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README.txt
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README.txt
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I. Building, Installing, and Using SBPL
SBPL is available as a standalone software library. SBPL itself has no
dependencies other than the C/C++ standard library.
These build and install instructions are primarily for Linux. For other
operating systems, CMake can generate the platform-specific build and project
files necessary for building SBPL.
Versions of ROS older than Fuerte may contain packages that depend on a ROS
package version of SBPL. The recommended method to install SBPL is to install
it as a standard system library. However, if you wish to use the old ROS
package version of SBPL, you may follow these instructions.
1. Building and Installing SBPL from source
1.1 Build SBPL
SBPL uses git as its version control system. From the directory where
you want the SBPL source to reside, clone the latest source from
https://github.com/sbpl/sbpl:
git clone https://github.com/sbpl/sbpl.git
In the source directory, build the SBPL library using standard
CMake build conventions:
mkdir build
cd build
cmake ..
make
1.2 Install SBPL
Install the built library and headers onto your local system
(usually into /usr/local):
sudo make install
2. Installing SBPL from pre-built binary package
A pre-built Debian package exists on Linux for ROS distributions
Fuerte and newer. To install the Debian, run:
sudo apt-get install ros-distro-sbpl
where distro is the name of your ROS distribution. This will install
the SBPL library and associated development headers alongside other
ROS components (in /opt/ros/distro on Ubuntu distributions). A
pkg-config file is also included to allow you to locate the SBPL
library components in your build system.
3. Build your (ROS) package with SBPL as a dependency (CMake)
In the CMakeLists.txt for your (ROS) package, the following lines are
needed to find the installed SBPL files:
find_package(PkgConfig REQUIRED)
pkg_check_modules(SBPL REQUIRED sbpl)
include_directories(${SBPL_INCLUDE_DIRS})
link_directories(${SBPL_LIBRARY_DIRS})
Then, after you've declared your binaries, you need to link them
against SBPL with the following line:
target_link_libraries(your-binary-here ${SBPL_LIBRARIES})
4. Installing and Using SBPL as a ROS package
The ROS package version of SBPL was deprecated with the release of ROS
Fuerte. However, packages in ROS Electric may still require the ROS
package version of SBPL.
4.1 Install SBPL
4.1.1 Source install
SBPL uses git as its version control system. From the
directory where you want the SBPL source to reside, clone the
latest source from https://github.com/sbpl/sbpl:
git clone https://github.com/sbpl/sbpl.git
In the source directory, checkout the electric branch of the
repository to revert to the old ROS package version:
git checkout -b electric
Ensure that SBPL is on your ROS_PACKAGE_PATH and type:
rosmake sbpl
4.1.2 Binary install
SBPL is also available as a pre-built Debian in ROS Electric.
To instal the Debian, run:
sudo apt-get install ros-electric-arm-navigation
4.2 Build your ROS package with SBPL as a depency (rosbuild)
In the manifest.xml for your package, you need to add the
following line to declare the SBPL package as a dependency:
<depend package="sbpl"/>
II. Usage
Examples for how to use SBPL are in src/test/main.cpp. Please follow the
examples carefully. The library contains a number of planning problem
examples, stored as ascii files. These files (with extension .cfg) should
be passed in as arguments into the main function in main.cpp. The files
can be found in env_examples directory.
Command-line usage for the test_sbpl program can be viewed by passing '-h'
as argument to the executable.
Examples:
The following can be run from the directory containing test_sbpl,
which we assume is a build directory in the root of this project.
$ ./test_sbpl ../env_examples/nav3d/env1.cfg
Environment: xytheta; Planner: arastar; Search direction: backward
Initializing ARAPlanner...
start planning...
done planning
size of solution=16
solution size=0
Solution is found
$ ./test_sbpl --env=2d ../env_examples/nav2d/env1.cfg #2d is needed here in order to use 2d config
Environment: 2d; Planner: arastar; Search direction: backward
Initializing ARAPlanner...
start planning...
done planning
size of solution=22
Solution is found
$ ./test_sbpl --env=robarm --search-dir=forward --planner=rstar ../env_examples/robarm/env1_6d.cfg
Environment: robarm; Planner: rstar; Search direction: forward
Initializing RSTARPlanner...
start planning...
done planning
size of solution=44
Solution is found
Motion primitives files can be found in sbpl/matlab/mprim directory.
Finally, few visualization scripts can be found in
sbpl/matlab/visualization. In particular, plot_3Dpath.m function can be
used to visualize the path found by xytheta lattice planner. This
functions takes in .cfg file that specified environment and sol.txt file
that was generated within main.cpp by xythetalattice planners.
Note: If you compile the library with the ROS symbol defined, all text
output will be redirected to ROS logging constructions. Without the ROS
symbol defined, SBPL will print messages to stdout and test_sbpl will
generate a solution file, sol.txt, as well as a debugging information
file, debug.txt
III. Links
These instructions and more tutorials can be found at www.sbpl.net
For more information and documentation on SBPL visit:
http://www.ros.org/wiki/sbpl
For more information and documentation on using the x,y,theta environment
available in ROS visit:
http://www.ros.org/wiki/sbpl_lattice_planner