com.sun.star.lib.uno.helper.PropertySet Maven / Gradle / Ivy
Show all versions of libreoffice Show documentation
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you 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 .
*/
package com.sun.star.lib.uno.helper;
import com.sun.star.uno.Type;
import com.sun.star.lang.EventObject;
import com.sun.star.lang.WrappedTargetException;
import com.sun.star.uno.TypeClass;
import com.sun.star.uno.AnyConverter;
import com.sun.star.uno.XInterface;
import com.sun.star.uno.Any;
import com.sun.star.uno.UnoRuntime;
import com.sun.star.beans.XPropertyChangeListener;
import com.sun.star.beans.XVetoableChangeListener;
import com.sun.star.beans.PropertyChangeEvent;
import com.sun.star.beans.XPropertySet;
import com.sun.star.beans.Property;
import com.sun.star.beans.PropertyAttribute;
import com.sun.star.beans.UnknownPropertyException;
import com.sun.star.beans.XPropertiesChangeListener;
import com.sun.star.beans.XPropertySetInfo;
import com.sun.star.beans.XFastPropertySet;
import com.sun.star.beans.PropertyVetoException;
import com.sun.star.beans.XMultiPropertySet;
import java.util.Iterator;
import java.util.Collection;
import java.util.HashMap;
import java.lang.reflect.Field;
import com.sun.star.lang.DisposedException;
/** This class is an implementation of the interfaces com.sun.star.beans.XPropertySet,
* com.sun.star.beans.XFastPropertySet and com.sun.star.beans.XMultiPropertySet. This
* class has to be inherited to be used. The values of properties are stored in member
* variables of the inheriting class. By overriding the methods
* {@link #convertPropertyValue convertPropertyValue},
* {@link #setPropertyValueNoBroadcast setPropertyValueNoBroadcast} and
* {@link #getPropertyValue(Property)} one can determine how
* property values are stored.
* When using the supplied implementations of this class then the member variables which
* hold property values have to be declared in the class which inherits last in the inheriting
* chain and they have to be public
* Properties have to be registered by one of the registerProperty methods. They take among other
* arguments an Object named id which has to be a String that represents the name of
* the member variable. The registering has to occur in the constructor of the inheriting class.
* It is no allowed to add or change properties later on.
* Example:
*
* public class Foo extends PropertySet
* {
* protected int intProp;
*
* public Foo()
* {
* registerProperty("PropertyA", 0, new Type(int.class), (short)0, "intProp");
* }
* }
*
*
*/
public class PropertySet extends ComponentBase implements XPropertySet, XFastPropertySet,
XMultiPropertySet
{
private HashMap _nameToPropertyMap;
private HashMap _handleToPropertyMap;
private HashMap _propertyToIdMap;
private Property[] arProperties;
private int lastHandle= 1;
protected XPropertySetInfo propertySetInfo;
protected MultiTypeInterfaceContainer aBoundLC= new MultiTypeInterfaceContainer();
protected MultiTypeInterfaceContainer aVetoableLC= new MultiTypeInterfaceContainer();
public PropertySet()
{
super();
initMappings();
}
/** Registers a property with this helper class and associates the argument id with it.
* id is used to identify the storage of the property value. How property values are stored
* and retrieved is determined by the methods {@link #convertPropertyValue convertPropertyValue},
* {@link #setPropertyValueNoBroadcast setPropertyValueNoBroadcast} and {@link #getPropertyValue(Property) getPropertyValue}
* These methods expect id to be a String which represents the name of a member variable
* which holds the property value.
* Only properties which are registered can be accessed. Registration has to occur during
* initialization of the inheriting class (i.e. within the constructor).
* @param prop The property to be registered.
* @param id Identifies the properties storage.
* @see #getPropertyId
*/
protected void registerProperty(Property prop, Object id)
{
putProperty(prop);
assignPropertyId(prop, id);
}
/** Registers a property with this helper class and associates the argument id with it.
* It does the same as {@link #registerProperty(Property, Object)}. The first four
* arguments are used to construct a Property object.
* Registration has to occur during
* initialization of the inheriting class (i.e. within the constructor)
* @param name The property's name (Property.Name).
* @param handle The property's handle (Property.Handle).
* @param type The property's type (Property.Type).
* @param attributes The property's attributes (Property.Attributes).
* @param id Identifies the property's storage.
*/
protected void registerProperty(String name, int handle, Type type, short attributes, Object id)
{
Property p= new Property(name, handle, type, attributes);
registerProperty(p, id);
}
/** Registers a property with this class and associates the argument id with it.
* It does the same as {@link #registerProperty(Property, Object)}. The first three
* arguments are used to construct a Property object. The value for the Property.Handle
* is generated and does not have to be specified here. Use this method for registering
* a property if you do not care about the Property's handles.
* Registration has to occur during
* initialization of the inheriting class (i.e. within the constructor).
* @param name The property's name (Property.Name).
* @param type The property's type (Property.Type).
* @param attributes The property's attributes (Property.Attributes).
* @param id Identifies the property's storage.
