jdeps-java-23 - Man Page
launch the Java class dependency analyzer
Synopsis
jdeps
[options] path ...
- options
Command-line options. For detailed descriptions of the options that can be used, see
- Possible Options
- Module Dependence Analysis Options
- Options to Filter Dependences
- Options to Filter Classes to be Analyzed
- path
A pathname to the
.class
file, directory, or JAR file to analyze.
Description
The jdeps
command shows the package-level or class-level dependencies of Java class files. The input class can be a path name to a .class
file, a directory, a JAR file, or it can be a fully qualified class name to analyze all class files. The options determine the output. By default, the jdeps
command writes the dependencies to the system output. The command can generate the dependencies in DOT language (see the -dotoutput
option).
Possible Options
- -? or -h or --help
Prints the help message.
- -dotoutput dir or --dot-output dir
Specifies the destination directory for DOT file output. If this option is specified, then the
jdeps
command generates one.dot
file for each analyzed archive namedarchive-file-name.dot
that lists the dependencies, and also a summary file namedsummary.dot
that lists the dependencies among the archive files.- -s or -summary
Prints a dependency summary only.
- -v or -verbose
Prints all class-level dependencies. This is equivalent to
- -verbose:package
Prints package-level dependencies excluding, by default, dependences within the same package.
- -verbose:class
Prints class-level dependencies excluding, by default, dependencies within the same archive.
- -apionly or --api-only
Restricts the analysis to APIs, for example, dependences from the signature of
public
andprotected
members of public classes including field type, method parameter types, returned type, and checked exception types.- -jdkinternals or --jdk-internals
Finds class-level dependences in the JDK internal APIs. By default, this option analyzes all classes specified in the
--classpath
option and input files unless you specified the-include
option. You can't use this option with the-p
,-e
, and-s
options.Warning: The JDK internal APIs are inaccessible.
- -cp path, -classpath path, or --class-path path
Specifies where to find class files.
- --module-path module-path
Specifies the module path.
- --upgrade-module-path module-path
Specifies the upgrade module path.
- --system java-home
Specifies an alternate system module path.
- --add-modules module-name[, module-name...]
Adds modules to the root set for analysis.
- --multi-release version
Specifies the version when processing multi-release JAR files. version should be an integer >=9 or base.
- -q or -quiet
Doesn't show missing dependencies from
-generate-module-info
output.- -version or --version
Prints version information.
Module Dependence Analysis Options
- -m module-name or --module module-name
Specifies the root module for analysis.
- --generate-module-info dir
Generates
module-info.java
under the specified directory. The specified JAR files will be analyzed. This option cannot be used with--dot-output
or--class-path
options. Use the--generate-open-module
option for open modules.- --generate-open-module dir
Generates
module-info.java
for the specified JAR files under the specified directory as open modules. This option cannot be used with the--dot-output
or--class-path
options.- --check module-name [, module-name...]
Analyzes the dependence of the specified modules. It prints the module descriptor, the resulting module dependences after analysis and the graph after transition reduction. It also identifies any unused qualified exports.
- --list-deps
Lists the module dependences and also the package names of JDK internal APIs (if referenced). This option transitively analyzes libraries on class path and module path if referenced. Use
--no-recursive
option for non-transitive dependency analysis.- --list-reduced-deps
Same as
--list-deps
without listing the implied reads edges from the module graph. If module M1 reads M2, and M2 requires transitive on M3, then M1 reading M3 is implied and is not shown in the graph.- --print-module-deps
Same as
--list-reduced-deps
with printing a comma-separated list of module dependences. The output can be used byjlink --add-modules
to create a custom image that contains those modules and their transitive dependences.- --ignore-missing-deps
Ignore missing dependences.
Options to Filter Dependences
- -p pkg_name, -package pkg_name, or --package pkg_name
Finds dependences matching the specified package name. You can specify this option multiple times for different packages. The
-p
and-e
options are mutually exclusive.- -e regex, -regex regex, or --regex regex
Finds dependences matching the specified pattern. The
-p
and-e
options are mutually exclusive.- --require module-name
Finds dependences matching the given module name (may be given multiple times). The
--package
,--regex
, and--require
options are mutually exclusive.- -f regex or -filter regex
Filters dependences matching the given pattern. If give multiple times, the last one will be selected.
- -filter:package
Filters dependences within the same package. This is the default.
- -filter:archive
Filters dependences within the same archive.
- -filter:module
Filters dependences within the same module.
- -filter:none
No
-filter:package
and-filter:archive
filtering. Filtering specified via the-filter
option still applies.- --missing-deps
Finds missing dependences. This option cannot be used with
-p
,-e
and-s
options.
Options to Filter Classes to Be Analyzed
- -include regex
Restricts analysis to the classes matching pattern. This option filters the list of classes to be analyzed. It can be used together with
-p
and-e
, which apply the pattern to the dependencies.- -R or --recursive
Recursively traverses all run-time dependences. The
-R
option implies-filter:none
. If-p
,-e
, or-f
options are specified, only the matching dependences are analyzed.- --no-recursive
Do not recursively traverse dependences.
- -I or --inverse
Analyzes the dependences per other given options and then finds all artifacts that directly and indirectly depend on the matching nodes. This is equivalent to the inverse of the compile-time view analysis and the print dependency summary. This option must be used with the
--require
,--package
, or--regex
options.- --compile-time
Analyzes the compile-time view of transitive dependencies, such as the compile-time view of the
-R
option. Analyzes the dependences per other specified options. If a dependency is found from a directory, a JAR file or a module, all classes in that containing archive are analyzed.
Example of Analyzing Dependencies
The following example demonstrates analyzing the dependencies of the Notepad.jar
file.
Linux and macOS:
$ jdeps demo/jfc/Notepad/Notepad.jar Notepad.jar -> java.base Notepad.jar -> java.desktop Notepad.jar -> java.logging <unnamed> (Notepad.jar) -> java.awt -> java.awt.event -> java.beans -> java.io -> java.lang -> java.net -> java.util -> java.util.logging -> javax.swing -> javax.swing.border -> javax.swing.event -> javax.swing.text -> javax.swing.tree -> javax.swing.undo
Windows:
C:\Java\jdk1.9.0>jdeps demo\jfc\Notepad\Notepad.jar Notepad.jar -> java.base Notepad.jar -> java.desktop Notepad.jar -> java.logging <unnamed> (Notepad.jar) -> java.awt -> java.awt.event -> java.beans -> java.io -> java.lang -> java.net -> java.util -> java.util.logging -> javax.swing -> javax.swing.border -> javax.swing.event -> javax.swing.text -> javax.swing.tree -> javax.swing.undo
Example Using the --inverse Option
$ jdeps --inverse --require java.xml.bind Inverse transitive dependences on [java.xml.bind] java.xml.bind <- java.se.ee java.xml.bind <- jdk.xml.ws java.xml.bind <- java.xml.ws <- java.se.ee java.xml.bind <- java.xml.ws <- jdk.xml.ws java.xml.bind <- jdk.xml.bind <- jdk.xml.ws