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/*
 * Copyright (c) 1996, 2015, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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 * questions.
 */

package ajava.beans;

import java.lang.ref.Reference;
import java.lang.reflect.Method;
import java.lang.reflect.Constructor;
import sun.reflect.misc.ReflectUtil;

/**
 * A PropertyDescriptor describes one property that a Java Bean
 * exports via a pair of accessor methods.
 */
public class PropertyDescriptor extends FeatureDescriptor {

    private Reference> propertyTypeRef;
    private final MethodRef readMethodRef = new MethodRef();
    private final MethodRef writeMethodRef = new MethodRef();
    private Reference> propertyEditorClassRef;

    private boolean bound;
    private boolean constrained;

    // The base name of the method name which will be prefixed with the
    // read and write method. If name == "foo" then the baseName is "Foo"
    private String baseName;

    private String writeMethodName;
    private String readMethodName;

    /**
     * Constructs a PropertyDescriptor for a property that follows
     * the standard Java convention by having getFoo and setFoo
     * accessor methods.  Thus if the argument name is "fred", it will
     * assume that the writer method is "setFred" and the reader method
     * is "getFred" (or "isFred" for a boolean property).  Note that the
     * property name should start with a lower case character, which will
     * be capitalized in the method names.
     *
     * @param propertyName The programmatic name of the property.
     * @param beanClass The Class object for the target bean.  For
     *          example sun.beans.OurButton.class.
     * @exception IntrospectionException if an exception occurs during
     *              introspection.
     */
    public PropertyDescriptor(String propertyName, Class beanClass)
                throws IntrospectionException {
        this(propertyName, beanClass,
                Introspector.IS_PREFIX + NameGenerator.capitalize(propertyName),
                Introspector.SET_PREFIX + NameGenerator.capitalize(propertyName));
    }

    /**
     * This constructor takes the name of a simple property, and method
     * names for reading and writing the property.
     *
     * @param propertyName The programmatic name of the property.
     * @param beanClass The Class object for the target bean.  For
     *          example sun.beans.OurButton.class.
     * @param readMethodName The name of the method used for reading the property
     *           value.  May be null if the property is write-only.
     * @param writeMethodName The name of the method used for writing the property
     *           value.  May be null if the property is read-only.
     * @exception IntrospectionException if an exception occurs during
     *              introspection.
     */
    public PropertyDescriptor(String propertyName, Class beanClass,
                String readMethodName, String writeMethodName)
                throws IntrospectionException {
        if (beanClass == null) {
            throw new IntrospectionException("Target Bean class is null");
        }
        if (propertyName == null || propertyName.length() == 0) {
            throw new IntrospectionException("bad property name");
        }
        if ("".equals(readMethodName) || "".equals(writeMethodName)) {
            throw new IntrospectionException("read or write method name should not be the empty string");
        }
        setName(propertyName);
        setClass0(beanClass);

        this.readMethodName = readMethodName;
        if (readMethodName != null && getReadMethod() == null) {
            throw new IntrospectionException("Method not found: " + readMethodName);
        }
        this.writeMethodName = writeMethodName;
        if (writeMethodName != null && getWriteMethod() == null) {
            throw new IntrospectionException("Method not found: " + writeMethodName);
        }
        // If this class or one of its base classes allow PropertyChangeListener,
        // then we assume that any properties we discover are "bound".
        // See Introspector.getTargetPropertyInfo() method.
        Class[] args = { PropertyChangeListener.class };
        this.bound = null != Introspector.findMethod(beanClass, "addPropertyChangeListener", args.length, args);
    }

    /**
     * This constructor takes the name of a simple property, and Method
     * objects for reading and writing the property.
     *
     * @param propertyName The programmatic name of the property.
     * @param readMethod The method used for reading the property value.
     *          May be null if the property is write-only.
     * @param writeMethod The method used for writing the property value.
     *          May be null if the property is read-only.
     * @exception IntrospectionException if an exception occurs during
     *              introspection.
     */
    public PropertyDescriptor(String propertyName, Method readMethod, Method writeMethod)
                throws IntrospectionException {
        if (propertyName == null || propertyName.length() == 0) {
            throw new IntrospectionException("bad property name");
        }
        setName(propertyName);
        setReadMethod(readMethod);
        setWriteMethod(writeMethod);
    }

