DEPRECATION NOTICE: rosdoc is now deprecated in favor of rosdoc_lite
Only released in EOL distros:
Package Summary
rosdoc wraps documentation tools like doxygen, sphinx, and epydoc with ROS package semantics to auto-generate documentation for ROS packages. rosdoc also supports online documentation, like the ROS wiki.
- Author: Ken Conley/kwc@willowgarage.com
- License: BSD
- Repository: documentation
- Source: svn https://code.ros.org/svn/ros/stacks/documentation/trunk/rosdoc
Package Summary
rosdoc wraps documentation tools like doxygen, sphinx, and epydoc with ROS package semantics to auto-generate documentation for ROS packages. rosdoc also supports online documentation, like the ROS wiki.
- Author: Ken Conley/kwc@willowgarage.com
- License: BSD
- Source: git https://github.com/ros/documentation.git (branch: documentation-1.4)
Package Summary
rosdoc wraps documentation tools like doxygen, sphinx, and epydoc with ROS package semantics to auto-generate documentation for ROS packages. rosdoc also supports online documentation, like the ROS wiki.
- Author: Ken Conley/kwc@willowgarage.com
- License: BSD
- Source: git https://github.com/ros/documentation.git (branch: master)
Package Summary
rosdoc wraps documentation tools like doxygen, sphinx, and epydoc with ROS package semantics to auto-generate documentation for ROS packages. rosdoc also supports online documentation, like the ROS wiki.
- Author: Ken Conley/kwc@willowgarage.com
- License: BSD
- Source: git https://github.com/ros/documentation.git (branch: master)
Contents
See also: Doxygen, Sphinx, and Epydoc
What is rosdoc?
rosdoc is simply a tool that runs an external documentation tool, like Doxygen, Epydoc, or Sphinx, on one or more ROS packages. We recommend trying rosdoc instead of attempting to setup those tools manually, as it provides shortcuts for configuring those tools and can also import additional ROS information.
rosdoc makes a best effort at providing good default settings to these tools, and in some cases allows these settings to be customized further. The documentation is generated on a package-by-package basis -- rosdoc does not run on ROS stacks.
In general, tools like Doxygen search all of the source code in a code tree for structured comments, and then use these comments as well as the API of the code to generate HTML files documenting the package. Doxygen and Sphinx also provide additional tools for authoring documentation that is not tied to code API.
By default, rosdoc will use Doxygen to generate the documentation for a package. If you wish to use another tool, like Epydoc or Sphinx, you must use a rosdoc configuration file. This is described below. For C/C++, only Doxygen is advised.
The documentation that is generated will depend on which tool is used, as each tool behaves differently. For example, Doxygen will extract API details from all source files found in the package (see Doxygen for more).
rosdoc is used as part of an automated process for updating documentation on ros.org. It is frequently run on packages in ros-pkg and wg-ros-pkg, with the resulting documentation linked to in the "Code API" link of many packages.
rosdoc contains some additional functionality for generating machine-readable documentation files, as well as msg/srv documentation, that are used by the ros.org wiki system and elsewhere. This functionality is mainly only of use to those maintaining documentation Web sites.
Usage
You can use rosdoc to generate local copies of documentation. When you run the rosdoc command, it will generate documentation into the 'doc' folder of the local directory.
Usage: rosdoc [options] [packages...] Options: -h, --help show this help message and exit -n NAME, --name=NAME Name for documentation set --paths=PATHS package paths to document -o OUTPUT_DIRECTORY directory to write documentation to
Generate documentation for specific packages:
roscd rosdoc ./rosdoc <package-names>
or simply
rosrun rosdoc rosdoc <package-names>
This will generate the documentation in rosdoc/doc. It's easiest if you point your Web browser to open rosdoc/doc/<package-name>/html/index.html. Note that you need doxygen installed on your machine (e.g., sudo apt-get install doxygen). You may also need to install sphinx for certain Python packages.
Generate documentation for all packages:
roscd rosdoc ./rosdoc
rosdoc will find all packages on your package path and generate documentation for them in the 'doc' folder.
Generate documentation in your home directory:
Sometimes, the rosdoc package directory may not be writable, perhaps it was installed as a binary package. In that case, use the -o option to specify a different output directory.
roscd rosdoc -o ~/doc ./rosdoc <package-names>
(Again rosrun combination works here too.)
Automatically Generated Online Documentation
rosdoc is automatically run for packages in ros-pkg, wg-ros-pkg, and others. The resulting documentation is uploaded to ros.org and is linked in the "Code API" links that you see on various package pages, like rospy.
