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/*
 * Copyright (c) 1997, 2020 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Public License v. 2.0, which is available at
 * http://www.eclipse.org/legal/epl-2.0.
 *
 * This Source Code may also be made available under the following Secondary
 * Licenses when the conditions for such availability set forth in the
 * Eclipse Public License v. 2.0 are satisfied: GNU General Public License,
 * version 2 with the GNU Classpath Exception, which is available at
 * https://www.gnu.org/software/classpath/license.html.
 *
 * SPDX-License-Identifier: EPL-2.0 OR GPL-2.0 WITH Classpath-exception-2.0
 */

package jakarta.faces.validator;

import jakarta.faces.component.PartialStateHolder;
import jakarta.faces.component.UIComponent;
import jakarta.faces.context.FacesContext;
import jakarta.faces.convert.Converter;

/**
 * 

* DoubleRangeValidator is a {@link Validator} * that checks the value of the corresponding component against specified minimum and maximum values. The following * algorithm is implemented: *

* *
    *
  • If the passed value is null, exit immediately.
  • *
  • If the current component value is not a floating point type, or a String that is convertible to double, throw a * {@link ValidatorException} containing a TYPE_MESSAGE_ID message.
  • *
  • If both a maximum and minimum property has been configured on this {@link Validator}, * check the component value against both limits. If the component value is not within this specified range, throw a * {@link ValidatorException} containing a {@link #NOT_IN_RANGE_MESSAGE_ID} message.
  • *
  • If a maximum property has been configured on this {@link Validator}, check the component value * against this limit. If the component value is greater than the specified maximum, throw a {@link ValidatorException} * containing a MAXIMUM_MESSAGE_ID message.
  • *
  • If a minimum property has been configured on this {@link Validator}, check the component value * against this limit. If the component value is less than the specified minimum, throw a {@link ValidatorException} * containing a MINIMUM_MESSAGE_ID message.
  • *
* *

* For all of the above cases that cause a {@link ValidatorException} to be thrown, if there are parameters to the * message that match up with validator parameters, the values of these parameters must be converted using the * {@link Converter} registered in the application under the converter id jakarta.faces.Number. This allows * the values to be localized according to the current Locale. *

*/ public class DoubleRangeValidator implements Validator, PartialStateHolder { // ------------------------------------------------------ Manifest Constants /** *

* The standard converter id for this converter. *

*/ public static final String VALIDATOR_ID = "jakarta.faces.DoubleRange"; /** *

* The message identifier of the {@link jakarta.faces.application.FacesMessage} to be created if the maximum value check * fails. The message format string for this message may optionally include the following placeholders: *

    *
  • {0} replaced by the configured maximum value.
  • *
  • {1} replaced by a String whose value is the label of the input component that produced * this message.
  • *
*/ public static final String MAXIMUM_MESSAGE_ID = "jakarta.faces.validator.DoubleRangeValidator.MAXIMUM"; /** *

* The message identifier of the {@link jakarta.faces.application.FacesMessage} to be created if the minimum value check * fails. The message format string for this message may optionally include the following placeholders: *

    *
  • {0} replaced by the configured minimum value.
  • *
  • {1} replaced by a String whose value is the label of the input component that produced * this message.
  • *
*/ public static final String MINIMUM_MESSAGE_ID = "jakarta.faces.validator.DoubleRangeValidator.MINIMUM"; /** *

* The message identifier of the {@link jakarta.faces.application.FacesMessage} to be created if the maximum or minimum * value check fails, and both the maximum and minimum values for this validator have been set. The message format * string for this message may optionally include the following placeholders: *

    *
  • {0} replaced by the configured minimum value.
  • *
  • {1} replaced by the configured maximum value.
  • *
  • {2} replaced by a String whose value is the label of the input component that produced * this message.
  • *
*/ public static final String NOT_IN_RANGE_MESSAGE_ID = "jakarta.faces.validator.DoubleRangeValidator.NOT_IN_RANGE"; /** *

* The message identifier of the {@link jakarta.faces.application.FacesMessage} to be created if the current value of * this component is not of the correct type. The message format string for this message may optionally include a * {0} placeholder that will be replaced by a String whose value is the label of the input * component that produced this message. *

*/ public static final String TYPE_MESSAGE_ID = "jakarta.faces.validator.DoubleRangeValidator.TYPE"; // ------------------------------------------------------------ Constructors /** *

* Construct a {@link Validator} with no preconfigured limits. *

*/ public DoubleRangeValidator() { super(); } /** *

* Construct a {@link Validator} with the specified preconfigured limit. *

* * @param maximum Maximum value to allow */ public DoubleRangeValidator(double maximum) { super(); setMaximum(maximum); } /** *

* Construct a {@link Validator} with the specified preconfigured limits. *

* * @param maximum Maximum value to allow * @param minimum Minimum value to allow */ public DoubleRangeValidator(double maximum, double minimum) { super(); setMaximum(maximum); setMinimum(minimum); } // -------------------------------------------------------------- Properties private Double maximum; /** *

