing a text string occurs in two phases.
* Phase 1 is a basic text parse according to the fields added to the builder.
* Phase 2 resolves the parsed field-value pairs into date and/or time objects.
* The resolver style is used to control how phase 2, resolving, happens.
* See {@code ResolverStyle} for more information on the options available.
*
* This instance is immutable and unaffected by this method call.
*
* @param resolverStyle the new resolver style, not null
* @return a formatter based on this formatter with the requested resolver style, not null
*/
public DateTimeFormatter withResolverStyle(ResolverStyle resolverStyle) {
Jdk8Methods.requireNonNull(resolverStyle, "resolverStyle");
if (Jdk8Methods.equals(this.resolverStyle, resolverStyle)) {
return this;
}
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, resolverFields, chrono, zone);
}
//-----------------------------------------------------------------------
/**
* Gets the resolver fields to use during parsing.
*
* This returns the resolver fields, used during the second phase of parsing
* when fields are resolved into dates and times.
* By default, a formatter has no resolver fields, and thus returns null.
* See {@link #withResolverFields(Set)} for more details.
*
* @return the immutable set of resolver fields of this formatter, null if no fields
*/
public Set getResolverFields() {
return resolverFields;
}
/**
* Returns a copy of this formatter with a new set of resolver fields.
*
* This returns a formatter with similar state to this formatter but with
* the resolver fields set. By default, a formatter has no resolver fields.
*
* Changing the resolver fields only has an effect during parsing.
* Parsing a text string occurs in two phases.
* Phase 1 is a basic text parse according to the fields added to the builder.
* Phase 2 resolves the parsed field-value pairs into date and/or time objects.
* The resolver fields are used to filter the field-value pairs between phase 1 and 2.
*
* This can be used to select between two or more ways that a date or time might
* be resolved. For example, if the formatter consists of year, month, day-of-month
* and day-of-year, then there are two ways to resolve a date.
* Calling this method with the arguments {@link ChronoField#YEAR YEAR} and
* {@link ChronoField#DAY_OF_YEAR DAY_OF_YEAR} will ensure that the date is
* resolved using the year and day-of-year, effectively meaning that the month
* and day-of-month are ignored during the resolving phase.
*
* In a similar manner, this method can be used to ignore secondary fields that
* would otherwise be cross-checked. For example, if the formatter consists of year,
* month, day-of-month and day-of-week, then there is only one way to resolve a
* date, but the parsed value for day-of-week will be cross-checked against the
* resolved date. Calling this method with the arguments {@link ChronoField#YEAR YEAR},
* {@link ChronoField#MONTH_OF_YEAR MONTH_OF_YEAR} and
* {@link ChronoField#DAY_OF_MONTH DAY_OF_MONTH} will ensure that the date is
* resolved correctly, but without any cross-check for the day-of-week.
*
* In implementation terms, this method behaves as follows. The result of the
* parsing phase can be considered to be a map of field to value. The behavior
* of this method is to cause that map to be filtered between phase 1 and 2,
* removing all fields other than those specified as arguments to this method.
*
* This instance is immutable and unaffected by this method call.
*
* @param resolverFields the new set of resolver fields, null if no fields
* @return a formatter based on this formatter with the requested resolver style, not null
*/
public DateTimeFormatter withResolverFields(TemporalField... resolverFields) {
if (resolverFields == null) {
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, null, chrono, zone);
}
Set fields = new HashSet(Arrays.asList(resolverFields));
if (Jdk8Methods.equals(this.resolverFields, fields)) {
return this;
}
fields = Collections.unmodifiableSet(fields);
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, fields, chrono, zone);
}
/**
* Returns a copy of this formatter with a new set of resolver fields.
*
* This returns a formatter with similar state to this formatter but with
* the resolver fields set. By default, a formatter has no resolver fields.
*
* Changing the resolver fields only has an effect during parsing.
* Parsing a text string occurs in two phases.
* Phase 1 is a basic text parse according to the fields added to the builder.
* Phase 2 resolves the parsed field-value pairs into date and/or time objects.
* The resolver fields are used to filter the field-value pairs between phase 1 and 2.
*
* This can be used to select between two or more ways that a date or time might
* be resolved. For example, if the formatter consists of year, month, day-of-month
* and day-of-year, then there are two ways to resolve a date.
