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Updated : 16 Mar 2012

Namejavac − Java programming language compiler

SYNOPSIS
fl javac [ options ] [ sourcefiles ] [ classes ] [ @argfiles ] fl fl.fi Arguments may be in any order. options  Command−line options. sourcefiles  One or more source files to be compiled (such as MyClass.java). classes  One or more classes to be processed for annotations (such as MyPackage.MyClass). @argfiles  One or more files that lists options and source files. The −J options are not allowed in these files.
DESCRIPTION
The javac tool reads class and interface definitions, written in the Java programming language, and compiles them into bytecode class files. It can also process annotations in Java source files and classes. There are two ways to pass source code file names to javac: o  For a small number of source files, simply list the file names on the command line. o  For a large number of source files, list the file names in a file, separated by blanks or line breaks. Then use the list file name on the javac command line, preceded by an @ character. Source code file names must have .java suffixes, class file names must have .class suffixes, and both source and class files must have root names that identify the class. For example, a class called MyClass would be written in a source file called MyClass.java and compiled into a bytecode class file called MyClass.class. Inner class definitions produce additional class files. These class files have names combining the inner and outer class names, such as MyClass$MyInnerClass.class. You should arrange source files in a directory tree that reflects their package tree. For example, if you keep all your source files in /workspace, the source code for com.mysoft.mypack.MyClass should be in /workspace/com/mysoft/mypack/MyClass.java. By default, the compiler puts each class file in the same directory as its source file. You can specify a separate destination directory with −d (see Options, below).
OPTIONS
The compiler has a set of standard options that are supported on the current development environment and will be supported in future releases. An additional set of non−standard options are specific to the current virtual machine and compiler implementations and are subject to change in the future. Non−standard options begin with −X.
Standard Options
−Akey[=value]  Options to pass to annotation processors. These are not interpreted by javac directly, but are made available for use by individual processors. key should be one or more identifiers separated by ".". −cp path or −classpath path  Specify where to find user class files, and (optionally) annotation processors and source files. This class path overrides the user class path in the CLASSPATH environment variable. If neither CLASSPATH, −cp nor −classpath is specified, the user class path consists of the current directory. See Setting the Class Path for more details.

>If the
−sourcepath option is not specified, the user class path is also searched for source files.

If the
−processorpath option is not specified, the class path is also searched for annotation processors.
−Djava.ext.dirs=directories  Override the location of installed extensions. −Djava.endorsed.dirs=directories  Override the location of endorsed standards path. −d directory  Set the destination directory for class files. The directory must already exist; javac will not create it. If a class is part of a package, javac puts the class file in a subdirectory reflecting the package name, creating directories as needed. For example, if you specify −d /home/myclasses and the class is called com.mypackage.MyClass, then the class file is called /home/myclasses/com/mypackage/MyClass.class.

If
−d is not specified, javac puts each class files in the same directory as the source file from which it was generated.

Note: The directory specified by −d is not automatically added to your user class path.
−deprecation  Show a description of each use or override of a deprecated member or class. Without −deprecation, javac shows a summary of the source files that use or override deprecated members or classes. −deprecation is shorthand for −Xlint:deprecation. −encoding encoding  Set the source file encoding name, such as EUC−JP and UTF−8. If −encoding is not specified, the platform default converter is used. −endorseddirs directories  Override the location of endorsed standards path. −extdirs directories  Overrides the location of the ext directory. The directories variable is a colon−separated list of directories. Each JAR archive in the specified directories is searched for class files. All JAR archives found are automatically part of the class path.

If you are cross−compiling (compiling classes against bootstrap and extension classes of a different Java platform implementation), this option specifies the directories that contain the extension classes. See Cross−Compilation Options for more information.
−g  Generate all debugging information, including local variables. By default, only line number and source file information is generated. −g:none  Do not generate any debugging information. −g:{keyword list}  Generate only some kinds of debugging information, specified by a comma separated list of keywords. Valid keywords are: source  Source file debugging information lines  Line number debugging information vars  Local variable debugging information −help  Print a synopsis of standard options. −implicit:{class,none}  Controls the generation of class files for implicitly loaded source files. To automatically generate class files, use −implicit:class. To suppress class file generation, use −implicit:none. If this option is not specified, the default is to automatically generate class files. In this case, the compiler will issue a warning if any such class files are generated when also doing annotation processing. The warning will not be issued if this option is set explicitly. See Searching For Types. −Joption  Pass option to the java launcher called by javac. For example, −J−Xms48m sets the startup memory to 48 megabytes. It is a common convention for −J to pass options to the underlying VM executing applications written in Java.

