Jar specify java version
You can use the jar command to create an archive for classes and resources, and to manipulate or restore individual classes or resources from an archive.
jar [OPTION. ] [ [--release VERSION] [-C dir] files] .
The jar command is a general-purpose archiving and compression tool, based on the ZIP and ZLIB compression formats. Initially, the jar command was designed to package Java applets (not supported since JDK 11) or applications; however, beginning with JDK 9, users can use the jar command to create modular JARs. For transportation and deployment, it’s usually more convenient to package modules as modular JARs.
The syntax for the jar command resembles the syntax for the tar command. It has several main operation modes, defined by one of the mandatory operation arguments. Other arguments are either options that modify the behavior of the operation or are required to perform the operation.
When modules or the components of an application (files, images, and sounds) are combined into a single archive, they can be downloaded by a Java agent (such as a browser) in a single HTTP transaction, rather than requiring a new connection for each piece. This dramatically improves download times. The jar command also compresses files, which further improves download time. The jar command also enables individual entries in a file to be signed so that their origin can be authenticated. A JAR file can be used as a class path entry, whether or not it’s compressed.
An archive becomes a modular JAR when you include a module descriptor, module-info.class , in the root of the given directories or in the root of the JAR archive. The following operations described in Operation Modifiers Valid Only in Create and Update Modes are valid only when creating or updating a modular JAR or updating an existing non-modular JAR:
All mandatory or optional arguments for long options are also mandatory or optional for any corresponding short options.
When using the jar command, you must specify the operation for it to perform. You specify the operation mode for the jar command by including the appropriate operation arguments described in this section. You can mix an operation argument with other one-letter options. Generally the operation argument is the first argument specified on the command line.
-i= FILE or —generate-index= FILE
Generates index information for the specified JAR file.
Lists the table of contents for the archive.
Updates an existing JAR file.
Extracts the named (or all) files from the archive.
Prints the module descriptor or automatic module name.
Operation Modifiers Valid in Any Mode
You can use the following options to customize the actions of any operation mode included in the jar command.
Changes the specified directory and includes the files specified at the end of the command line.
jar [OPTION. ] [ [--release VERSION] [-C dir] files]
Specifies the archive file name.
Creates a multirelease JAR file. Places all files specified after the option into a versioned directory of the JAR file named META-INF/versions/ VERSION / , where VERSION must be must be a positive integer whose value is 9 or greater.
At run time, where more than one version of a class exists in the JAR, the JDK will use the first one it finds, searching initially in the directory tree whose VERSION number matches the JDK’s major version number. It will then look in directories with successively lower VERSION numbers, and finally look in the root of the JAR.
Sends or prints verbose output to standard output.
Operation Modifiers Valid Only in Create and Update Modes
You can use the following options to customize the actions of the create and the update main operation modes:
-e= CLASSNAME or —main-class= CLASSNAME
Specifies the application entry point for standalone applications bundled into a modular or executable modular JAR file.
Includes the manifest information from the given manifest file.
Doesn’t create a manifest file for the entries.
Specifies the module version, when creating or updating a modular JAR file, or updating a non-modular JAR file.
Computes and records the hashes of modules matched by the given pattern and that depend upon directly or indirectly on a modular JAR file being created or a non-modular JAR file being updated.
-p path or —module-path path
Specifies the location of module dependence for generating the hash.
Reads jar options and file names from a text file.
Operation Modifiers Valid Only in Create, Update, and Generate-index Modes
You can use the following options to customize the actions of the create ( -c or —create ) the update ( -u or —update ) and the generate-index ( -i or —generate-index= FILE ) main operation modes:
Stores without using ZIP compression.
The following options are recognized by the jar command and not used with operation modes:
Displays the command-line help for the jar command or optionally the compatibility help.
Displays help on extra options.
Prints the program version.
