org.joda.time.Seconds Maven / Gradle / Ivy
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/*
* Copyright 2001-2010 Stephen Colebourne
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.joda.time;
import org.joda.convert.FromString;
import org.joda.convert.ToString;
import org.joda.time.base.BaseSingleFieldPeriod;
import org.joda.time.field.FieldUtils;
import org.joda.time.format.ISOPeriodFormat;
import org.joda.time.format.PeriodFormatter;
/**
* An immutable time period representing a number of seconds.
*
* Seconds
is an immutable period that can only store seconds.
* It does not store years, months or hours for example. As such it is a
* type-safe way of representing a number of seconds in an application.
*
* The number of seconds is set in the constructor, and may be queried using
* getSeconds()
. Basic mathematical operations are provided -
* plus()
, minus()
, multipliedBy()
and
* dividedBy()
.
*
* Seconds
is thread-safe and immutable.
*
* @author Stephen Colebourne
* @since 1.4
*/
public final class Seconds extends BaseSingleFieldPeriod {
/** Constant representing zero seconds. */
public static final Seconds ZERO = new Seconds(0);
/** Constant representing one second. */
public static final Seconds ONE = new Seconds(1);
/** Constant representing two seconds. */
public static final Seconds TWO = new Seconds(2);
/** Constant representing three seconds. */
public static final Seconds THREE = new Seconds(3);
/** Constant representing the maximum number of seconds that can be stored in this object. */
public static final Seconds MAX_VALUE = new Seconds(Integer.MAX_VALUE);
/** Constant representing the minimum number of seconds that can be stored in this object. */
public static final Seconds MIN_VALUE = new Seconds(Integer.MIN_VALUE);
/** The parser to use for this class. */
private static final PeriodFormatter PARSER = ISOPeriodFormat.standard().withParseType(PeriodType.seconds());
/** Serialization version. */
private static final long serialVersionUID = 87525275727380862L;
//-----------------------------------------------------------------------
/**
* Obtains an instance of Seconds
that may be cached.
* Seconds
is immutable, so instances can be cached and shared.
* This factory method provides access to shared instances.
*
* @param seconds the number of seconds to obtain an instance for
* @return the instance of Seconds
*/
public static Seconds seconds(int seconds) {
switch (seconds) {
case 0:
return ZERO;
case 1:
return ONE;
case 2:
return TWO;
case 3:
return THREE;
case Integer.MAX_VALUE:
return MAX_VALUE;
case Integer.MIN_VALUE:
return MIN_VALUE;
default:
return new Seconds(seconds);
}
}
//-----------------------------------------------------------------------
/**
* Creates a Seconds
representing the number of whole seconds
* between the two specified datetimes.
*
* @param start the start instant, must not be null
* @param end the end instant, must not be null
* @return the period in seconds
* @throws IllegalArgumentException if the instants are null or invalid
*/
public static Seconds secondsBetween(ReadableInstant start, ReadableInstant end) {
int amount = BaseSingleFieldPeriod.between(start, end, DurationFieldType.seconds());
return Seconds.seconds(amount);
}
/**
* Creates a Seconds
representing the number of whole seconds
* between the two specified partial datetimes.
*
* The two partials must contain the same fields, for example you can specify
* two LocalTime
objects.
*
* @param start the start partial date, must not be null
* @param end the end partial date, must not be null
* @return the period in seconds
* @throws IllegalArgumentException if the partials are null or invalid
*/
public static Seconds secondsBetween(ReadablePartial start, ReadablePartial end) {
if (start instanceof LocalTime && end instanceof LocalTime) {
Chronology chrono = DateTimeUtils.getChronology(start.getChronology());
int seconds = chrono.seconds().getDifference(
((LocalTime) end).getLocalMillis(), ((LocalTime) start).getLocalMillis());
return Seconds.seconds(seconds);
}
int amount = BaseSingleFieldPeriod.between(start, end, ZERO);
return Seconds.seconds(amount);
}
/**
* Creates a Seconds
representing the number of whole seconds
* in the specified interval.
*
* @param interval the interval to extract seconds from, null returns zero
* @return the period in seconds
* @throws IllegalArgumentException if the partials are null or invalid
*/
public static Seconds secondsIn(ReadableInterval interval) {
if (interval == null) {
return Seconds.ZERO;
}
int amount = BaseSingleFieldPeriod.between(interval.getStart(), interval.getEnd(), DurationFieldType.seconds());
return Seconds.seconds(amount);
}
/**
* Creates a new Seconds
representing the number of complete
* standard length seconds in the specified period.
*
* This factory method converts all fields from the period to hours using standardised
* durations for each field. Only those fields which have a precise duration in
* the ISO UTC chronology can be converted.