    /**
     * Creates PropertyDescriptor for the specified bean
     * with the specified name and methods to read/write the property value.
     *
     * @param bean   the type of the target bean
     * @param base   the base name of the property (the rest of the method name)
     * @param read   the method used for reading the property value
     * @param write  the method used for writing the property value
     * @exception IntrospectionException if an exception occurs during introspection
     *
     * @since 1.7
     */
    PropertyDescriptor(Class bean, String base, Method read, Method write) throws IntrospectionException {
        if (bean == null) {
            throw new IntrospectionException("Target Bean class is null");
        }
        setClass0(bean);
        setName(Introspector.decapitalize(base));
        setReadMethod(read);
        setWriteMethod(write);
        this.baseName = base;
    }

    /**
     * Returns the Java type info for the property.
     * Note that the {@code Class} object may describe
     * primitive Java types such as {@code int}.
     * This type is returned by the read method
     * or is used as the parameter type of the write method.
     * Returns {@code null} if the type is an indexed property
     * that does not support non-indexed access.
     *
     * @return the {@code Class} object that represents the Java type info,
     *         or {@code null} if the type cannot be determined
     */
    public synchronized Class getPropertyType() {
        Class type = getPropertyType0();
        if (type  == null) {
            try {
                type = findPropertyType(getReadMethod(), getWriteMethod());
                setPropertyType(type);
            } catch (IntrospectionException ex) {
                // Fall
            }
        }
        return type;
    }

    private void setPropertyType(Class type) {
        this.propertyTypeRef = getWeakReference(type);
    }

    private Class getPropertyType0() {
        return (this.propertyTypeRef != null)
                ? this.propertyTypeRef.get()
                : null;
    }

    /**
     * Gets the method that should be used to read the property value.
     *
     * @return The method that should be used to read the property value.
     * May return null if the property can't be read.
     */
    public synchronized Method getReadMethod() {
        Method readMethod = this.readMethodRef.get();
        if (readMethod == null) {
            Class cls = getClass0();
            if (cls == null || (readMethodName == null && !this.readMethodRef.isSet())) {
                // The read method was explicitly set to null.
                return null;
            }
            String nextMethodName = Introspector.GET_PREFIX + getBaseName();
            if (readMethodName == null) {
                Class type = getPropertyType0();
                if (type == boolean.class || type == null) {
                    readMethodName = Introspector.IS_PREFIX + getBaseName();
                } else {
                    readMethodName = nextMethodName;
                }
            }

            // Since there can be multiple write methods but only one getter
            // method, find the getter method first so that you know what the
            // property type is.  For booleans, there can be "is" and "get"
            // methods.  If an "is" method exists, this is the official
            // reader method so look for this one first.
            readMethod = Introspector.findMethod(cls, readMethodName, 0);
            if ((readMethod == null) && !readMethodName.equals(nextMethodName)) {
                readMethodName = nextMethodName;
                readMethod = Introspector.findMethod(cls, readMethodName, 0);
            }
            try {
                setReadMethod(readMethod);
            } catch (IntrospectionException ex) {
                // fall
            }
        }
        return readMethod;
    }

    /**
     * Sets the method that should be used to read the property value.
     *
     * @param readMethod The new read method.
     * @throws IntrospectionException if the read method is invalid
     */
    public synchronized void setReadMethod(Method readMethod)
                                throws IntrospectionException {
        this.readMethodRef.set(readMethod);
        if (readMethod == null) {
            readMethodName = null;
            return;
        }
        // The property type is determined by the read method.
        setPropertyType(findPropertyType(readMethod, this.writeMethodRef.get()));
        setClass0(readMethod.getDeclaringClass());

        readMethodName = readMethod.getName();
        setTransient(readMethod.getAnnotation(Transient.class));
    }

    /**
     * Gets the method that should be used to write the property value.
     *
     * @return The method that should be used to write the property value.
     * May return null if the property can't be written.
     */
    public synchronized Method getWriteMethod() {
        Method writeMethod = this.writeMethodRef.get();
        if (writeMethod == null) {
            Class cls = getClass0();
            if (cls == null || (writeMethodName == null && !this.writeMethodRef.isSet())) {
                // The write method was explicitly set to null.
                return null;
            }