Even if rosdoc is automatically generated for your package, we recommend regularly running rosdoc on your own computer to verify what your documentation looks like before checking it in.
rosdoc configuration files (Epydoc, Sphinx)
rosdoc supports a YAML-based configuration file that lets you:
- use Epydoc or Sphinx instead of Doxygen
- configure multiple documentation builds per package
- do advance configuration of documentation builds
Enabling via manifest.xml
In order to enable the rosdoc configuration file, you must place the following tag in the <export>...</export> section of the manifest.xml file:
<export> <rosdoc config="rosdoc.yaml" /> </export>
rosdoc.yaml should be the path to the configuration file you wish to use.
Basic Syntax
The YAML configuration file should contain a list of dictionaries, where each dictionary has the following standard keys:
builder: name of documentation builder (doxygen, epydoc, or sphinx)
output_dir: (optional) name of sub-directory to write documentation to. If you have multiple builders, you must specify this property to avoid builders writing to the same directory.
name: (optional) name of documentation set (e.g. "Python API")
Each builder may specify additional configuration keys.
Here is an example from the roslib package, which performs both C++ and Python API documentation:
- builder: epydoc output_dir: python - builder: doxygen name: C++ API output_dir: c++ file_patterns: '*.c *.cpp *.h *.cc *.hh *.dox'
Builder: Doxygen
The "doxygen" builder will enable running Doxygen on a package. As Doxygen is the default builder for any package, it is only necessary to configure this option if:
- you wish to run multiple builders in a package
- you wish to enable additional Doxygen configuration options, which are described below
The "doxygen" builder may specify the following additional keys:
file_patterns: (optional) override the Doxygen FILE_PATTERNS property
excludes: (optional) override the Doxygen EXCLUDE property
homepage: (optional) link to project home page
exclude_patterns: ROS C-Turtle (optional) override Doxygen EXCLUDE_PATTERNS property.
New in Diamondback
javadoc_autobrief: (optional) override Doxygen JAVADOC_AUTOBRIEF property. Default NO.
multiline_cpp_is_brief: (optional) override Doxygen property MULTILINE_CPP_IS_BRIEF. Default NO.
tab_size: (optional) override Doxygen property TAB_SIZE. Default 8.
aliases: (optional) override Doxygen property ALIASES. Default ""
example_patterns: (optional) override Doxygen property EXAMPLE_PATTERNS. Default ""
image_path: (optional) override Doxygen property IMAGE_PATH.
exclude_symbols: (optional) override Doxygen property EXCLUDE_SYMBOLS. Default ""
Builder: Epydoc
The "epydoc" builder will enable running Epydoc on a package.
Note: Epydoc's "introspection" capability currently breaks when trying to process some ros python modules, so this feature should not be enabled in a custom epydoc config file.
The "epydoc" builder may specify the following additional keys:
exclude: (optional) override the Epydoc --exclude option
config: (optional) override the Epydoc --config option, which passes in a separate Epydoc configuration file.
Builder: Sphinx
The "sphinx" builder will enable running Sphinx on a package.
The "sphinx" builder may specify the following additional keys:
sphinx_root_dir: (optional) root directory of Sphinx documents, i.e. the location of index.rst and conf.py. If not specified, it will look for an index.rst file in the root of the ROS package.
Builder: external
New in C Turtle
The "external" builder specifies that you wish to link to externally generated documentation. rosdoc will generate a landing page with the link to the specified URL.
The "external" builder takes in the following additional keys:
external_url: URL of external documentation
external_label: (optional) link text
Builder: rosmake
Removed in ROS Fuerte: this builder has been removed as it has problematic side-effects.
The "rosmake" builder specifies that rosdoc must run rosmake on the package before generating documentation. This is most frequently used in packages with auto-generated code, such as swig-wrappers.
The "rosmake" builder takes no additional configuration. The "name" and "output_dir" options are ignored.
Linking to External Third Party Documentation
NOTE: starting with C Turtle, you can also use the 'external' builder specified above
For third party packages, rosdoc can automatically create a doxygen main page for the package, that includes a link to the third party documentation. To do so, you must add a line to your manifest.xml
<export> <doxymaker external="http://link.to.external/page.html"/> </export>
rosdoc on ros.org
rosdoc is used automatically generate documentation on the ros.org web server. Frequent updates are made to:
It is also used to generate the data for the PackageHeader, StackHeader and MsgSrvDoc wiki macros that you see on many of the ros.org wiki pages.
Roadmap/Stability
The rosdoc tool itself is stable, though it has many internal features and functionality that are changed to support the documentation needs of ros.org. In the future, the rosdoc tool will hopefully be evolved to better support the configuration requirements of the documentation tools it invokes (i.e. Doxygen), and it will also better support documenting specific stacks.
The code API of rosdoc should not be used as it is an internal library that is frequently changed.