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This page is up to date for Godot 4.0. If you still find outdated information, please open an issue.

Compiling for Linux, *BSD

See also

This page describes how to compile Linux editor and export template binaries from source. If you’re looking to export your project to Linux instead, read Exporting for Linux.

Requirements

For compiling under Linux or other Unix variants, the following is required:

  • GCC 7+ or Clang 6+.

  • Python 3.6+.

  • SCons 3.0+ build system.

    Note

    If your distribution uses Python 2 by default, or you are using a version of SCons prior to 3.1.2, you will need to change the version of Python that SCons uses by changing the shebang (the first line) of the SCons script file to #! /usr/bin/python3. Use the command which scons to find the location of the SCons script file.

  • pkg-config (used to detect the development libraries listed below).

  • Development libraries:

    • X11, Xcursor, Xinerama, Xi and XRandR.

    • MesaGL.

    • ALSA.

    • PulseAudio.

  • Optional - libudev (build with udev=yes).

See also

To get the Godot source code for compiling, see Getting the source.

For a general overview of SCons usage for Godot, see Introduction to the buildsystem.

Distro-specific one-liners

Alpine LinuxArch LinuxDebian/UbuntuFedoraFreeBSDGentooMageiaOpenBSDopenSUSENetBSDSolus

  1. apk add \
  2. scons \
  3. pkgconf \
  4. gcc \
  5. g++ \
  6. libx11-dev \
  7. libxcursor-dev \
  8. libxinerama-dev \
  9. libxi-dev \
  10. libxrandr-dev \
  11. mesa-dev \
  12. libexecinfo-dev \
  13. eudev-dev \
  14. alsa-lib-dev \
  15. pulseaudio-dev
  1. pacman -S --needed \
  2. scons \
  3. pkgconf \
  4. gcc \
  5. libxcursor \
  6. libxinerama \
  7. libxi \
  8. libxrandr \
  9. mesa \
  10. glu \
  11. libglvnd \
  12. alsa-lib \
  13. pulseaudio
  1. apt-get install \
  2. build-essential \
  3. scons \
  4. pkg-config \
  5. libx11-dev \
  6. libxcursor-dev \
  7. libxinerama-dev \
  8. libgl1-mesa-dev \
  9. libglu-dev \
  10. libasound2-dev \
  11. libpulse-dev \
  12. libudev-dev \
  13. libxi-dev \
  14. libxrandr-dev
  1. dnf install \
  2. scons \
  3. pkgconfig \
  4. libX11-devel \
  5. libXcursor-devel \
  6. libXrandr-devel \
  7. libXinerama-devel \
  8. libXi-devel \
  9. mesa-libGL-devel \
  10. mesa-libGLU-devel \
  11. alsa-lib-devel \
  12. pulseaudio-libs-devel \
  13. libudev-devel \
  14. gcc-c++ \
  15. libstdc++-static \
  16. libatomic-static
  1. pkg install \
  2. py37-scons \
  3. pkgconf \
  4. xorg-libraries \
  5. libXcursor \
  6. libXrandr \
  7. libXi \
  8. xorgproto libGLU \
  9. alsa-lib \
  10. pulseaudio
  1. emerge -an \
  2. dev-util/scons \
  3. x11-libs/libX11 \
  4. x11-libs/libXcursor \
  5. x11-libs/libXinerama \
  6. x11-libs/libXi \
  7. media-libs/mesa \
  8. media-libs/glu \
  9. media-libs/alsa-lib \
  10. media-sound/pulseaudio
  1. urpmi \
  2. scons \
  3. task-c++-devel \
  4. pkgconfig \
  5. "pkgconfig(alsa)" \
  6. "pkgconfig(glu)" \
  7. "pkgconfig(libpulse)" \
  8. "pkgconfig(udev)" \
  9. "pkgconfig(x11)" \
  10. "pkgconfig(xcursor)" \
  11. "pkgconfig(xinerama)" \
  12. "pkgconfig(xi)" \
  13. "pkgconfig(xrandr)"
  1. pkg_add \
  2. python \
  3. scons \
  4. llvm
  1. zypper install \
  2. scons \
  3. pkgconfig \
  4. libX11-devel \
  5. libXcursor-devel \
  6. libXrandr-devel \
  7. libXinerama-devel \
  8. libXi-devel \
  9. Mesa-libGL-devel \
  10. alsa-devel \
  11. libpulse-devel \
  12. libudev-devel \
  13. gcc-c++ \
  14. libGLU1
  1. pkg_add \
  2. pkg-config \
  3. py37-scons

Hint

For audio support, you can optionally install pulseaudio.

