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/*
 *  Copyright 2001-2005 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.field;

import org.joda.time.DateTimeField;
import org.joda.time.DateTimeFieldType;
import org.joda.time.DurationField;

/**
 * Divides a DateTimeField such that the retrieved values are reduced by a
 * fixed divisor. The field's unit duration is scaled accordingly, but the
 * range duration is unchanged.
 * 

* DividedDateTimeField is thread-safe and immutable. * * @see RemainderDateTimeField * * @author Stephen Colebourne * @author Brian S O'Neill * @since 1.0 */ public class DividedDateTimeField extends DecoratedDateTimeField { private static final long serialVersionUID = 8318475124230605365L; // Shared with RemainderDateTimeField. final int iDivisor; final DurationField iDurationField; private final int iMin; private final int iMax; /** * Constructor. * * @param field the field to wrap, like "year()". * @param type the field type this field will actually use * @param divisor divisor, such as 100 years in a century * @throws IllegalArgumentException if divisor is less than two */ public DividedDateTimeField(DateTimeField field, DateTimeFieldType type, int divisor) { super(field, type); if (divisor < 2) { throw new IllegalArgumentException("The divisor must be at least 2"); } DurationField unitField = field.getDurationField(); if (unitField == null) { iDurationField = null; } else { iDurationField = new ScaledDurationField( unitField, type.getDurationType(), divisor); } iDivisor = divisor; int i = field.getMinimumValue(); int min = (i >= 0) ? i / divisor : ((i + 1) / divisor - 1); int j = field.getMaximumValue(); int max = (j >= 0) ? j / divisor : ((j + 1) / divisor - 1); iMin = min; iMax = max; } /** * Construct a DividedDateTimeField that compliments the given * RemainderDateTimeField. * * @param remainderField complimentary remainder field, like "yearOfCentury()". * @param type the field type this field will actually use */ public DividedDateTimeField(RemainderDateTimeField remainderField, DateTimeFieldType type) { super(remainderField.getWrappedField(), type); int divisor = iDivisor = remainderField.iDivisor; iDurationField = remainderField.iRangeField; DateTimeField field = getWrappedField(); int i = field.getMinimumValue(); int min = (i >= 0) ? i / divisor : ((i + 1) / divisor - 1); int j = field.getMaximumValue(); int max = (j >= 0) ? j / divisor : ((j + 1) / divisor - 1); iMin = min; iMax = max; } /** * Get the amount of scaled units from the specified time instant. * * @param instant the time instant in millis to query. * @return the amount of scaled units extracted from the input. */ public int get(long instant) { int value = getWrappedField().get(instant); if (value >= 0) { return value / iDivisor; } else { return ((value + 1) / iDivisor) - 1; } } /** * Add the specified amount of scaled units to the specified time * instant. The amount added may be negative. * * @param instant the time instant in millis to update. * @param amount the amount of scaled units to add (can be negative). * @return the updated time instant. */ public long add(long instant, int amount) { return getWrappedField().add(instant, amount * iDivisor); } /** * Add the specified amount of scaled units to the specified time * instant. The amount added may be negative. * * @param instant the time instant in millis to update. * @param amount the amount of scaled units to add (can be negative). * @return the updated time instant. */ public long add(long instant, long amount) { return getWrappedField().add(instant, amount * iDivisor); } /** * Add to the scaled component of the specified time instant, * wrapping around within that component if necessary. * * @param instant the time instant in millis to update. * @param amount the amount of scaled units to add (can be negative). * @return the updated time instant. */ public long addWrapField(long instant, int amount) { return set(instant, FieldUtils.getWrappedValue(get(instant), amount, iMin, iMax)); } public int getDifference(long minuendInstant, long subtrahendInstant) { return getWrappedField().getDifference(minuendInstant, subtrahendInstant) / iDivisor; } public long getDifferenceAsLong(long minuendInstant, long subtrahendInstant) { return getWrappedField().getDifferenceAsLong(minuendInstant, subtrahendInstant) / iDivisor; } /** * Set the specified amount of scaled units to the specified time instant. * * @param instant the time instant in millis to update. * @param value value of scaled units to set. * @return the updated time instant. * @throws IllegalArgumentException if value is too large or too small. */ public long set(long instant, int value) { FieldUtils.verifyValueBounds(this, value, iMin, iMax); int remainder = getRemainder(getWrappedField().get(instant)); return getWrappedField().set(instant, value * iDivisor + remainder); } /** * Returns a scaled version of the wrapped field's unit duration field. */ public DurationField getDurationField() { return iDurationField; } /** * Get the minimum value for the field. * * @return the minimum value */ public int getMinimumValue() { return iMin; } /** * Get the maximum value for the field. * * @return the maximum value */ public int getMaximumValue() { return iMax; } public long roundFloor(long instant) { DateTimeField field = getWrappedField(); return field.roundFloor(field.set(instant, get(instant) * iDivisor)); } public long remainder(long instant) { return set(instant, get(getWrappedField().remainder(instant))); } /** * Returns the divisor applied, in the field's units. * * @return the divisor */ public int getDivisor() { return iDivisor; } private int getRemainder(int value) { if (value >= 0) { return value % iDivisor; } else { return (iDivisor - 1) + ((value + 1) % iDivisor); } } }





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