Maintainer: scpeters AT openrobotics DOT org
Build | Status |
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Test coverage | |
Ubuntu Bionic | |
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Ignition Physics, a component of Ignition Robotics, provides an abstract physics interface designed to support simulation and rapid development of robot applications.
Many physics simulation software libraries have been designed for different applications (gaming, robotics, science) and with different features (rigid or deformable contact, 2d or 3d). Ignition Physics is designed on the premise that there is not a single physics engine that is universally best for all simulation contexts. It should be possible to support a different set of features for each physics engine according to its capabilities. A physics engine can then be chosen for each application based on its context.
Ignition Physics provides the following functionality:
- Granular definition of physics engine features as optional API's.
- Plugin interface for loading physics engines with requested features at runtime.
- Features for common aspects of rigid body dynamic simulation
- Construct model from SDFormat file.
- Collision shapes (such as box, sphere, cylinder, mesh, heightmap).
- Joint types (such as revolute, prismatic, fixed, ball, screw, universal).
- Step simulation, get/set state, apply inputs.
- Reference implementation of physics plugin using dartsim.
- CompositeData structures for efficiently using native types in API.
We recommend following the Binary Install instructions to get up and running as quickly and painlessly as possible.
The Source Install instructions should be used if you need the very latest software improvements, you need to modify the code, or you plan to make a contribution.
On Ubuntu systems, apt-get
can be used to install ignition-physics3
:
sudo apt install libignition-physics3-dev
Source installation can be performed in UNIX systems by first installing the necessary prerequisites followed by building from source.
Install required dependencies:
sudo apt update
sudo apt-get -y install lsb-release
sh -c 'echo "deb http://packages.osrfoundation.org/gazebo/ubuntu-stable `lsb_release -cs` main" > /etc/apt/sources.list.d/gazebo-stable.list'
apt-key adv --keyserver keyserver.ubuntu.com --recv-keys D2486D2DD83DB69272AFE98867170598AF249743
sudo apt-add-repository -s "deb http://packages.osrfoundation.org/gazebo/ubuntu-stable $(lsb_release -c -s) main"
sudo apt-get build-dep -y ignition-physics3
Use gcc-8:
sudo apt update
sudo apt-get -y install g++-8
sudo update-alternatives --install \
/usr/bin/gcc gcc /usr/bin/gcc-8 800 \
--slave /usr/bin/g++ g++ /usr/bin/g++-8 \
--slave /usr/bin/gcov gcov /usr/bin/gcov-8
-
Clone the repository
git clone https://github.com/ignitionrobotics/ign-physics -b master
-
Configure and build
cd ign-physics; mkdir build; cd build; cmake ..; make
-
Optionally, install Ignition Physics
sudo make install
Please refer to the examples directory.
API and tutorials can be found at https://ignitionrobotics.org/libs/physics.
You can also generate the documentation from a clone of this repository by following these steps.
-
You will need Doxygen. On Ubuntu Doxygen can be installed using
sudo apt-get install doxygen
-
Clone the repository
git clone https://github.com/ignitionrobotics/ign-physics -b master
-
Configure and build the documentation.
cd ign-physics; mkdir build; cd build; cmake ../; make doc
-
View the documentation by running the following command from the build directory.
firefox doxygen/html/index.html
Follow these steps to run tests and static code analysis in your clone of this repository.
-
Follow the source install instruction.
-
Run tests.
make test
-
Static code checker.
make codecheck
Refer to the following table for information about important directories and files in this repository.
ign-physics
├── dartsim Files for dartsim plugin component.
├── include/ignition/physics Header files.
├── mesh Files for mesh component.
├── resources Model and mesh resource files used by tests.
├── sdf Files for sdf component.
├── src Source files and unit tests.
├── test
│ ├── benchmark Benchmark tests.
│ ├── integration Integration tests.
│ ├── performance Performance tests.
│ ├── plugins Plugins used in tests.
│ ├── regression Regression tests.
│ └── static_assert Tests involving compilation failures.
├── tutorials Tutorials, written in markdown.
├── Changelog.md Changelog.
└── CMakeLists.txt CMake build script.
Please see CONTRIBUTING.md.
Please see CODE_OF_CONDUCT.md.
This library uses Semantic Versioning. Additionally, this library is part of the Ignition Robotics project which periodically releases a versioned set of compatible and complimentary libraries. See the Ignition Robotics website for version and release information.
This library is licensed under Apache 2.0. See also the LICENSE file.