  1. eopkg install -c \
  2. system.devel \
  3. scons \
  4. libxcursor-devel \
  5. libxinerama-devel \
  6. libxi-devel \
  7. libxrandr-devel \
  8. mesalib-devel \
  9. libglu \
  10. alsa-lib-devel \
  11. pulseaudio-devel

Compiling

Start a terminal, go to the root dir of the engine source code and type:

  1. scons platform=linuxbsd

Note

Prior to Godot 4.0, the Linux/*BSD target was called x11 instead of linuxbsd. If you are looking to compile Godot 3.x, make sure to use the 3.x branch of this documentation.

If all goes well, the resulting binary executable will be placed in the “bin” subdirectory. This executable file contains the whole engine and runs without any dependencies. Executing it will bring up the Project Manager.

Note

If you wish to compile using Clang rather than GCC, use this command:

  1. scons platform=linuxbsd use_llvm=yes

Using Clang appears to be a requirement for OpenBSD, otherwise fonts would not build.

Note

If you are compiling Godot for production use, then you can make the final executable smaller and faster by adding the SCons options target=template_release production=yes.

If you are compiling Godot with GCC, you can make the binary even smaller and faster by adding the SCons option lto=full. As link-time optimization is a memory-intensive process, this will require about 7 GB of available RAM while compiling.

Note

If you want to use separate editor settings for your own Godot builds and official releases, you can enable Self-contained mode by creating a file called ._sc_ or _sc_ in the bin/ folder.

Running a headless/server build

To run in headless mode which provides editor functionality to export projects in an automated manner, use the normal build:

  1. scons platform=linuxbsd target=editor

And then use the --headless command line argument:

  1. ./bin/godot.linuxbsd.editor.x86_64 --headless

To compile a debug server build which can be used with remote debugging tools, use:

  1. scons platform=linuxbsd target=template_debug

To compile a server build which is optimized to run dedicated game servers, use:

  1. scons platform=linuxbsd target=template_release production=yes

Building export templates

Warning

Linux binaries usually won’t run on distributions that are older than the distribution they were built on. If you wish to distribute binaries that work on most distributions, you should build them on an old distribution such as Ubuntu 16.04. You can use a virtual machine or a container to set up a suitable build environment.

To build Linux or *BSD export templates, run the build system with the following parameters:

  • (32 bits)
  1. scons platform=linuxbsd target=template_release arch=x86_32
  2. scons platform=linuxbsd target=template_debug arch=x86_32
  • (64 bits)
  1. scons platform=linuxbsd target=template_release arch=x86_64
  2. scons platform=linuxbsd target=template_debug arch=x86_64

Note that cross-compiling for the opposite bits (64/32) as your host platform is not always straight-forward and might need a chroot environment.

To create standard export templates, the resulting files in the bin/ folder must be copied to:

  1. $HOME/.local/share/godot/export_templates/<version>/

and named like this (even for *BSD which is seen as “Linux/X11” by Godot):

  1. linux_x11_32_debug
  2. linux_x11_32_release
  3. linux_x11_64_debug
  4. linux_x11_64_release

However, if you are writing your custom modules or custom C++ code, you might instead want to configure your binaries as custom export templates here:

../../../_images/lintemplates.png

You don’t even need to copy them, you can just reference the resulting files in the bin/ directory of your Godot source folder, so the next time you build, you automatically have the custom templates referenced.

Using Clang and LLD for faster development

You can also use Clang and LLD to build Godot. This has two upsides compared to the default GCC + GNU ld setup:

  • LLD links Godot significantly faster compared to GNU ld or gold. This leads to faster iteration times.

  • Clang tends to give more useful error messages compared to GCC.

To do so, install Clang and the lld package from your distribution’s package manager then use the following SCons command:

  1. scons platform=linuxbsd use_llvm=yes linker=lld

After the build is completed, a new binary with a .llvm suffix will be created in the bin/ folder.