            // We need the type to fetch the correct method.
            Class type = getPropertyType0();
            if (type == null) {
                try {
                    // Can't use getPropertyType since it will lead to recursive loop.
                    type = findPropertyType(getReadMethod(), null);
                    setPropertyType(type);
                } catch (IntrospectionException ex) {
                    // Without the correct property type we can't be guaranteed
                    // to find the correct method.
                    return null;
                }
            }

            if (writeMethodName == null) {
                writeMethodName = Introspector.SET_PREFIX + getBaseName();
            }

            Class[] args = (type == null) ? null : new Class[] { type };
            writeMethod = Introspector.findMethod(cls, writeMethodName, 1, args);
            if (writeMethod != null) {
                if (!writeMethod.getReturnType().equals(void.class)) {
                    writeMethod = null;
                }
            }
            try {
                setWriteMethod(writeMethod);
            } catch (IntrospectionException ex) {
                // fall through
            }
        }
        return writeMethod;
    }

    /**
     * Sets the method that should be used to write the property value.
     *
     * @param writeMethod The new write method.
     * @throws IntrospectionException if the write method is invalid
     */
    public synchronized void setWriteMethod(Method writeMethod)
                                throws IntrospectionException {
        this.writeMethodRef.set(writeMethod);
        if (writeMethod == null) {
            writeMethodName = null;
            return;
        }
        // Set the property type - which validates the method
        setPropertyType(findPropertyType(getReadMethod(), writeMethod));
        setClass0(writeMethod.getDeclaringClass());

        writeMethodName = writeMethod.getName();
        setTransient(writeMethod.getAnnotation(Transient.class));
    }

    /**
     * Overridden to ensure that a super class doesn't take precedent
     */
    void setClass0(Class clz) {
        if (getClass0() != null && clz.isAssignableFrom(getClass0())) {
            // don't replace a subclass with a superclass
            return;
        }
        super.setClass0(clz);
    }

    /**
     * Updates to "bound" properties will cause a "PropertyChange" event to
     * get fired when the property is changed.
     *
     * @return True if this is a bound property.
     */
    public boolean isBound() {
        return bound;
    }

    /**
     * Updates to "bound" properties will cause a "PropertyChange" event to
     * get fired when the property is changed.
     *
     * @param bound True if this is a bound property.
     */
    public void setBound(boolean bound) {
        this.bound = bound;
    }

    /**
     * Attempted updates to "Constrained" properties will cause a "VetoableChange"
     * event to get fired when the property is changed.
     *
     * @return True if this is a constrained property.
     */
    public boolean isConstrained() {
        return constrained;
    }

    /**
     * Attempted updates to "Constrained" properties will cause a "VetoableChange"
     * event to get fired when the property is changed.
     *
     * @param constrained True if this is a constrained property.
     */
    public void setConstrained(boolean constrained) {
        this.constrained = constrained;
    }


    /**
     * Normally PropertyEditors will be found using the PropertyEditorManager.
     * However if for some reason you want to associate a particular
     * PropertyEditor with a given property, then you can do it with
     * this method.
     *
     * @param propertyEditorClass  The Class for the desired PropertyEditor.
     */
    public void setPropertyEditorClass(Class propertyEditorClass) {
        this.propertyEditorClassRef = getWeakReference(propertyEditorClass);
    }

    /**
     * Gets any explicit PropertyEditor Class that has been registered
     * for this property.
     *
     * @return Any explicit PropertyEditor Class that has been registered
     *          for this property.  Normally this will return "null",
     *          indicating that no special editor has been registered,
     *          so the PropertyEditorManager should be used to locate
     *          a suitable PropertyEditor.
     */
    public Class getPropertyEditorClass() {
        return (this.propertyEditorClassRef != null)
                ? this.propertyEditorClassRef.get()
                : null;
    }

    /**
     * Constructs an instance of a property editor using the current
     * property editor class.
     * 

