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/*
 *  Copyright 2001-2014 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 com.facebook.presto.jdbc.internal.joda.time.base;

import java.util.Date;

import org.joda.convert.ToString;
import com.facebook.presto.jdbc.internal.joda.time.Chronology;
import com.facebook.presto.jdbc.internal.joda.time.DateTime;
import com.facebook.presto.jdbc.internal.joda.time.DateTimeField;
import com.facebook.presto.jdbc.internal.joda.time.DateTimeFieldType;
import com.facebook.presto.jdbc.internal.joda.time.DateTimeUtils;
import com.facebook.presto.jdbc.internal.joda.time.DateTimeZone;
import com.facebook.presto.jdbc.internal.joda.time.Instant;
import com.facebook.presto.jdbc.internal.joda.time.MutableDateTime;
import com.facebook.presto.jdbc.internal.joda.time.ReadableInstant;
import com.facebook.presto.jdbc.internal.joda.time.chrono.ISOChronology;
import com.facebook.presto.jdbc.internal.joda.time.field.FieldUtils;
import com.facebook.presto.jdbc.internal.joda.time.format.DateTimeFormatter;
import com.facebook.presto.jdbc.internal.joda.time.format.ISODateTimeFormat;

/**
 * AbstractInstant provides the common behaviour for instant classes.
 * 

* This class has no concept of a chronology, all methods work on the * millisecond instant. *

* This class should generally not be used directly by API users. The * {@link ReadableInstant} interface should be used when different * kinds of date/time objects are to be referenced. *

* Whenever you want to implement ReadableInstant you should * extend this class. *

* AbstractInstant itself is thread-safe and immutable, but subclasses may be * mutable and not thread-safe. * * @author Stephen Colebourne * @author Brian S O'Neill * @since 1.0 */ public abstract class AbstractInstant implements ReadableInstant { /** * Constructor. */ protected AbstractInstant() { super(); } //----------------------------------------------------------------------- /** * Gets the time zone of the instant from the chronology. * * @return the DateTimeZone that the instant is using, never null */ public DateTimeZone getZone() { return getChronology().getZone(); } /** * Get the value of one of the fields of a datetime using the chronology of the instant. *

* This method uses the chronology of the instant to obtain the value. * For example: *

     * DateTime dt = new DateTime();
     * int year = dt.get(DateTimeFieldType.year());
     * 
* * @param type a field type, usually obtained from DateTimeFieldType, not null * @return the value of that field * @throws IllegalArgumentException if the field type is null */ public int get(DateTimeFieldType type) { if (type == null) { throw new IllegalArgumentException("The DateTimeFieldType must not be null"); } return type.getField(getChronology()).get(getMillis()); } /** * Checks if the field type specified is supported by this instant and chronology. * This can be used to avoid exceptions in {@link #get(DateTimeFieldType)}. * * @param type a field type, usually obtained from DateTimeFieldType * @return true if the field type is supported */ public boolean isSupported(DateTimeFieldType type) { if (type == null) { return false; } return type.getField(getChronology()).isSupported(); } /** * Get the value of one of the fields of a datetime. *

* This could be used to get a field using a different Chronology. * For example: *

     * Instant dt = new Instant();
     * int gjYear = dt.get(Chronology.getCoptic().year());
     * 
* * @param field the DateTimeField to use, not null * @return the value * @throws IllegalArgumentException if the field is null */ public int get(DateTimeField field) { if (field == null) { throw new IllegalArgumentException("The DateTimeField must not be null"); } return field.get(getMillis()); } //----------------------------------------------------------------------- /** * Get this object as an Instant. * * @return an Instant using the same millis */ public Instant toInstant() { return new Instant(getMillis()); } /** * Get this object as a DateTime in the same zone. * * @return a DateTime using the same millis */ public DateTime toDateTime() { return new DateTime(getMillis(), getZone()); } /** * Get this object as a DateTime using ISOChronology in the same zone. * * @return a DateTime using the same millis with ISOChronology */ public DateTime toDateTimeISO() { return new DateTime(getMillis(), ISOChronology.getInstance(getZone())); } /** * Get this object as a DateTime using the same chronology but a different zone. * * @param zone time zone to apply, or default if null * @return a DateTime using the same millis */ public DateTime toDateTime(DateTimeZone zone) { Chronology chrono = DateTimeUtils.getChronology(getChronology()); chrono = chrono.withZone(zone); return new DateTime(getMillis(), chrono); } /** * Get this object as a DateTime using the given chronology and its zone. * * @param chronology chronology to apply, or ISOChronology if null * @return a DateTime using the same millis */ public DateTime toDateTime(Chronology chronology) { return new DateTime(getMillis(), chronology); } // NOTE: Although the toMutableDateTime methods could check to see if this // is already a MutableDateTime and return this casted, it makes it too // easy to mistakenly modify ReadableDateTime input parameters. Always // returning a copy prevents this. /** * Get this object as a MutableDateTime in the same zone. * * @return a MutableDateTime using the same millis */ public MutableDateTime toMutableDateTime() { return new MutableDateTime(getMillis(), getZone()); } /** * Get this object as a MutableDateTime using ISOChronology in the same zone. * * @return a MutableDateTime using the same millis with ISOChronology */ public MutableDateTime toMutableDateTimeISO() { return new MutableDateTime(getMillis(), ISOChronology.getInstance(getZone())); } /** * Get this object as a MutableDateTime using the same chronology but a different zone. * * @param zone time zone to apply, or default if null * @return a MutableDateTime using the same millis */ public MutableDateTime toMutableDateTime(DateTimeZone zone) { Chronology chrono = DateTimeUtils.getChronology(getChronology()); chrono = chrono.withZone(zone); return new MutableDateTime(getMillis(), chrono); } /** * Get this object as a MutableDateTime using the given chronology and its zone. * * @param chronology chronology to apply, or ISOChronology if null * @return a MutableDateTime using the same millis */ public MutableDateTime toMutableDateTime(Chronology chronology) { return new MutableDateTime(getMillis(), chronology); } //----------------------------------------------------------------------- /** * Get the date time as a java.util.Date. *

