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2. Reading a Quick-Reference Entry

Each quick-reference entry contains quite a bit of information. The sections that follow describe the structure of a quick-reference entry, explaining what information is available, where it is found, and what it means. While reading the following descriptions, you will find it helpful to flip through the reference section itself to find examples of the features being described.

2.1. Class Name, Package Name, Availability, and Flags

Each quick-reference entry begins with a four-part title that specifies the name, package, and availability of the class, and may also specify various additional flags that describe the class. The class name appears in bold at the upper left of the title. The package name appears, in smaller print, in the lower- left, below the class name.

The upper-right portion of the title indicates the availability of the class; it specifies the earliest release that contained the class. If a class was introduced in Java 1.1, for example, this portion of the title reads "Java 1.1". If the class was introduced in Version 1.2 of the Java 2 platform, the availability reads "Java 1.2," for simplicity's sake. If the class is part of a standard extension, this portion of the title specifies the name (or acronym) of the standard extension and the earliest version in which the class appeared. For example, the availability might read "Servlets 2.0" or "JNDI 1.1." The availability section of the title is also indicates whether a class has been deprecated, and, if so, in what release. For example, it might read "Java 1.1; Deprecated in Java 1.2."

In the lower-right corner of the title you may find a list of flags that describe the class. The possible flags and their meanings are as follows:


The class is a checked exception, which means that it extends java.lang.Exception, but not java.lang.RuntimeException. In other words, it must be declared in the throws clause of any method that may throw it.


The class, or a superclass, implements java.lang.Cloneable.


The class, or a superclass, implements java.util.Collection or java.util.Map.


The class, or a superclass, implements java.lang.Comparable.


The class extends java.lang.Error.


The class extends java.util.EventObject.

event adapter

The class, or a superclass, implements java.util.EventListener, and the class name ends with "Adapter."

event listener

The class, or a superclass, implements java.util.EventListener.

layout manager

The class, or a superclass, implements java.awt.LayoutManager.


The class or interface is part of the Personal Java 1.1 platform.


The class or interface is supported, in modified form, by the Personal Java 1.1 platform.


The class or interface is an optional part of the Personal Java 1.1 platform. Support for the class is implementation-dependent.


The class, or a superclass, implements java.rmi.Remote.


The class, or a superclass, implements java.lang.Runnable.


The class, or a superclass, implements java.io.Serializable and may be serialized.


The class is an unchecked exception, which means it extends java.lang.RuntimeException and, therefore, does not need to be declared in the throws clause of a method that may throw it.

2.2. Description

The title of each quick-reference entry is followed by a short description of the most important features of the class or interface. This description may be anywhere from a couple of sentences to several paragraphs long.

2.3. Synopsis

The most important part of every quick-reference entry is the class synopsis, which follows the title and description. The synopsis for a class looks a lot like the source code for the class, except that the method bodies are omitted, and some additional annotations are added. If you know Java syntax, you can read the class synopsis.

The first line of the synopsis contains information about the class itself. It begins with a list of class modifiers, such as public, abstract, and final. These modifiers are followed by the class or interface keyword and then by the name of the class. The class name may be followed by an extends clause that specifies the superclass and an implements clause that specifies any interfaces the class implements.

The class definition line is followed by a list of the fields and methods the class defines. Once again, if you understand basic Java syntax, you should have no trouble making sense of these lines. The listing for each member includes the modifiers, type, and name of the member. For methods, the synopsis also includes the type and name of each method parameter and an optional throws clause that lists the exceptions the method can throw. The member names are in boldface, so that it is easy to scan the list of members looking for the one you want. The names of method parameters are in italics to indicate that they are not to be used literally. The member listings are printed on alternating gray and white backgrounds to keep them visually separate.

2.3.1. Member availability and flags

Each member listing is a single line that defines the API for that member. These listings use Java syntax, so their meaning is immediately clear to any Java programmer. There is some auxiliary information associated with each member synopsis, however, that requires explanation.

Recall that each quick-reference entry begins with a title section that includes the release in which the class was first defined. When a member is introduced into a class after the initial release of the class, the version in which the member was introduced appears, in small print, to the left of the member synopsis. For example, if a class was first introduced in Java 1.1, but had a new method added in Version 1.2 of Java 2, the title contains the string "Java 1.1," and the listing for the new member is preceded by the number "1.2." Furthermore, if a member has been deprecated, that fact is indicated with a hash mark (#) to the left of the member synopsis.

The area to the right of the member synopsis displays a variety of flags that provide additional information about the member. Some of these flags indicate additional specification details that do not appear in the member API itself. Other flags contain implementation-specific information. This information can be quite useful in understanding the class and in debugging your code, but be aware that it may differ between implementations. The implementation-specific flags displayed in this book are based on Sun's implementation of Java for Microsoft Windows.

