Installing from source
http://wiki.ros.org/jade/Installation/Source
http://wiki.ros.org/fuerte/Installation/Ubuntu/Source
编译错误1
[ 65%] Generating include/turtlesim/moc_turtle_frame.cxx
usr/include/boost/type_traits/detail/has_binary_operator.hp:50: Parse error at "BOOST_JOIN"
ros_tutorials/turtlesim/CMakeFiles/turtlesim_node.dir/build.make:62: recipe for target 'ros_tutorials/turtlesim/include/turtlesim/moc_turtle_frame.cxx' failed
make[2]: *** [ros_tutorials/turtlesim/include/turtlesim/moc_turtle_frame.cxx] Error 1
CMakeFiles/Makefile2:10621: recipe for target 'ros_tutorials/turtlesim/CMakeFiles/turtlesim_node.dir/all' failed
make[1]: *** [ros_tutorials/turtlesim/CMakeFiles/turtlesim_node.dir/all] Error 2
Makefile:138: recipe for target 'all' failed
make: *** [all] Error 2
解决之法:
vim /usr/include/boost/type_traits/detail/has_binary_operator.hpp
将namespace BOOST_JOIN(BOOST_TT_TRAIT_NAME,_impl) {
...
}
改为
#ifndef Q_MOC_RUN
namespace BOOST_JOIN(BOOST_TT_TRAIT_NAME,_impl) {
#endif
...
#ifndef Q_MOC_RUN
}
#endif
编译错误2
需要编译rxtools
下载devkitARM,然后配置
export DEVKITARM=/home/armmlinux/ros-underlay/devkitARM
然后编译rxtools
Install from source requires that you download and compile the source code on your own. ROS Jade supports Trusty, Utopic, and Vivid. Other platforms are possible to use but are not expected to work out of the box. Target platforms are defined in REP 3
目录
- Installing from source
- Prerequisites
- Installing bootstrap dependencies
- Initializing rosdep
- Installation
- Building the catkin Packages
- Maintaining a Source Checkout
- Update the workspace
- Rebuild your workspace
- Prerequisites
Prerequisites
Installing bootstrap dependencies
Install bootstrap dependencies (Ubuntu):
These tools are used to facilitate the download and management of ROS packages and their dependencies, among other things.
Ubuntu:
-
$ sudo apt-get install python-rosdep python-rosinstall-generator python-wstool python-rosinstall build-essential
If you have trouble installing the packages in the command above, make sure you have added the packages.ros.org debian repository to your apt source lists as described starting here:jade/Installation/Ubuntu#jade.2BAC8-Installation.2BAC8-Sources.Setup_your_sources.list
If apt complains that the python-support package is not installable, make sure that you have the Ubuntu universe repositories enabled in your /etc/apt/sources.list
Fedora:
-
$ sudo yum install python-rosdep python-rosinstall_generator python-wstool python-rosinstall @buildsys-build
Some packages used in ROS are not currently available in the Fedora RPM repositories. Most of the other packages are available in RPM Fusion. See RPM Fusion Command Line Setup.
Any packages not available in RPM Fusion are staged in the SDSM&T ROS RPM staging repository, which is available from csc.mcs.sdsmt.edu.
Generic (pip):
- If you are using a non-Debian system you need to make sure that you have all build tools (compiler, CMake, etc.) installed. You can install all ROS Python tools via PIP:
$ sudo pip install -U rosdep rosinstall_generator wstool rosinstall
If there are errors with this or the rosdep step below, your system's version of pip may be out-of-date. Use your system's package management to update it, or use it to update itself:$ sudo pip install --upgrade setuptools
Note that on many platforms such as OSX you may want to install the above packages and use ROS inside a virtualenv so as to make sure not to collide with system dependencies.
Initializing rosdep
$ sudo rosdep init $ rosdep update
Installation
Start by building the core ROS packages.
Building the catkin Packages
ROS is in the process of converting to a new build system, catkin, but not all of the packages have been converted and the two build systems cannot be used simultaneously. Therefore it is necessary to build the core ROS packages first (catkin packages) and then the rest.
Create a catkin Workspace
In order to build the core packages, you will need a catkin workspace. Create one now:
-
$ mkdir ~/ros_catkin_ws $ cd ~/ros_catkin_ws
Next we will want to fetch the core packages so we can build them. We will use wstool for this. Select the wstoolcommand for the particular variant you want to install:
Desktop-Full Install: ROS, rqt, rviz, robot-generic libraries, 2D/3D simulators, navigation and 2D/3D perception
-
$ rosinstall_generator desktop_full --rosdistro jade --deps --wet-only --tar > jade-desktop-full-wet.rosinstall $ wstool init -j8 src jade-desktop-full-wet.rosinstall
Desktop Install (recommended): ROS, rqt, rviz, and robot-generic libraries
-
$ rosinstall_generator desktop --rosdistro jade --deps --wet-only --tar > jade-desktop-wet.rosinstall $ wstool init -j8 src jade-desktop-wet.rosinstall
ROS-Comm: (Bare Bones) ROS package, build, and communication libraries. No GUI tools.