*/
protected void registerProperty(String name, Type type, short attributes, Object id)
{
Property p= new Property(name, lastHandle++, type, attributes);
registerProperty(p, id);
}
/** Registers a property with this class. This method expects that property values
* are stored in member variables as is the case if the methods convertPropertyValue,
* setPropertyValueNoBroadcast and getPropertyValue(Property) are not overridden.
* It is presumed that the type of the member variable
* corresponds Property.Type. For example, if the TypeClass of Property.Type is to be
* a TypeClass.SHORT then the member must be a short or java.lang.Short.
* The handle for the property is generated.
* If there is no member with the specified name or if the member has an incompatible type
* then a com.sun.star.uno.RuntimeException is thrown.
* @param propertyName The name of the property.
* @param memberName The name of the member variable that holds the value of the property.
* @param attributes The property attributes.
*/
protected void registerProperty(String propertyName, String memberName, short attributes)
{
Field propField= null;
try
{
propField= getClass().getDeclaredField(memberName);
}
catch (NoSuchFieldException e)
{
throw new com.sun.star.uno.RuntimeException(e, "there is no member variable: " + memberName);
}
Class cl= propField.getType();
Type t= new Type(cl);
if (t.getTypeClass() != TypeClass.UNKNOWN)
{
Property p= new Property(propertyName, lastHandle++, t, attributes);
registerProperty(p,memberName);
}
else
throw new com.sun.star.uno.RuntimeException("the member has an unknown type: " + memberName);
}
/** Registers a property with this class.
* It is presumed that the name of property is equal to the name of the member variable
* that holds the property value.
* @param propertyName The name of the property and the member variable that holds the property's value.
* @param attributes The property attributes.
* @see #registerProperty(String, String, short)
*/
protected void registerProperty(String propertyName, short attributes)
{
registerProperty(propertyName, propertyName, attributes);
}
/** Returns the Property object for a given property name or null if that property does
* not exists (i.e. it has not been registered). Override this method
* if you want to implement your own mapping from property names to Property objects.
* Then you also have to override {@link #initMappings}, {@link #getProperties()} and
* {@link #putProperty(Property)}.
* @param propertyName The name of the property (Property.Name)
* @return The Property object with the name propertyName.
*/
protected Property getProperty(String propertyName)
{
return _nameToPropertyMap.get(propertyName);
}
/** Returns the Property object with a handle (Property.Handle) as specified by the argument
* nHandle. The method returns null if there is no such property (i.e. it has not
* been registered). Override this method if you want to implement your own mapping from handles
* to Property objects. Then you also have to override {@link #initMappings}, {@link #putProperty(Property)}.
* @param nHandle The handle of the property (Property.Handle).
* @return The Property object with the handle nHandle
*/
protected Property getPropertyByHandle(int nHandle)
{
return _handleToPropertyMap.get(Integer.valueOf(nHandle));
}
/** Returns an array of all Property objects or an array of length null if there
* are no properties. Override this method if you want to implement your own mapping from names
* to Property objects. Then you also have to override {@link #initMappings}, {@link #getProperty(String)} and
* {@link #putProperty}.
* @return Array of all Property objects.
*/
protected Property[] getProperties()
{
if (arProperties == null)
{
Collection values= _nameToPropertyMap.values();
arProperties= values.toArray(new Property[_nameToPropertyMap.size()]);
}
return arProperties;
}
/** Stores a Property object so that it can be retrieved subsequently by
* {@link #getProperty(String)},{@link #getProperties()},{@link #getPropertyByHandle(int)}.
* Override this method if you want to implement your own mapping from handles
* to Property objects and names to Property objects. Then you also need to override {@link #initMappings},
* {@link #getProperty(String)},{@link #getProperties()},{@link #getPropertyByHandle(int)}.
* @param prop The Property object that is to be stored.
*/
protected void putProperty(Property prop)
{
_nameToPropertyMap.put(prop.Name, prop);
if (prop.Handle != -1)
_handleToPropertyMap.put(Integer.valueOf(prop.Handle), prop);
}
/** Assigns an identifier object to a Property object so that the identifier
* can be obtained by {@link #getPropertyId getPropertyId} later on. The identifier
* is used to specify a certain storage for the property's value. If you do not
* override {@link #setPropertyValueNoBroadcast setPropertyValueNoBroadcast} or {@link #getPropertyValue(Property)}
* then the argument id has to be a String that equals the name of
* the member variable that holds the Property's value.
* Override this method if you want to implement your own mapping from Property objects to ids or
* if you need ids of a type other than String.
* Then you also need to override {@link #initMappings initMappings} and {@link #getPropertyId getPropertyId}.
* @param prop The Property object that is being assigned an id.
* @param id The object which identifies the storage used for the property's value.
* @see #registerProperty(Property, Object)
*/
protected void assignPropertyId(Property prop, Object id)
{
if (id instanceof String && ((String) id).length() != 0)
_propertyToIdMap.put(prop, id);
}
/** Returns the identifier object for a certain Property. The object must have been
* previously assigned to the Property object by {@link #assignPropertyId assignPropertyId}.
* Override this method if you want to implement your own mapping from Property objects to ids.
* Then you also need to override {@link #initMappings initMappings} and {@link #assignPropertyId assignPropertyId}.