The following flags may be displayed to the right of a member synopsis:


An implementation-specific flag that indicates that a method is implemented in native code. Although native is a Java keyword and can appear in method signatures, it is part of the method implementation, not part of its specification. Therefore, this information is included with the member flags, rather than as part of the member listing. This flag is useful as a hint about the expected performance of a method.


An implementation-specific flag that indicates a method implementation is declared synchronized, meaning that it obtains a lock on the object or class before executing. Like the native keyword, the synchronized keyword is part of the method implementation, not part of the specification, so it appears as a flag, not in the method synopsis itself. This flag is a useful hint that the method is probably implemented in a thread-safe manner.

Whether or not a method is thread-safe is part of the method specification, and this information should appear (although it often does not) in the method documentation. There are a number of different ways to make a method thread-safe, however, and declaring the method with the synchronized keyword is only one possible implementation. In other words, a method that does not bear the synchronized flag can still be thread-safe.


Indicates that a method overrides a method in one of its superclasses. The flag is followed by the name of the superclass that the method overrides. This is a specification detail, not an implementation detail. As we'll see in the next section, overriding methods are usually grouped together in their own section of the class synopsis. The Overrides: flag is used only when an overriding method is not grouped in that way.


Indicates that a method implements a method in an interface. The flag is followed by the name of the interface that is implemented. This is a specification detail, not an implementation detail. As we'll see in the next section, methods that implement an interface are usually grouped into a special section of the class synopsis. The Implements: flag is used only for methods that are not grouped in this way.


Indicates that the implementation of the method has an empty body. This can be a hint to the programmer that the method may need to be overridden in a subclass.


An implementation flag that indicates a method has a trivial implementation. Only methods with a void return type can be truly empty. Any method declared to return a value must have at least a return statement. The "constant" flag indicates the method implementation is empty except for a return statement that returns a constant value. Such a method might have a body like return null; or return false;. Like the "empty" flag, this flag indicates that a method may need to be overridden.


This flag is used with property accessor methods that read the value of a property (i.e., methods whose names begins with "get" and take no arguments). The flag is followed by the default value of the property. Strictly speaking, default property values are a specification detail. In practice, however, these defaults are not always documented, and care should be taken, because the default values may change between implementations.

Not all property accessors have a "default:" flag. A default value is determined by dynamically loading the class in question, instantiating it using a no-argument constructor, and then calling the method to find what it returns. This technique can be used only on classes that can be dynamically loaded and instantiated and that have no-argument constructors, so default values are shown for those classes only. Furthermore, note that when a class is instantiated using a different constructor, the default values for its properties may be different.


This flag is used with property accessor methods for bound properties of JavaBeans components. The presence of this flag means that calling the method generates a java.beans.PropertyChangeEvent. This is a specification detail, but it is sometimes not documented. Information about bound properties is obtained from the BeanInfo object for the class.


Indicates that a JavaBeans component property is constrained. In other words, the method may throw a java.beans.PropertyVetoException. This is a specification detail, not an implementation detail.


Indicates that the BeanInfo object for this class specifies this method is intended for use by experts only. This hint is intended for visual programming tools, but users of this book may find the hint useful as well.


Indicates that the BeanInfo object for this class specifies this method is for internal use only. This is a hint that visual programming tools should hide the property or event from the programmer. This book does not hide these methods, of course, but this flag indicates you should probably avoid using the method.


Indicates that the BeanInfo object for this class specifies that this method is an accessor for a default or preferred property or event. This is a hint to visual programming tools to display the property or event in a prominent way, and it may also be a useful hint to readers of this book.


For staticfinal fields, this flag is followed by the constant value of the field. Only constants of primitive and String types and constants with the value null are displayed. Some constant values are specification details, while others are implementation details. The reason that symbolic constants are defined, however, is so you can write code that does not rely directly upon the constant value. Use this flag to help you understand the class, but do not rely upon the constant values in your own programs.

2.3.2. Functional grouping of members

Within a class synopsis, the members are not listed in strict alphabetical order. Instead, they are broken into functional groups and listed alphabetically within each group. Constructors, methods, fields, and inner classes are listed separately. Instance methods are kept separate from static (class) methods. Constants are separated from nonconstant fields; public members are listed separately from protected members. Grouping members by category breaks a class down into smaller, more comprehensible segments, making the class easier to understand. This grouping also makes it easier for you to find a desired member.

Functional groups are separated from each other in a class synopsis with Java comments, such as "// Public Constructors", "// Inner Classes", and "// Methods Implementing Servlet". The various functional categories are as follows (in the order in which they appear in a class synopsis):


Displays the constructors for the class. Public constructors and protected constructors are displayed separately in subgroupings. If a class defines no constructor at all, the Java compiler adds a default no-argument constructor that is displayed here. If a class defines only private constructors, it cannot be instantiated, and a special, empty grouping entitled "No Constructor" indicates this fact. Constructors are listed first because the first thing you do with most classes is instantiate them by calling a constructor.


