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This is the master POM file for Oracle's Implementation of the JSF 2.3 Specification.

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 * and Distribution License("CDDL") (collectively, the "License").  You
 * may not use this file except in compliance with the License.  You can
 * obtain a copy of the License at
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package javax.faces.component;


import java.lang.reflect.Array;
import java.util.Collection;
import java.util.Iterator;
import java.util.NoSuchElementException;
import javax.el.ValueExpression;
import javax.faces.application.FacesMessage;
import javax.faces.context.FacesContext;
import javax.faces.el.ValueBinding;
import javax.faces.convert.Converter;


/**
 * 

UISelectMany is a * {@link UIComponent} that represents the user's choice of a zero or * more items from among a discrete set of available options. The user * can modify the selected values. Optionally, the component can be * preconfigured with zero or more currently selected items, by storing * them as an array or * Collection in the value property of * the component.

* *

This component is generally rendered as a select box or a group of * checkboxes.

* *

By default, the rendererType property must be set to * "javax.faces.Listbox". This value can be changed by * calling the setRendererType() method.

* *

The {@link javax.faces.render.Renderer} for this component must * perform the following logic on getConvertedValue():

* *
    * *

    Obtain the {@link javax.faces.convert.Converter} using the following algorithm:

    * *
      * *

      If the component has an attached {@link javax.faces.convert.Converter}, use it.

      * *

      If not, look for a {@link ValueExpression} for value * (if any). The {@link ValueExpression} must point to something that * is:

      * *
      • An array of primitives (such as int[]). * Look up the registered by-class {@link javax.faces.convert.Converter} * for this primitive type.

      • *
      • An array of objects (such as Integer[] or * String[]). Look up the registered by-class {@link * javax.faces.convert.Converter} for the underlying element * type.

      • *
      • A java.util.Collection. * Do not convert the values.

      • *
      * *

      If for any reason a Converter cannot be found, assume * the type to be a String array.

      *
    *

    Use the selected {@link javax.faces.convert.Converter} (if any) to * convert each element in the values array from the request to the * proper type, and store the result of * each conversion in a data structure, called * targetForConvertedValues for discussion. Create * targetForConvertedValues using the following * algorithm.

    *
    *
      *
    • If the component has a ValueExpression for * value and the type of the expression is an array, let * targetForConvertedValues be a new array of the expected * type.

    • *
    • If the component has a ValueExpression for * value, let modelType be the type of the value * expression. If modelType is a Collection, do * the following to arrive at targetForConvertedValues:

      *
        *
      • Ask the component for its attribute under the key * "collectionType", without the quotes. If there is a * value for that key, the value must be a String that is a fully * qualified Java class name, or a Class object, or a * ValueExpression that evaluates to a String or a * Class. In all cases, the value serves to identify the * concrete type of the class that implements Collection. * For discussion, this is called collectionType. Let * targetForConvertedValues be a new instance of * Collection implemented by the concrete class specified * in collectionType. If, collectionType can not be * discovered, or an instance of Collection implemented by * the concrete class specified in collectionType cannot be * created, throw a {@link javax.faces.FacesException} with a correctly * localized error message. Note that FacesException is * thrown instead of ConverterException because this case * would only arise from developer error, rather than end-user * error.

      • *
      • If there is no "collectionType" attribute, call * getValue() on the component. The result will implement * Collection. If the result also implements * Cloneable, let targetForConvertedValues be the * result of calling its clone() method, then calling * clear() on the cloned Collection. If * unable to clone the value for any reason, log a message and proceed * to the next step.

      • *
      • If modelType is a concrete class, let * targetForConvertedValues be a new instance of that class. * Otherwise, the concrete type for targetForConvertedValues is * taken from the following table. All classes are in the * java.util package. All collections must be created with * an initial capacity equal to the length of the values array from the * request.

        * * * * * * * * * * * * * * * * * * * * * *
        If modelType is an instance ofthen targetForConvertedValues must be an instance * of
        SortedSetTreeSet
        QueueLinkedList
        SetHashSet
        anything elseArrayList
        *
      • *
      *
    • If the component does not have a ValueExpression * for value, let targetForConvertedValues be an * array of type Object.

      *
    *
    *

    Return targetForConvertedValues after populating it with * the converted values.

    *
* */ public class UISelectMany extends UIInput { // ------------------------------------------------------ Manifest Constants /** *

The standard component type for this component.

*/ public static final String COMPONENT_TYPE = "javax.faces.SelectMany"; /** *

The standard component family for this component.

