NOTE: This repository cannot be used to build OpenSim 3.x or earlier. For OpenSim 3.x, see here.
OpenSim is software that lets users develop models of musculoskeletal structures and create dynamic simulations of movement, such as this one:
More information can be found at our websites:
- OpenSim website; in particular, the support page.
- SimTK project website
This repository contains the source code for OpenSim's C++ libraries, C++ examples, command-line applications (inverse kinematics, computed muscle control, etc.), and Java and Python wrapping. This repository does not include source code for the OpenSim GUI.
Let's simulate a simple arm whose elbow is actuated by a muscle, using
the C++ interface (You can find a Python version of this example at
Bindings/Python/examples/build_simple_arm_model.py
):
#include <OpenSim/OpenSim.h>
using namespace SimTK;
using namespace OpenSim;
int main() {
Model model;
model.setName("bicep_curl");
model.setUseVisualizer(true);
// Create two links, each with a mass of 1 kg, center of mass at the body's
// origin, and moments and products of inertia of zero.
OpenSim::Body* humerus = new OpenSim::Body("humerus", 1, Vec3(0), Inertia(0));
OpenSim::Body* radius = new OpenSim::Body("radius", 1, Vec3(0), Inertia(0));
// Connect the bodies with pin joints. Assume each body is 1 m long.
PinJoint* shoulder = new PinJoint("shoulder",
// Parent body, location in parent, orientation in parent.
model.getGround(), Vec3(0), Vec3(0),
// Child body, location in child, orientation in child.
*humerus, Vec3(0, 1, 0), Vec3(0));
PinJoint* elbow = new PinJoint("elbow",
*humerus, Vec3(0), Vec3(0), *radius, Vec3(0, 1, 0), Vec3(0));
// Add a muscle that flexes the elbow.
Millard2012EquilibriumMuscle* biceps = new
Millard2012EquilibriumMuscle("biceps", 200, 0.6, 0.55, 0);
biceps->addNewPathPoint("origin", *humerus, Vec3(0, 0.8, 0));
biceps->addNewPathPoint("insertion", *radius, Vec3(0, 0.7, 0));
// Add a controller that specifies the excitation of the muscle.
PrescribedController* brain = new PrescribedController();
brain->addActuator(*biceps);
// Muscle excitation is 0.3 for the first 0.5 seconds, then increases to 1.
brain->prescribeControlForActuator("biceps",
new StepFunction(0.5, 3, 0.3, 1));
// Add components to the model.
model.addBody(humerus); model.addBody(radius);
model.addJoint(shoulder); model.addJoint(elbow);
model.addForce(biceps);
model.addController(brain);
// Add a console reporter to print the muscle fiber force and elbow angle.
ConsoleReporter* reporter = new ConsoleReporter();
reporter->set_report_time_interval(1.0);
reporter->addToReport(biceps->getOutput("fiber_force"));
reporter->addToReport(
elbow->getCoordinate(PinJoint::Coord::RotationZ).getOutput("value"),
"elbow_angle");
model.addComponent(reporter);
// Add display geometry.
Ellipsoid bodyGeometry(0.1, 0.5, 0.1);
bodyGeometry.setColor(Gray);
// Attach an ellipsoid to a frame located at the center of each body.
PhysicalOffsetFrame* humerusCenter = new PhysicalOffsetFrame(
"humerusCenter", "humerus", Transform(Vec3(0, 0.5, 0)));
humerus->addComponent(humerusCenter);
humerusCenter->attachGeometry(bodyGeometry.clone());
PhysicalOffsetFrame* radiusCenter = new PhysicalOffsetFrame(
"radiusCenter", "radius", Transform(Vec3(0, 0.5, 0)));
radius->addComponent(radiusCenter);
radiusCenter->attachGeometry(bodyGeometry.clone());
// Configure the model.
State& state = model.initSystem();
// Fix the shoulder at its default angle and begin with the elbow flexed.
shoulder->getCoordinate().setLocked(state, true);
elbow->getCoordinate().setValue(state, 0.5 * Pi);
model.equilibrateMuscles(state);
// Configure the visualizer.
model.updMatterSubsystem().setShowDefaultGeometry(true);
Visualizer& viz = model.updVisualizer().updSimbodyVisualizer();
viz.setBackgroundType(viz.SolidColor);
viz.setBackgroundColor(White);
// Simulate.