* @param prop The property for which the id is to be retrieved.
* @return The id object that identifies the storage used for the property's value.
* @see #registerProperty(Property, Object)
*/
protected Object getPropertyId(Property prop)
{
return _propertyToIdMap.get(prop);
}
/** Initializes data structures used for mappings of property names to property object,
* property handles to property objects and property objects to id objects.
* Override this method if you want to implement your own mappings. Then you also need to
* override {@link #putProperty putProperty},{@link #getProperty getProperty}, {@link #getPropertyByHandle},
* {@link #assignPropertyId assignPropertyId} and {@link #getPropertyId getPropertyId}.
*/
protected void initMappings()
{
_nameToPropertyMap= new HashMap();
_handleToPropertyMap= new HashMap();
_propertyToIdMap= new HashMap();
}
/** Makes sure that listeners which are kept in aBoundLC (XPropertyChangeListener) and aVetoableLC
* (XVetoableChangeListener) receive a disposing call. Also those listeners are released.
*/
@Override
protected void postDisposing()
{
// Create an event with this as sender
EventObject aEvt= new EventObject(this);
// inform all listeners to release this object
aBoundLC.disposeAndClear(aEvt);
aVetoableLC.disposeAndClear(aEvt);
}
//XPropertySet ----------------------------------------------------
synchronized public void addPropertyChangeListener(String str, XPropertyChangeListener xPropertyChangeListener)
throws UnknownPropertyException, WrappedTargetException
{
// only add listeners if you are not disposed
if (! bInDispose && ! bDisposed)
{
if (str.length() > 0)
{
Property prop= getProperty(str);
if (prop == null)
throw new UnknownPropertyException("Property " + str + " is unknown");
// Add listener for a certain property
if ((prop.Attributes & PropertyAttribute.BOUND) > 0)
aBoundLC.addInterface(str, xPropertyChangeListener);
else
//ignore silently
return;
}
else
// Add listener for all properties
listenerContainer.addInterface(XPropertyChangeListener.class, xPropertyChangeListener);
}
}
//XPropertySet ----------------------------------------------------
synchronized public void addVetoableChangeListener(String str, com.sun.star.beans.XVetoableChangeListener xVetoableChangeListener) throws com.sun.star.beans.UnknownPropertyException, com.sun.star.lang.WrappedTargetException
{
// only add listeners if you are not disposed
if (! bInDispose && ! bDisposed)
{
if (str.length() > 0)
{
Property prop= getProperty(str);
if (prop == null)
throw new UnknownPropertyException("Property " + str + " is unknown");
// Add listener for a certain property
if ((prop.Attributes & PropertyAttribute.CONSTRAINED) > 0)
aVetoableLC.addInterface(str, xVetoableChangeListener);
else
//ignore silently
return;
}
else
// Add listener for all properties
listenerContainer.addInterface(XVetoableChangeListener.class, xVetoableChangeListener);
}
}
//XPropertySet ----------------------------------------------------
public synchronized com.sun.star.beans.XPropertySetInfo getPropertySetInfo()
{
if (propertySetInfo == null)
propertySetInfo= new PropertySetInfo();
return propertySetInfo;
}
//XPropertySet ----------------------------------------------------
public Object getPropertyValue(String name) throws UnknownPropertyException, WrappedTargetException
{
Object ret= null;
if (bInDispose || bDisposed)
throw new com.sun.star.lang.DisposedException("The component has been disposed already");
Property prop= getProperty(name);
if (prop == null)
throw new UnknownPropertyException("The property " + name + " is unknown");
synchronized (this)
{
ret= getPropertyValue(prop);
}
// null must not be returned. Either a void any is returned or an any containing
// an interface type and a null reference.
if (ret == null)
{
if (prop.Type.getTypeClass() == TypeClass.INTERFACE)
ret= new Any(prop.Type, null);
else
ret= new Any(new Type(void.class), null);
}
return ret;
}
//XPropertySet ----------------------------------------------------
synchronized public void removePropertyChangeListener(String propName, XPropertyChangeListener listener) throws UnknownPropertyException, WrappedTargetException
{ // all listeners are automatically released in a dispose call
if (!bInDispose && !bDisposed)
{
if (propName.length() > 0)
{
Property prop = getProperty(propName);
if (prop == null)
throw new UnknownPropertyException("Property " + propName + " is unknown");
aBoundLC.removeInterface(propName, listener);
}
else
listenerContainer.removeInterface(XPropertyChangeListener.class, listener);
}
}
//XPropertySet ----------------------------------------------------
synchronized public void removeVetoableChangeListener(String propName, XVetoableChangeListener listener) throws UnknownPropertyException, WrappedTargetException
{// all listeners are automatically released in a dispose call
if (!bInDispose && !bDisposed)
{
if (propName.length() > 0)
{
Property prop = getProperty(propName);
if (prop == null)
throw new UnknownPropertyException("Property " + propName + " is unknown");
aVetoableLC.removeInterface(propName, listener);
}
else
listenerContainer.removeInterface(XVetoableChangeListener.class, listener);
}
}
//XPropertySet ----------------------------------------------------
/** Sets the value of a property.
