javac-java-1.8.0-openjdk-1.8.0.31-5.b13.fc21.x86_64 (1) - Linux Manuals
javac-java-1.8.0-openjdk-1.8.0.31-5.b13.fc21.x86_64: Reads Java class and interface definitions and compiles them into bytecode and class files.
NAME
javac - Reads Java class and interface definitions and compiles them into bytecode and class files.
SYNOPSIS
-
javac [ options ] [ sourcefiles ] [ classes] [ @argfiles ]
Arguments can be in any order:
options
- Command-line options. See 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 list options and source files. The -J options are not allowed in these files. See Command-Line Argument Files.
DESCRIPTION
The javac command reads class and interface definitions, written in the Java programming language, and compiles them into bytecode class files. The javac command can also process annotations in Java source files and classes.
There are two ways to pass source code file names to javac.
- • For a small number of source files, list the file names on the command line.
- • For a large number of source files, list the file names in a file that is separated by blanks or line breaks. Use the list file name preceded by an at sign (@) with the javac command.
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 that combine the inner and outer class names, such as MyClass$MyInnerClass.class.
Arrange source files in a directory tree that reflects their package tree. For example, if all of your source files are in /workspace, then put the source code for com.mysoft.mypack.MyClass 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 the -d option.
OPTIONS
The compiler has a set of standard options that are supported on the current development environment. An additional set of nonstandard options are specific to the current virtual machine and compiler implementations and are subject to change in the future. Nonstandard options begin with the -X option.
- • See also Cross-Compilation Options
- • See also Nonstandard Options
Standard Options
-Akey[=value]
- Specifies options to pass to annotation processors. These options are not interpreted by javac directly, but are made available for use by individual processors. The key value should be one or more identifiers separated by a dot (.).
-cp path or -classpath path
-
Specifies 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, then the user
class path
is the current directory. See Setting the Class Path .
If the -sourcepath option is not specified, then the user class path is also searched for source files.
If the -processorpath option is not specified, then the class path is also searched for annotation processors.
-Djava.ext.dirs=directories
- Overrides the location of installed extensions.
-Djava.endorsed.dirs=directories
- Overrides the location of the endorsed standards path.
-d directory
-
Sets the destination directory for class files. The directory must already exist because
javac
does not create it. If a class is part of a package, then
javac
puts the class file in a subdirectory that reflects the package name and creates directories as needed.
If you specify -d /home/myclasses and the class is called com.mypackage.MyClass, then the class file is /home/myclasses/com/mypackage/MyClass.class.
If the -d option is not specified, then javac puts each class file in the same directory as the source file from which it was generated.
Note: The directory specified by the -d option is not automatically added to your user class path.
-deprecation
- Shows a description of each use or override of a deprecated member or class. Without the -deprecation option, javac shows a summary of the source files that use or override deprecated members or classes. The -deprecation option is shorthand for -Xlint:deprecation.
-encoding encoding
- Sets the source file encoding name, such as EUC-JP and UTF-8. If the -encoding option is not specified, then the platform default converter is used.
-endorseddirs directories
- Overrides the location of the endorsed standards path.
-extdirs directories
-
Overrides the location of the
ext
directory. The directories variable is a colon-separated list of directories. Each JAR file in the specified directories is searched for class files. All JAR files found become part of the class path.
If you are cross-compiling (compiling classes against bootstrap and extension classes of a different Java platform implementation), then this option specifies the directories that contain the extension classes. See Cross-Compilation Options for more information.
-g
- Generates all debugging information, including local variables. By default, only line number and source file information is generated.
-g:none
- Does not generate any debugging information.
-g:[keyword list]
-
Generates 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
- Prints 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, then the default is to automatically generate class files. In this case, the compiler issues a warning if any such class files are generated when also doing annotation processing. The warning is not issued when the -implicit option is set explicitly. See Searching for Types.
-Joption
-
Passes
option
to the Java Virtual Machine (JVM), where option is one of the options described on the reference page for the Java launcher. For example,
-J-Xms48m
sets the startup memory to 48 MB. See
java(1).
Note: The CLASSPATH, -classpath, -bootclasspath, and -extdirs options do not specify the classes used to run javac. Trying to customize the compiler implementation with these options and variables is risky and often does not accomplish what you want. If you must customize the complier implementation, then use the -J option to pass options through to the underlying Java launcher.
-nowarn
- Disables warning messages. This option operates the same as the -Xlint:none option.
-parameters
- Stores formal parameter names of constructors and methods in the generated class file so that the method java.lang.reflect.Executable.getParameters from the Reflection API can retrieve them.
