Attention: Here be dragons (unstable version)
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(unstable) version of this documentation, which may document features
not available in or compatible with released stable versions of Redot.
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Compiling for Windows
See also
This page describes how to compile Windows editor and export template binaries from source. If you're looking to export your project to Windows instead, read Exporting for Windows.
Requirements
For compiling under Windows, the following is required:
A C++ compiler. Use one of the following:
Visual Studio Community, version 2019 or later. Visual Studio 2022 is recommended. Make sure to enable C++ in the list of workflows to install. If you've already installed Visual Studio without C++ support, run the installer again; it should present you a Modify button. Supports
x86_64
,x86_32
, andarm64
.MinGW-w64 with GCC can be used as an alternative to Visual Studio. Be sure to install/configure it to use the
posix
thread model. Important: When using MinGW to compile themaster
branch, you need GCC 9 or later. Supportsx86_64
andx86_32
only.MinGW-LLVM with clang can be used as an alternative to Visual Studio and MinGW-w64. Supports
x86_64
,x86_32
, andarm64
.
Python 3.8+. Make sure to enable the option to add Python to the
PATH
in the installer.SCons 4.0+ build system. Using the latest release is recommended, especially for proper support of recent Visual Studio releases.
Note
If you have Scoop installed, you can easily install MinGW and other dependencies using the following command:
scoop install gcc python scons make mingw
Note
If you have MSYS2 installed, you can easily install MinGW and other dependencies using the following command:
pacman -S mingw-w64-x86_64-python3-pip mingw-w64-x86_64-gcc \
mingw-w64-i686-python3-pip mingw-w64-i686-gcc make
For each MSYS2 MinGW subsystem, you should then run pip3 install scons in its shell.
See also
To get the Redot source code for compiling, see Getting the source.
For a general overview of SCons usage for Redot, see Introduction to the buildsystem.
Setting up SCons
To install SCons, open the command prompt and run the following command:
python -m pip install scons
If you are prompted with the message
Defaulting to user installation because normal site-packages is not
writeable
, you may have to run that command again using elevated
permissions. Open a new command prompt as an Administrator then run the command
again to ensure that SCons is available from the PATH
.
To check whether you have installed Python and SCons correctly, you can
type python --version
and scons --version
into a command prompt
(cmd.exe
).
If the commands above don't work, make sure to add Python to your PATH
environment variable after installing it, then check again.
You can do so by running the Python installer again and enabling the option
to add Python to the PATH
.
If SCons cannot detect your Visual Studio installation, it might be that your
SCons version is too old. Update it to the latest version with
python -m pip install --upgrade scons
.
Downloading Redot's source
Refer to Getting the source for detailed instructions.
The tutorial will assume from now on that you placed the source code in
C:\godot
.
Warning
To prevent slowdowns caused by continuous virus scanning during compilation, add the Redot source folder to the list of exceptions in your antivirus software.
For Windows Defender, hit the Windows key, type "Windows Security" then hit Enter. Click on Virus & threat protection on the left panel. Under Virus & threat protection settings click on Manage Settings and scroll down to Exclusions. Click Add or remove exclusions then add the Redot source folder.
Compiling
Selecting a compiler
SCons will automatically find and use an existing Visual Studio installation.
If you do not have Visual Studio installed, it will attempt to use
MinGW instead. If you already have Visual Studio installed and want to
use MinGW-w64, pass use_mingw=yes
to the SCons command line. Note that MSVC
builds cannot be performed from the MSYS2 or MinGW shells. Use either
cmd.exe
or PowerShell instead. If you are using MinGW-LLVM, pass both
use_mingw=yes
and use_llvm=yes
to the SCons command line.
Tip
During development, using the Visual Studio compiler is usually a better idea, as it links the Redot binary much faster than MinGW. However, MinGW can produce more optimized binaries using link-time optimization (see below), making it a better choice for production use. This is particularly the case for the GDScript VM which performs much better with MinGW compared to MSVC. Therefore, it's recommended to use MinGW to produce builds that you distribute to players.
All official Redot binaries are built in custom containers using MinGW.
Running SCons
After opening a command prompt, change to the root directory of
the engine source code (using cd
) and type:
C:\godot> scons platform=windows
Note
When compiling with multiple CPU threads, SCons may warn about pywin32 being missing. You can safely ignore this warning.
If all goes well, the resulting binary executable will be placed in
C:\godot\bin\
with the name godot.windows.editor.x86_32.exe
or
godot.windows.editor.x86_64.exe
. By default, SCons will build a binary matching
your CPU architecture, but this can be overridden using arch=x86_64
,
arch=x86_32
, or arch=arm64
.
This executable file contains the whole engine and runs without any dependencies. Running it will bring up the Project Manager.
Tip
If you are compiling Redot for production use, you can
make the final executable smaller and faster by adding the
SCons option production=yes
. This enables additional compiler
optimizations and link-time optimization.