Note: CLASSPATH, −classpath, −bootclasspath, and −extdirs do not specify the classes used to run javac. Fiddling with the implementation of the compiler in this way is usually pointless and always risky. If you do need to do this, use the −J option to pass through options to the underlying java launcher.
−nowarn  Disable warning messages. This has the same meaning as −Xlint:none. −proc: {none,only}  Controls whether annotation processing and/or compilation is done. −proc:none means that compilation takes place without annotation processing. −proc:only means that only annotation processing is done, without any subsequent compilation. −processor class1[,class2,class3...]  Names of the annotation processors to run. This bypasses the default discovery process. −processorpath path  Specify where to find annotation processors; if this option is not used, the class path will be searched for processors. −s dir  Specify the directory where to place generated source files. The directory must already exist; javac will not create it. If a class is part of a package, the compiler puts the source file in a subdirectory reflecting the package name, creating directories as needed. For example, if you specify −s /home/mysrc and the class is called com.mypackage.MyClass, then the source file will be placed in /home/mysrc/com/mypackage/MyClass.java. −source release  Specifies the version of source code accepted. The following values for release are allowed: 1.3  The compiler does not support assertions, generics, or other language features introduced after Java SE 1.3. 1.4  The compiler accepts code containing assertions, which were introduced in Java SE 1.4. 1.5  The compiler accepts code containing generics and other language features introduced in Java SE 5. 5  Synonym for 1.5. 1.6  No language changes were introduced in Java SE 6. However, encoding errors in source files are now reported as errors instead of warnings as in previous releases of Java SE. 6  Synonym for 1.6. 1.7  This is the default value. The compiler accepts code with features introduced in Java SE 7. 7  Synonym for 1.7. −sourcepath sourcepath  Specify the source code path to search for class or interface definitions. As with the user class path, source path entries are separated by colons (:) and can be directories, JAR archives, or ZIP archives. If packages are used, the local path name within the directory or archive must reflect the package name.