*/ public static final String COMPONENT_FAMILY = "javax.faces.SelectMany"; /** *

The message identifier of the * {@link javax.faces.application.FacesMessage} to be created if * a value not matching the available options is specified. */ public static final String INVALID_MESSAGE_ID = "javax.faces.component.UISelectMany.INVALID"; // ------------------------------------------------------------ Constructors /** *

Create a new {@link UISelectMany} instance with default property * values.

*/ public UISelectMany() { super(); setRendererType("javax.faces.Listbox"); } // -------------------------------------------------------------- Properties public String getFamily() { return (COMPONENT_FAMILY); } /** *

Return the currently selected values, or null if there * are no currently selected values. This is a typesafe alias for * getValue().

*/ public Object[] getSelectedValues() { return ((Object[]) getValue()); } /** *

Set the currently selected values, or null to indicate * that there are no currently selected values. This is a typesafe * alias for setValue().

* * @param selectedValues The new selected values (if any) */ public void setSelectedValues(Object selectedValues[]) { setValue(selectedValues); } // ---------------------------------------------------------------- Bindings /** *

Return any {@link ValueBinding} set for value if * a {@link ValueBinding} for selectedValues is * requested; otherwise, perform the default superclass processing * for this method.

* *

This method relies on the superclass to provide the * ValueExpression to ValueBinding * wrapping.

* * @param name Name of the attribute or property for which to retrieve * a {@link ValueBinding} * * @throws NullPointerException if name * is null * * @deprecated this has been replaced by {@link #getValueExpression(java.lang.String)}. */ public ValueBinding getValueBinding(String name) { if ("selectedValues".equals(name)) { return (super.getValueBinding("value")); } else { return (super.getValueBinding(name)); } } /** *

Store any {@link ValueBinding} specified for * selectedValues under value instead; * otherwise, perform the default superclass processing for this * method.

* *

This method relies on the superclass to wrap the argument * ValueBinding in a ValueExpression.

* * @param name Name of the attribute or property for which to set * a {@link ValueBinding} * @param binding The {@link ValueBinding} to set, or null * to remove any currently set {@link ValueBinding} * * @throws NullPointerException if name * is null * * @deprecated This has been replaced by {@link #setValueExpression(java.lang.String, javax.el.ValueExpression)}. */ public void setValueBinding(String name, ValueBinding binding) { if ("selectedValues".equals(name)) { super.setValueBinding("value", binding); } else { super.setValueBinding(name, binding); } } /** *

Return any {@link ValueExpression} set for value if a * {@link ValueExpression} for selectedValues is requested; * otherwise, perform the default superclass processing for this method.

* * @param name Name of the attribute or property for which to retrieve * a {@link ValueExpression} * * @throws NullPointerException if name * is null * @since 1.2 */ public ValueExpression getValueExpression(String name) { if ("selectedValues".equals(name)) { return (super.getValueExpression("value")); } else { return (super.getValueExpression(name)); } } /** *

Store any {@link ValueExpression} specified for * selectedValues under value instead; * otherwise, perform the default superclass processing for this method.

* * @param name Name of the attribute or property for which to set * a {@link ValueExpression} * @param binding The {@link ValueExpression} to set, or null * to remove any currently set {@link ValueExpression} * * @throws NullPointerException if name * is null * @since 1.2 */ public void setValueExpression(String name, ValueExpression binding) { if ("selectedValues".equals(name)) { super.setValueExpression("value", binding); } else { super.setValueExpression(name, binding); } } // --------------------------------------------------------- UIInput Methods /** *

Return true if the new value is different from the * previous value. Value comparison must not be sensitive to element order. *

* * @param previous old value of this component * @param value new value of this component */ protected boolean compareValues(Object previous, Object value) { if ((previous == null) && (value != null)) { return (true); } else if ((previous != null) && (value == null)) { return (true); } else if ((previous == null)) { return (false); } boolean valueChanged = false; Object oldarray[]; Object newarray[]; // The arrays may be arrays of primitives; for simplicity, // perform the boxing here. if (!(previous instanceof Object[])) { previous = toObjectArray(previous); } if (!(value instanceof Object[])) { value = toObjectArray(value); } // If values are still not of the type Object[], it is perhaps a // mistake by the renderers, so return false, so that // ValueChangedEvent is not queued in this case. if (!(previous instanceof Object[]) || !(value instanceof Object[])) { return false; } oldarray = (Object[]) previous; newarray = (Object[])value; // If we got here then both the arrays cannot be null // if their lengths vary, return false. if ( oldarray.length != newarray.length) { return true; } // make sure every element in the previous array occurs the same // number of times in the current array. This should help us // to find out the values changed are not. Since we cannot assume // the browser will send the elements in the same order everytime, // it will not suffice to just compare the element position and position. int count1; int count2; for ( int i= 0; i < oldarray.length; ++i ) { count1 = countElementOccurrence(oldarray[i], oldarray); count2 = countElementOccurrence(oldarray[i], newarray); if ( count1 != count2 ) { valueChanged = true; break; } } return valueChanged; } /** *

Return the number of occurrances of a particular element in the * array.