* The idl description for this interfaces, stipulates that the argument value is an Any. Since a java.lang.Object
* reference has the same meaning as an Any this function accepts
* java anys (com.sun.star.uno.Any) and all other appropriate objects as arguments. The value argument can be one
* of these:
*
* - java.lang.Boolean
* - java.lang.Character
* - java.lang.Byte
* - java.lang.Short
* - java.lang.Integer
* - java.lang.Long
* - java.lang.Float
* - java.lang.Double
* - String
* - com.sun.star.uno.Type
* - objects which implement UNO interfaces
* - arrays which contain elements of the types above
* - com.sun.star.uno.Any containing an instance of one of the above types
*
*
* Properties can have the attribute com.sun.star.beans.PropertyAttribute.MAYBEVOID, which means that the value
* (not the type) can be void. In order to assign a void value to a property one can either pass an Any which
* contains a null reference or pass null directly. In both cases the null reference is only accepted if
* the PropertyAttribute.MAYBEVOID attribute is set for the property.
*
* Properties which have the attribute MAYBEVOID set (Property.Attributes) can have a void value. The following
* considerations presume that the Property has that attribute set. Further, when mentioning an Any's value we
* actually refer to the object returned by Any.getObject.
* If the argument value is null, or it is an Any whose value is null (but with a valid Type)
* then the member variable used for storing the property's value is set to null.
* Therefore those properties can only be stored in objects
* and primitive types are not allowed (one can use the wrapper classes instead,e.g. java.lang.Byte) .
* If a property's value is kept in a member variable of type Any and that reference is still null
* then when setPropertyValue is called with
* value = null then the member variable is assigned an Any with type void and a null value.
* Or if the argument is an Any with a null value then it is assigned to the member variable.
* Further, if the variable already
* references an Any and setPropertyValue is called with value = null, then the variable is assigned
* a new Any with the same type as the previously referenced Any and with a null value.
* @param name The name of the property.
* @param value The new value of the property.
* * */
public void setPropertyValue(String name, Object value) throws UnknownPropertyException,
PropertyVetoException, com.sun.star.lang.IllegalArgumentException, WrappedTargetException
{
Property prop= getProperty(name);
if (prop == null)
throw new UnknownPropertyException("Property " + name + " is unknown");
setPropertyValue(prop, value);
}
/** Sets the value of a property. It checks if the property's attributes (READONLY,MAYBEVOID), allow that the
* new value can be set. It also causes the notification of listeners.
* @param prop The property whose value is to be set.
* @param value The new value for the property.
*
* @throws UnknownPropertyException
* See com.sun.star.beans.XPropertySet
* @throws PropertyVetoException
* See com.sun.star.beans.XPropertySet
* @throws WrappedTargetException
* See com.sun.star.beans.XPropertySet
*/
protected void setPropertyValue(Property prop, Object value) throws UnknownPropertyException,
PropertyVetoException, com.sun.star.lang.IllegalArgumentException, WrappedTargetException
{
if ((prop.Attributes & PropertyAttribute.READONLY) == PropertyAttribute.READONLY)
throw new com.sun.star.beans.PropertyVetoException();
// The value may be null only if MAYBEVOID attribute is set
boolean bVoidValue;
if (value instanceof Any)
bVoidValue= ((Any) value).getObject() == null;
else
bVoidValue= value == null;
if (bVoidValue && (prop.Attributes & PropertyAttribute.MAYBEVOID) == 0)
throw new com.sun.star.lang.IllegalArgumentException("The property must have a value; the MAYBEVOID attribute is not set!");
if (bInDispose || bDisposed)
throw new DisposedException("Component is already disposed");
//Check if the argument is allowed
boolean bValueOk;
if (value instanceof Any)
bValueOk= checkType(((Any) value).getObject());
else
bValueOk= checkType(value);
if (! bValueOk)
throw new com.sun.star.lang.IllegalArgumentException("No valid UNO type");
boolean bConversionOk= false;
Object[] outConvertedVal= new Object[1];
Object[] outOldValue= new Object[1];
synchronized (this)
{
bConversionOk= convertPropertyValue(prop, outConvertedVal, outOldValue, value);
}
//The next step following the conversion is to set the new value of the property. Prior to this
// the XVetoableChangeListener s have to be notified.
if (bConversionOk)
{
// If the property is CONSTRAINED, then we must notify XVetoableChangeListener. The listener can throw a com.sun.star.lang.beans.PropertyVetoException which
// will cause this method to return (the exception is not caught here).
fire( new Property[]{prop}, outConvertedVal, outOldValue, true);
synchronized (this)
{
setPropertyValueNoBroadcast(prop, outConvertedVal[0]);
}
// fire a change event (XPropertyChangeListener, PropertyAttribute.BOUND
fire( new Property[]{prop}, outConvertedVal, outOldValue, false);
}
}
/** Converts a value in a way so that it is appropriate for storing as a property value, that is
* {@link #setPropertyValueNoBroadcast setPropertyValueNoBroadcast} can process the value without any further
* conversion. This implementation presumes that
* the values are stored in member variables of the furthest inheriting class. For example,
* class A inherits this class then members of class A
* can hold property values. If there is a class B which inherits A then only members of B can hold
* property values. The variables must be public. A property must have been registered (e.g. by
* {@link #registerProperty(Property, Object)} in order for this method to work. The identifier argument (type Object)
* used in the registerProperty methods must
* be a String, which is, the name of the member variable that holds the property value.