Note: Classes found through the class path may be subject to automatic recompilation if their sources are also found. See Searching For Types.
−verbose  Verbose output. This includes information about each class loaded and each source file compiled. −version  Print version information. −Werror  Terminate compilation if warnings occur. −X  Display information about non−standard options and exit.
Cross−Compilation Options
By default, classes are compiled against the bootstrap and extension classes of the platform that javac shipped with. But javac also supports cross−compiling, where classes are compiled against a bootstrap and extension classes of a different Java platform implementation. It is important to use −bootclasspath and −extdirs when cross−compiling; see Cross−Compilation Example below. −target version  Generate class files that target a specified version of the VM. Class files will run on the specified target and on later versions, but not on earlier versions of the VM. Valid targets are 1.1, 1.2, 1.3, 1.4, 1.5 (also 5), 1.6 (also 6), and 1.7 (also 7). The default for −target depends on the value of −source: o  If −source is not specified, the value of −target is 1.7 o  If −source is 1.2, the value of −target is 1.4 o  If −source is 1.3, the value of −target is 1.4 o  If −source is 1.5, the value of −target is 1.7 o  If −source is 1.6, the value of −target is 1.7 o  For all other values of −source, the value of −target is the value of −source. −bootclasspath bootclasspath  Cross−compile against the specified set of boot classes. As with the user class path, boot class path entries are separated by colons (:) and can be directories, JAR archives, or ZIP archives.
Non−Standard Options
−Xbootclasspath/p:path  Prepend to the bootstrap class path. −Xbootclasspath/a:path  Append to the bootstrap class path. −Xbootclasspath/:path  Override location of bootstrap class files. −Xlint  Enable all recommended warnings. In this release, enabling all available warnings is recommended. −Xlint:all  Enable all recommended warnings. In this release, enabling all available warnings is recommended. −Xlint:none  Disable all warnings. −Xlint:name  Enable warning name. See the section Warnings That Can Be Enabled or Disabled with −Xlint Option for a list of warnings you can enable with this option. −Xlint:−name  Disable warning name. See the section Warnings That Can Be Enabled or Disabled with −Xlint Option for a list of warnings you can disable with this option. −Xmaxerrs number  Set the maximum number of errors to print. −Xmaxwarns number  Set the maximum number of warnings to print. −Xstdout filename  Send compiler messages to the named file. By default, compiler messages go to System.err. −Xprefer:{newer,source}  Specify which file to read when both a source file and class file are found for a type. (See Searching For Types). If −Xprefer:newer is used, it reads the newer of the source or class file for a type (default). If the −Xprefer:source option is used, it reads source file. Use −Xprefer:source when you want to be sure that any annotation processors can access annotations declared with a retention policy of SOURCE. −Xpkginfo:{always,legacy,nonempty}  Specify handling of package−info files −Xprint  Print out textual representation of specified types for debugging purposes; perform neither annotation processing nor compilation. The format of the output may change. −XprintProcessorInfo  Print information about which annotations a processor is asked to process. −XprintRounds  Print information about initial and subsequent annotation processing rounds.
Warnings That Can Be Enabled or Disabled with −Xlint Option
Enable warning name with the option −Xlint:name, where name is one of the following warning names. Similarly, you can disable warning name with the option −Xlint:−name: cast  Warn about unnecessary and redundant casts. For example: flString s = (String)"Hello!" flclassfile  Warn about issues related to classfile contents. deprecation  Warn about use of deprecated items. For example: fl java.util.Date myDate = new java.util.Date(); fl int currentDay = myDate.getDay(); flThe method java.util.Date.getDay has been deprecated since JDK 1.1. dep−ann  Warn about items that are documented with an @deprecated Javadoc comment, but do not have a @Deprecated annotation. For example: fl /** fl * @deprecated As of Java SE 7, replaced by {@link #newMethod()} fl */ fl fl public static void deprecatedMethood() { } fl fl public static void newMethod() { } fldivzero  Warn about division by constant integer 0. For example: fl int divideByZero = 42 / 0; flempty  Warn about empty statements after if statements. For example: flclass E { fl void() { fl if (true) ; fl } fl} flfallthrough  Check switch blocks for fall−through cases and provide a warning message for any that are found. Fall−through cases are cases in a switch block, other than the last case in the block, whose code does not include a break statement, allowing code execution to "fall through" from that case to the next case. For example, the code following the case 1 label in this switch block does not end with a break statement: flswitch (x) { flcase 1: fl System.out.println("1"); fl // No break statement here. flcase 2: fl System.out.println("2"); fl} flIf the −Xlint:fallthrough flag were used when compiling this code, the compiler would emit a warning about "possible fall−through into case," along with the line number of the case in question. finally  Warn about finally clauses that cannot complete normally. For example: fl public static int m() { fl try { fl throw new NullPointerException(); fl } catch (NullPointerException e) { fl System.err.println("Caught NullPointerException."); fl return 1; fl } finally { fl return 0; fl } fl } flThe compiler generates a warning for finally block in this example. When this method is called, it returns a value of 0, not 1. A finally block always executes when the try block exits. In this example, if control is transferred to the catch, then the method exits. However, the finally block must be executed, so it is executed, even though control has already been transferred outside the method. options  Warn about issues relating to the use of command line options. See Cross−Compilation Example for an example of this kind of warning. overrides  Warn about issues regarding method overrides. For example, consider the following two classes: flpublic class ClassWithVarargsMethod { fl void varargsMethod(String... s) { } fl} fl flpublic class ClassWithOverridingMethod extends ClassWithVarargsMethod { fl @Override fl void varargsMethod(String[] s) { } fl} flThe compiler generates a warning similar to the following:

warning: [override] varargsMethod(String[]) in ClassWithOverridingMethod overrides varargsMethod(String...) in ClassWithVarargsMethod; overriding method is missing '...'