* If the property editor class has a public constructor that takes an * Object argument then it will be invoked using the bean parameter * as the argument. Otherwise, the default constructor will be invoked. * * @param bean the source object * @return a property editor instance or null if a property editor has * not been defined or cannot be created * @since 1.5 */ public PropertyEditor createPropertyEditor(Object bean) { Object editor = null; final Class cls = getPropertyEditorClass(); if (cls != null && PropertyEditor.class.isAssignableFrom(cls) && ReflectUtil.isPackageAccessible(cls)) { Constructor ctor = null; if (bean != null) { try { ctor = cls.getConstructor(new Class[] { Object.class }); } catch (Exception ex) { // Fall through } } try { if (ctor == null) { editor = cls.newInstance(); } else { editor = ctor.newInstance(new Object[] { bean }); } } catch (Exception ex) { // Fall through } } return (PropertyEditor)editor; } /** * Compares this PropertyDescriptor against the specified object. * Returns true if the objects are the same. Two PropertyDescriptors * are the same if the read, write, property types, property editor and * flags are equivalent. * * @since 1.4 */ public boolean equals(Object obj) { if (this == obj) { return true; } if (obj != null && obj instanceof PropertyDescriptor) { PropertyDescriptor other = (PropertyDescriptor)obj; Method otherReadMethod = other.getReadMethod(); Method otherWriteMethod = other.getWriteMethod(); if (!compareMethods(getReadMethod(), otherReadMethod)) { return false; } if (!compareMethods(getWriteMethod(), otherWriteMethod)) { return false; } if (getPropertyType() == other.getPropertyType() && getPropertyEditorClass() == other.getPropertyEditorClass() && bound == other.isBound() && constrained == other.isConstrained() && writeMethodName == other.writeMethodName && readMethodName == other.readMethodName) { return true; } } return false; } /** * Package private helper method for Descriptor .equals methods. * * @param a first method to compare * @param b second method to compare * @return boolean to indicate that the methods are equivalent */ boolean compareMethods(Method a, Method b) { // Note: perhaps this should be a protected method in FeatureDescriptor if ((a == null) != (b == null)) { return false; } if (a != null && b != null) { if (!a.equals(b)) { return false; } } return true; } /** * Package-private constructor. * Merge two property descriptors. Where they conflict, give the * second argument (y) priority over the first argument (x). * * @param x The first (lower priority) PropertyDescriptor * @param y The second (higher priority) PropertyDescriptor */ PropertyDescriptor(PropertyDescriptor x, PropertyDescriptor y) { super(x,y); if (y.baseName != null) { baseName = y.baseName; } else { baseName = x.baseName; } if (y.readMethodName != null) { readMethodName = y.readMethodName; } else { readMethodName = x.readMethodName; } if (y.writeMethodName != null) { writeMethodName = y.writeMethodName; } else { writeMethodName = x.writeMethodName; } if (y.propertyTypeRef != null) { propertyTypeRef = y.propertyTypeRef; } else { propertyTypeRef = x.propertyTypeRef; } // Figure out the merged read method. Method xr = x.getReadMethod(); Method yr = y.getReadMethod(); // Normally give priority to y's readMethod. try { if (isAssignable(xr, yr)) { setReadMethod(yr); } else { setReadMethod(xr); } } catch (IntrospectionException ex) { // fall through } // However, if both x and y reference read methods in the same class, // give priority to a boolean "is" method over a boolean "get" method. if (xr != null && yr != null && xr.getDeclaringClass() == yr.getDeclaringClass() && getReturnType(getClass0(), xr) == boolean.class && getReturnType(getClass0(), yr) == boolean.class && xr.getName().indexOf(Introspector.IS_PREFIX) == 0 && yr.getName().indexOf(Introspector.GET_PREFIX) == 0) { try { setReadMethod(xr); } catch (IntrospectionException ex) { // fall through } } Method xw = x.getWriteMethod(); Method yw = y.getWriteMethod(); try { if (yw != null) { setWriteMethod(yw); } else { setWriteMethod(xw); } } catch (IntrospectionException ex) { // Fall through } if (y.getPropertyEditorClass() != null) { setPropertyEditorClass(y.getPropertyEditorClass()); } else { setPropertyEditorClass(x.getPropertyEditorClass()); } bound = x.bound | y.bound; constrained = x.constrained | y.constrained; } /* * Package-private dup constructor. * This must