* Calling this method with the arguments {@link ChronoField#YEAR YEAR} and
* {@link ChronoField#DAY_OF_YEAR DAY_OF_YEAR} will ensure that the date is
* resolved using the year and day-of-year, effectively meaning that the month
* and day-of-month are ignored during the resolving phase.
*
* In a similar manner, this method can be used to ignore secondary fields that
* would otherwise be cross-checked. For example, if the formatter consists of year,
* month, day-of-month and day-of-week, then there is only one way to resolve a
* date, but the parsed value for day-of-week will be cross-checked against the
* resolved date. Calling this method with the arguments {@link ChronoField#YEAR YEAR},
* {@link ChronoField#MONTH_OF_YEAR MONTH_OF_YEAR} and
* {@link ChronoField#DAY_OF_MONTH DAY_OF_MONTH} will ensure that the date is
* resolved correctly, but without any cross-check for the day-of-week.
*
* In implementation terms, this method behaves as follows. The result of the
* parsing phase can be considered to be a map of field to value. The behavior
* of this method is to cause that map to be filtered between phase 1 and 2,
* removing all fields other than those specified as arguments to this method.
*
* This instance is immutable and unaffected by this method call.
*
* @param resolverFields the new set of resolver fields, null if no fields
* @return a formatter based on this formatter with the requested resolver style, not null
*/
public DateTimeFormatter withResolverFields(Set resolverFields) {
if (resolverFields == null) {
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, null, chrono, zone);
}
if (Jdk8Methods.equals(this.resolverFields, resolverFields)) {
return this;
}
resolverFields = Collections.unmodifiableSet(new HashSet(resolverFields));
return new DateTimeFormatter(printerParser, locale, decimalStyle, resolverStyle, resolverFields, chrono, zone);
}
//-----------------------------------------------------------------------
/**
* Formats a date-time object using this formatter.
*
* This formats the date-time to a String using the rules of the formatter.
*
* @param temporal the temporal object to print, not null
* @return the printed string, not null
* @throws DateTimeException if an error occurs during formatting
*/
public String format(TemporalAccessor temporal) {
StringBuilder buf = new StringBuilder(32);
formatTo(temporal, buf);
return buf.toString();
}
//-----------------------------------------------------------------------
/**
* Formats a date-time object to an {@code Appendable} using this formatter.
*
* This formats the date-time to the specified destination.
* {@link Appendable} is a general purpose interface that is implemented by all
* key character output classes including {@code StringBuffer}, {@code StringBuilder},
* {@code PrintStream} and {@code Writer}.
*
* Although {@code Appendable} methods throw an {@code IOException}, this method does not.
* Instead, any {@code IOException} is wrapped in a runtime exception.
*
* @param temporal the temporal object to print, not null
* @param appendable the appendable to print to, not null
* @throws DateTimeException if an error occurs during formatting
*/
public void formatTo(TemporalAccessor temporal, Appendable appendable) {
Jdk8Methods.requireNonNull(temporal, "temporal");
Jdk8Methods.requireNonNull(appendable, "appendable");
try {
DateTimePrintContext context = new DateTimePrintContext(temporal, this);
if (appendable instanceof StringBuilder) {
printerParser.print(context, (StringBuilder) appendable);
} else {
// buffer output to avoid writing to appendable in case of error
StringBuilder buf = new StringBuilder(32);
printerParser.print(context, buf);
appendable.append(buf);
}
} catch (IOException ex) {
throw new DateTimeException(ex.getMessage(), ex);
}
}
//-----------------------------------------------------------------------
/**
* Fully parses the text producing a temporal object.
*
* This parses the entire text producing a temporal object.
* It is typically more useful to use {@link #parse(CharSequence, TemporalQuery)}.
* The result of this method is {@code TemporalAccessor} which has been resolved,
* applying basic validation checks to help ensure a valid date-time.
*
* If the parse completes without reading the entire length of the text,
* or a problem occurs during parsing or merging, then an exception is thrown.
*
* @param text the text to parse, not null
* @return the parsed temporal object, not null
* @throws DateTimeParseException if unable to parse the requested result
*/
public TemporalAccessor parse(CharSequence text) {
Jdk8Methods.requireNonNull(text, "text");
try {
return parseToBuilder(text, null).resolve(resolverStyle, resolverFields);
} catch (DateTimeParseException ex) {
throw ex;
} catch (RuntimeException ex) {
throw createError(text, ex);
}
}
/**
* Parses the text using this formatter, providing control over the text position.