-proc: [none, only]
- Controls whether annotation processing and compilation are 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
- Specifies where to find annotation processors. If this option is not used, then the class path is searched for processors.
-s dir
-
Specifies the directory where to place the generated source files. The directory must already exist because
javac
does not create it. If a class is part of a package, then the compiler puts the source file in a subdirectory that reflects the package name and creates directories as needed.
If you specify -s /home/mysrc and the class is called com.mypackage.MyClass, then the source file is put 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 earlier releases of Java Platform, Standard Edition.
6
- Synonym for 1.6.
1.7
- The compiler accepts code with features introduced in Java SE 7.
7
- Synonym for 1.7.
1.8
- This is the default value. The compiler accepts code with features introduced in Java SE 8.
8
- Synonym for 1.8.
-sourcepath sourcepath
-
Specifies the source code path to search for class or interface definitions. As with the user class path, source path entries are separated by colons (:) on Oracle Solaris and semicolons on Windows and can be directories, JAR archives, or ZIP archives. If packages are used, then the local path name within the directory or archive must reflect the package name.
Note: Classes found through the class path might be recompiled when their source files are also found. See Searching for Types.
-verbose
- Uses verbose output, which includes information about each class loaded and each source file compiled.
-version
- Prints release information.
-werror
- Terminates compilation when warnings occur.
-X
- Displays information about nonstandard options and exits.
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 the -bootclasspath and -extdirs options when cross-compiling.
-target version
-
Generates class files that target a specified release of the virtual machine. Class files will run on the specified target and on later releases, but not on earlier releases of the JVM. Valid targets are 1.1, 1.2, 1.3, 1.4, 1.5 (also 5), 1.6 (also 6), 1.7 (also 7), and 1.8 (also 8).
The default for the -target option depends on the value of the -source option:
- • If the -source option is not specified, then the value of the -target option is 1.8
- • If the -source option is 1.2, then the value of the -target option is 1.4
- • If the -source option is 1.3, then the value of the -target option is 1.4
- • If the -source option is 1.5, then the value of the -target option is 1.8
- • If the -source option is 1.6, then the value of the -target is option 1.8
- • If the -source option is 1.7, then the value of the -target is option 1.8
- • For all other values of the -source option, the value of the -target option is the value of the -source option.
-bootclasspath bootclasspath
- Cross-compiles 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.
Compact Profile Option
Beginning with JDK 8, the javac compiler supports compact profiles. With compact profiles, applications that do not require the entire Java platform can be deployed and run with a smaller footprint. The compact profiles feature could be used to shorten the download time for applications from app stores. This feature makes for more compact deployment of Java applications that bundle the JRE. This feature is also useful in small devices.
The supported profile values are compact1, compact2, and compact3. These are additive layers. Each higher-numbered compact profile contains all of the APIs in profiles with smaller number names.
-profile
-
When using compact profiles, this option specifies the profile name when compiling. For example:
-
javac -profile compact1 Hello.java
-
cd jdk1.8.0/bin ./javac -profile compact1 Paint.java Paint.java:5: error: Applet is not available in profile 'compact1' import java.applet.Applet;
An alternative way to compile with compact profiles is to use the -bootclasspath option to specify a path to an rt.jar file that specifies a profile's image. Using the -profile option instead does not require a profile image to be present on the system at compile time. This is useful when cross-compiling.
-
Nonstandard Options
-Xbootclasspath/p:path
- Adds a suffix to the bootstrap class path.
-Xbootclasspath/a:path
- Adds a prefix to the bootstrap class path.
-Xbootclasspath/:path
- Overrides the location of the bootstrap class files.
-Xdoclint:[-]group [/access]
-
Enables or disables specific groups of checks, where
group
is one of the following values:
accessibility,
syntax,
reference,
html
or
missing. For more information about these groups of checks see the
-Xdoclint
option of the
javadoc
command. The
-Xdoclint
option is disabled by default in the
javac
command.
The variable access specifies the minimum visibility level of classes and members that the -Xdoclint option checks. It can have one of the following values (in order of most to least visible) : public, protected, package and private. For example, the following option checks classes and members (with all groups of checks) that have the access level protected and higher (which includes protected, package and public):
-
-Xdoclint:all/protected
-
-Xdoclint:all,-html/package
-
-Xdoclint:none
- Disables all groups of checks.
-Xdoclint:all[/access]
- Enables all groups of checks.
-Xlint
- Enables all recommended warnings. In this release, enabling all available warnings is recommended.
