/*
* Copyright (C) 2005 Alfresco, Inc.
*
* Licensed under the Mozilla Public License version 1.1
* with a permitted attribution clause. You may obtain a
* copy of the License at
*
* http://www.alfresco.org/legal/license.txt
*
* 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.alfresco.repo.dictionary.constraint;
import org.alfresco.service.cmr.dictionary.ConstraintException;
import org.alfresco.service.cmr.dictionary.DictionaryException;
import org.alfresco.service.cmr.repository.datatype.DefaultTypeConverter;
/**
* Constraint implementation that ensures that the value is a numeric value bewteen a given
* minimum and maximum value. If a minimum or maximum value are not provided, then the JAVA
* Double's {@link Double#MIN_VALUE minimum value} or {@link Double#MAX_VALUE maximum value}
* are assumed.
*
* @see #setMinValue(double)
* @see #setMaxValue(double)
* @see java.lang.Double#parseDouble(java.lang.String)
*
* @author Derek Hulley
*/
public class NumericRangeConstraint extends AbstractConstraint
{
private static final String ERR_INVALID_MIN_VALUE = "d_dictionary.constraint.numeric_range.invalid_min_value";
private static final String ERR_INVALID_MAX_VALUE = "d_dictionary.constraint.numeric_range.invalid_max_value";
private static final String ERR_NON_NUMERIC = "d_dictionary.constraint.numeric_range.non_numeric";
private static final String ERR_OUT_OF_RANGE = "d_dictionary.constraint.numeric_range.out_of_range";
private double minValue = Double.MIN_VALUE;
private double maxValue = Double.MAX_VALUE;
@Override
public String toString()
{
StringBuilder sb = new StringBuilder(80);
sb.append("NumericRangeConstraint")
.append("[ minValue=").append(minValue)
.append(", maxValue=").append(maxValue)
.append("]");
return sb.toString();
}
/**
* @return Returns the minimum value allowed by the constraint
*/
public double getMinValue()
{
return minValue;
}
/**
* Set the minimum value allowed, which can be any value between
* {@link Double#MIN_VALUE} and {@link Double#MAX_VALUE}.
*
* @param minValue the minimum value allowed by the constraint
*/
public void setMinValue(double minValue)
{
if (minValue > this.maxValue)
{
throw new DictionaryException(ERR_INVALID_MIN_VALUE, minValue);
}
this.minValue = minValue;
}
/**
* @return Returns the minimum value allowed by the constraint
*/
public double getMaxValue()
{
return maxValue;
}
/**
* Set the maximum value allowed, which can be any value between
* {@link Double#MIN_VALUE} and {@link Double#MAX_VALUE}.
*
* @param maxValue the minimum value allowed by the constraint
*/
public void setMaxValue(double maxValue)
{
if (maxValue < this.minValue)
{
throw new DictionaryException(ERR_INVALID_MAX_VALUE, minValue);
}
this.maxValue = maxValue;
}
public void initialize()
{
}
protected void evaluateSingleValue(Object value)
{
// ensure that the value can be converted to a double
double checkValue = Double.NaN;
try
{
checkValue = DefaultTypeConverter.INSTANCE.doubleValue(value);
}
catch (NumberFormatException e)
{
throw new ConstraintException(ERR_NON_NUMERIC, value);
}
// Infinity and NaN cannot match
if (Double.isInfinite(checkValue) || Double.isNaN(checkValue))
{
throw new ConstraintException(ERR_OUT_OF_RANGE, checkValue, minValue, maxValue);
}
// Check that the value is in range
if (checkValue > maxValue || checkValue < minValue)
{
throw new ConstraintException(ERR_OUT_OF_RANGE, checkValue, minValue, maxValue);
}
}
}