simulate(model, state, 10.0);
return 0;
};
This code produces the following animation:
and prints the following information to the console:
[reporter]
| /model_/bice| |
time| ps|fiber_force| elbow_angle|
--------------| --------------| --------------|
0.000000e+00| 1.18096897e+00| 1.57079633e+00|
1.00000000e+00| 5.72750904e+01| 7.70664118e-01|
2.00000000e+00| 1.97284113e+01| 1.56804557e+00|
3.00000000e+00| 5.60904315e+01| 1.44198608e+00|
4.00000000e+00| 3.45483498e+01| 1.50834805e+00|
5.00000000e+00| 3.26037208e+01| 1.51802366e+00|
6.00000000e+00| 3.71360518e+01| 1.50212351e+00|
7.00000000e+00| 3.56985024e+01| 1.50718884e+00|
8.00000000e+00| 3.41860103e+01| 1.50791862e+00|
9.00000000e+00| 3.43416494e+01| 1.50672695e+00|
1.00000000e+01| 3.57847134e+01| 1.50716396e+00|
NOTE: On all platforms (Windows, OSX, Linux), you should build all OpenSim dependencies (Simbody, BTK, etc) with the same CMAKE_BUILD_TYPE (Linux) / CONFIGURATION (MSVC/Xcode) (e.g., Release, Debug) as OpenSim. Failing to do so may result in mysterious runtime errors like segfaults.
We support a few ways of building OpenSim:
- On Windows using Microsoft Visual Studio. In a rush? Use these instructions.
- On Mac OSX using Xcode. Need extended instructions? Use these instructions.
- On Ubuntu using Unix Makefiles. In a rush? Use these instructions.
- operating system: Windows 7, 8, or 10.
- cross-platform build system: CMake >= 3.2
- compiler / IDE: Visual Studio 2015 or 2017 (2017 requires CMake >= 3.9).
- The Community variant is sufficient and is free for everyone.
- Visual Studio 2015 and 2017 do not install C++ support by default.
- 2015: During the installation you must select Custom, and check Programming Languages > Visual C++ > Common Tools for Visual C++ 2015. You can uncheck all other boxes. If you have already installed Visual Studio without C++ support, simply re-run the installer and select Modify. Alternatively, go to File > New > Project... in Visual Studio, select Visual C++, and click Install Visual C++ 2015 Tools for Windows Desktop.
- 2017: During the installation, select the workload Desktop Development with C++.
- If Visual Studio is installed without C++ support, CMake will report
the following errors:
The C compiler identification is unknown The CXX compiler identification is unknown
- physics engine: Simbody >= 3.6. Two options:
- Let OpenSim get this for you using superbuild (see below).
- Build on your own.
- C3D file support: Biomechanical-ToolKit Core. Two options:
- Let OpenSim get this for you using superbuild (see below).
- Build on your own.
- command-line argument parsing: docopt.cpp. Two options:
- Let OpenSim get this for you using superbuild (see below); much easier!
- Build on your own (no instructions).
- API documentation (optional): Doxygen >= 1.8.6
- version control (optional): git. There are many options:
- Git for Windows, most advanced;
- TortoiseGit, intermediate; good for TortoiseSVN users;
- GitHub for Windows, easiest.
- Bindings (optional): SWIG 3.0.8
- MATLAB scripting (optional): Java development kit >= 1.7.
- Note: Older versions of MATLAB may use an older version of JVM. Run 'ver' in MATLAB to check MATLAB's JVM version (must be >= 1.7).
- Note: Java development kit >= 9 requires CMake >= 3.10.
- Python scripting (optional): Python 2 >= 2.7 or Python 3 >= 3.5
- The choice between 32-bit/64-bit must be the same between Java, Python, and OpenSim.
- MATLAB scripting (optional): Java development kit >= 1.7.
-
Method 1: If you want to get going quickly, download the source code from https://github.com/opensim-org/opensim-core/releases, for the version of OpenSim you want. We'll assume you unzipped the source code into
C:/opensim-core-source
. -
Method 2: If you plan on updating your OpenSim installation or you want to contribute back to the project, clone the opensim-core git repository into
C:/opensim-core-source
. If using TortoiseGit, open Windows Explorer, right-click in the window, select Git Clone..., and provide the following:- URL:
https://github.com/opensim-org/opensim-core.git
. - Directory:
C:/opensim-core-source
.
If using a Git Bash or Git Shell, run the following:
$ git clone https://github.com/opensim-org/opensim-core.git C:/opensim-core-source
This will give you a bleeding-edge version of OpenSim-Core.
- URL:
-
Open the CMake GUI.
-
In the field Where is the source code, specify
C:/opensim-core-source/dependencies
. -
In the field Where to build the binaries, specify a directory under which to build dependencies. Let's say this is
C:/opensim-core-dependencies-build
. -
Click the Configure button.
- Visual Studio 2015: Choose the Visual Studio 14 2015 generator (may appear as Visual Studio 14).
- Visual Studio 2017: Choose the Visual Studio 15 2017 generator.
- To build as 64-bit, select the generator with Win64 in the name.
- Click Finish.