* If one opts to store values differently then one may override
* this method, as well as {@link #setPropertyValueNoBroadcast setPropertyValueNoBroadcast} and
* {@link #getPropertyValue(Property) getPropertyValue(Property)}.
* This method is always called as a result of a call to one of the setter methods, such as
* {@link #setPropertyValue(String,Object) XPropertySet.setPropertyValue},
* {@link #setFastPropertyValue XFastPropertySet.setFastPropertyValue}
* and {@link #setPropertyValues XMultiPropertySet.setPropertyValues}.
* If this method fails, that is, it returns false or throws an exception, then no listeners are notified and the
* property value, that was intended to be changed, remains untouched.
*
* This method does not have to deal with property attributes, such as
* PropertyAttribute.READONLY or PropertyAttribute.MAYBEVOID. The processing of these attributes occurs
* in the calling methods.
*
* Only if this method returns successfully further processing, such
* as listener notification and finally the modification of the property's value, will occur.
*
* The actual modification of a property's value is done by {@link #setPropertyValueNoBroadcast setPropertyValueNoBroadcast}
* which is called subsequent to convertPropertyValue.
*
* This method converts values by help of the com.sun.star.uno.AnyConverter which only does a few widening
* conversions on integer types and floating point types. For example, there is the property PropA with a Type equivalent
* to int.class and the
* value of the property is to be stored in a member variable of type int with name intProp. Then setPropertyValue is
* called:
*
* set.setPropertyValue( "PropA", Byte.valueOf( (byte)111));
*
* At some point setPropertyValue will call convertPropertyValue and pass in the Byte object. Since we allow
* that Byte values can be used with the property and know that the value is to be stored in intProp (type int)
* we convert the Byte object into an Integer object which is then returned in the out-parameter newVal. This
* conversion is actually performed by the AnyConverter. Later
* the setPropertyValueNoBroadcast is called with that Integer object and the int value can be easily extracted
* from the object and be assigned to the member intProp.
*
* The method handles Any arguments the same as Object arguments. That is, the setVal argument can
* be a java.lang.Boolean or a com.sun.star.uno.Any containing a java.lang.Boolean. Likewise, a member
* containing a property value can be a com.sun.star.uno.Any or a java.lang.Object.
* Then, no conversion is necessary, since they can hold all possible values. However, if
* the member is an Object and setVal is an Any then the object contained in the any is assigned to
* the member. The extra type information which exists as Type object in the Any will get lost. If this is not
* intended then use an Any variable rather than an Object.
*
* If a member is an Object or Any and the argument setVal is an Object, other than String or array,
* then it is presumed to be a UNO object and queried for XInterface. If successful, the out-param newVal
* returns the XInterface.
*
* If a member is a UNO interface, then setVal is queried for this interface and the result is returned.
* If setVal is null then newVal will be null too after return.
*
* If a property value is stored using a primitive type the out-parameters
* curVal and newVal contain the respective wrapper class (e.g.java.lang.Byte, etc.).
* curVal is used in calls to the XVetoableChangeListener and XPropertyChangeListener.
*
* @param property - in-param property for which the data is to be converted.
* @param newVal - out-param which contains the converted value on return.
* @param curVal - out-param the current value of the property. It is used in calls to the
* XVetoableChangeListener and XPropertyChangeListener.
* @param setVal - in-param. The value that is to be converted so that it matches Property and the internally used
* dataformat for that property.
* @return true - Conversion was successful. newVal contains a valid value for the property. false -
* conversion failed for some reason.
*
* @throws UnknownPropertyException
* See com.sun.star.beans.XPropertySet
* @throws com.sun.star.lang.IllegalArgumentException The value provided is unfit for the property.
* @throws com.sun.star.lang.WrappedTargetException - An exception occurred during the conversion, that is to be made known
* to the caller.
*/
protected boolean convertPropertyValue(Property property, Object[] newVal, Object[]curVal, Object setVal)
throws com.sun.star.lang.IllegalArgumentException, WrappedTargetException, UnknownPropertyException
{
boolean ret= true;
try
{
// get the member name
String sMember= (String) getPropertyId(property);
if (sMember != null)
{
// use reflection to obtain the field that holds the property value
// Class.getDeclaredFields does not return inherited fields. One could use Class.getFields to
// also get inherited fields, but only those which are public.
Field propField= getClass().getDeclaredField(sMember);
if (propField != null)
{
curVal[0]= propField.get(this);
Class memberClass= propField.getType();
// MAYBEVOID: if setVal == null or it is an Any and getObject returns null, then a void value is to be set
// This works only if there are no primitive types. For those we use the respective wrapper classes.