Displays all constants (i.e., fields that are declared static and final) defined by the class. Public and protected constants are displayed in separate subgroups. Constants are listed here, near the top of the class synopsis, because constant values are often used throughout the class as legal values for method parameters and return values.

Inner Classes

Groups all inner classes and interfaces defined by the class or interface. For each inner class, there is a single-line synopsis. Each inner class also has its own quick-reference entry that includes a full class synopsis for the inner class. Like constants, inner classes are listed near the top of the class synopsis because they are often used by other members of the class.

Static Methods

Lists the static methods (class methods) of the class, broken down into subgroups for public static methods and protected static methods.

Event Listener Registration Methods

Lists the public instance methods that register and deregister event listener objects with the class. The names of these methods begin with the words "add" and "remove" and end in "Listener." These methods are always passed a java.util.EventListener object, and are typically defined in pairs, so the pairs are listed together. The methods are listed alphabetically by event name, rather than by method name.

Public Instance Methods

Contains all public instance methods that are not grouped elsewhere.

Implementing Methods

Groups the methods that implement the same interface. There is one subgroup for each interface implemented by the class. Methods defined by the same interface are almost always related to each other, so this is a useful functional grouping of methods.

Overriding Methods

Groups the methods that override methods of a superclass broken into subgroups by superclass. This is typically a useful grouping, because it helps to make it clear how a class modifies the default behavior of its superclasses. In practice, it is also often true that methods that override the same superclass are functionally related to each other.

Protected Instance Methods

Contains all protected instance methods that are not grouped elsewhere.


Lists all nonconstant fields of the class, breaking them down into subgroups for public and protected static fields, and public and protected instance fields. Many classes do not define any publicly accessible fields. For those that do, many object-oriented programmers prefer not to use those fields directly, but instead to use accessor methods when such methods are available.

Deprecated Members

Deprecated methods and deprecated fields are grouped at the very bottom of the class synopsis. Use of these members is strongly discouraged.

2.4. Class Hierarchy

For any class or interface that has a nontrivial class hierarchy, the class synopsis is followed by a "Hierarchy" section. This section lists all superclasses of the class, as well as any interfaces implemented by those superclasses. It may also list any interfaces extended by an interface. In the hierarchy listing, arrows indicate superclass to subclass relationships, while the interfaces implemented by a class follow the class name in parentheses. For example, the following hierarchy indicates that javax.servlet.ServletException extends Exception, which extends Throwable (which implements Serializable), which extends Object:


If a class has subclasses, the "Hierarchy" section is followed by a "Subclasses" section that lists those subclasses. If an interface has implementations, the "Hierarchy" section is followed by an "Implementations" section that lists those implementations. While the "Hierarchy" section shows ancestors of the class, the "Subclasses" or "Implementations" section shows descendants.

2.5. Cross References

The class hierarchy section of a quick-reference entry is followed by a number of optional "cross reference" sections that indicate other, related classes and methods that may be of interest. These sections are:

Passed To

This section lists all methods and constructors that are passed an object of this type as an argument. This is useful when you have an object of a given type and want to figure out what you can do with it.

Returned By

This section lists all methods (but not constructors) that return an object of this type. This is useful when you know that you want to work with an object of this type, but don't know how to obtain one.

Thrown By

For checked exception classes, this section lists all methods and constructors that throw exceptions of this type. This material helps you figure out when a given exception or error may be thrown. Note, however, that this section is based on the exception types listed in the throws clauses of methods and constructors. Subclasses of RuntimeException and Error do not have to be listed in throws clauses, so it is not possible to generate a complete cross reference of methods that throw these types of unchecked exceptions.

Type Of

This section lists all of the fields and constants that are of this type, which can help you figure out how to obtain an object of this type.

2.6. A Note About Class Names

Throughout the quick reference, you'll notice that classes are sometimes referred to by class name alone and at other times referred to by class name and package name. If package names were always used, the class synopses would become long and hard to read. On the other hand, if package names were never used, it would sometimes be difficult to know what class was being referred to. The rules for including or omitting the package name are complex. They can be summarized approximately as follows, however:

  • If the class name alone is ambiguous, the package name is always used.

  • If the class is part of java.lang or java.io, the package name is omitted.

  • If the class being referred to is part of the current package (and has a quick-ref entry in the current chapter), the package name is omitted. The package name is also omitted if the class being referred to is part of a package that contains the current package. And it is sometimes omitted if the class being referred to is part of a subpackage of the current package.

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