-
$ rosinstall_generator ros_comm --rosdistro jade --deps --wet-only --tar > jade-ros_comm-wet.rosinstall $ wstool init -j8 src jade-ros_comm-wet.rosinstall
This will add all of the catkin or wet packages in the given variant and then fetch the sources into the~/ros_catkin_ws/src directory. The command will take a few minutes to download all of the core ROS packages into thesrc folder. The -j8 option downloads 8 packages in parallel.
In addition to the 3 variants above, more are defined in REP 131 such as robot, perception, etc. Just change the package path to the one you want, e.g., for robot do:
$ rosinstall_generator robot --rosdistro jade --deps --wet-only --tar > jade-robot-wet.rosinstall $ wstool init -j8 src jade-robot-wet.rosinstall
If wstool init fails or is interrupted, you can resume the download by running:
wstool update -j 4 -t src
Resolving Dependencies
Before you can build your catkin workspace you need to make sure that you have all the required dependencies. We use the rosdep tool for this:
-
$ rosdep install --from-paths src --ignore-src --rosdistro jade -y
This will look at all of the packages in the src directory and find all of the dependencies they have. Then it will recursively install the dependencies.
The --from-paths option indicates we want to install the dependencies for an entire directory of packages, in this casesrc. The --ignore-src option indicates to rosdep that it shouldn't try to install any ROS packages in the src folder from the package manager, we don't need it to since we are building them ourselves. The --rosdistro option is required because we don't have a ROS environment setup yet, so we have to indicate to rosdep what version of ROS we are building for. Finally, the -y option indicates to rosdep that we don't want to be bothered by too many prompts from the package manager.
After a while (and maybe some prompts for your password) rosdep will finish installing system dependencies and you can continue.
Building the catkin Workspace
Once it has completed downloading the packages and resolving the dependencies you are ready to build the catkin packages. We will use the catkin_make_isolated command because there are both catkin and plain cmake packages in the base install, when developing on your catkin only workspaces you should use catkin/commands/catkin_make.
Invoke catkin_make_isolated:
-
$ ./src/catkin/bin/catkin_make_isolated --install -DCMAKE_BUILD_TYPE=Release
Note: You might want to select a different CMake build type (e.g. RelWithDebInfo or Debug, see http://cmake.org/cmake/help/v2.8.12/cmake.html#variable:CMAKE_BUILD_TYPE).
Note: The default catkin installation location would be ~/ros_catkin_ws/install_isolated, if you would like to install some where else then you can do this by adding the --install-space /opt/ros/jade argument to yourcatkin_make_isolated call.
For usage on a robot without Ubuntu, it is recommended to install compiled code into /opt/ros/jade just as the Ubuntu packages would do. Don't do this in Ubuntu, as the packages would collide with apt-get packages. It is also possible to install elsewhere (e.g. /usr), but it is not recommended unless you really know what you are doing.
Please see REP 122: Filesystem Hierarchy Layout for more detailed documentation on how the installed files are placed.
Note: In the above command we are running the catkin_make_isolated command from the catkin source folder because it has not been installed yet, once installed it can be called directly.
Now the packages should have been installed to ~/ros_catkin_ws/install_isolated or to wherever you specified with the--install-space argument. If you look in that directory you will see that a setup.bash file have been generated. To utilize the things installed there simply source that file. Lets do that now before building the rest of ROS:
-
$ source ~/ros_catkin_ws/install_isolated/setup.bash
Maintaining a Source Checkout
If we want to keep our source checkout up to date, we will have to periodically update our rosinstall file, download the latest sources, and rebuild our workspace.
Update the workspace
To update your workspace, first move your existing rosinstall file so that it doesn't get overwritten, and generate an updated version. For simplicity, we will cover the *destop-full* variant. For other variants, update the filenames and rosinstall_generator arguments appropriately.
$ mv -i jade-desktop-full-wet.rosinstall jade-desktop-full-wet.rosinstall.old $ rosinstall_generator desktop_full --rosdistro jade --deps --wet-only --tar > jade-desktop-full-wet.rosinstall
Then, compare the new rosinstall file to the old version to see which packages will be updated:
$ diff -u jade-desktop-full-wet.rosinstall jade-desktop-full-wet.rosinstall.old
If you're satified with these changes, incorporate the new rosinstall file into the workspace and update your workspace:
$ wstool merge -t src jade-desktop-full-wet.rosinstall $ wstool update -t src
Rebuild your workspace
Now that the workspace is up to date with the latest sources, rebuild it:
$ ./src/catkin/bin/catkin_make_isolated --install
If you specified the --install-space option when your workspace initially, you should specify it again when rebuilding your workspace
Once your workspace has been rebuilt, you should source the setup files again:
$ source ~/ros_catkin_ws/install_isolated/setup.bash