// In this implementation, a null reference means void value.
boolean bVoidValue= false;
boolean bAnyVal= setVal instanceof Any;
if (bAnyVal)
bVoidValue= ((Any) setVal).getObject() == null;
else
bVoidValue= setVal == null;
if (bVoidValue && memberClass.isPrimitive())
throw new com.sun.star.lang.IllegalArgumentException("The implementation does not support the MAYBEVOID attribute for this property");
Object convObj= null;
//The member that keeps the value of the Property is an Any. It can contain all possible
//types, therefore a conversion is not necessary.
if (memberClass.equals(Any.class))
{
if (bAnyVal)
//parameter setVal is also an Any and can be used without further processing
convObj= setVal;
else
{
// Parameter setVal is not an Any. We need to construct an Any that contains
// the argument setVal.
// If setVal is an interface implementation then, we cannot construct the
// Any with setVal.getClass(), because the Any.Type._typeClass would be TypeClass.UNKNOWN.
// We try to get an XInterface of setVal and set an XInterface type.
if (setVal instanceof XInterface)
{
XInterface xint= UnoRuntime.queryInterface(XInterface.class, setVal);
if (xint != null)
convObj= new Any(new Type(XInterface.class), xint);
}
// The member is an any, and the past in argument was null reference (MAYBEVOID is set)
else if (setVal == null)
{
// if the any member is still null we create a void any
if (curVal[0] == null)
convObj= new Any(new Type(), null);
else
{
//otherwise we create an Any with the same type as a value of null;
convObj= new Any( ((Any)curVal[0]).getType(), null);
}
}
else
convObj= new Any(new Type(setVal.getClass()), setVal);
}
}
else
convObj= convert(memberClass, setVal);
newVal[0]= convObj;
}
}
else
throw new UnknownPropertyException("Property " + property.Name + " is unknown");
}
catch (java.lang.NoSuchFieldException e)
{
throw new WrappedTargetException(e, "Field does not exist", this, e);
}
catch (java.lang.IllegalAccessException e)
{
throw new WrappedTargetException(e, "", this ,e);
}
return ret;
}
private boolean checkType(Object obj)
{
return obj == null
|| obj instanceof Boolean
|| obj instanceof Character
|| obj instanceof Number
|| obj instanceof String
|| obj instanceof XInterface
|| obj instanceof Type
|| obj instanceof com.sun.star.uno.Enum
|| obj.getClass().isArray();
}
// Param object can be an Any or other object. If obj is null then the return value is null
private Object convert( Class cl, Object obj) throws com.sun.star.lang.IllegalArgumentException
{
Object retVal= null;
//The member that keeps the value of the Property is an Object.Objects are similar to Anys in that they can
// hold all types.
if (obj == null || (obj instanceof Any && ((Any) obj).getObject() == null))
{}
else if(cl.equals(Object.class))
{
if (obj instanceof Any)
obj= ((Any) obj).getObject();
retVal= obj;
}
else if(cl.equals(boolean.class))
retVal= Boolean.valueOf(AnyConverter.toBoolean(obj));
else if (cl.equals(char.class))
retVal= Character.valueOf(AnyConverter.toChar(obj));
else if (cl.equals(byte.class))
retVal= Byte.valueOf(AnyConverter.toByte(obj));
else if (cl.equals(short.class))
retVal= Short.valueOf(AnyConverter.toShort(obj));
else if (cl.equals(int.class))
retVal= Integer.valueOf(AnyConverter.toInt(obj));
else if (cl.equals(long.class))
retVal= Long.valueOf(AnyConverter.toLong(obj));
else if (cl.equals(float.class))
retVal= Float.valueOf(AnyConverter.toFloat(obj));
else if (cl.equals(double.class))
retVal= Double.valueOf(AnyConverter.toDouble(obj));
else if (cl.equals(String.class))
retVal= AnyConverter.toString(obj);
else if (cl.isArray())
retVal= AnyConverter.toArray(obj);
else if (cl.equals(Type.class))
retVal= AnyConverter.toType(obj);
else if (cl.equals(Boolean.class))
retVal= Boolean.valueOf(AnyConverter.toBoolean(obj));
else if (cl.equals(Character.class))
retVal= Character.valueOf(AnyConverter.toChar(obj));
else if (cl.equals(Byte.class))
retVal= Byte.valueOf(AnyConverter.toByte(obj));
else if (cl.equals(Short.class))
retVal= Short.valueOf(AnyConverter.toShort(obj));
else if (cl.equals(Integer.class))
retVal= Integer.valueOf(AnyConverter.toInt(obj));
else if (cl.equals(Long.class))
retVal= Long.valueOf(AnyConverter.toLong(obj));
else if (cl.equals(Float.class))
retVal= Float.valueOf(AnyConverter.toFloat(obj));
else if (cl.equals(Double.class))
retVal= Double.valueOf(AnyConverter.toDouble(obj));
else if (XInterface.class.isAssignableFrom(cl))
retVal= AnyConverter.toObject(new Type(cl), obj);
else if (com.sun.star.uno.Enum.class.isAssignableFrom(cl))
retVal= AnyConverter.toObject(new Type(cl), obj);
else
throw new com.sun.star.lang.IllegalArgumentException("Could not convert the argument");
return retVal;
}
/** Sets the value of a property. In this implementation property values are stored in member variables
* (see {@link #convertPropertyValue convertPropertyValue} Notification of property listeners
* does not occur in this method. By overriding this method one can take full control about how property values
* are stored. But then, the {@link #convertPropertyValue convertPropertyValue} and
* {@link #getPropertyValue(Property)} must be overridden too.