-
Where do you want to install OpenSim dependencies on your computer? Set this by changing the
CMAKE_INSTALL_PREFIX
variable. Let's say this isC:/opensim-core-dependencies-install
. -
Variables named
SUPERBUILD_<dependency-name>
allow you to selectively download dependencies. By default, all dependencies are downloaded, configured and built. -
Click the Configure button again. Then, click Generate to make Visual Studio project files in the build directory.
-
Go to the build directory you specified in step 3 using the command:
cd C:/opensim-core-dependencies-build
-
Use CMake to download, compile and install the dependencies:
cmake --build . --config RelWithDebInfo
Alternative values for
--config
in this command are:- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
_d
. - Release: no debugger symbols; optimized.
- RelWithDebInfo: debugger symbols; optimized. Bigger but not slower than Release; choose this if unsure.
- MinSizeRel: minimum size; optimized.
You must run this command for each of the configurations you plan to use with OpenSim (see below). You should run this command for the release configuration last to ensure that you use the release version of the command-line applications instead of the slow debug versions.
- Note: Superbuild attempts to determine when dependencies are out of date but is not always successful. It is therefore recommended to build all dependencies from scratch when updating your installation.
- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
-
If you like, you can now remove the directory used for building dependencies (
c:/opensim-core-dependencies-build
).
- Open the CMake GUI.
- In the field Where is the source code, specify
C:/opensim-core-source
. - In the field Where to build the binaries, specify something like
C:/opensim-core-build
, or some other path that is not inside your source directory. This is not where we are installing OpenSim-Core; see below. - Click the Configure button.
- Visual Studio 2015: Choose the Visual Studio 14 or Visual Studio 14 2015 generator.
- Visual Studio 2017: Choose the Visual Studio 15 2017 generator.
- To build as 64-bit, select the generator with Win64 in the name. The choice between 32-bit/64-bit must be the same across all dependencies.
- Click Finish.
- Where do you want to install OpenSim-Core on your computer? Set this by
changing the
CMAKE_INSTALL_PREFIX
variable. We'll assume you set it toC:/opensim-core
. If you choose a different installation location, make sure to use yours where we useC:/opensim-core
below. - Tell CMake where to find dependencies. This depends on how you got them.
- Superbuild: Set the variable
OPENSIM_DEPENDENCIES_DIR
to the root directory you specified with superbuild for installation of dependencies. In our example, it would bec:/opensim-core-dependencies-install
. - Obtained on your own:
- Simbody: Set the
SIMBODY_HOME
variable to where you installed Simbody (e.g.,C:/Simbody
). - BTK: Set the variable
BTK_DIR
to the directory containingBTKConfig.cmake
. If the root directory of your BTK installation isC:/BTKCore-install
, then set this variable toC:/BTKCore-install/share/btk-0.4dev
. - docopt.cpp. Set the variable
docopt_DIR
to the directory containingdocopt-config.cmake
. If the root directory of your docopt.cpp installation isC:/docopt.cpp-install
, then set this variable toC:/docopt.cpp-install/lib/cmake
.
- Simbody: Set the
- Superbuild: Set the variable
- Set the remaining configuration options.
BUILD_API_EXAMPLES
to compile C++ API examples.BUILD_TESTING
to ensure that OpenSim works correctly. The tests take a while to build; if you want to build OpenSim quickly, you can turn this off.BUILD_JAVA_WRAPPING
if you want to access OpenSim through MATLAB or Java; see dependencies above.BUILD_PYTHON_WRAPPING
if you want to access OpenSim through Python; see dependencies above. CMake setsPYTHON_*
variables to tell you the Python version used when building the wrappers.OPENSIM_PYTHON_VERSION
to choose if the Python wrapping is built for Python 2 or Python 3.BUILD_API_ONLY
if you don't want to build the command-line applications.
- Click the Configure button again. Then, click Generate to make Visual Studio project files in the build directory.
-
Open
C:/opensim-core-build/OpenSim.sln
in Visual Studio. -
Select your desired Solution configuration from the drop-down at the top.
- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
_d
. - Release: no debugger symbols; optimized.
- RelWithDebInfo: debugger symbols; optimized. Bigger but not slower than Release; choose this if unsure.
- MinSizeRel: minimum size; optimized.
You at least want release libraries (the last 3 count as release), but you can have debug libraries coexist with them. To do this, go through the installation process twice, once for each of the two configurations. You should install the release configuration last to ensure that you use the release version of the command-line applications instead of the slow debug versions.
- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
-
Build the API documentation. This is optional, and you can only do this if you have Doxygen. Build the documentation by right-clicking doxygen and selecting Build.
-
Build the libraries, etc. by right-clicking ALL_BUILD and selecting Build.
-
Run the tests by right-clicking RUN_TESTS_PARALLEL and selecting Build.
