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On the mixing of ament and catkin (catment)
All that follows is experimental and speculative.
Background
There once was a thing called rosbuild
.
Then came a thing called catkin
, which largely replaced rosbuild
.
Recently introduced is a thing called ament
, which may one day replace catkin
.
All three tools can be considered “meta-build systems.” They sit atop other build systems (e.g., CMake, Python setuptools) and provide extra functionality that’s intended to make those build systems easier to use, especially when managing dependencies across multiple packages and when building multiple packages in a single workspace.
Each of these meta-build systems does two things:
Add API to the underlying build system (e.g,. CMake) that can be used to simplify common tasks (e.g., supplying all the flags exported by depended-upon packages when building an executable). There are usually hooks to allow injection of extra API by packages outside of the core meta-build system.
rosbuild
:mk/cmake.mk
,rosbuild_init()
,rosbuild_add_executable()
, etc.catkin
:catkin_package()
,catkin_install_python()
, etc.ament
:ament_target_dependencies()
,ament_export_dependencies()
,ament_package()
, etc.
Provide a tool that can be used to iterate in dependency order over a workspace full of packages, building and perhaps installing each one.
rosbuild
:rosmake
catkin
:catkin build
,catkin_make
,catkin_make_isolated
, etc.ament
:ament build
The common thread that ties all of these systems together is the division of the code into packages, with each package containing a manifest file (manifest.xml
or package.xml
).
This manifest is required (with some exceptions) for both parts of the meta-build system (API and building tool) to function.
Postulates
While we usually consider the two aspects of a meta-build system to be coupled, they needn’t be. The API used inside a package and the tool that iterates over the packages can be considered largely independent, with the package manifest forming the interface between them. There’s no reason in principle why, for example,
rosmake
couldn’t be modified to iterate over a workspace filled withcatkin
packages, stepping into them in dependency order and doing the usualmkdir build; cd build; cmake ..; make install
routine for each one (with appropriate flags passed tocmake
andmake
).The effort required to migrate from one meta-build system to another should be minimized. The mass migration from
rosbuild
tocatkin
was difficult and remains a sore point for many in the community. While it’s reasonable to ask developers to make changes in exchange for getting access to new functionality, the changes that are required should be as small as possible without sacrificing the effectiveness of the new system. This is especially true when the old system is in widespread use.Corollary: Migration to a new meta-build system should not be required without a very good reason. If a developer doesn’t want the functionality offered by the new system, then she shouldn’t be coerced into migrating from the old system unless there’s something irrevocably broken about the old system (e.g.,
rosbuild
‘s in-source build pattern and lack of an “install” step).
Interoperability is a good thing. Whenever possible (not all combinations will be practical), developers should be able to mix and match meta-build systems, including mixing their different aspects (i.e., use the building tool from one system and the API from another). Such mixing and matching is especially important when developers want to combine a large existing code base using one meta-build system (e.g., ROS with
catkin
) with new libraries and tools offered by a code base using another meta-build system (e.g., ROS 2 withament
). Ideally that kind of combination can be done without requiring changes to the API used by either code base and without telling the developer which builder tool to use.Corollary: Workspaces needn’t be homogeneous. There’s no reason that we shouldn’t be able to freely mix, say,
catkin
andament
packages in one workspace, with dependencies going in both directions, so long as the builder tool in use knows how to build them both. The primary interface between packages (at least, CMake-controlled packages) is their CMake configuration file. So long as that configuration file follows the standard protocol (settingfoo_LIBRARIES
, etc.), then it shouldn’t matter who wrote the file. It could be auto-generated bycatkin
orament
, or even manually crafted by a developer who wants to use plain CMake in her package, but still have that package depended-upon bycatkin
orament
packages.
Use cases, with experimental implementations
Adding ROS packages to a ROS 2 workspace and building with ament build
Let’s say that you want to add some existing ROS packages to your ROS 2 workspace and don’t want to migrate the ROS packages from catkin
to ament
(or vice versa). Here are two patches that let you do that:
ament_package: Add support for format 1 package manifests, instead of requiring format 2. This change isn’t strictly related to
catkin
vs.ament
, because format 2 has been around for a while andcatkin
supports it, so developers could already update their manifests to format 2. But there’s a ton of ROS code out there that uses format 1, so we should support it. This implementation could be improved, e.g., by reasoning over the various flavors of depend tags and how they differ between formats 1 and 2.ament_tools: Add a new
catkin
build type toament
. This implementation just treatscatkin
packages the same as plaincmake
packages, which seems to work fine. It could be made more sophisticated.
Example usage:
Get the ROS 2 code as usual, using the branches mentioned above.
Add to your workspace some
catkin
ROS packages, ensuring that all of their dependencies are satisfied (either also present in the workspace or installed elsewhere with appropriate setup shell files sourced).Build as usual (e.g.,
./src/ament/ament_tools/scripts/ament.by build
).
Voila: your existing code isn’t suddenly broken just because there’s a new builder tool in use.
Variation: Building ROS packages with ament build
Let’s say that you love the new ament
tool and want to use it to build your existing ROS packages that use catkin
internally.
Here’s an example of how to do that, by doing a minimal installation of ament
and then using it to build a workspace full of ROS catkin
packages:
mkdir -p ~/ament_ws/src
cd ~/ament_ws/src
git clone https://github.com/osrf/osrf_pycommon.git
git clone https://github.com/ament/ament_package.git
cd ament_package
git checkout catkin
cd ..
git clone https://github.com/ament/ament_tools.git
cd ament_tools
git checkout catkin
cd ../..
./src/ament_tools/scripts/ament.py build
Now build the ROS packages:
. $HOME/ament_ws/install/setup.bash
cd ~/ros_catkin_ws
ament build
Voila: you used the ament
build tool to build your catkin
packages, without having to migrate them.