-Xlint:all
- Enables all recommended warnings. In this release, enabling all available warnings is recommended.
-Xlint:none
- Disables all warnings.
-Xlint:name
- Disables warning name. See Enable or Disable Warnings with the -Xlint Option for a list of warnings you can disable with this option.
-Xlint:-name
- Disables warning name. See Enable or Disable Warnings with the -Xlint Option with the -Xlint option to get a list of warnings that you can disable with this option.
-Xmaxerrs number
- Sets the maximum number of errors to print.
-Xmaxwarns number
- Sets the maximum number of warnings to print.
-Xstdout filename
- Sends compiler messages to the named file. By default, compiler messages go to System.err.
-Xprefer:[newer,source]
- Specifies which file to read when both a source file and class file are found for a type. (See Searching for Types). If the -Xprefer:newer option is used, then it reads the newer of the source or class file for a type (default). If the -Xprefer:source option is used, then it reads the 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]
-
Control whether javac generates
package-info.class
files from package-info.java files. Possible mode arguments for this option include the following.
always
- Always generate a package-info.class file for every package-info.java file. This option may be useful if you use a build system such as Ant, which checks that each .java file has a corresponding .class file.
legacy
-
Generate a
package-info.class
file only if package-info.java contains annotations. Don't generate a
package-info.class
file if package-info.java only contains comments.
Note: A package-info.class file might be generated but be empty if all the annotations in the package-info.java file have RetentionPolicy.SOURCE.
nonempty
- Generate a package-info.class file only if package-info.java contains annotations with RetentionPolicy.CLASS or RetentionPolicy.RUNTIME.
-Xprint
- Prints a textual representation of specified types for debugging purposes. Perform neither annotation processing nor compilation. The format of the output could change.
-XprintProcessorInfo
- Prints information about which annotations a processor is asked to process.
-XprintRounds
- Prints information about initial and subsequent annotation processing rounds.
ENABLE OR DISABLE WARNINGS WITH THE -XLINT OPTION
Enable warning name with the -Xlint:name option, where name is one of the following warning names. Note that you can disable a warning with the -Xlint:-name: option.
cast
-
Warns about unnecessary and redundant casts, for example:
-
String s = (String) "Hello!"
-
classfile
- Warns about issues related to class file contents.
deprecation
-
Warns about the use of deprecated items, for example:
-
java.util.Date myDate = new java.util.Date(); int currentDay = myDate.getDay();
-
dep-ann
-
Warns about items that are documented with an
@deprecated
Javadoc comment, but do not have a
@Deprecated
annotation, for example:
-
/** * @deprecated As of Java SE 7, replaced by {@link #newMethod()} */ public static void deprecatedMethood() { } public static void newMethod() { }
-
divzero
-
Warns about division by the constant integer 0, for example:
-
int divideByZero = 42 / 0;
-
empty
-
Warns about empty statements after
if statements, for example:
-
class E { void m() { if (true) ; } }
-
fallthrough
-
Checks the switch blocks for fall-through cases and provides 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:
-
switch (x) { case 1: System.out.println("1"); // No break statement here. case 2: System.out.println("2"); }
-
finally
-
Warns about
finally
clauses that cannot complete normally, for example:
-
public static int m() { try { throw new NullPointerException(); } catch (NullPointerException(); { System.err.println("Caught NullPointerException."); return 1; } finally { return 0; } }
-
options
- Warns about issues that related to the use of command-line options. See Cross-Compilation Options.
overrides
-
Warns about issues regarding method overrides. For example, consider the following two classes:
-
public class ClassWithVarargsMethod { void varargsMethod(String... s) { } } public class ClassWithOverridingMethod extends ClassWithVarargsMethod { @Override void varargsMethod(String[] s) { } }
-
warning: [override] varargsMethod(String[]) in ClassWithOverridingMethod overrides varargsMethod(String...) in ClassWithVarargsMethod; overriding method is missing '...'