-
Install OpenSim-Core by right-clicking INSTALL and selecting Build.
In order to use the OpenSim-Core command-line applications or use OpenSim-Core
libraries in your own application, you must add the OpenSim-Core bin/
directory to your PATH
environment variable.
- In the Windows toolbar (Windows 10), Start screen (Windows 8) or Start menu
(Windows 7), search
environment
. - Select Edit the system environment variables.
- Click Environment Variables....
- Under System variables, click Path, then click Edit.
- Add C:/opensim-core/bin; to the front of of the text field. Don't forget the semicolon!
-
Get Visual Studio Community 2015 or 2017.
- 2015: Choose Custom installation, then choose Programming Languages -> Visual C++.
- 2017: Choose the workload Desktop Development with C++.
-
Get git from here.
- Choose Use Git from the Windows Command Prompt.
-
Get CMake from here.
- Choose Add CMake to the system PATH for all users.
-
Get Chocolatey from here.
-
In PowerShell, run as Administrator:
choco install python2 jdk8 swig
-
In PowerShell (if using Visual Studio 2017, replace 14 2015 with 15 2017):
git clone https://github.com/opensim-org/opensim-core.git mkdir opensim_dependencies_build cd .\opensim_dependencies_build cmake ..\opensim-core\dependencies ` -G"Visual Studio 14 2015 Win64" ` -DCMAKE_INSTALL_PREFIX="..\opensim_dependencies_install" cmake --build . --config RelWithDebInfo -- /maxcpucount:8 cd .. mkdir opensim_build cd .\opensim_build cmake ..\opensim-core ` -G"Visual Studio 14 2015 Win64" ` -DCMAKE_INSTALL_PREFIX="..\opensim_install" ` -DOPENSIM_DEPENDENCIES_DIR="..\opensim_dependencies_install" ` -DBUILD_JAVA_WRAPPING=ON ` -DBUILD_PYTHON_WRAPPING=ON ` -DWITH_BTK=ON cmake --build . --config RelWithDebInfo -- /maxcpucount:8 ctest --build-config RelWithDebInfo --parallel 8 cmake --build . --config RelWithDebInfo --target install -- /maxcpucount:8
Note: Please add <FULL-DIR>\opensim_install\bin
to your PATH variable as per these instructions.
Example: If opensim_install
is in C:
, add C:\opensim_install\bin
to your PATH.
Get Xcode from the App store. Open Xcode and Agree to license agreement. To Agree to to the license agreement, you may need to type in Terminal:
sudo xcodebuild -license
If you already have Xcode, update it to 7.3, or the latest version.
Then, in Terminal, copy and paste commands below, line by line, one at a time. The first line installs the Homebrew package manager; omit this line if you already have Homebrew. Be sure the output doesn't contain errors.
/usr/bin/ruby -e "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/master/install)"
brew install cmake swig
brew cask install java
git clone https://github.com/opensim-org/opensim-core.git
mkdir opensim_dependencies_build
cd opensim_dependencies_build
cmake ../opensim-core/dependencies \
-DCMAKE_INSTALL_PREFIX="~/opensim_dependencies_install" \
-DCMAKE_BUILD_TYPE=RelWithDebInfo
make -j8
cd ..
mkdir opensim_build
cd opensim_build
cmake ../opensim-core \
-DCMAKE_INSTALL_PREFIX="~/opensim_install" \
-DCMAKE_BUILD_TYPE=RelWithDebInfo \
-DBUILD_PYTHON_WRAPPING=ON \
-DBUILD_JAVA_WRAPPING=ON \
-DOPENSIM_DEPENDENCIES_DIR="~/opensim_dependencies_install" \
-DWITH_BTK=ON
make -j8
ctest -j8
- operating system: Mac OSX 10.11 El Capitan or newer.
- cross-platform build system: CMake >= 3.2
- compiler / IDE: Xcode >= 7.3 (the latest version), through the Mac App Store.
- physics engine: Simbody >= 3.6. Two options:
- Let OpenSim get this for you using superbuild (see below).
- Build on your own.
- C3D file support: Biomechanical-ToolKit Core. Two options:
- Let OpenSim get this for you using superbuild (see below).
- Build on your own.
- command-line argument parsing: docopt.cpp. Two options:
- Let OpenSim get this for you using superbuild (see below); much easier!
- Build on your own (no instructions).
- API documentation (optional): Doxygen >= 1.8.6
- version control (optional): git.
- Xcode Command Line Tools gives you git on the command line.
- GitHub for Mac, for a simple-to-use GUI.
- Bindings (optional): SWIG 3.0.8
- MATLAB scripting (optional): Java development kit >= 1.7.
- Note: Older versions of MATLAB may use an older version of JVM. Run 'ver' in MATLAB to check MATLAB's JVM version (must be >= 1.7).