isolate the new object from any changes to the old object. */ PropertyDescriptor(PropertyDescriptor old) { super(old); propertyTypeRef = old.propertyTypeRef; this.readMethodRef.set(old.readMethodRef.get()); this.writeMethodRef.set(old.writeMethodRef.get()); propertyEditorClassRef = old.propertyEditorClassRef; writeMethodName = old.writeMethodName; readMethodName = old.readMethodName; baseName = old.baseName; bound = old.bound; constrained = old.constrained; } void updateGenericsFor(Class type) { setClass0(type); try { setPropertyType(findPropertyType(this.readMethodRef.get(), this.writeMethodRef.get())); } catch (IntrospectionException exception) { setPropertyType(null); } } /** * Returns the property type that corresponds to the read and write method. * The type precedence is given to the readMethod. * * @return the type of the property descriptor or null if both * read and write methods are null. * @throws IntrospectionException if the read or write method is invalid */ private Class findPropertyType(Method readMethod, Method writeMethod) throws IntrospectionException { Class propertyType = null; try { if (readMethod != null) { Class[] params = getParameterTypes(getClass0(), readMethod); if (params.length != 0) { throw new IntrospectionException("bad read method arg count: " + readMethod); } propertyType = getReturnType(getClass0(), readMethod); if (propertyType == Void.TYPE) { throw new IntrospectionException("read method " + readMethod.getName() + " returns void"); } } if (writeMethod != null) { Class[] params = getParameterTypes(getClass0(), writeMethod); if (params.length != 1) { throw new IntrospectionException("bad write method arg count: " + writeMethod); } if (propertyType != null && !params[0].isAssignableFrom(propertyType)) { throw new IntrospectionException("type mismatch between read and write methods"); } propertyType = params[0]; } } catch (IntrospectionException ex) { throw ex; } return propertyType; } /** * Returns a hash code value for the object. * See {@link java.lang.Object#hashCode} for a complete description. * * @return a hash code value for this object. * @since 1.5 */ public int hashCode() { int result = 7; result = 37 * result + ((getPropertyType() == null) ? 0 : getPropertyType().hashCode()); result = 37 * result + ((getReadMethod() == null) ? 0 : getReadMethod().hashCode()); result = 37 * result + ((getWriteMethod() == null) ? 0 : getWriteMethod().hashCode()); result = 37 * result + ((getPropertyEditorClass() == null) ? 0 : getPropertyEditorClass().hashCode()); result = 37 * result + ((writeMethodName == null) ? 0 : writeMethodName.hashCode()); result = 37 * result + ((readMethodName == null) ? 0 : readMethodName.hashCode()); result = 37 * result + getName().hashCode(); result = 37 * result + ((bound == false) ? 0 : 1); result = 37 * result + ((constrained == false) ? 0 : 1); return result; } // Calculate once since capitalize() is expensive. String getBaseName() { if (baseName == null) { baseName = NameGenerator.capitalize(getName()); } return baseName; } void appendTo(StringBuilder sb) { appendTo(sb, "bound", this.bound); appendTo(sb, "constrained", this.constrained); appendTo(sb, "propertyEditorClass", this.propertyEditorClassRef); appendTo(sb, "propertyType", this.propertyTypeRef); appendTo(sb, "readMethod", this.readMethodRef.get()); appendTo(sb, "writeMethod", this.writeMethodRef.get()); } private boolean isAssignable(Method m1, Method m2) { if (m1 == null) { return true; // choose second method } if (m2 == null) { return false; // choose first method } if (!m1.getName().equals(m2.getName())) { return true; // choose second method by default } Class type1 = m1.getDeclaringClass(); Class type2 = m2.getDeclaringClass(); if (!type1.isAssignableFrom(type2)) { return false; // choose first method: it declared later } type1 = getReturnType(getClass0(), m1); type2 = getReturnType(getClass0(), m2); if (!type1.isAssignableFrom(type2)) { return false; // choose first method: it overrides return type } Class[] args1 = getParameterTypes(getClass0(), m1); Class[] args2 = getParameterTypes(getClass0(), m2); if (args1.length != args2.length) { return true; // choose second method by default } for (int i = 0; i < args1.length; i++) { if (!args1[i].isAssignableFrom(args2[i])) { return false; // choose first method: it overrides parameter } } return true; // choose second method } }





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