LTO takes some time to run and requires up to 30 GB of available RAM
while compiling (depending on toolchain). If you're running out of memory
with the above option, use production=yes lto=none
or production=yes lto=thin
(LLVM only) for a lightweight but less effective form of LTO.
Note
If you want to use separate editor settings for your own Redot builds
and official releases, you can enable
Self-contained mode by creating a file called
._sc_
or _sc_
in the bin/
folder.
Compiling with support for Direct3D 12
By default, builds of Redot do not contain support for the Direct3D 12 graphics API.
To compile Redot with Direct3D 12 support you need at least the following item:
godot-nir-static library. We compile the Mesa libraries you will need into a static library. Download it anywhere, unzip it and remember the path to the unzipped folder, you will need it below.
Note
You can optionally build the godot-nir-static libraries yourself with the following steps:
Install the Python package mako which is needed to generate some files.
Clone the godot-nir-static directory and navigate to it.
Run the following:
git submodule update --init ./update_mesa.sh scons
If you are building with MinGW-w64, add
use_mingw=yes
to thescons
command, you can also specify build architecture usingarch={architecture}
. If you are building with MinGW-LLVM, add bothuse_mingw=yes
anduse_llvm=yes
to thescons
command.If you are building with MinGW and the binaries are not located in the
PATH
, addmingw_prefix="/path/to/mingw"
to thescons
command.Mesa static library should be built using the same compiler and the same CRT (if you are building with MinGW) you are using for building Redot.
Optionally, you can compile with the following for additional features:
PIX is a performance tuning and debugging application for Direct3D12 applications. If you compile-in support for it, you can get much more detailed information through PIX that will help you optimize your game and troubleshoot graphics bugs. To use it, download the WinPixEventRuntime package. You will be taken to a NuGet package page where you can click "Download package" to get it. Once downloaded, change the file extension to .zip and unzip the file to some path.
Agility SDK can be used to provide access to the latest Direct3D 12 features without relying on driver updates. To use it, download the latest Agility SDK package. You will be taken to a NuGet package page where you can click "Download package" to get it. Once downloaded, change the file extension to .zip and unzip the file to some path.
Note
If you use a preview version of the Agility SDK, remember to enable developer mode in Windows; otherwise it won't be used.
Note
If you want to use a PIX with MinGW build, navigate to PIX runtime directory and use the following commands to generate import library:
# For x86-64:
gendef ./bin/x64/WinPixEventRuntime.dll
dlltool --machine i386:x86-64 --no-leading-underscore -d WinPixEventRuntime.def -D WinPixEventRuntime.dll -l ./bin/x64/libWinPixEventRuntime.a
# For ARM64:
gendef ./bin/ARM64/WinPixEventRuntime.dll
dlltool --machine arm64 --no-leading-underscore -d WinPixEventRuntime.def -D WinPixEventRuntime.dll -l ./bin/ARM64/libWinPixEventRuntime.a
When building Redot, you will need to tell SCons to use Direct3D 12 and where to look for the additional libraries:
C:\godot> scons platform=windows d3d12=yes mesa_libs=<...>
Or, with all options enabled:
C:\godot> scons platform=windows d3d12=yes mesa_libs=<...> agility_sdk_path=<...> pix_path=<...>
Note
For the Agility SDK's DLLs you have to explicitly choose the kind of
workflow. Single-arch is the default (DLLs copied to bin/
). If you
pass agility_sdk_multi_arch=yes
to SCons, you'll opt-in for
multi-arch. DLLs will be copied to the appropriate bin/<arch>/
subdirectories and at runtime the right one will be loaded.
Compiling with ANGLE support
ANGLE provides a translation layer from OpenGL ES 3.x to Direct3D 11 and can be used to improve support for the Compatibility renderer on some older GPUs with outdated OpenGL drivers and on Windows for ARM.
By default, Redot is built with dynamically linked ANGLE, you can use it by placing
libEGL.dll
and libGLESv2.dll
alongside the executable.
Note
You can use dynamically linked ANGLE with export templates as well, rename
aforementioned DLLs to libEGL.{architecture}.dll
and libGLESv2.{architecture}.dll
and place them alongside export template executables, and libraries will
be automatically copied during the export process.
To compile Redot with statically linked ANGLE:
Download pre-built static libraries from godot-angle-static library, and unzip them.
When building Redot, add
angle_libs={path}
to tell SCons where to look for the ANGLE libraries:scons platform=windows angle_libs=<...>
Note
You can optionally build the godot-angle-static libraries yourself with the following steps:
Clone the godot-angle-static directory and navigate to it.
Run the following command:
git submodule update --init ./update_angle.sh scons
If you are buildng with MinGW, add
use_mingw=yes
to the command, you can also specify build architecture usingarch={architecture}
. If you are building with MinGW-LLVM, add bothuse_mingw=yes
anduse_llvm=yes
to thescons
command.If you are building with MinGW and the binaries are not located in the
PATH
, addmingw_prefix="/path/to/mingw"
to thescons
command.ANGLE static library should be built using the same compiler and the same CRT (if you are building with MinGW) you are using for building Redot.