When the compiler encounters a varargs method, it translates the varargs formal parameter into an array. In the method
ClassWithVarargsMethod.varargsMethod, the compiler translates the varargs formal parameter String... s to the formal parameter String[] s, an array, which matches the formal parameter of the method ClassWithOverridingMethod.varargsMethod. Consequently, this example compiles.
path  Warn about invalid path elements and nonexistent path directories on the command line (with regards to the class path, the source path, and other paths). Such warnings cannot be suppressed with the @SuppressWarnings annotation. For example: fljavac −Xlint:path −classpath /nonexistentpath Example.java flprocessing  Warn about issues regarding annotation processing. The compiler generates this warning if you have a class that has an annotation, and you use an annotation processor that cannot handle that type of exception. For example, the following is a simple annotation processor:

Source file \f4AnnoProc.java\fP: flimport java.util.*; flimport javax.annotation.processing.*; flimport javax.lang.model.*; flimport javax.lang.model.element.*; fl fl@SupportedAnnotationTypes("NotAnno") flpublic class AnnoProc extends AbstractProcessor { fl public boolean process(Set<? extends TypeElement> elems, RoundEnvironment renv) { fl return true; fl } fl fl public SourceVersion getSupportedSourceVersion() { fl return(); fl } fl} flSource file \f4AnnosWithoutProcessors.java\fP\f3:\fP fl@interface Anno { } fl fl@Anno flclass AnnosWithoutProcessors { } flThe following commands compile the annotation processor AnnoProc, then run this annotation processor against the source file AnnosWithoutProcessors.java: fl% javac AnnoProc.java fl% javac −cp . −Xlint:processing −processor AnnoProc −proc:only AnnosWithoutProcessors.java fl.fi When the compiler runs the annotation processor against the source file AnnosWithoutProcessors.java, it generates the following warning:

warning: [processing] No processor claimed any of these annotations: Anno

To resolve this issue, you can rename the annotation defined and used in the class
AnnosWithoutProcessors from Anno to NotAnno.
rawtypes  Warn about unchecked operations on raw types. The following statement generates a rawtypes warning: flvoid countElements(List l) { ... } flThe following does not generate a rawtypes warning: flvoid countElements(List<?> l) { ... } flList is a raw type. However, List<?> is a unbounded wildcard parameterized type. Because List is a parameterized interface, you should always specify its type argument. In this example, the List formal argument is specified with a unbounded wildcard (?) as its formal type parameter, which means that the countElements method can accept any instantiation of the List interface. serial  Warn about missing serialVersionUID definitions on serializable classes. For example: flpublic class PersistentTime implements Serializable fl{ fl private Date time; fl fl public PersistentTime() { fl time = Calendar.getInstance().getTime(); fl } fl fl public Date getTime() { fl return time; fl } fl} flThe compiler generates the following warning:

warning: [serial] serializable class PersistentTime has no definition of serialVersionUID

If a serializable class does not explicitly declare a field named
serialVersionUID, then the serialization runtime will calculate a default serialVersionUID value for that class based on various aspects of the class, as described in the Java Object Serialization Specification. However, it is strongly recommended that all serializable classes explicitly declare serialVersionUID values because the default process of computing serialVersionUID vales is highly sensitive to class details that may vary depending on compiler implementations, and can thus result in unexpected InvalidClassExceptions during deserialization. Therefore, to guarantee a consistent serialVersionUID value across different Java compiler implementations, a serializable class must declare an explicit serialVersionUID value.
static  Warn about issues relating to use of statics. For example: flclass XLintStatic { fl static void m1() { } fl void() { this.m1(); } fl} flThe compiler generates the following warning: flwarning: [static] static method should be qualified by type name, XLintStatic, instead of by an expression flTo resolve this issue, you can call the static method m1 as follows: flXLintStatic.m1(); flAlternatively, you can remove the static keyword from the declaration of the method m1. try  Warn about issues relating to use of try blocks, including try−with−resources statements. For example, a warning is generated for the following statement because the resource ac declared in the try statement is not used: fltry ( AutoCloseable ac = getResource() ) { fl // do nothing fl} flunchecked  Give more detail for unchecked conversion warnings that are mandated by the Java Language Specification. For example: fl List l = new ArrayList<Number>(); fl List<String> ls = l; // unchecked warning flDuring type erasure, the types ArrayList<Number> and List<String> become ArrayList and List, respectively.