*
* A Property with the MAYBEVOID attribute set, is stored as null value. Therefore the member variable must be
* an Object in order to make use of the property attribute. An exception is Any. The Any variable can be initially null, but
* once it is set the reference will not become null again. If the value is to be set to
* void then a new Any will be stored
* with a valid type but without a value (i.e. Any.getObject returns null).
* If a property has the READONLY attribute set, and one of the setter methods, such as setPropertyValue, has been
* called, then this method is not going to be called.
* @param property the property for which the new value is set
* @param newVal the new value for the property.
* @throws com.sun.star.lang.WrappedTargetException An exception, which has to be made known to the caller,
* occurred during the setting of the value.
*/
protected void setPropertyValueNoBroadcast(Property property, Object newVal)
throws WrappedTargetException
{
try
{
// get the member name
String sMember= (String) getPropertyId(property);
if (sMember != null)
{
// use reflection to obtain the field that holds the property value
// Class.getDeclaredFields does not return inherited fields. One could use Class.getFields to
// also get inherited fields, but only those which are public.
Field propField= getClass().getDeclaredField(sMember);
if (propField != null)
propField.set(this, newVal);
}
}
catch(java.lang.Exception e)
{
throw new WrappedTargetException(e, "PropertySet.setPropertyValueNoBroadcast", this, e);
}
}
/** Retrieves the value of a property. This implementation presumes that the values are stored in member variables
* of the furthest inheriting class (see {@link #convertPropertyValue convertPropertyValue}) and that the
* variables are public. The property must have
* been registered, for example by {@link #registerProperty(Property, Object)}. The identifier Object argument
* must have been a String which was the name of the member variable holding the property value.
* When properties are to be stored differently one has to override this method as well as
* {@link #convertPropertyValue} and {@link #setPropertyValueNoBroadcast}.
* If a value is stored in a variable of a primitive type then this method returns an instance of the respective
* wrapper class (e.g. java.lang.Boolean).
* @param property The property for which the value is to be retrieved.
* @return The value of the property.
*/
protected Object getPropertyValue(Property property)
{
Object ret= null;
try
{
// get the member name
String sMember= (String) getPropertyId(property);
if (sMember != null)
{
// use reflection to obtain the field that holds the property value
// Class.getDeclaredFields does not return inherited fields. One could use Class.getFields to
// also get inherited fields, but only those which are public.
Field propField= getClass().getDeclaredField(sMember);
if (propField != null)
ret= propField.get(this);
}
}
catch(java.lang.NoSuchFieldException e)
{
throw new java.lang.RuntimeException(e);
}
catch(java.lang.IllegalAccessException e)
{
throw new java.lang.RuntimeException(e);
}
return ret;
}
/**
* This method fires events to XPropertyChangeListener,XVetoableChangeListener and
* XPropertiesChangeListener event sinks.
* To distinguish what listeners are to be called the argument bVetoable is to be set to true if
* a XVetoableChangeListener is meant. For XPropertyChangeListener and XPropertiesChangeListener
* it is to be set to false.
*
* @param properties Properties which will be or have been affected.
* @param newValues the new values of the properties.
* @param oldValues the old values of the properties.
* @param bVetoable true means fire to VetoableChangeListener, false means fire to
* XPropertyChangedListener and XMultiPropertyChangedListener.
*
* @throws PropertyVetoException
* if a vetoable listener throws it.
*/
protected void fire(
Property[] properties,
Object[] newValues,
Object[] oldValues,
boolean bVetoable ) throws PropertyVetoException
{
// Only fire, if one or more properties changed
int nNumProps= properties.length;
if (nNumProps > 0)
{
PropertyChangeEvent[] arEvts= new PropertyChangeEvent[nNumProps];
int nAffectedProps= 0;
// Loop over all changed properties to fill the event struct
for (int i= 0; i < nNumProps; i++)
{
if ((bVetoable && (properties[i].Attributes & PropertyAttribute.CONSTRAINED) > 0)
|| (!bVetoable && (properties[i].Attributes & PropertyAttribute.BOUND) > 0))
{
arEvts[i]= new PropertyChangeEvent(this, properties[i].Name, false,
properties[i].Handle, oldValues[i], newValues[i]);
nAffectedProps++;
}
}
// fire the events for all changed properties
for (int i= 0; i < nAffectedProps; i++)
{
// get the listener container for the property name
InterfaceContainer lc;
if (bVetoable)
lc= aVetoableLC.getContainer(arEvts[i].PropertyName);
else
lc= aBoundLC.getContainer(arEvts[i].PropertyName);
Iterator it = lc != null ? lc.iterator() : null;
if (it != null)
{
while( it.hasNext())
{
Object listener= it.next();
if (bVetoable)
((XVetoableChangeListener) listener).vetoableChange(arEvts[i]);
else
((XPropertyChangeListener) listener).propertyChange(arEvts[i]);
}
}
// broadcast to all listeners with "" property name
if(bVetoable)
lc= listenerContainer.getContainer(XVetoableChangeListener.class);
else
lc= listenerContainer.getContainer(XPropertyChangeListener.class);
it = lc != null ? lc.iterator() : null;
if (it != null)
{
while(it.hasNext() )
{
Object listener= it.next();
if( bVetoable ) // fire change Events?
