A modern, light-weight, Eigen-based C++ interface to Nonlinear Programming solvers, such as Ipopt and Snopt.
An example nonlinear optimization problem to solve is defined as:
- To see how this problem is formulated, see test_vars_constr_cost.h.
- Afterwards the problem can be solved using e.g. Ipopt as shown in ex_test_ipopt.cc.
Features • Install • Examples • Develop • Contribute • Publications • Authors
Features
Combines the advantages of Ipopt / Snopt and Eigen:
| Ipopt / Snopt | Eigen |
|---|---|
| ✔️ high-quality solvers for nonlinear optimization | ✔️ modern, intuitive formulations of vectors and matrices |
| ❌ C++ API inconvenient and error-prone (raw pointers, index management, jacobian construction) | ✔️ highly efficient implementations |
| ❌ linking and exporting difficult |
- Solver independent formulation of variables and constraints with Eigen (highly efficient)
- Automatic index management by formulation of variable- and constraint-sets
- Integration: pure cmake
find_package(ifopt)or catkin/ROS (optional) - light-weight (~2k lines of code) makes it easy to use and extend
Install
The easiest way to install is through the ROS binaries and you're all set!
sudo apt-get install ros-<distro>-ifopt
Install dependencies
In case you don't use ROS or the binaries don't exist for your distro, you can easily build these packages from source. For this, install the required dependencies Cmake, Eigen and Ipopt using
sudo apt-get install cmake libeigen3-dev coinor-libipopt-dev
If you want to link to a local installation of Ipopt or to Snopt, see here.
Build with cmake
-
Install
git clone https://github.com/ethz-adrl/ifopt.git && cd ifopt mkdir build && cd build cmake .. make sudo make install # copies files in this folder to /usr/local/* # sudo xargs rm < install_manifest.txt # in case you want to uninstall the above
-
Use: To use in your cmake project, see this minimal CMakeLists.txt:
find_package(ifopt) # Formulate (ifopt:ifopt_core) and solve (ifopt::ifopt_ipopt) the problem add_executable(main main.cpp) # Pull in include directories, libraries, ... target_link_libraries(main PUBLIC ifopt::ifopt_ipopt)
Build with catkin
-
Install: Download catkin or catkin command line tools, then:
cd catkin_ws/src git clone https://github.com/ethz-adrl/ifopt.git cd .. catkin_make_isolated # `catkin build` if you are using catkin command-line tools source ./devel/setup.bash
-
Use: Include in your catkin project by adding to your CMakeLists.txt
add_compile_options(-std=c++11) find_package(catkin COMPONENTS ifopt) include_directories(${catkin_INCLUDE_DIRS}) target_link_libraries(foo ${catkin_LIBRARIES})
Add the following to your package.xml:
<package> <depend>ifopt</depend> </package>
Examples
Unit tests & toy problem
Navigate to your build folder in which the Makefile resides, which depends
on how you built the code:
cd ifopt/build # plain cmake
cd catkin_ws/build_isolated/ifopt/devel # catkin_make_isolated
cd catkin_ws/build/ifopt # catkin buildMake sure everything installed correctly by running the test target
make testYou should see ifopt_ipopt-example....Passed (or snopt if installed) as well as ifopt_core-test if
gtest is installed.
If you have IPOPT installed and linked correctly, you can also run the binary example
directly (again, first navigate to the build folder with the Makefile)
make test ARGS='-R ifopt_ipopt-example -V'Output:
1.0 0.0towr
A more involved problem, taken from towr, with multiple sets of variables and constraints to generate motions for legged robots produces the following:
Develop
Useful information for developers is given in the doxygen documentation:
- For an overview of how to formulate your problem, start here.
- A nice graphical overview as UML can be seen here.
Contribute
We love pull request, whether its interfaces to additional solvers, bug fixes, unit tests or updating the documentation. Please have a look at CONTRIBUTING.md for more information. See here the list of contributors who participated in this project.
Publications
If you use this work, please consider citing as follows:
@misc{ifopt,
author = {Alexander W Winkler},
title = {{Ifopt - A modern, light-weight, Eigen-based C++ interface to
Nonlinear Programming solvers Ipopt and Snopt.}},
year = 2018,
doi = {10.5281/zenodo.1135046},
url = {https://doi.org/10.5281/zenodo.1135046}
}
The research project within which this code was developed:
- A. W. Winkler, D. Bellicoso, M. Hutter, J. Buchli, Gait and Trajectory Optimization for Legged Systems through Phase-based End-Effector Parameterization, IEEE Robotics and Automation Letters (RA-L), 2018:
Authors
Alexander W. Winkler - Initial Work/Maintainer
This was has been carried out at the following institutions:
Additional Information
Linking to custom Ipopt or Snopt
If you are building from source and want to use a locally installed version of Ipopt add the path to your
Ipopt build folder to your ~/.bashrc, e.g.
export IPOPT_DIR=/home/your_name/Code/Ipopt-3.12.8/buildIn case your OS doesn't provide the precompiled binaries or the required version, you can also easily install Ipopt from source as described here. This summary might work for you:
wget https://www.coin-or.org/download/source/Ipopt/Ipopt-3.11.10.zip
unzip Ipopt-3.11.10.zip
cd Ipopt-3.11.10/ThirdParty/Mumps
./get.Mumps # HSL routines are faster (http://www.hsl.rl.ac.uk/ipopt/)
cd ../../
mkdir build && cd build
../configure --prefix=/usr/local
make
make test
make install
export IPOPT_DIR=`pwd`If you need an interface to Snopt, point cmake to that build folder in your ~/.bashrc through e.g.
export SNOPT_DIR=/home/your_name/Code/Snoptand run cmake as
cmake -DBUILD_SNOPT=ON ..