*
* This parses the text without requiring the parse to start from the beginning
* of the string or finish at the end.
* The result of this method is {@code TemporalAccessor} which has been resolved,
* applying basic validation checks to help ensure a valid date-time.
*
* The text will be parsed from the specified start {@code ParsePosition}.
* The entire length of the text does not have to be parsed, the {@code ParsePosition}
* will be updated with the index at the end of parsing.
*
* The operation of this method is slightly different to similar methods using
* {@code ParsePosition} on {@code java.text.Format}. That class will return
* errors using the error index on the {@code ParsePosition}. By contrast, this
* method will throw a {@link DateTimeParseException} if an error occurs, with
* the exception containing the error index.
* This change in behavior is necessary due to the increased complexity of
* parsing and resolving dates/times in this API.
*
* If the formatter parses the same field more than once with different values,
* the result will be an error.
*
* @param text the text to parse, not null
* @param position the position to parse from, updated with length parsed
* and the index of any error, not null
* @return the parsed temporal object, not null
* @throws DateTimeParseException if unable to parse the requested result
* @throws IndexOutOfBoundsException if the position is invalid
*/
public TemporalAccessor parse(CharSequence text, ParsePosition position) {
Jdk8Methods.requireNonNull(text, "text");
Jdk8Methods.requireNonNull(position, "position");
try {
return parseToBuilder(text, position).resolve(resolverStyle, resolverFields);
} catch (DateTimeParseException ex) {
throw ex;
} catch (IndexOutOfBoundsException ex) {
throw ex;
} catch (RuntimeException ex) {
throw createError(text, ex);
}
}
//-----------------------------------------------------------------------
/**
* Fully parses the text producing an object of the specified type.
*
* Most applications should use this method for parsing.
* It parses the entire text to produce the required date-time.
* For example:
*
* LocalDateTime dt = parser.parse(str, LocalDateTime.FROM);
*
* If the parse completes without reading the entire length of the text,
* or a problem occurs during parsing or merging, then an exception is thrown.
*
* @param the type to extract
* @param text the text to parse, not null
* @param type the type to extract, not null
* @return the parsed date-time, not null
* @throws DateTimeParseException if unable to parse the requested result
*/
public T parse(CharSequence text, TemporalQuery type) {
Jdk8Methods.requireNonNull(text, "text");
Jdk8Methods.requireNonNull(type, "type");
try {
DateTimeBuilder builder = parseToBuilder(text, null).resolve(resolverStyle, resolverFields);
return builder.build(type);
} catch (DateTimeParseException ex) {
throw ex;
} catch (RuntimeException ex) {
throw createError(text, ex);
}
}
/**
* Fully parses the text producing an object of one of the specified types.
*
* This parse method is convenient for use when the parser can handle optional elements.
* For example, a pattern of 'yyyy[-MM[-dd]]' can be fully parsed to a {@code LocalDate},
* or partially parsed to a {@code YearMonth} or a {@code Year}.
* The types must be specified in order, starting from the best matching full-parse option
* and ending with the worst matching minimal parse option.
*
* The result is associated with the first type that successfully parses.
* Normally, applications will use {@code instanceof} to check the result.
* For example:
*
* TemporalAccessor dt = parser.parseBest(str, LocalDate.FROM, YearMonth.FROM);
* if (dt instanceof LocalDate) {
* ...
* } else {
* ...
* }
*
* If the parse completes without reading the entire length of the text,
* or a problem occurs during parsing or merging, then an exception is thrown.
*
* @param text the text to parse, not null
* @param types the types to attempt to parse to, which must implement {@code TemporalAccessor}, not null
* @return the parsed date-time, not null
* @throws IllegalArgumentException if less than 2 types are specified
* @throws DateTimeParseException if unable to parse the requested result
*/
public TemporalAccessor parseBest(CharSequence text, TemporalQuery... types) {
Jdk8Methods.requireNonNull(text, "text");
Jdk8Methods.requireNonNull(types, "types");
if (types.length < 2) {
throw new IllegalArgumentException("At least two types must be specified");
}
try {
DateTimeBuilder builder = parseToBuilder(text, null).resolve(resolverStyle, resolverFields);
for (TemporalQuery type : types) {
try {
return (TemporalAccessor) builder.build(type);
} catch (RuntimeException ex) {
// continue
}
}
throw new DateTimeException("Unable to convert parsed text to any specified type: " + Arrays.toString(types));
} catch (DateTimeParseException ex) {
throw ex;
} catch (RuntimeException ex) {
throw createError(text, ex);
}
}
private DateTimeParseException createError(CharSequence text, RuntimeException ex) {
String abbr = "";
if (text.length() > 64) {
abbr = text.subSequence(0, 64).toString() + "...";
} else {
abbr = text.toString();
}
return new DateTimeParseException("Text '" + abbr + "' could not be parsed: " + ex.getMessage(), text, 0, ex);
}
//-----------------------------------------------------------------------
/**
* Parses the text to a builder.