-
path
-
Warns about invalid path elements and nonexistent path directories on the command line (with regard to the class path, the source path, and other paths). Such warnings cannot be suppressed with the
@SuppressWarnings
annotation, for example:
-
javac -Xlint:path -classpath /nonexistentpath Example.java
-
processing
-
Warn about issues regarding annotation processing. The compiler generates this warning when 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 AnnocProc.java:
-
import java.util.*; import javax.annotation.processing.*; import javax.lang.model.*; import.javaz.lang.model.element.*; @SupportedAnnotationTypes("NotAnno") public class AnnoProc extends AbstractProcessor { public boolean process(Set<? extends TypeElement> elems, RoundEnvironment renv){ return true; } public SourceVersion getSupportedSourceVersion() { return SourceVersion.latest(); } }
-
@interface Anno { } @Anno class AnnosWithoutProcessors { }
-
javac AnnoProc.java javac -cp . -Xlint:processing -processor AnnoProc -proc:only AnnosWithoutProcessors.java
-
warning: [processing] No processor claimed any of these annotations: Anno
-
rawtypes
-
Warns about unchecked operations on raw types. The following statement generates a
rawtypes
warning:
-
void countElements(List l) { ... }
-
void countElements(List<?> l) { ... }
-
Serial
-
Warns about missing
serialVersionUID
definitions on serializable classes, for example:
-
public class PersistentTime implements Serializable { private Date time; public PersistentTime() { time = Calendar.getInstance().getTime(); } public Date getTime() { return time; } }
-
warning: [serial] serializable class PersistentTime has no definition of serialVersionUID
-
static
-
Warns about issues relating to the use of statics, for example:
-
class XLintStatic { static void m1() { } void m2() { this.m1(); } }
-
warning: [static] static method should be qualified by type name, XLintStatic, instead of by an expression
-
XLintStatic.m1();
-
try
-
Warns 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
block is not used:
-
try ( AutoCloseable ac = getResource() ) { // do nothing}
-
unchecked
-
Gives more detail for unchecked conversion warnings that are mandated by the Java Language Specification, for example:
-
List l = new ArrayList<Number>(); List<String> ls = l; // unchecked warning
The ls command has the parameterized type List<String>. When the List referenced by l is assigned to ls, the compiler generates an unchecked warning. At compile time, the compiler and JVM cannot determine whether l refers to a List<String> type. In this case, l does not refer to a List<String> type. As a result, heap pollution occurs.
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 backward compatibility with releases 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
-
Warns about unsafe usages of variable arguments (varargs) methods, in particular, those that contain non-reifiable arguments, for example:
-
public class ArrayBuilder { public static <T> void addToList (List<T> listArg, T... elements) { for (T x : elements) { listArg.add(x); } } }
The compiler generates the following warning for the definition of the method ArrayBuilder.addToList
-
warning: [varargs] Possible heap pollution from parameterized vararg type T
-
COMMAND-LINE ARGUMENT FILES
To shorten or simplify the javac command, you can specify one or more files that 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 file names in any combination. The arguments within a file can be separated by spaces or new line characters. If a file name contains embedded spaces, then put the whole file name in double quotation marks.
File Names within an argument file are relative to the current directory, not the location of the argument file. Wild cards (*) are not allowed in these lists (such as for specifying *.java). Use of the at sign (@) 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 the javac command, pass in the path and name of each argument file with the at sign (@) leading character. When the javac command encounters an argument beginning with the at sign (@), it expands the contents of that file into the argument list.
Example 1
Single Argument File
-
You could use a single argument file named
argfile
to hold all
javac
arguments:
-
javac @argfile
-
Example 2
Two Argument Files
-
You can create two argument files: one for the
javac
options and the other for the source file names. Note that the following lists have no line-continuation characters.
Create a file named options that contains the following:
-
-d classes
-
-g
-
-sourcepath /java/pubs/ws/1.3/src/share/classes
-
MyClass1.java MyClass2.java MyClass3.java
-
javac @options @classes
-
Example 3
Argument Files with Paths
-
The argument files can have paths, but any file names inside the files are relative to the current working directory (not
path1
or
path2):
-
javac @path1/options @path2/classes
-
ANNOTATION PROCESSING
The javac command provides direct support for annotation processing, superseding the need for the separate annotation processing command, apt.
The API for annotation processors is defined in the javax.annotation.processing and javax.lang.model packages and subpackages.
How Annotation Processing Works
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 no path is specified, then 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 is called. A processor can claim the annotations it processes, in which case no further attempt is made to find any processors for those annotations. After all of the annotations are claimed, the compiler does not search for additional processors.
If any processors generate new source files, then another round of annotation processing occurs: Any newly generated source files are scanned, and the annotations processed as before. Any processors called on previous rounds are also called 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 are called one last time, to give them a chance to complete any remaining work. Finally, unless the -proc:only option is used, the compiler compiles the original and all generated source files.
Implicitly Loaded Source Files
To compile a set of source files, the compiler might need to implicitly load additional source files. See Searching for Types. Such files are currently not subject to annotation processing. By default, the compiler gives a warning when annotation processing occurred and any implicitly loaded source files are compiled. The -implicit option provides a way to suppress the warning.