Variation: Using the catkin
API in a ROS 2 package
Let’s say that you’re building on top of ROS 2, which internally uses the ament
API, and you want to add a new package using the catkin
API.
To make this work, we need a Python3 installation of catkin
(the binary debians use Python2.7).
Here’s an example of doing that, installing to $HOME/catkin
:
# install catkin_pkg
git clone https://github.com/ros-infrastructure/catkin_pkg.git
cd catkin_pkg
git checkout ament
python3 setup.py install --prefix $HOME/catkin --single-version-externally-managed --record foo --install-layout deb
# install catkin
git clone https://github.com/ros/catkin.git
cd catkin
git checkout ament
mkdir build
cd build
PYTHONPATH=$HOME/catkin/lib/python3/dist-packages/ cmake .. -DCMAKE_INSTALL_PREFIX=$HOME/catkin -DPYTHON_EXECUTABLE=/usr/bin/python3
make install
To use that version of catkin, you just need to source the $HOME/catkin/setup.bash
file.
Let’s assume that you have the usual ROS 2 workspace in ~/ros2_ws
, and that you’re on the catkin
branches in ament_package
and ament_tools
.
Add to that workspace the image_tools_catkin
package from https://github.com/gerkey/catment.
It’s a simple port of the ROS 2 image_tools
package, taking it from the ament
API to the catkin
API.
To build it:
cd ~/ros2_ws
. $HOME/catkin/setup.bash
./src/ament/ament_tools/scripts/ament.py build
Voila: when adding new packages atop ROS 2, you’re free to choose which CMake API you prefer inside your package.
Caveat: Requires commenting out the use of
CATKIN_DEPENDS
insidecatkin_package()
, because somewhere somebody was getting upset that things likerclcpp
aren’tcatkin
packages. That constraint needs to be relaxed somehow.TODO: The same demo but with a
ament
package that depends on acatkin
package (this is easy).TODO: The same demo but with a package that has a vanilla
CMakeLists.txt
that uses neitherament
norcatkin
, and provides a manually generatedfooConfig.cmake
file that exports the right stuff to make it look the same to outsiders.
Building ROS 2 packages with catkin_make_isolated
Let’s say that you’re already familiar with ROS and catkin
and that you’re excited to try ROS 2, but that you’re not in the mood to learn about ament
.
You’d rather stick to what you know, such as using catkin_make_isolated
to build everything.
Here is a patch that allows you to do that:
catkin: Add support for packages that declare themselves to have a build type of
ament_*
. This implementation calls out toament
to build each such package. Whileament_cmake
packages can be treated as plaincmake
packages (as we did when addingcatkin
support toament
),ament_python
packages require some gnarly invocations of Python. Instead of trying to replicate that logic incatkin
, it’s easier to just letament
handle it. Also in this patch, we add thebuildtool_export_depend
packages to the set that are considered when building.catkin_pkg: Also in this patch, we add the
buildtool_export_depend
packages to the set that are considered when computing the topological order.
Because we’re going to call out to ament build
, we will also need a minimal installation of ament
, as did in a previous example:
mkdir -p ~/ament_ws/src
cd ~/ament_ws/src
git clone https://github.com/osrf/osrf_pycommon.git
git clone https://github.com/ament/ament_package.git
cd ament_package
git checkout catkin
cd ..
git clone https://github.com/ament/ament_tools.git
cd ament_tools
git checkout catkin
cd ../..
./src/ament_tools/scripts/ament.py build
Then we need to install the modified version of catkin somewhere:
# install catkin_pkg
git clone https://github.com/ros-infrastructure/catkin_pkg.git
cd catkin_pkg
git checkout ament
python3 setup.py install --prefix $HOME/catkin --single-version-externally-managed --record foo --install-layout deb
# install catkin
git clone https://github.com/ros/catkin.git
cd catkin
git checkout ament
mkdir build
cd build
PYTHONPATH=$HOME/catkin/lib/python3/dist-packages/ cmake .. -DCMAKE_INSTALL_PREFIX=$HOME/catkin -DPYTHON_EXECUTABLE=/usr/bin/python3
make install
Now build the ROS 2 packages:
. $HOME/catkin/setup.bash
. $HOME/ament_ws/install/setup.bash
cd ~/ros2_ws
touch src/eProsima/AMENT_IGNORE
PYTHONPATH=$PYTHONPATH:/home/gerkey/ros2_ws_catkin/install_isolated/lib/python3.5/site-packages catkin_make_isolated --install
Voila: you’ve built ROS 2 using the tools that you’re familiar with.
Caveat: we’re ignoring the
eProsima
packages in the workspace because they lackpackage.xml
files, which means thatcatkin
can’t see them.ament
has some heuristics for handling such packages. Options: backport those heuristics tocatkin
; switch to installing non-package.xml
-containing packages outside of the workspace; or just add apackage.xml
to each of those packages (e.g., in our own fork).
Combining all of ROS and ROS 2 in one workspace and building it (TODO)
This step will require sorting out some things, including at least:
Package name conflicts. We currently have ROS 2 versions of ROS message packages, as well as some stuff in
geometry2
. Either the functionality needs to be merged into one package that can support both systems, or the new versions need different names.Message generation. ROS and ROS 2 have different message generation steps, the output of which might or not might conflict. Something sort of sophisticated needs to be done to allow generation of all the right artifacts from a single message package (or, as indicated above, the new message packages need different name).
Using bloom
to release ament
packages (TODO)
It seems like bloom
ought be able to release packages that use the ament
CMake API, and that the resulting releases should be able to be built on the farm.
We can make changes to bloom
and ros_buildfarm
as needed to enable this use case.