*
* This parses to a {@code DateTimeBuilder} ensuring that the text is fully parsed.
* This method throws {@link DateTimeParseException} if unable to parse, or
* some other {@code DateTimeException} if another date/time problem occurs.
*
* @param text the text to parse, not null
* @param position the position to parse from, updated with length parsed
* and the index of any error, null if parsing whole string
* @return the engine representing the result of the parse, not null
* @throws DateTimeParseException if the parse fails
*/
private DateTimeBuilder parseToBuilder(final CharSequence text, final ParsePosition position) {
ParsePosition pos = (position != null ? position : new ParsePosition(0));
Parsed result = parseUnresolved0(text, pos);
if (result == null || pos.getErrorIndex() >= 0 || (position == null && pos.getIndex() < text.length())) {
String abbr = "";
if (text.length() > 64) {
abbr = text.subSequence(0, 64).toString() + "...";
} else {
abbr = text.toString();
}
if (pos.getErrorIndex() >= 0) {
throw new DateTimeParseException("Text '" + abbr + "' could not be parsed at index " +
pos.getErrorIndex(), text, pos.getErrorIndex());
} else {
throw new DateTimeParseException("Text '" + abbr + "' could not be parsed, unparsed text found at index " +
pos.getIndex(), text, pos.getIndex());
}
}
return result.toBuilder();
}
/**
* Parses the text using this formatter, without resolving the result, intended
* for advanced use cases.
*
* Parsing is implemented as a two-phase operation.
* First, the text is parsed using the layout defined by the formatter, producing
* a {@code Map} of field to value, a {@code ZoneId} and a {@code Chronology}.
* Second, the parsed data is resolved, by validating, combining and
* simplifying the various fields into more useful ones.
* This method performs the parsing stage but not the resolving stage.
*
* The result of this method is {@code TemporalAccessor} which represents the
* data as seen in the input. Values are not validated, thus parsing a date string
* of '2012-00-65' would result in a temporal with three fields - year of '2012',
* month of '0' and day-of-month of '65'.
*
* The text will be parsed from the specified start {@code ParsePosition}.
* The entire length of the text does not have to be parsed, the {@code ParsePosition}
* will be updated with the index at the end of parsing.
*
* Errors are returned using the error index field of the {@code ParsePosition}
* instead of {@code DateTimeParseException}.
* The returned error index will be set to an index indicative of the error.
* Callers must check for errors before using the context.
*
* If the formatter parses the same field more than once with different values,
* the result will be an error.
*
* This method is intended for advanced use cases that need access to the
* internal state during parsing. Typical application code should use
* {@link #parse(CharSequence, TemporalQuery)} or the parse method on the target type.
*
* @param text the text to parse, not null
* @param position the position to parse from, updated with length parsed
* and the index of any error, not null
* @return the parsed text, null if the parse results in an error
* @throws DateTimeException if some problem occurs during parsing
* @throws IndexOutOfBoundsException if the position is invalid
*/
public TemporalAccessor parseUnresolved(CharSequence text, ParsePosition position) {
return parseUnresolved0(text, position);
}
private Parsed parseUnresolved0(CharSequence text, ParsePosition position) {
Jdk8Methods.requireNonNull(text, "text");
Jdk8Methods.requireNonNull(position, "position");
DateTimeParseContext context = new DateTimeParseContext(this);
int pos = position.getIndex();
pos = printerParser.parse(context, text, pos);
if (pos < 0) {
position.setErrorIndex(~pos); // index not updated from input
return null;
}
position.setIndex(pos); // errorIndex not updated from input
return context.toParsed();
}
//-----------------------------------------------------------------------
/**
* Returns the formatter as a composite printer parser.