The variable
ls has the parameterized type List<String>. When the List referenced by l is assigned to ls, the compiler generates an unchecked warning; the compiler is unable to determine at compile time, and moreover knows that the JVM will not be able to determine at runtime, if l refers to a List<String> type; it does not. Consequently, heap pollution occurs.

In detail, a heap pollution situation occurs when the
List object l, whose static type is List<Number>, is assigned to another List object, ls, that has a different static type, List<String>. However, the compiler still allows this assignment. It must allow this assignment to preserve backwards compatibility with versions of Java SE that do not support generics. Because of type erasure, List<Number> and List<String> both become List. Consequently, the compiler allows the assignment of the object l, which has a raw type of List, to the object ls.
varargs  Warn about unsafe usages of variable arguments (varargs) methods, in particular, those that contain non−reifiable arguments. For example: flpublic class ArrayBuilder { fl public static <T> void addToList (List<T> listArg, T... elements) { fl for (T x : elements) { fl listArg.add(x); fl } fl } fl} flThe compiler generates the following warning for the definition of the method ArrayBuilder.addToList: flwarning: [varargs] Possible heap pollution from parameterized vararg type T flWhen the compiler encounters a varargs method, it translates the varargs formal parameter into an array. However, the Java programming language does not permit the creation of arrays of parameterized types. In the method ArrayBuilder.addToList, the compiler translates the varargs formal parameter T... elements to the formal parameter T[] elements, an array. However, because of type erasure, the compiler converts the varargs formal parameter to Object[] elements. Consequently, there is a possibility of heap pollution.
COMMAND LINE ARGUMENT FILES
To shorten or simplify the javac command line, you can specify one or more files that themselves contain arguments to the javac command (except −J options). This enables you to create javac commands of any length on any operating system. An argument file can include javac options and source filenames in any combination. The arguments within a file can be space−separated or newline−separated. If a filename contains embedded spaces, put the whole filename in double quotes. Filenames within an argument file are relative to the current directory, not the location of the argument file. Wildcards (*) are not allowed in these lists (such as for specifying *.java). Use of the '@' character to recursively interpret files is not supported. The −J options are not supported because they are passed to the launcher, which does not support argument files. When executing javac, pass in the path and name of each argument file with the '@' leading character. When javac encounters an argument beginning with the character `@', it expands the contents of that file into the argument list.
Example − Single Arg File
You could use a single argument file named "argfile" to hold all javac arguments: fl% javac @argfile fl.fi This argument file could contain the contents of both files shown in the next example.
Example − Two Arg Files
You can create two argument files −− one for the javac options and the other for the source filenames: (Notice the following lists have no line−continuation characters.) Create a file named "options" containing: fl −d classes fl −g fl −sourcepath /java/pubs/ws/1.3/src/share/classes fl flCreate a file named "classes" containing: fl MyClass1.java fl MyClass2.java fl MyClass3.java fl flYou would then run javac with: fl % javac @options @classes fl fl.fi
Example − Arg Files with Paths
The argument files can have paths, but any filenames inside the files are relative to the current working directory (not path1 or path2): fl% javac @path1/options @path2/classes fl.fi
ANNOTATION PROCESSING
javac provides direct support for annotation processing, superseding the need for the separate annotation processing tool, apt. The API for annotation processors is defined in the javax.annotation.processing and javax.lang.model packages and subpackages.
Overview of annotation processing
Unless annotation processing is disabled with the −proc:none option, the compiler searches for any annotation processors that are available. The search path can be specified with the −processorpath option; if it is not given, the user class path is used. Processors are located by means of service provider−configuration files named META−INF/services/javax.annotation.processing.Processor on the search path. Such files should contain the names of any annotation processors to be used, listed one per line. Alternatively, processors can be specified explicitly, using the −processor option. After scanning the source files and classes on the command line to determine what annotations are present, the compiler queries the processors to determine what annotations they process. When a match is found, the processor will be invoked. A processor may "claim" the annotations it processes, in which case no further attempt is made to find any processors for those annotations. Once all annotations have been claimed, the compiler does not look for additional processors. If any processors generate any new source files, another round of annotation processing will occur: any newly generated source files will be scanned, and the annotations processed as before. Any processors invoked on previous rounds will also be invoked on all subsequent rounds. This continues until no new source files are generated. After a round occurs where no new source files are generated, the annotation processors will be invoked one last time, to give them a chance to complete any work they may need to do. Finally, unless the −proc:only option is used, the compiler will compile the original and all the generated source files.
