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/*

* Copyright (c) 1996, 2011, Oracle and/or its affiliates. All rights reserved.

* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.

*

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*/

package java.beans;

import com.sun.beans.TypeResolver;

import java.lang.ref.Reference;

import java.lang.ref.WeakReference;

import java.lang.ref.SoftReference;

import java.lang.reflect.Method;

import java.util.Enumeration;

import java.util.Hashtable;

import java.util.Map.Entry;

/**

* The FeatureDescriptor class is the common baseclass for PropertyDescriptor,

* EventSetDescriptor, and MethodDescriptor, etc.

* <p>

* It supports some common information that can be set and retrieved for

* any of the introspection descriptors.

* <p>

* In addition it provides an extension mechanism so that arbitrary

* attribute/value pairs can be associated with a design feature.

*/

public class FeatureDescriptor {

private static final String TRANSIENT = "transient";

private Reference<? extends Class<?>> classRef;

/**

* Constructs a <code>FeatureDescriptor</code>.

*/

public FeatureDescriptor() {

}

/**

* Gets the programmatic name of this feature.

*

* @return The programmatic name of the property/method/event

*/

public String getName() {

return name;

}

/**

* Sets the programmatic name of this feature.

*

* @param name The programmatic name of the property/method/event

*/

public void setName(String name) {

this.name = name;

}

/**

* Gets the localized display name of this feature.

*

* @return The localized display name for the property/method/event.

* This defaults to the same as its programmatic name from getName.

*/

public String getDisplayName() {

if (displayName == null) {

return getName();

}

return displayName;

}

/**

* Sets the localized display name of this feature.

*

* @param displayName The localized display name for the

* property/method/event.

*/

public void setDisplayName(String displayName) {

this.displayName = displayName;

}

/**

* The "expert" flag is used to distinguish between those features that are

* intended for expert users from those that are intended for normal users.

*

* @return True if this feature is intended for use by experts only.

*/

public boolean isExpert() {

return expert;

}

/**

* The "expert" flag is used to distinguish between features that are

* intended for expert users from those that are intended for normal users.

*

* @param expert True if this feature is intended for use by experts only.

*/

public void setExpert(boolean expert) {

this.expert = expert;

}

/**

* The "hidden" flag is used to identify features that are intended only

* for tool use, and which should not be exposed to humans.

*

* @return True if this feature should be hidden from human users.

*/

public boolean isHidden() {

return hidden;

}

/**

* The "hidden" flag is used to identify features that are intended only

* for tool use, and which should not be exposed to humans.

*

* @param hidden True if this feature should be hidden from human users.

*/

public void setHidden(boolean hidden) {

this.hidden = hidden;

}

/**

* The "preferred" flag is used to identify features that are particularly

* important for presenting to humans.

*

* @return True if this feature should be preferentially shown to human users.

*/

public boolean isPreferred() {

return preferred;

}

/**

* The "preferred" flag is used to identify features that are particularly

* important for presenting to humans.

*

* @param preferred True if this feature should be preferentially shown

* to human users.

*/

public void setPreferred(boolean preferred) {

this.preferred = preferred;

}

/**

* Gets the short description of this feature.

*

* @return A localized short description associated with this

* property/method/event. This defaults to be the display name.

*/

public String getShortDescription() {

if (shortDescription == null) {

return getDisplayName();

}

return shortDescription;

}

/**

* You can associate a short descriptive string with a feature. Normally

* these descriptive strings should be less than about 40 characters.

* @param text A (localized) short description to be associated with

* this property/method/event.

*/

public void setShortDescription(String text) {

shortDescription = text;

}

/**

* Associate a named attribute with this feature.

*

* @param attributeName The locale-independent name of the attribute

* @param value The value.

*/

public void setValue(String attributeName, Object value) {

getTable().put(attributeName, value);

}

/**

* Retrieve a named attribute with this feature.

*

* @param attributeName The locale-independent name of the attribute

* @return The value of the attribute. May be null if

* the attribute is unknown.

*/

public Object getValue(String attributeName) {

return (this.table != null)

? this.table.get(attributeName)

: null;

}

/**

* Gets an enumeration of the locale-independent names of this

* feature.

*

* @return An enumeration of the locale-independent names of any

* attributes that have been registered with setValue.

*/

public Enumeration<String> attributeNames() {

return getTable().keys();

}

/**

* Package-private constructor,

* Merge information from two FeatureDescriptors.

* The merged hidden and expert flags are formed by or-ing the values.

* In the event of other conflicts, the second argument (y) is

* given priority over the first argument (x).

*

* @param x The first (lower priority) MethodDescriptor

* @param y The second (higher priority) MethodDescriptor

*/

FeatureDescriptor(FeatureDescriptor x, FeatureDescriptor y) {

expert = x.expert | y.expert;

hidden = x.hidden | y.hidden;

preferred = x.preferred | y.preferred;

name = y.name;

shortDescription = x.shortDescription;

if (y.shortDescription != null) {

shortDescription = y.shortDescription;

}

displayName = x.displayName;

if (y.displayName != null) {

displayName = y.displayName;

}

classRef = x.classRef;

if (y.classRef != null) {

classRef = y.classRef;

}

addTable(x.table);

addTable(y.table);

}

/*

* Package-private dup constructor

* This must isolate the new object from any changes to the old object.