- Note: Java development kit >= 9 requires CMake >= 3.10.
- Python scripting (optional): Python 2 >= 2.7 or Python 3 >= 3.5
- Mac OSX comes with Python, but you could also use:
brew install python
,- Anaconda
- MATLAB scripting (optional): Java development kit >= 1.7.
You can get most of these dependencies using Homebrew:
$ brew install cmake doxygen swig
-
Method 1; If you want to get going quickly, download the source code from https://github.com/opensim-org/opensim-core/releases, for the version of OpenSim you want. We'll assume you unzipped the source code into
~/opensim-core-source
. -
Method 2: If you plan on updating your OpenSim installation or you want to contribute back to the project, clone the opensim-core git repository into
~/opensim-core-source
. Run the following in a terminal, or find a way to run the equivalent commands in a GUI client:$ git clone https://github.com/opensim-org/opensim-core.git ~/opensim-core-source
This will give you a bleeding-edge version of OpenSim-Core.
-
Open the CMake GUI.
-
In the field Where is the source code, specify
~/opensim-core-source/dependencies
. -
In the field Where to build the binaries, specify a directory under which to build dependencies. Let's say this is
~/opensim-core-dependencies-build
. -
Click the Configure button. Choose Xcode. Click Finish.
-
Where do you want to install OpenSim dependencies on your computer? Set this by changing the
CMAKE_INSTALL_PREFIX
variable. Let's say this is~/opensim-core-dependencies-install
. -
Variables named
SUPERBUILD_<dependency-name>
allow you to selectively download dependencies. By default, all dependencies are downloaded, configured and built. -
Click the Configure button again. Then, click Generate to make Xcode files in the build directory.
-
Open
~/opensim-core-dependencies/build/OpenSimDependencies.xcodeproj
in Xcode. -
Choose your Build Configuration for the ALL_BUILD Scheme by pressing
Command-Shift ,
(or,Command-LessThan
), or navigating to Product -> Scheme -> Edit Scheme...; and changing the Build Configuration field.- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
_d
. - Release: no debugger symbols; optimized.
- RelWithDebInfo: debugger symbols; optimized. Bigger but not slower than Release; choose this if unsure.
- MinSizeRel: minimum size; optimized.
You must build each of the configurations you plan to use with OpenSim (see below). You should install the release configuration last to ensure that you use the release version of the command-line applications instead of the slow debug versions.
- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
-
Compile. Run the Scheme ALL_BUILD by clicking the play button in the upper left. If necessary, change the build configuration (previous step) and run ALL_BUILD again.
- Note: Superbuild attempts to determine when dependencies are out of date but is not always successful. It is therefore recommended to build all dependencies from scratch when updating your installation.
- Open the CMake GUI.
- In the field Where is the source code, specify
~/opensim-core-source
. - In the field Where to build the binaries, specify something like
~/opensim-core-build
, or some other path that is not inside your source directory. This is not where we are installing OpenSim-Core; see below. - Click the Configure button. Choose Xcode. Click Finish.
- Where do you want to install OpenSim-Core on your computer? Set this by
changing the
CMAKE_INSTALL_PREFIX
variable. We'll assume you set it to~/opensim-core
. If you choose a different installation location, make sure to use yours where we use~/opensim-core
below. You should not use/usr/
,/usr/local/
, etc. (because our installation does not yet conform to the FHS). - Tell CMake where to find dependencies. This depends on how you got them.
- Superbuild: Set the variable
OPENSIM_DEPENDENCIES_DIR
to the root directory you specified with superbuild for installation of dependencies. In our example, it would be~/opensim-core-dependencies-install
. - Obtained on your own:
- Simbody: Set the
SIMBODY_HOME
variable to where you installed Simbody (e.g.,~/simbody
). If you installed Simbody usingbrew
, then CMake will find Simbody automatically. - BTK: Set the
BTK_DIR
variable to the directory containingBTKConfig.cmake
. If you installed BTK in~/BTKCore-install
, then setBTK_DIR
to~/BTKCore-install/share/btk-0.4dev
- docopt.cpp. Set the variable
docopt_DIR
to the directory containingdocopt-config.cmake
. If the root directory of your docopt.cpp installation is~/docopt.cpp-install
, then set this variable to~/docopt.cpp-install/lib/cmake
.
- Simbody: Set the
- Superbuild: Set the variable
- Set the remaining configuration options.
BUILD_API_EXAMPLES
to compile C++ API examples.BUILD_TESTING
to ensure that OpenSim works correctly. The tests take a while to build; if you want to build OpenSim quickly, you can turn this off.BUILD_JAVA_WRAPPING
if you want to access OpenSim through MATLAB or Java; see dependencies above.BUILD_PYTHON_WRAPPING
if you want to access OpenSim through Python; see dependencies above. CMake setsPYTHON_*
variables to tell you the Python version used when building the wrappers.OPENSIM_PYTHON_VERSION
to choose if the Python wrapping is built for Python 2 or Python 3.BUILD_API_ONLY
if you don't want to build the command-line applications.