It’s still recommended to use GCC for production builds as they can be compiled using link-time optimization, making the resulting binaries smaller and faster.

If this error occurs:

  1. /usr/bin/ld: cannot find -l:libatomic.a: No such file or directory

There are two solutions:

  • In your SCons command, add the parameter use_static_cpp=no.

  • Follow these instructions to configure, build, and install libatomic_ops. Then, copy /usr/lib/libatomic_ops.a to /usr/lib/libatomic.a.

Using mold for faster development

For even faster linking compared to LLD, you can use mold. mold can be used with either GCC or Clang.

As of January 2023, mold is not readily available in Linux distribution repositories, so you will have to install its binaries manually.

  • Download mold binaries from its releases page.

  • Extract the .tar.gz file, then move the extraced folder to a location such as .local/share/mold.

  • Add $HOME/.local/share/mold/bin to your user’s PATH environment variable. For example, you can add the following line at the end of your $HOME/.bash_profile file:

  1. PATH="$HOME/.local/share/mold/bin:$PATH"
  • Open a new terminal (or run source "$HOME/.bash_profile"), then use the following SCons command when compiling Godot:

    1. scons platform=linuxbsd linker=mold

Using system libraries for faster development

Godot bundles the source code of various third-party libraries. You can choose to use system versions of third-party libraries instead. This makes the Godot binary faster to link, as third-party libraries are dynamically linked. Therefore, they don’t need to be statically linked every time you build the engine (even on small incremental changes).

However, not all Linux distributions have packages for third-party libraries available (or they may not be up-to-date).

Moving to system libraries can reduce linking times by several seconds on slow CPUs, but it requires manual testing depending on your Linux distribution. Also, you may not be able to use system libraries for everything due to bugs in the system library packages (or in the build system, as this feature is less tested).

To compile Godot with system libraries, install these dependencies on top of the ones listed in the Distro-specific one-liners:

Fedora

  1. sudo dnf install embree3-devel enet-devel glslang-devel graphite2-devel harfbuzz-devel libicu-devel \
  2. libsquish-devel libtheora-devel libvorbis-devel libwebp-devel libzstd-devel mbedtls-devel \
  3. miniupnpc-devel

After installing all required packages, use the following command to build Godot:

  1. scons platform=linuxbsd builtin_embree=no builtin_enet=no builtin_freetype=no builtin_graphite=no builtin_harfbuzz=no builtin_libogg=no builtin_libpng=no builtin_libtheora=no builtin_libvorbis=no builtin_libwebp=no builtin_mbedtls=no builtin_miniupnpc=no builtin_pcre2=no builtin_zlib=no builtin_zstd=no

You can view a list of all built-in libraries that have system alternatives by running scons -h, then looking for options starting with builtin_.

Warning

When using system libraries, the resulting library is not portable across Linux distributions anymore. Do not use this approach for creating binaries you intend to distribute to others, unless you’re creating a package for a Linux distribution.

Using Pyston for faster development

You can use Pyston to run SCons. Pyston is a JIT-enabled implementation of the Python language (which SCons is written in). It is currently only compatible with Linux. Pyston can speed up incremental builds significantly, often by a factor between 1.5× and 2×. Pyston can be combined with Clang and LLD to get even faster builds.

  • Download the latest portable Pyston release.

  • Extract the portable .tar.gz to a set location, such as $HOME/.local/opt/pyston/ (create folders as needed).

  • Use cd to reach the extracted Pyston folder from a terminal, then run ./pyston -m pip install scons to install SCons within Pyston.

  • To make SCons via Pyston easier to run, create a symbolic link of its wrapper script to a location in your PATH environment variable:

    1. ln -s ~/.local/opt/pyston/bin/scons ~/.local/bin/pyston-scons
  • Instead of running scons <build arguments>, run pyston-scons <build arguments> to compile Godot.

If you can’t run pyston-scons after creating the symbolic link, make sure $HOME/.local/bin/ is part of your user’s PATH environment variable.

Note

Alternatively, you can run python -m pip install pyston_lite_autoload then run SCons as usual. This will automatically load a subset of Pyston’s optimizations in any Python program you run. However, this won’t bring as much of a performance improvement compared to installing “full” Pyston.