Implicitly loaded source files
To compile a set of source files, the compiler may need to implicitly load additional source files. (See Searching For Types). Such files are currently not subject to annotation processing. By default, the compiler will give a warning if annotation processing has occurred and any implicitly loaded source files are compiled. See the −implicit option for ways to suppress the warning.
SEARCHING FOR TYPES
When compiling a source file, the compiler often needs information about a type whose definition did not appear in the source files given on the command line. The compiler needs type information for every class or interface used, extended, or implemented in the source file. This includes classes and interfaces not explicitly mentioned in the source file but which provide information through inheritance. For example, when you subclass java.applet.Applet, you are also using Applet's ancestor classes: java.awt.Panel, java.awt.Container, java.awt.Component, and java.lang.Object. When the compiler needs type information, it looks for a source file or class file which defines the type. The compiler searches for class files first in the bootstrap and extension classes, then in the user class path (which by default is the current directory). The user class path is defined by setting the CLASSPATH environment variable or by using the −classpath command line option. (For details, see Setting the Class Path). If you set the −sourcepath option, the compiler searches the indicated path for source files; otherwise the compiler searches the user class path for both class files and source files. You can specify different bootstrap or extension classes with the −bootclasspath and −extdirs options; see Cross−Compilation Options below. A successful type search may produce a class file, a source file, or both. If both are found, you can use the −Xprefer option to instruct the compiler which to use. If newer is given, the compiler will use the newer of the two files. If source is given, it will use the source file. The default is newer. If a type search finds a source file for a required type, either by itself, or as a result of the setting for −Xprefer, the compiler will read the source file to get the information it needs. In addition, it will by default compile the source file as well. You can use the −implicit option to specify the behavior. If none is given, no class files will be generated for the source file. If class is given, class files will be generated for the source file. The compiler may not discover the need for some type information until after annotation processing is complete. If the type information is found in a source file and no −implicit option is given, the compiler will give a warning that the file is being compiled without being subject to annotation processing. To disable the warning, either specify the file on the command line (so that it will be subject to annotation processing) or use the −implicit option to specify whether or not class files should be generated for such source files.
PROGRAMMATIC INTERFACE
javac supports the new Java Compiler API defined by the classes and interfaces in the javax.tools package.
Example
To perform a compilation using arguments as you would give on the command line, you can use the following: flJavaCompiler javac = ToolProvider.getSystemJavaCompiler(); flint rc = javac.run(null, null, null, args); flThis will write any diagnostics to the standard output stream, and return the exit code that javac would give when invoked from the command line. You can use other methods on the javax.tools.JavaCompiler interface to handle diagnostics, control where files are read from and written to, and so on.
Old Interface
Note: This API is retained for backwards compatibility only; all new code should use the Java Compiler API, described above. The com.sun.tools.javac.Main class provides two static methods to invoke the compiler from a program: flpublic static int compile(String[] args); flpublic static int compile(String[] args, PrintWriter out); flThe args parameter represents any of the command line arguments that would normally be passed to the javac program and are outlined in the above Synopsis section. The out parameter indicates where the compiler's diagnostic output is directed. The return value is equivalent to the exit value from javac. Note that all other classes and methods found in a package whose name starts with com.sun.tools.javac (informally known as sub−packages of com.sun.tools.javac) are strictly internal and subject to change at any time.
EXAMPLES