- Click the Configure button again. Then, click Generate to create Xcode project files in the build directory.
-
Open
~/opensim-core-build/OpenSim.xcodeproj
in Xcode. -
Choose your Build Configuration for the ALL_BUILD Scheme by pressing
Command-Shift ,
(or,Command-LessThan
), or navigating to Product -> Scheme -> Edit Scheme...; and changing the Build Configuration field.- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
_d
. - Release: no debugger symbols; optimized.
- RelWithDebInfo: debugger symbols; optimized. Bigger but not slower than Release; choose this if unsure.
- MinSizeRel: minimum size; optimized.
You at least want release libraries (the last 3 count as release), but you can have debug libraries coexist with them. To do this, go through the installation process twice, once for each of the two configurations. You should install the release configuration last to ensure that you use the release version of the command-line applications instead of the slow debug versions.
- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
-
Compile. Run the Scheme ALL_BUILD by clicking the play button in the upper left.
-
Test. Click on ALL_BUILD in the upper left, and select RUN_TESTS_PARALLEL. Change the Build Configuration of this Scheme to the same as you used for ALL_BUILD (using the same instructions as above). Click the play button.
-
Build the API documentation. This is optional, and you can only do this if you have Doxygen. Click on the current Scheme (RUN_TESTS_PARALLEL) and select doxygen. Click the play button.
-
Install. Click on the current Scheme (RUN_TESTS_PARALLEL or doxygen), and select install. Click the play button.
-
Executables. If you want to run OpenSim-Core's executables from anywhere on your computer, you must update your PATH. Open a terminal and type:
$ echo 'export PATH=~/opensim-core/bin:$PATH' >> ~/.bash_profile
Your changes will only take effect in new terminal windows.
Most dependencies can be obtained via the Ubuntu software repositories; especially if you are using Ubuntu 16.04 or later. On each line below, we show the Ubuntu package names for the dependencies. You can find instructions for specific Ubuntu versions under 'For the impatient' below.
- cross-platform build system:
CMake >= 3.2;
cmake-gui
. - compiler: gcc >= 4.9;
g++-4.9
, or Clang >= 3.4;clang-3.4
. - physics engine: Simbody >= 3.6. Two options:
- Let OpenSim get this for you using superbuild (see below).
- Build on your own.
- C3D file support: Biomechanical-ToolKit Core. Two options:
- Let OpenSim get this for you using superbuild (see below).
- Build on your own.
- command-line argument parsing: docopt.cpp. Two options:
- Let OpenSim get this for you using superbuild (see below); much easier!
- Build on your own (no instructions).
- API documentation (optional):
Doxygen >= 1.8.6;
doxygen
. - version control (optional): git;
git
. - Bindings (optional): SWIG 3.0.8;
swig
.- MATLAB scripting (optional): Java development kit >= 1.7;
openjdk-7-jdk
.- Note: Older versions of MATLAB may use an older version of JVM. Run 'ver' in MATLAB to check MATLAB's JVM version (must be >= 1.7).
- Note: Java development kit >= 9 requires CMake >= 3.10.
- Python scripting (optional): Python 2 >= 2.7 or Python 3 >= 3.5;
python-dev
.
- MATLAB scripting (optional): Java development kit >= 1.7;
For example, you could get the required dependencies (except Simbody) via:
$ sudo apt-get install cmake-gui g++-4.9
And you could get all the optional dependencies via:
$ sudo apt-get install doxygen git swig openjdk-7-jdk python-dev
-
Method 1; If you want to get going quickly, download the source code from https://github.com/opensim-org/opensim-core/releases, for the version of OpenSim you want. We'll assume you unzipped the source code into
~/opensim-core-source
. -
Method 2: If you plan on updating your OpenSim installation or you want to contribute back to the project, clone the opensim-core git repository into
C:/opensim-core-source
. Run the following in a terminal:$ git clone https://github.com/opensim-org/opensim-core.git ~/opensim-core-source
This will give you a bleeding-edge version of OpenSim-Core.
-
Open the CMake GUI.
-
In the field Where is the source code, specify
~/opensim-core-source/dependencies
. -
In the field Where to build the binaries, specify a directory under which to build dependencies. Let's say this is
~/opensim-core-dependencies-build
. -
Click the Configure button. Choose Unix Makefiles. Click Finish.