((XVetoableChangeListener) listener).vetoableChange(arEvts[i]);
else
((XPropertyChangeListener) listener).propertyChange(arEvts[i]);
}
}
}
// fire at XPropertiesChangeListeners
// if nAffectedProps == 0 then there are no BOUND properties
if (!bVetoable && nAffectedProps > 0)
{
PropertyChangeEvent[] arReduced= new PropertyChangeEvent[nAffectedProps];
System.arraycopy(arEvts, 0, arReduced, 0, nAffectedProps);
InterfaceContainer lc= listenerContainer.getContainer(XPropertiesChangeListener.class);
Iterator it = lc != null ? lc.iterator() : null;
if (it != null)
{
while (it.hasNext())
{
XPropertiesChangeListener listener = (XPropertiesChangeListener) it.next();
// fire the whole event sequence to the XPropertiesChangeListener's
listener.propertiesChange( arEvts );
}
}
}
}
}
// XFastPropertySet--------------------------------------------------------------------------------
public void setFastPropertyValue(int nHandle, Object aValue ) throws UnknownPropertyException,
PropertyVetoException, com.sun.star.lang.IllegalArgumentException, WrappedTargetException
{
Property prop= getPropertyByHandle(nHandle);
if (prop == null)
throw new UnknownPropertyException(" The property with handle : " + nHandle +" is unknown");
setPropertyValue(prop, aValue);
}
// XFastPropertySet --------------------------------------------------------------------------------
public Object getFastPropertyValue(int nHandle ) throws UnknownPropertyException,
WrappedTargetException
{
Property prop= getPropertyByHandle(nHandle);
if (prop == null)
throw new UnknownPropertyException("The property with handle : " + nHandle + " is unknown");
return getPropertyValue(prop);
}
// XMultiPropertySet -----------------------------------------------------------------------------------
public void addPropertiesChangeListener(String[] propNames, XPropertiesChangeListener listener)
{
listenerContainer.addInterface(XPropertiesChangeListener.class, listener);
}
// XMultiPropertySet -----------------------------------------------------------------------------------
public void firePropertiesChangeEvent(String[] propNames, XPropertiesChangeListener listener)
{
// Build the events.
PropertyChangeEvent[] arEvents= new PropertyChangeEvent[propNames.length];
int eventCount= 0;
// get a snapshot of the current property values
synchronized (this)
{
for (int i= 0; i < propNames.length; i++)
{
Property prop= getProperty(propNames[i]);
if (prop != null)
{
Object value= null;
try
{
value= getPropertyValue(prop);
}
catch(Exception e)
{
continue;
}
arEvents[eventCount]= new PropertyChangeEvent(this, prop.Name,
false, prop.Handle, value, value);
eventCount++;
}
}
}
// fire events from unsynchronized section so as to prevent deadlocks
if (eventCount > 0)
{
// Reallocate the array of the events if necessary
if (arEvents.length != eventCount)
{
PropertyChangeEvent[] arPropsTmp= new PropertyChangeEvent[eventCount];
System.arraycopy(arEvents, 0, arPropsTmp, 0, eventCount);
arEvents= arPropsTmp;
}
listener.propertiesChange(arEvents);
}
}
// XMultiPropertySet -----------------------------------------------------------------------------------
/** If a value for a property could not be retrieved then the respective element in the returned
* array has the value null.
*/
public Object[] getPropertyValues(String[] propNames)
{
Object[] arValues= new Object[propNames.length];
synchronized (this)
{
for (int i= 0; i < propNames.length; i++)
{
Object value= null;
try
{
value= getPropertyValue(propNames[i]);
}
catch (Exception e)
{
}
arValues[i]= value;
}
}
return arValues;
}
// XMultiPropertySet -----------------------------------------------------------------------------------
public void removePropertiesChangeListener(XPropertiesChangeListener xPropertiesChangeListener)
{
listenerContainer.removeInterface(XPropertiesChangeListener.class, xPropertiesChangeListener);
}
// XMultiPropertySet -----------------------------------------------------------------------------------
/** If the array of property names contains an unknown property then it will be ignored.
*/
public void setPropertyValues(String[] propNames, Object[] values) throws PropertyVetoException, com.sun.star.lang.IllegalArgumentException, com.sun.star.lang.WrappedTargetException
{
for (int i= 0; i < propNames.length; i++)
{
try
{
setPropertyValue(propNames[i], values[i]);
}
catch (UnknownPropertyException e)
{
continue;
}
}
}
private class PropertySetInfo implements XPropertySetInfo
{
public com.sun.star.beans.Property[] getProperties()
{
return PropertySet.this.getProperties();
}
public com.sun.star.beans.Property getPropertyByName(String name) throws UnknownPropertyException
{
return getProperty(name);
}
public boolean hasPropertyByName(String name)
{
return getProperty(name) != null;
}
}
}