Compiling a Simple Program
One source file, Hello.java, defines a class called greetings.Hello. The greetings directory is the package directory both for the source file and the class file and is off the current directory. This allows us to use the default user class path. It also makes it unnecessary to specify a separate destination directory with −d. fl% ls flgreetings/ fl% ls greetings flHello.java fl% cat greetings/Hello.java flpackage greetings; fl flpublic class Hello { fl public static void main(String[] args) { fl for (int i=0; i < args.length; i++) { fl System.out.println("Hello " + args[i]); fl } fl } fl} fl% javac greetings/Hello.java fl% ls greetings flHello.class Hello.java fl% java greetings.Hello World Universe Everyone flHello World flHello Universe flHello Everyone fl.fi
Compiling Multiple Source Files
This example compiles all the source files in the package greetings. fl% ls flgreetings/ fl% ls greetings flAloha.java GutenTag.java Hello.java Hi.java fl% javac greetings/*.java fl% ls greetings flAloha.class GutenTag.class Hello.class Hi.class flAloha.java GutenTag.java Hello.java Hi.java fl.fi
Specifying a User Class Path
Having changed one of the source files in the previous example, we recompile it: fl% pwd fl/examples fl% javac greetings/Hi.java fl.fi Since greetings.Hi refers to other classes in the greetings package, the compiler needs to find these other classes. The example above works, because our default user class path happens to be the directory containing the package directory. But suppose we want to recompile this file and not worry about which directory we're in? Then we need to add /examples to the user class path. We can do this by setting CLASSPATH, but here we'll use the −classpath option. fl% javac −classpath /examples /examples/greetings/Hi.java fl.fi If we change greetings.Hi again, to use a banner utility, that utility also needs to be accessible through the user class path. fl% javac −classpath /examples:/lib/Banners.jar   fl /examples/greetings/Hi.java fl.fi To execute a class in greetings, we need access both to greetings and to the classes it uses. fl% java −classpath /examples:/lib/Banners.jar greetings.Hi fl.fi
Separating Source Files and Class Files
It often makes sense to keep source files and class files in separate directories, especially on large projects. We use −d to indicate the separate class file destination. Since the source files are not in the user class path, we use −sourcepath to help the compiler find them. fl% ls flclasses/ lib/ src/ fl% ls src flfarewells/ fl% ls src/farewells flBase.java GoodBye.java fl% ls lib flBanners.jar fl% ls classes fl% javac −sourcepath src −classpath classes:lib/Banners.jar   fl src/farewells/GoodBye.java −d classes fl% ls classes flfarewells/ fl% ls classes/farewells flBase.class GoodBye.class fl.fi Note: The compiler compiled src/farewells/Base.java, even though we didn't specify it on the command line. To trace automatic compiles, use the −verbose option.
Cross−Compilation Example
The following example uses javac to compile code that will run on a 1.6 VM. fl% javac −source 1.6 −target 1.6 −bootclasspath jdk1.6.0/lib/rt.jar   fl −extdirs "" OldCode.java fl.fi The −source 1.6 option specifies that version 1.6 (or 6) of the Java programming language be used to compile OldCode.java. The option −target 1.6 option ensures that the generated class files will be compatible with 1.6 VMs. Note that in most cases, the value of the −target option is the value of the −source option; in this example, you can omit the −target option. You must specify the −bootclasspath option to specify the correct version of the bootstrap classes (the rt.jar library). If not, the compiler generates a warning: fl% javac −source 1.6 OldCode.java flwarning: [options] bootstrap class path not set in conjunction with −source 1.6 fl.fi If you do not specify the correct version of bootstrap classes, the compiler will use the old language rules (in this example, it will use version 1.6 of the Java programming language) combined with the new bootstrap classes, which can result in class files that do not work on the older platform (in this case, Java SE 6) because reference to non−existent methods can get included.
SEE ALSO
o  The javac Guide @ .fi http://docs.oracle.com/javase/7/docs/technotes/guides/javac/index.html o  java(1) − the Java Application Launcher o  jdb(1) − Java Application Debugger o  javah(1) − C Header and Stub File Generator o  javap(1) − Class File Disassembler o  javadoc(1) − API Documentation Generator o  jar(1) − JAR Archive Tool o  The Java Extensions Framework @ .fi http://docs.oracle.com/javase/7/docs/technotes/guides/extensions/index.html
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