* * @param element object whose occurrance is to be counted in the array. * @param array object representing the old value of this component. */ private static int countElementOccurrence(Object element, Object[] array) { int count = 0; for ( int i= 0; i < array.length; ++i ) { Object arrayElement = array[i]; if (arrayElement != null && element != null) { if (arrayElement.equals(element)) { count ++; } } } return count; } /** * Convert an array of primitives to an array of boxed objects. * @param primitiveArray object containing the primitive values * @return an Object array, or null if the incoming value is not * in fact an array at all. */ private static Object[] toObjectArray(Object primitiveArray) { if (primitiveArray == null) { throw new NullPointerException(); } if (primitiveArray instanceof Object[]) { return (Object[]) primitiveArray; } if (primitiveArray instanceof Collection) { return ((Collection) primitiveArray).toArray(); } Class clazz = primitiveArray.getClass(); if (!clazz.isArray()) { return null; } int length = Array.getLength(primitiveArray); Object[] array = new Object[length]; for (int i = 0; i < length; i++) { array[i] = Array.get(primitiveArray, i); } return array; } // ------------------------------------------------------ Validation Methods /** *

In addition to the standard * validation behavior inherited from {@link UIInput}, ensure that * any specified values are equal to one of the available options. * Before comparing each option, coerce the option value type to the * type of this component's value following the Expression Language * coercion rules. If the specified value is not equal to any of * the options, enqueue an error message and set the * valid property to false.

* *

This method must explicitly * support a value argument that is a single value or a value * argument that is a Collection or Array of * values.

*

If {@link #isRequired} returns * true, and the current value is equal to the value of * an inner {@link UISelectItem} whose {@link * UISelectItem#isNoSelectionOption} method returns * true, enqueue an error message and set the * valid property to false.

* @param context The {@link FacesContext} for the current request * * @param value The converted value to test for membership. * * @throws NullPointerException if context * is null */ protected void validateValue(FacesContext context, Object value) { super.validateValue(context, value); // Skip validation if it is not necessary if (!isValid() || (value == null)) { return; } boolean doAddMessage = false; // Ensure that the values match one of the available options // Don't arrays cast to "Object[]", as we may now be using an array // of primitives Converter converter = getConverter(); for (Iterator i = getValuesIterator(value); i.hasNext(); ) { Iterator items = new SelectItemsIterator(context, this); Object currentValue = i.next(); if (!SelectUtils.matchValue(context, this, currentValue, items, converter)) { doAddMessage = true; break; } } // Ensure that if the value is noSelection and a // value is required, a message is queued if (isRequired()) { for (Iterator i = getValuesIterator(value); i.hasNext();) { Iterator items = new SelectItemsIterator(context, this); Object currentValue = i.next(); if (SelectUtils.valueIsNoSelectionOption(context, this, currentValue, items, converter)) { doAddMessage = true; break; } } } if (doAddMessage) { // Enqueue an error message if an invalid value was specified FacesMessage message = MessageFactory.getMessage(context, INVALID_MESSAGE_ID, MessageFactory.getLabel(context, this)); context.addMessage(getClientId(context), message); setValid(false); } } // --------------------------------------------------------- Private Methods private Iterator getValuesIterator(Object value) { if (value instanceof Collection) { return ((Collection) value).iterator(); } else { return (new ArrayIterator(value)); } } // ---------------------------------------------------------- Nested Classes /** * Exposes an Array as an Iterator. */ private static final class ArrayIterator implements Iterator { private int length; private int idx = 0; private Object value; // -------------------------------------------------------- Constructors ArrayIterator(Object value) { this.value = value; length = Array.getLength(value); } // ------------------------------------------------------------ Iterator public boolean hasNext() { return (idx < length); } public Object next() { if (idx >= length) { throw new NoSuchElementException(); } else { return Array.get(value, idx++); } } public void remove() { throw new UnsupportedOperationException(); } } }




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