Development in Visual Studio
Using an IDE is not required to compile Redot, as SCons takes care of everything. But if you intend to do engine development or debugging of the engine's C++ code, you may be interested in configuring a code editor or an IDE.
Folder-based editors don't require any particular setup to start working with Redot's codebase. To edit projects with Visual Studio they need to be set up as a solution.
You can create a Visual Studio solution via SCons by running SCons with
the vsproj=yes
parameter, like this:
scons platform=windows vsproj=yes
You will be able to open Redot's source in a Visual Studio solution now, and able to build Redot using Visual Studio's Build button.
See also
See Visual Studio for further details.
Cross-compiling for Windows from other operating systems
If you are a Linux or macOS user, you need to install MinGW-w64, which typically comes in 32-bit and 64-bit variants, or MinGW-LLVM, which comes as a single archive for all target architectures. The package names may differ based on your distribution, here are some known ones:
Arch Linux |
pacman -Sy mingw-w64
|
Debian / Ubuntu |
apt install mingw-w64
|
Fedora |
dnf install mingw64-gcc-c++ mingw64-winpthreads-static \
mingw32-gcc-c++ mingw32-winpthreads-static
|
macOS |
brew install mingw-w64
|
Mageia |
urpmi mingw64-gcc-c++ mingw64-winpthreads-static \
mingw32-gcc-c++ mingw32-winpthreads-static
|
Before attempting the compilation, SCons will check for
the following binaries in your PATH
environment variable:
# for MinGW-w64
i686-w64-mingw32-gcc
x86_64-w64-mingw32-gcc
# for MinGW-LLVM
aarch64-w64-mingw32-clang
i686-w64-mingw32-clang
x86_64-w64-mingw32-clang
If the binaries are not located in the PATH
(e.g. /usr/bin
),
you can define the following environment variable to give a hint to
the build system:
export MINGW_PREFIX="/path/to/mingw"
Where /path/to/mingw
is the path containing the bin
directory where
i686-w64-mingw32-gcc
and x86_64-w64-mingw32-gcc
are located (e.g.
/opt/mingw-w64
if the binaries are located in /opt/mingw-w64/bin
).
To make sure you are doing things correctly, executing the following in the shell should result in a working compiler (the version output may differ based on your system):
${MINGW_PREFIX}/bin/x86_64-w64-mingw32-gcc --version
# x86_64-w64-mingw32-gcc (GCC) 13.2.0
Note
If you are building with MinGW-LLVM, add use_llvm=yes
to the scons
command.
Note
When cross-compiling for Windows using MinGW-w64, keep in mind only
x86_64
and x86_32
architectures are supported. MinGW-LLVM supports
arm64
as well. Be sure to specify the right arch=
option when
invoking SCons if building from a different architecture.
Troubleshooting
Cross-compiling from some Ubuntu versions may lead to this bug, due to a default configuration lacking support for POSIX threading.
You can change that configuration following those instructions, for 64-bit:
sudo update-alternatives --config x86_64-w64-mingw32-gcc
<choose x86_64-w64-mingw32-gcc-posix from the list>
sudo update-alternatives --config x86_64-w64-mingw32-g++
<choose x86_64-w64-mingw32-g++-posix from the list>
And for 32-bit:
sudo update-alternatives --config i686-w64-mingw32-gcc
<choose i686-w64-mingw32-gcc-posix from the list>
sudo update-alternatives --config i686-w64-mingw32-g++
<choose i686-w64-mingw32-g++-posix from the list>
Creating Windows export templates
Windows export templates are created by compiling Redot without the editor, with the following flags:
C:\godot> scons platform=windows target=template_debug arch=x86_32
C:\godot> scons platform=windows target=template_release arch=x86_32
C:\godot> scons platform=windows target=template_debug arch=x86_64
C:\godot> scons platform=windows target=template_release arch=x86_64
C:\godot> scons platform=windows target=template_debug arch=arm64
C:\godot> scons platform=windows target=template_release arch=arm64
If you plan on replacing the standard export templates, copy these to the
following location, replacing <version>
with the version identifier
(such as 4.2.1.stable
or 4.3.dev
):
%APPDATA%\Godot\export_templates\<version>\
With the following names:
windows_debug_x86_32_console.exe
windows_debug_x86_32.exe
windows_debug_x86_64_console.exe
windows_debug_x86_64.exe
windows_debug_arm64_console.exe
windows_debug_arm64.exe
windows_release_x86_32_console.exe
windows_release_x86_32.exe
windows_release_x86_64_console.exe
windows_release_x86_64.exe
windows_release_arm64_console.exe
windows_release_arm64.exe
However, if you are using custom modules or custom engine code, you may instead want to configure your binaries as custom export templates here:
Select matching architecture in the export config.
You don't need to copy them in this case, just reference the resulting
files in the bin\
directory of your Redot source folder, so the next
time you build, you will automatically have the custom templates referenced.