Revision as of 17:47, 15 February 2022 by Starseeker (talk | contribs) (Step 2: Install Dependencies)

Compiling BRL-CAD

This page has simplified steps for building quickly. See INSTALL for more detailed instruction.

Step 1: Install Dev Tools

To build, you need at least CMake, a compiler, and at least 3GB of disk space. You will also want Git to obtain the latest source code.

  • Mac: Install CMake and XCode or run this in Terminal:
    xcode-select --install
  • Linux and Windows Subsystem for Linux (WSL):

Installing is easiest with a package management system like apt, brew, yum, and dnf that install for you. Alas, the tools and names change frequently, so the following are platform-specific recommendations that may need to be adjusted for your system.

    • Debian/Ubuntu:
      aptitude install build-essential make cmake
    • Fedora:
      yum install clang++ make cmake
    • CentOS:
      yum install python3-pip devtoolset-9
      pip3 install cmake
      scl enable devtoolset-9 bash
  • BSD: we assume you know what you're doing and can follow the gist

Step 2: Install Dependencies

  • Windows: You can skip this step.
  • Linux: BRL-CAD needs the Xorg development packages
    • Debian/Ubuntu:
      aptitude install libfreetype-dev libfontconfig-dev xserver-xorg-dev libx11-dev libxi-dev
    • Fedora:
      yum install libx11-devel

Step 3: Download BRL-CAD

We recommend obtaining BRL-CAD by forking or cloning our repository on GitHub.

  • Windows: Run the Git GUI specifying this as the repository to clone:
  • Mac: You can either run the Git GUI, or you can run this in Terminal:
    git clone
  • Linux:
    git clone

The "brlcad" folder created after cloning is a full source checkout of BRL-CAD and contains a README with additional info. If you run into trouble cloning from git, snapshot source releases are available.

Step 4: Create a Build directory

You can create a build folder anywhere, but it's typically named "build" and is in or near your "brlcad" source directory.

  • Windows: create a folder named "build" inside your "brlcad" folder
  • Mac, Linux:
    mkdir -p brlcad/build

Step 5: Configure

Next, you'll run CMake to configure and generate a build system. CMake needs to know the top-level source dir (i.e., "brlcad" dir you cloned) and "build" dir you made are located. For your first time, we also recommend setting these CMake variables to avoid trivial issues:

  • Windows: you can use CMake GUI where you'll specify 1) your source dir (i.e. path to the "brlcad" folder that has README), 2) the build dir, and 3) variables. CMake does not display variables the first time you run, but you can "+ Add Entry" to add them or run "Configure" to list them. Once dirs and variables are set, run "Configure" again and finally "Generate" to create a Visual Studio build system.
    Running CMake GUI on Windows
  • Mac: You can either run CMake GUI like described for Windows, specifying your source dir, build dir, and the above variables, or you can follow the steps below for Linux in Terminal.
  • Linux:
    cd brlcad/bulid

See INSTALL for more CMake options.

If CMake was successful, there will be a summary of the build printed at the end and it will have generated a build system for compiling BRL-CAD.

Step 6: Compile

Windows: navigate to your build directory and open the BRLCAD.sln file with Visual Studio. Compile the ALL_BUILD solution.

Mac, Linux: while still in the build directory from Step 4, run


If the build fails, re-run while capturing all output to a log: make 2>&1 | tee build.log Please report any build failures.

Note: Compilation can take anywhere from a couple minutes to an hour depending on hardware. If you had a quad-core CPU, you might run '"make -j4" to speed things up by compiling in parallel.

Step 7: Run!

You don't have to install to run BRL-CAD. You can run the binaries you just compiled as they are in the brlcad/build/bin directory. On Windows, they can be in Debug/ or Release/ folders. Of the hundreds of tools in BRL-CAD, here's just a few to get you started:

bin/benchmark run

The first command (benchmark) will evaluate system performance and you can send results to benchmark at brlcad dot org.

The second command (mged) is BRL-CAD's main graphical user interface application.

The third command (archer) is BRL-CAD's newer graphical interface under development.

What next?

Be sure to check out the docs and Main_Page for tutorials and more.

Help make BRL-CAD better! There are many ways you can contribute to open source and you don't need to be an experienced programmer. We need artists, writers, designers, software developers, and managers. Contact us on IRC.

Please report any build failures.

See Deuces for really easy ways to get started!