-
Where do you want to install OpenSim dependencies on your computer? Set this by changing the
CMAKE_INSTALL_PREFIX
variable. Let's say this is~/opensim-core-dependencies-install
. -
Variables named
SUPERBUILD_<dependency-name>
allow you to selectively download dependencies. By default, all dependencies are downloaded, configured and built. -
Choose your build type by setting
CMAKE_BUILD_TYPE
to one of the following:- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
_d
. - Release: no debugger symbols; optimized.
- RelWithDebInfo: debugger symbols; optimized. Bigger but not slower than Release; choose this if unsure.
- MinSizeRel: minimum size; optimized.
You must perform the superbuild procedure for each of the build types you plan to use with OpenSim (see below). You might want to use different build directories for each build type, though you can use the same install directory for all build types. You should install the release build type last to ensure that you use the release version of the command-line applications instead of the slow debug versions.
- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
-
Click the Configure button again. Then, click Generate to make Unix Makefiles in the build directory.
-
Open a terminal and navigate to the build directory.
$ cd ~/opensim-core-dependencies-build
-
Compile. Use the
-jn
flag to build usingn
concurrent jobs (potentially in parallel); this will greatly speed up your build. For example:$ make -j8
- Note: Superbuild attempts to determine when dependencies are out of date but is not always successful. It is therefore recommended to build all dependencies from scratch when updating your installation.
-
If necessary, repeat this whole procedure for other build types.
-
Open the CMake GUI.
-
In the field Where is the source code, specify
~/opensim-core-source
. -
In the field Where to build the binaries, specify something like
~/opensim-core-build
, or some other path that is not inside your source directory. This is not where we are installing OpenSim-Core; see below. -
Click the Configure button. Choose Unix Makefiles. Click Finish.
-
Where do you want to install OpenSim-Core on your computer? Set this by changing the
CMAKE_INSTALL_PREFIX
variable. We'll assume you set it to~/opensim-core
. If you choose a different installation location, make sure to use yours where we use~/opensim-core
below. You should not use/usr/
,/usr/local/
, etc. (because our installation does not yet conform to the FHS), but/opt/
is okay. -
Tell CMake where to find dependencies. This depends on how you got them.
- Superbuild: Set the variable
OPENSIM_DEPENDENCIES_DIR
to the root directory you specified with superbuild for installation of dependencies. In our example, it would be~/opensim-core-dependencies-install
. - Obatained on your own:
- Simbody: Set the
SIMBODY_HOME
variable to where you installed Simbody (e.g.,~/simbody
). - BTK: Set the
BTK_DIR
variable to the directory containingBTKConfig.cmake
. If you installed BTK in~/BTK-install
, then setBTK-DIR
to~/BTK-install/share/btk-0.4dev
. - docopt.cpp. Set the variable
docopt_DIR
to the directory containingdocopt-config.cmake
. If the root directory of your docopt.cpp installation is~/docopt.cpp-install
, then set this variable to~/docopt.cpp-install/lib/cmake
.
- Simbody: Set the
- Superbuild: Set the variable
-
Choose your build type by setting
CMAKE_BUILD_TYPE
to one of the following:- Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
_d
. - Release: no debugger symbols; optimized.
- RelWithDebInfo: debugger symbols; optimized. Bigger but not slower than Release; choose this if unsure.
- MinSizeRel: minimum size; optimized.
You at least want release libraries (the last 3 count as release), but you can have debug libraries coexist with them. To do this, go through the installation process twice, once for each of the two build types. It is typical to use a different build directory for each build type (e.g.,
~/opensim-core-build-debug
and~/opensim-core-build-release
). You should install the release build type last to ensure that you use the release version of the command-line applications instead of the slow debug versions. - Debug: debugger symbols; no optimizations (more than 10x slower).
Library names end with
-
Set the remaining configuration options.
BUILD_API_EXAMPLES
to compile C++ API examples.BUILD_TESTING
to ensure that OpenSim works correctly. The tests take a while to build; if you want to build OpenSim quickly, you can turn this off.BUILD_JAVA_WRAPPING
if you want to access OpenSim through MATLAB or Java; see dependencies above.BUILD_PYTHON_WRAPPING
if you want to access OpenSim through Python; see dependencies above.OPENSIM_PYTHON_VERSION
to choose if the Python wrapping is built for Python 2 or Python 3.BUILD_API_ONLY
if you don't want to build the command-line applications.OPENSIM_COPY_DEPENDENCIES
to decide if Simbody and BTK are copied into the OpenSim installation; you want this off if you're installing OpenSim into/usr/
or/usr/local/
.
-
Click the Configure button again. Then, click Generate to create Makefiles in the build directory.
-
Open a terminal and navigate to the build directory.
$ cd ~/opensim-core-build
-
Build the API documentation. This is optional, and you can only do this if you have Doxygen.