SEARCHING FOR TYPES
To compile a source file, the compiler often needs information about a type, but the type definition is not in the source files specified 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 that provide information through inheritance.
For example, when you create a subclass java.applet.Applet, you are also using the ancestor classes of Applet: java.awt.Panel, java.awt.Container, java.awt.Component, and java.lang.Object.
When the compiler needs type information, it searches for a source file or class file that 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 option.
If you set the -sourcepath option, then 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 the -extdirs options. See Cross-Compilation Options.
A successful type search may produce a class file, a source file, or both. If both are found, then you can use the -Xprefer option to instruct the compiler which to use. If newer is specified, then the compiler uses the newer of the two files. If source is specified, the compiler uses 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 the -Xprefer option, then the compiler reads the source file to get the information it needs. By default the compiler also compiles the source file. You can use the -implicit option to specify the behavior. If none is specified, then no class files are generated for the source file. If class is specified, then class files are generated for the source file.
The compiler might not discover the need for some type information until after annotation processing completes. When the type information is found in a source file and no -implicit option is specified, the compiler gives 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
The javac command supports the new Java Compiler API defined by the classes and interfaces in the javax.tools package.
Example
To compile as though providing command-line arguments, use the following syntax:
-
JavaCompiler javac = ToolProvider.getSystemJavaCompiler();
The example writes diagnostics to the standard output stream and returns the exit code that javac would give when called from the command line.
You can use other methods in the javax.tools.JavaCompiler interface to handle diagnostics, control where files are read from and written to, and more.
Old Interface
Note: This API is retained for backward compatibility only. All new code should use the newer Java Compiler API.
The com.sun.tools.javac.Main class provides two static methods to call the compiler from a program:
-
public static int compile(String[] args); public static int compile(String[] args, PrintWriter out);
The args parameter represents any of the command-line arguments that would typically be passed to the compiler.
The out parameter indicates where the compiler diagnostic output is directed.
The return value is equivalent to the exit value from javac.
Note: All other classes and methods found in a package with names that start with com.sun.tools.javac (subpackages of com.sun.tools.javac) are strictly internal and subject to change at any time.
EXAMPLES
Example 1
Compile a Simple Program
-
This example shows how to compile the
Hello.java
source file in the greetings directory. The class defined in
Hello.java
is called
greetings.Hello. The greetings directory is the package directory both for the source file and the class file and is underneath the current directory. This makes it possible to use the default user class path. It also makes it unnecessary to specify a separate destination directory with the
-d
option.
The source code in Hello.java:
-
package greetings; public class Hello { public static void main(String[] args) { for (int i=0; i < args.length; i++) { System.out.println("Hello " + args[i]); } } }
-
javac greetings/Hello.java
-
java greetings.Hello World Universe Everyone Hello World Hello Universe Hello Everyone
-
Example 2
Compile Multiple Source Files
-
This example compiles the
Aloha.java,
GutenTag.java,
Hello.java, and
Hi.java
source files in the
greetings
package.
-
% javac greetings/*.java % ls greetings Aloha.class GutenTag.class Hello.class Hi.class Aloha.java GutenTag.java Hello.java Hi.java
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Example 3
Specify a User Class Path
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After changing one of the source files in the previous example, recompile it:
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pwd /examples javac greetings/Hi.java
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javac -classpath /examples /examples/greetings/Hi.java
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javac -classpath /examples:/lib/Banners.jar \ /examples/greetings/Hi.java
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java -classpath /examples:/lib/Banners.jar greetings.Hi
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Example 4
Separate Source Files and Class Files
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The following example uses
javac
to compile code that runs on JVM 1.7.
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javac -source 1.7 -target 1.7 -bootclasspath jdk1.7.0/lib/rt.jar \ -extdirs "" OldCode.java
You must specify the -bootclasspath option to specify the correct version of the bootstrap classes (the rt.jar library). If not, then the compiler generates a warning:
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javac -source 1.7 OldCode.java warning: [options] bootstrap class path not set in conjunction with -source 1.7
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Example 5
Cross Compile
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This example uses
javac
to compile code that runs on JVM 1.7.
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javac -source 1.7 -target 1.7 -bootclasspath jdk1.7.0/lib/rt.jar \ -extdirs "" OldCode.java
You must specify the -bootclasspath option to specify the correct version of the bootstrap classes (the rt.jar library). If not, then the compiler generates a warning:
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javac -source 1.7 OldCode.java warning: [options] bootstrap class path not set in conjunction with -source 1.7
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