* Return the maximum value to be enforced by this {@link Validator} or Double.MAX_VALUE if it has not been * set. *

* * @return the maximum */ public double getMaximum() { return maximum != null ? maximum : Double.MAX_VALUE; } /** *

* Set the maximum value to be enforced by this {@link Validator}. *

* * @param maximum The new maximum value */ public void setMaximum(double maximum) { clearInitialState(); this.maximum = maximum; } private Double minimum; /** *

* Return the minimum value to be enforced by this {@link Validator}, or Double.MIN_VALUE if it has not * been set. *

* * @return the minimum value */ public double getMinimum() { return minimum != null ? minimum : Double.MIN_VALUE; } /** *

* Set the minimum value to be enforced by this {@link Validator}. *

* * @param minimum The new minimum value */ public void setMinimum(double minimum) { clearInitialState(); this.minimum = minimum; } // ------------------------------------------------------- Validator Methods /** * @throws NullPointerException {@inheritDoc} * @throws ValidatorException {@inheritDoc} */ @Override public void validate(FacesContext context, UIComponent component, Object value) throws ValidatorException { if (context == null || component == null) { throw new NullPointerException(); } if (value != null) { try { double converted = doubleValue(value); if (isMaximumSet() && converted > maximum) { if (isMinimumSet()) { throw new ValidatorException(MessageFactory.getMessage(context, NOT_IN_RANGE_MESSAGE_ID, stringValue(component, minimum, context), stringValue(component, maximum, context), MessageFactory.getLabel(context, component))); } else { throw new ValidatorException(MessageFactory.getMessage(context, MAXIMUM_MESSAGE_ID, stringValue(component, maximum, context), MessageFactory.getLabel(context, component))); } } if (isMinimumSet() && converted < minimum) { if (isMaximumSet()) { throw new ValidatorException(MessageFactory.getMessage(context, NOT_IN_RANGE_MESSAGE_ID, stringValue(component, minimum, context), stringValue(component, maximum, context), MessageFactory.getLabel(context, component))); } else { throw new ValidatorException(MessageFactory.getMessage(context, MINIMUM_MESSAGE_ID, stringValue(component, minimum, context), MessageFactory.getLabel(context, component))); } } } catch (NumberFormatException e) { throw new ValidatorException(MessageFactory.getMessage(context, TYPE_MESSAGE_ID, MessageFactory.getLabel(context, component)), e); } } } /** *

* Overrides the default equals method to take the minimum and maximum into account when comparing DoubleRangeValidator * instances. *

* * @param otherObj the object to compare against. * @return true if equal, false otherwise. */ @Override public boolean equals(Object otherObj) { if (!(otherObj instanceof DoubleRangeValidator)) { return false; } DoubleRangeValidator other = (DoubleRangeValidator) otherObj; return getMaximum() == other.getMaximum() && getMinimum() == other.getMinimum() && isMaximumSet() == other.isMaximumSet() && isMinimumSet() == other.isMinimumSet(); } /** *

* Overrides the default hash code method to take the minimum and maximum into account when generating the hash code. *

* * @return the hash code. */ @Override public int hashCode() { int hashCode = Double.valueOf(getMinimum()).hashCode() + Double.valueOf(getMaximum()).hashCode() + Boolean.valueOf(isMinimumSet()).hashCode() + Boolean.valueOf(isMaximumSet()).hashCode(); return hashCode; } // --------------------------------------------------------- Private Methods /** *

* Return the specified attribute value, converted to a double. *

* * @param attributeValue The attribute value to be converted * @throws NumberFormatException if conversion is not possible */ private static double doubleValue(Object attributeValue) throws NumberFormatException { if (attributeValue instanceof Number) { return ((Number) attributeValue).doubleValue(); } else { return Double.parseDouble(attributeValue.toString()); } } private static String stringValue(UIComponent component, Double toConvert, FacesContext context) { Converter converter = context.getApplication().createConverter("jakarta.faces.Number"); return converter.getAsString(context, component, toConvert); } private boolean isMaximumSet() { return maximum != null; } private boolean isMinimumSet() { return minimum != null; } // ----------------------------------------------------- StateHolder Methods @Override public Object saveState(FacesContext context) { if (context == null) { throw new NullPointerException(); } if (!initialStateMarked()) { Object values[] = new Object[2]; values[0] = maximum; values[1] = minimum; return values; } return null; } @Override public void restoreState(FacesContext context, Object state) { if (context == null) { throw new NullPointerException(); } if (state != null) { Object values[] = (Object[]) state; maximum = (Double) values[0]; minimum = (Double) values[1]; } } private boolean transientValue; @Override public boolean isTransient() { return transientValue; } @Override public void setTransient(boolean transientValue) { this.transientValue = transientValue; } private boolean initialState; @Override public void markInitialState() { initialState = true; } @Override public boolean initialStateMarked() { return initialState; } @Override public void clearInitialState() { initialState = false; } }




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