$ make doxygen
-
Compile. Use the
-jn
flag to build usingn
concurrent jobs (potentially in parallel); this will greatly speed up your build. For example:$ make -j8
-
Run the tests.
$ ctest -j8
-
Install (to
~/opensim-core
).$ make -j8 install
-
Executables. Add OpenSim-Core's executables to the path so you can access them from any directory on your computer.
$ echo 'export PATH=~/opensim-core/bin:$PATH' >> ~/.bashrc
Your changes will only take effect in new terminal windows.
In Terminal --
sudo add-apt-repository --yes ppa:george-edison55/cmake-3.x
sudo apt-add-repository --yes ppa:fenics-packages/fenics-exp
sudo apt-get update
sudo apt-get --yes install git cmake cmake-curses-gui clang-3.6 \
freeglut3-dev libxi-dev libxmu-dev \
liblapack-dev swig3.0 python-dev \
openjdk-7-jdk
sudo rm -f /usr/bin/cc /usr/bin/c++
sudo ln -s /usr/bin/clang-3.6 /usr/bin/cc
sudo ln -s /usr/bin/clang++-3.6 /usr/bin/c++
export JAVA_HOME=/usr/lib/jvm/java-7-openjdk-amd64
git clone https://github.com/opensim-org/opensim-core.git
mkdir opensim_dependencies_build
cd opensim_dependencies_build
cmake ../opensim-core/dependencies/ \
-DCMAKE_INSTALL_PREFIX='~/opensim_dependencies_install' \
-DCMAKE_BUILD_TYPE=RelWithDebInfo
make -j8
cd ..
mkdir opensim_build
cd opensim_build
cmake ../opensim-core \
-DCMAKE_INSTALL_PREFIX="~/opensim_install" \
-DCMAKE_BUILD_TYPE=RelWithDebInfo \
-DOPENSIM_DEPENDENCIES_DIR="~/opensim_dependencies_install" \
-DBUILD_PYTHON_WRAPPING=ON \
-DBUILD_JAVA_WRAPPING=ON \
-DWITH_BTK=ON
make -j8
ctest -j8
make -j8 install
In Terminal --
sudo apt-add-repository --yes ppa:fenics-packages/fenics
sudo apt-get update
sudo apt-get --yes install git cmake cmake-curses-gui \
freeglut3-dev libxi-dev libxmu-dev \
liblapack-dev swig3.0 python-dev \
openjdk-8-jdk
export JAVA_HOME=/usr/lib/jvm/java-8-openjdk-amd64
git clone https://github.com/opensim-org/opensim-core.git
mkdir opensim_dependencies_build
cd opensim_dependencies_build
cmake ../opensim-core/dependencies/ \
-DCMAKE_INSTALL_PREFIX='~/opensim_dependencies_install' \
-DCMAKE_BUILD_TYPE=RelWithDebInfo
make -j8
cd ..
mkdir opensim_build
cd opensim_build
cmake ../opensim-core \
-DCMAKE_INSTALL_PREFIX="~/opensim_install" \
-DCMAKE_BUILD_TYPE=RelWithDebInfo \
-DOPENSIM_DEPENDENCIES_DIR="~/opensim_dependencies_install" \
-DBUILD_PYTHON_WRAPPING=ON \
-DBUILD_JAVA_WRAPPING=ON \
-DWITH_BTK=ON
make -j8
ctest -j8
make -j8 install
In Terminal --
sudo apt-get update
sudo apt-get --yes install git cmake cmake-curses-gui \
freeglut3-dev libxi-dev libxmu-dev \
liblapack-dev swig python-dev \
openjdk-8-jdk
export JAVA_HOME=/usr/lib/jvm/java-8-openjdk-amd64
git clone https://github.com/opensim-org/opensim-core.git
mkdir opensim_dependencies_build
cd opensim_dependencies_build
cmake ../opensim-core/dependencies/ \
-DCMAKE_INSTALL_PREFIX='~/opensim_dependencies_install' \
-DCMAKE_BUILD_TYPE=RelWithDebInfo
make -j8
cd ..
mkdir opensim_build
cd opensim_build
cmake ../opensim-core \
-DCMAKE_INSTALL_PREFIX="~/opensim_install" \
-DCMAKE_BUILD_TYPE=RelWithDebInfo \
-DOPENSIM_DEPENDENCIES_DIR="~/opensim_dependencies_install" \
-DBUILD_PYTHON_WRAPPING=ON \
-DBUILD_JAVA_WRAPPING=ON \
-DWITH_BTK=ON
make -j8
ctest -j8
make -j8 install
Note: You may need to add <FULL-DIR>/opensim_install/bin
to your PATH variable as per these instructions.
Example: If opensim_install is in your home directory:
$ echo 'export PATH=~/opensim_install/bin:$PATH' >> ~/.bashrc