*
* - One week consists of 7 days.
*
- One day consists of 24 hours.
*
- One hour consists of 60 minutes.
*
- One minute consists of 60 seconds.
*
- One second consists of 1000 milliseconds.
*
* Months and Years are imprecise and periods containing these values cannot be converted.
*
* @param period the period to get the number of hours from, null returns zero
* @return the period in seconds
* @throws IllegalArgumentException if the period contains imprecise duration values
*/
public static Seconds standardSecondsIn(ReadablePeriod period) {
int amount = BaseSingleFieldPeriod.standardPeriodIn(period, DateTimeConstants.MILLIS_PER_SECOND);
return Seconds.seconds(amount);
}
/**
* Creates a new Seconds
by parsing a string in the ISO8601 format 'PTnS'.
*
* The parse will accept the full ISO syntax of PnYnMnWnDTnHnMnS however only the
* seconds component may be non-zero. If any other component is non-zero, an exception
* will be thrown.
*
* @param periodStr the period string, null returns zero
* @return the period in seconds
* @throws IllegalArgumentException if the string format is invalid
*/
@FromString
public static Seconds parseSeconds(String periodStr) {
if (periodStr == null) {
return Seconds.ZERO;
}
Period p = PARSER.parsePeriod(periodStr);
return Seconds.seconds(p.getSeconds());
}
//-----------------------------------------------------------------------
/**
* Creates a new instance representing a number of seconds.
* You should consider using the factory method {@link #seconds(int)}
* instead of the constructor.
*
* @param seconds the number of seconds to represent
*/
private Seconds(int seconds) {
super(seconds);
}
/**
* Resolves singletons.
*
* @return the singleton instance
*/
private Object readResolve() {
return Seconds.seconds(getValue());
}
//-----------------------------------------------------------------------
/**
* Gets the duration field type, which is seconds
.
*
* @return the period type
*/
public DurationFieldType getFieldType() {
return DurationFieldType.seconds();
}
/**
* Gets the period type, which is seconds
.
*
* @return the period type
*/
public PeriodType getPeriodType() {
return PeriodType.seconds();
}
//-----------------------------------------------------------------------
/**
* Converts this period in seconds to a period in weeks assuming a
* 7 day week, 24 hour day, 60 minute hour and 60 second minute.
*
* This method allows you to convert between different types of period.
* However to achieve this it makes the assumption that all weeks are 7 days
* long, all days are 24 hours long, all hours are 60 minutes long and
* all minutes are 60 seconds long.
* This is not true when daylight savings time is considered, and may also
* not be true for some unusual chronologies. However, it is included as it
* is a useful operation for many applications and business rules.
*
* @return a period representing the number of whole weeks for this number of seconds
*/
public Weeks toStandardWeeks() {
return Weeks.weeks(getValue() / DateTimeConstants.SECONDS_PER_WEEK);
}
/**
* Converts this period in seconds to a period in days assuming a
* 24 hour day, 60 minute hour and 60 second minute.
*
* This method allows you to convert between different types of period.
* However to achieve this it makes the assumption that all days are 24 hours
* long, all hours are 60 minutes long and all minutes are 60 seconds long.
* This is not true when daylight savings is considered and may also not
* be true for some unusual chronologies. However, it is included
* as it is a useful operation for many applications and business rules.
*
* @return a period representing the number of days for this number of seconds
*/
public Days toStandardDays() {
return Days.days(getValue() / DateTimeConstants.SECONDS_PER_DAY);
}
/**
* Converts this period in seconds to a period in hours assuming a
* 60 minute hour and 60 second minute.
*
* This method allows you to convert between different types of period.
* However to achieve this it makes the assumption that all hours are
* 60 minutes long and all minutes are 60 seconds long.
* This may not be true for some unusual chronologies. However, it is included
* as it is a useful operation for many applications and business rules.
*
* @return a period representing the number of hours for this number of seconds
*/
public Hours toStandardHours() {
return Hours.hours(getValue() / DateTimeConstants.SECONDS_PER_HOUR);
}
/**
* Converts this period in seconds to a period in minutes assuming a
* 60 second minute.
*
* This method allows you to convert between different types of period.
* However to achieve this it makes the assumption that all minutes are
* 60 seconds long.
* This may not be true for some unusual chronologies. However, it is included
* as it is a useful operation for many applications and business rules.
*
* @return a period representing the number of minutes for this number of seconds
*/
public Minutes toStandardMinutes() {
return Minutes.minutes(getValue() / DateTimeConstants.SECONDS_PER_MINUTE);
}
//-----------------------------------------------------------------------
/**
* Converts this period in seconds to a duration in milliseconds assuming a
* 24 hour day, 60 minute hour and 60 second minute.