*/

FeatureDescriptor(FeatureDescriptor old) {

expert = old.expert;

hidden = old.hidden;

preferred = old.preferred;

name = old.name;

shortDescription = old.shortDescription;

displayName = old.displayName;

classRef = old.classRef;

addTable(old.table);

}

/**

* Copies all values from the specified attribute table.

* If some attribute is exist its value should be overridden.

*

* @param table the attribute table with new values

*/

private void addTable(Hashtable<String, Object> table) {

if ((table != null) && !table.isEmpty()) {

getTable().putAll(table);

}

}

/**

* Returns the initialized attribute table.

*

* @return the initialized attribute table

*/

private Hashtable<String, Object> getTable() {

if (this.table == null) {

this.table = new Hashtable<>();

}

return this.table;

}

/**

* Sets the "transient" attribute according to the annotation.

* If the "transient" attribute is already set

* it should not be changed.

*

* @param annotation the annotation of the element of the feature

*/

void setTransient(Transient annotation) {

if ((annotation != null) && (null == getValue(TRANSIENT))) {

setValue(TRANSIENT, annotation.value());

}

}

/**

* Indicates whether the feature is transient.

*

* @return {@code true} if the feature is transient,

* {@code false} otherwise

*/

boolean isTransient() {

Object value = getValue(TRANSIENT);

return (value instanceof Boolean)

? (Boolean) value

: false;

}

// Package private methods for recreating the weak/soft referent

void setClass0(Class<?> cls) {

this.classRef = getWeakReference(cls);

}

Class<?> getClass0() {

return (this.classRef != null)

? this.classRef.get()

: null;

}

/**

* Creates a new soft reference that refers to the given object.

*

* @return a new soft reference or <code>null</code> if object is <code>null</code>

*

* @see SoftReference

*/

static <T> Reference<T> getSoftReference(T object) {

return (object != null)

? new SoftReference<>(object)

: null;

}

/**

* Creates a new weak reference that refers to the given object.

*

* @return a new weak reference or <code>null</code> if object is <code>null</code>

*

* @see WeakReference

*/

static <T> Reference<T> getWeakReference(T object) {

return (object != null)

? new WeakReference<>(object)

: null;

}

/**

* Resolves the return type of the method.

*

* @param base the class that contains the method in the hierarchy

* @param method the object that represents the method

* @return a class identifying the return type of the method

*

* @see Method#getGenericReturnType

* @see Method#getReturnType

*/

static Class<?> getReturnType(Class<?> base, Method method) {

if (base == null) {

base = method.getDeclaringClass();

}

return TypeResolver.erase(TypeResolver.resolveInClass(base, method.getGenericReturnType()));

}

/**

* Resolves the parameter types of the method.

*

* @param base the class that contains the method in the hierarchy

* @param method the object that represents the method

* @return an array of classes identifying the parameter types of the method

*

* @see Method#getGenericParameterTypes

* @see Method#getParameterTypes

*/

static Class<?>[] getParameterTypes(Class<?> base, Method method) {

if (base == null) {

base = method.getDeclaringClass();

}

return TypeResolver.erase(TypeResolver.resolveInClass(base, method.getGenericParameterTypes()));

}

private boolean expert;

private boolean hidden;

private boolean preferred;

private String shortDescription;

private String name;

private String displayName;

private Hashtable<String, Object> table;

/**

* Returns a string representation of the object.

*

* @return a string representation of the object

*

* @since 1.7

*/

public String toString() {

StringBuilder sb = new StringBuilder(getClass().getName());

sb.append("[name=").append(this.name);

appendTo(sb, "displayName", this.displayName);

appendTo(sb, "shortDescription", this.shortDescription);

appendTo(sb, "preferred", this.preferred);

appendTo(sb, "hidden", this.hidden);

appendTo(sb, "expert", this.expert);

if ((this.table != null) && !this.table.isEmpty()) {

sb.append("; values={");

for (Entry<String, Object> entry : this.table.entrySet()) {

sb.append(entry.getKey()).append("=").append(entry.getValue()).append("; ");

}

sb.setLength(sb.length() - 2);

sb.append("}");

}

appendTo(sb);

return sb.append("]").toString();

}

void appendTo(StringBuilder sb) {

}

static void appendTo(StringBuilder sb, String name, Reference<?> reference) {

if (reference != null) {

appendTo(sb, name, reference.get());

}

}

static void appendTo(StringBuilder sb, String name, Object value) {

if (value != null) {

sb.append("; ").append(name).append("=").append(value);

}

}

static void appendTo(StringBuilder sb, String name, boolean value) {

if (value) {

sb.append("; ").append(name);

}

}

}