*
* @param optional whether the printer/parser should be optional
* @return the printer/parser, not null
*/
CompositePrinterParser toPrinterParser(boolean optional) {
return printerParser.withOptional(optional);
}
/**
* Returns this formatter as a {@code java.text.Format} instance.
*
* The returned {@link Format} instance will print any {@link TemporalAccessor}
* and parses to a resolved {@link TemporalAccessor}.
*
* Exceptions will follow the definitions of {@code Format}, see those methods
* for details about {@code IllegalArgumentException} during formatting and
* {@code ParseException} or null during parsing.
* The format does not support attributing of the returned format string.
*
* @return this formatter as a classic format instance, not null
*/
public Format toFormat() {
return new ClassicFormat(this, null);
}
/**
* Returns this formatter as a {@code java.text.Format} instance that will
* parse to the specified type.
*
* The returned {@link Format} instance will print any {@link TemporalAccessor}
* and parses to the type specified.
* The type must be one that is supported by {@link #parse}.
*
* Exceptions will follow the definitions of {@code Format}, see those methods
* for details about {@code IllegalArgumentException} during formatting and
* {@code ParseException} or null during parsing.
* The format does not support attributing of the returned format string.
*
* @param query the query to parse to, not null
* @return this formatter as a classic format instance, not null
*/
public Format toFormat(TemporalQuery query) {
Jdk8Methods.requireNonNull(query, "query");
return new ClassicFormat(this, query);
}
//-----------------------------------------------------------------------
/**
* Returns a description of the underlying formatters.
*
* @return a description of this formatter, not null
*/
@Override
public String toString() {
String pattern = printerParser.toString();
return pattern.startsWith("[") ? pattern : pattern.substring(1, pattern.length() - 1);
}
//-----------------------------------------------------------------------
/**
* Implements the classic Java Format API.
* @serial exclude
*/
@SuppressWarnings("serial") // not actually serializable
static class ClassicFormat extends Format {
/** The formatter. */
private final DateTimeFormatter formatter;
/** The query to be parsed. */
private final TemporalQuery query;
/** Constructor. */
public ClassicFormat(DateTimeFormatter formatter, TemporalQuery query) {
this.formatter = formatter;
this.query = query;
}
@Override
public StringBuffer format(Object obj, StringBuffer toAppendTo, FieldPosition pos) {
Jdk8Methods.requireNonNull(obj, "obj");
Jdk8Methods.requireNonNull(toAppendTo, "toAppendTo");
Jdk8Methods.requireNonNull(pos, "pos");
if (obj instanceof TemporalAccessor == false) {
throw new IllegalArgumentException("Format target must implement TemporalAccessor");
}
pos.setBeginIndex(0);
pos.setEndIndex(0);
try {
formatter.formatTo((TemporalAccessor) obj, toAppendTo);
} catch (RuntimeException ex) {
throw new IllegalArgumentException(ex.getMessage(), ex);
}
return toAppendTo;
}
@Override
public Object parseObject(String text) throws ParseException {
Jdk8Methods.requireNonNull(text, "text");
try {
if (query == null) {
return formatter.parseToBuilder(text, null)
.resolve(formatter.getResolverStyle(), formatter.getResolverFields());
}
return formatter.parse(text, query);
} catch (DateTimeParseException ex) {
throw new ParseException(ex.getMessage(), ex.getErrorIndex());
} catch (RuntimeException ex) {
throw (ParseException) new ParseException(ex.getMessage(), 0).initCause(ex);
}
}
@Override
public Object parseObject(String text, ParsePosition pos) {
Jdk8Methods.requireNonNull(text, "text");
Parsed unresolved;
try {
unresolved = formatter.parseUnresolved0(text, pos);
} catch (IndexOutOfBoundsException ex) {
if (pos.getErrorIndex() < 0) {
pos.setErrorIndex(0);
}
return null;
}
if (unresolved == null) {
if (pos.getErrorIndex() < 0) {
pos.setErrorIndex(0);
}
return null;
}
try {
DateTimeBuilder builder = unresolved.toBuilder()
.resolve(formatter.getResolverStyle(), formatter.getResolverFields());
if (query == null) {
return builder;
}
return builder.build(query);
} catch (RuntimeException ex) {
pos.setErrorIndex(0);
return null;
}
}
}
}