* The Date object created has exactly the same millisecond * instant as this object. * * @return a Date initialised with this datetime */ public Date toDate() { return new Date(getMillis()); } //----------------------------------------------------------------------- /** * Compares this object with the specified object for equality based * on the millisecond instant, chronology and time zone. *

* Two objects which represent the same instant in time, but are in * different time zones (based on time zone id), will be considered to * be different. Only two objects with the same {@link DateTimeZone}, * {@link Chronology} and instant are equal. *

* See {@link #isEqual(ReadableInstant)} for an equals method that * ignores the Chronology and time zone. *

* All ReadableInstant instances are accepted. * * @param readableInstant a readable instant to check against * @return true if millisecond and chronology are equal, false if * not or the instant is null or of an incorrect type */ public boolean equals(Object readableInstant) { // must be to fulfil ReadableInstant contract if (this == readableInstant) { return true; } if (readableInstant instanceof ReadableInstant == false) { return false; } ReadableInstant otherInstant = (ReadableInstant) readableInstant; return getMillis() == otherInstant.getMillis() && FieldUtils.equals(getChronology(), otherInstant.getChronology()); } /** * Gets a hash code for the instant as defined in ReadableInstant. * * @return a suitable hash code */ public int hashCode() { // must be to fulfil ReadableInstant contract return ((int) (getMillis() ^ (getMillis() >>> 32))) + (getChronology().hashCode()); } /** * Compares this object with the specified object for ascending * millisecond instant order. This ordering is inconsistent with * equals, as it ignores the Chronology. *

* All ReadableInstant instances are accepted. * * @param other a readable instant to check against * @return negative value if this is less, 0 if equal, or positive value if greater * @throws NullPointerException if the object is null * @throws ClassCastException if the object type is not supported */ public int compareTo(ReadableInstant other) { if (this == other) { return 0; } long otherMillis = other.getMillis(); long thisMillis = getMillis(); // cannot do (thisMillis - otherMillis) as can overflow if (thisMillis == otherMillis) { return 0; } if (thisMillis < otherMillis) { return -1; } else { return 1; } } //----------------------------------------------------------------------- /** * Is this instant strictly after the millisecond instant passed in * comparing solely by millisecond. * * @param instant a millisecond instant to check against * @return true if this instant is strictly after the instant passed in */ public boolean isAfter(long instant) { return (getMillis() > instant); } /** * Is this instant strictly after the current instant * comparing solely by millisecond. * * @return true if this instant is strictly after the current instant */ public boolean isAfterNow() { return isAfter(DateTimeUtils.currentTimeMillis()); } /** * Is this instant strictly after the instant passed in * comparing solely by millisecond. * * @param instant an instant to check against, null means now * @return true if the instant is strictly after the instant passed in */ public boolean isAfter(ReadableInstant instant) { long instantMillis = DateTimeUtils.getInstantMillis(instant); return isAfter(instantMillis); } //----------------------------------------------------------------------- /** * Is this instant strictly before the millisecond instant passed in * comparing solely by millisecond. * * @param instant a millisecond instant to check against * @return true if this instant is strictly before the instant passed in */ public boolean isBefore(long instant) { return (getMillis() < instant); } /** * Is this instant strictly before the current instant * comparing solely by millisecond. * * @return true if this instant is strictly before the current instant */ public boolean isBeforeNow() { return isBefore(DateTimeUtils.currentTimeMillis()); } /** * Is this instant strictly before the instant passed in * comparing solely by millisecond. * * @param instant an instant to check against, null means now * @return true if the instant is strictly before the instant passed in */ public boolean isBefore(ReadableInstant instant) { long instantMillis = DateTimeUtils.getInstantMillis(instant); return isBefore(instantMillis); } //----------------------------------------------------------------------- /** * Is this instant equal to the millisecond instant passed in * comparing solely by millisecond. * * @param instant a millisecond instant to check against * @return true if this instant is equal to the instant passed in */ public boolean isEqual(long instant) { return (getMillis() == instant); } /** * Is this instant equal to the current instant * comparing solely by millisecond. * * @return true if this instant is equal to the current instant */ public boolean isEqualNow() { return isEqual(DateTimeUtils.currentTimeMillis()); } /** * Is this instant equal to the instant passed in * comparing solely by millisecond. * * @param instant an instant to check against, null means now * @return true if the instant is equal to the instant passed in */ public boolean isEqual(ReadableInstant instant) { long instantMillis = DateTimeUtils.getInstantMillis(instant); return isEqual(instantMillis); } //----------------------------------------------------------------------- /** * Output the date time in ISO8601 format (yyyy-MM-ddTHH:mm:ss.SSSZZ). * * @return ISO8601 time formatted string, not null */ @ToString public String toString() { return ISODateTimeFormat.dateTime().print(this); } //----------------------------------------------------------------------- /** * Uses the specified formatter to convert this partial to a String. * * @param formatter the formatter to use, null means use toString(). * @return the formatted string, not null * @since 1.1 */ public String toString(DateTimeFormatter formatter) { if (formatter == null) { return toString(); } return formatter.print(this); } }





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