*
* This method allows you to convert from a period to a duration.
* However to achieve this it makes the assumption that all seconds are 24 hours
* long, all hours are 60 minutes and all minutes are 60 seconds.
* This is not true when daylight savings time is considered, and may also
* not be true for some unusual chronologies. However, it is included as it
* is a useful operation for many applications and business rules.
*
* @return a duration equivalent to this number of seconds
*/
public Duration toStandardDuration() {
long seconds = getValue(); // assign to a long
return new Duration(seconds * DateTimeConstants.MILLIS_PER_SECOND);
}
//-----------------------------------------------------------------------
/**
* Gets the number of seconds that this period represents.
*
* @return the number of seconds in the period
*/
public int getSeconds() {
return getValue();
}
//-----------------------------------------------------------------------
/**
* Returns a new instance with the specified number of seconds added.
*
* This instance is immutable and unaffected by this method call.
*
* @param seconds the amount of seconds to add, may be negative
* @return the new period plus the specified number of seconds
* @throws ArithmeticException if the result overflows an int
*/
public Seconds plus(int seconds) {
if (seconds == 0) {
return this;
}
return Seconds.seconds(FieldUtils.safeAdd(getValue(), seconds));
}
/**
* Returns a new instance with the specified number of seconds added.
*
* This instance is immutable and unaffected by this method call.
*
* @param seconds the amount of seconds to add, may be negative, null means zero
* @return the new period plus the specified number of seconds
* @throws ArithmeticException if the result overflows an int
*/
public Seconds plus(Seconds seconds) {
if (seconds == null) {
return this;
}
return plus(seconds.getValue());
}
//-----------------------------------------------------------------------
/**
* Returns a new instance with the specified number of seconds taken away.
*
* This instance is immutable and unaffected by this method call.
*
* @param seconds the amount of seconds to take away, may be negative
* @return the new period minus the specified number of seconds
* @throws ArithmeticException if the result overflows an int
*/
public Seconds minus(int seconds) {
return plus(FieldUtils.safeNegate(seconds));
}
/**
* Returns a new instance with the specified number of seconds taken away.
*
* This instance is immutable and unaffected by this method call.
*
* @param seconds the amount of seconds to take away, may be negative, null means zero
* @return the new period minus the specified number of seconds
* @throws ArithmeticException if the result overflows an int
*/
public Seconds minus(Seconds seconds) {
if (seconds == null) {
return this;
}
return minus(seconds.getValue());
}
//-----------------------------------------------------------------------
/**
* Returns a new instance with the seconds multiplied by the specified scalar.
*
* This instance is immutable and unaffected by this method call.
*
* @param scalar the amount to multiply by, may be negative
* @return the new period multiplied by the specified scalar
* @throws ArithmeticException if the result overflows an int
*/
public Seconds multipliedBy(int scalar) {
return Seconds.seconds(FieldUtils.safeMultiply(getValue(), scalar));
}
/**
* Returns a new instance with the seconds divided by the specified divisor.
* The calculation uses integer division, thus 3 divided by 2 is 1.
*
* This instance is immutable and unaffected by this method call.
*
* @param divisor the amount to divide by, may be negative
* @return the new period divided by the specified divisor
* @throws ArithmeticException if the divisor is zero
*/
public Seconds dividedBy(int divisor) {
if (divisor == 1) {
return this;
}
return Seconds.seconds(getValue() / divisor);
}
//-----------------------------------------------------------------------
/**
* Returns a new instance with the seconds value negated.
*
* @return the new period with a negated value
* @throws ArithmeticException if the result overflows an int
*/
public Seconds negated() {
return Seconds.seconds(FieldUtils.safeNegate(getValue()));
}
//-----------------------------------------------------------------------
/**
* Is this seconds instance greater than the specified number of seconds.
*
* @param other the other period, null means zero
* @return true if this seconds instance is greater than the specified one
*/
public boolean isGreaterThan(Seconds other) {
if (other == null) {
return getValue() > 0;
}
return getValue() > other.getValue();
}
/**
* Is this seconds instance less than the specified number of seconds.
*
* @param other the other period, null means zero
* @return true if this seconds instance is less than the specified one
*/
public boolean isLessThan(Seconds other) {
if (other == null) {
return getValue() < 0;
}
return getValue() < other.getValue();
}
//-----------------------------------------------------------------------
/**
* Gets this instance as a String in the ISO8601 duration format.
*
* For example, "PT4S" represents 4 seconds.
*
* @return the value as an ISO8601 string
*/
@ToString
public String toString() {
return "PT" + String.valueOf(getValue()) + "S";
}
}