Examples of jar Command Syntax
Create an archive, classes.jar , that contains two class files, Foo.class and Bar.class .
jar --create --file classes.jar Foo.class Bar.class
Create an archive, classes.jar , by using an existing manifest, mymanifest , that contains all of the files in the directory foo/ .
jar --create --file classes.jar --manifest mymanifest -C foo/
Create a modular JAR archive, foo.jar , where the module descriptor is located in classes/module-info.class .
jar --create --file foo.jar --main-class com.foo.Main --module-version 1.0 -C foo/classes resources
jar --update --file foo.jar --main-class com.foo.Main --module-version 1.0 -C foo/module-info.class
Create a versioned or multi-release JAR, foo.jar , that places the files in the classes directory at the root of the JAR, and the files in the classes-10 directory in the META-INF/versions/10 directory of the JAR.
In this example, the classes/com/foo directory contains two classes, com.foo.Hello (the entry point class) and com.foo.NameProvider , both compiled for JDK 8. The classes-10/com/foo directory contains a different version of the com.foo.NameProvider class, this one containing JDK 10 specific code and compiled for JDK 10.
Given this setup, create a multirelease JAR file foo.jar by running the following command from the directory containing the directories classes and classes-10 .
jar --create --file foo.jar --main-class com.foo.Hello -C classes . --release 10 -C classes-10 .
The JAR file foo.jar now contains:
% jar -tf foo.jar META-INF/ META-INF/MANIFEST.MF com/ com/foo/ com/foo/Hello.class com/foo/NameProvider.class META-INF/versions/10/com/ META-INF/versions/10/com/foo/ META-INF/versions/10/com/foo/NameProvider.class
As well as other information, the file META-INF/MANIFEST.MF , will contain the following lines to indicate that this is a multirelease JAR file with an entry point of com.foo.Hello .
. Main-Class: com.foo.Hello Multi-Release: true
Assuming that the com.foo.Hello class calls a method on the com.foo.NameProvider class, running the program using JDK 10 will ensure that the com.foo.NameProvider class is the one in META-INF/versions/10/com/foo/ . Running the program using JDK 8 will ensure that the com.foo.NameProvider class is the one at the root of the JAR, in com/foo .
Create an archive, my.jar , by reading options and lists of class files from the file classes.list .
To shorten or simplify the jar command, you can specify arguments in a separate text file and pass it to the jar command with the at sign ( @ ) as a prefix.
jar --create --file my.jar @classes.list
Setting Package Version Information
You may need to include package version information in a JAR file’s manifest. You provide this information with the following headers in the manifest:
Header | Definition |
---|---|
Name | The name of the specification. |
Specification-Title | The title of the specification. |
Specification-Version | The version of the specification. |
Specification-Vendor | The vendor of the specification. |
Implementation-Title | The title of the implementation. |
Implementation-Version | The build number of the implementation. |
Implementation-Vendor | The vendor of the implementation. |
One set of such headers can be assigned to each package. The versioning headers should appear directly beneath the Name header for the package. This example shows all the versioning headers:
Name: java/util/ Specification-Title: Java Utility Classes Specification-Version: 1.2 Specification-Vendor: Example Tech, Inc. Implementation-Title: java.util Implementation-Version: build57 Implementation-Vendor: Example Tech, Inc.
For more information about package version headers, see the Package Versioning specification .
An Example
We want to include the headers in the example above in the manifest of MyJar.jar.
We first create a text file named Manifest.txt with the following contents:
Name: java/util/ Specification-Title: Java Utility Classes Specification-Version: 1.2 Specification-Vendor: Example Tech, Inc. Implementation-Title: java.util Implementation-Version: build57 Implementation-Vendor: Example Tech, Inc.
Warning: The text file must end with a new line or carriage return. The last line will not be parsed properly if it does not end with a new line or carriage return.
We then create a JAR file named MyJar.jar by entering the following command:
jar cfm MyJar.jar Manifest.txt MyPackage/*.class
This creates the JAR file with a manifest with the following contents:
Manifest-Version: 1.0 Created-By: 1.7.0_06 (Oracle Corporation) Name: java/util/ Specification-Title: Java Utility Classes Specification-Version: 1.2 Specification-Vendor: Example Tech, Inc. Implementation-Title: java.util Implementation-Version: build57 Implementation-Vendor: Example Tech, Inc.
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