Installing or Building with CMake
SixtyFPS comes with a CMake integration that automates the compilation step of the .60
markup language files and
offers a CMake target for convenient linkage.
Note: We recommend using the Ninja generator of CMake for the most efficient build and .60
dependency tracking.
You can select the CMake Ninja backend by passing -GNinja
or setting the CMAKE_GENERATOR
environment variable to Ninja
.
Binary Packages
We also provide binary packages of SixtyFPS for use with C++, which eliminates the need to have Rust installed in your development environment.
You can download one of our pre-built binaries for Linux or Windows on x86-64 architectures:
Click on the latest release
From “Assets” download either
sixtyfps-cpp-XXX-Linux-x86_64.tar.gz
for a Linux archive orsixtyfps-cpp-XXX-win64.exe
for a Windows installer. (“XXX” refers to the version of the latest release)Uncompress the downloaded archive or run the installer.
After extracting the artifact or running the installer, you can place the lib
sub-directory into your CMAKE_PREFIX_PATH
and find_package(SixtyFPS)
should succeed in locating the package.
In the next section you will learn how to use the installed library in your application
and load .60
UI files.
Building from Sources
The recommended and most flexible way to use the C++ API is to build SixtyFPS from sources.
First you need to install the prerequisites:
Install Rust by following the Rust Getting Started Guide. If you already have Rust installed, make sure that it’s at least version 1.54 or newer. You can check which version you have installed by running
rustc --version
. Once this is done, you should have therustc
compiler and thecargo
build system installed in your path.cmake (3.19 or newer)
A C++ compiler that supports C++17 (e.g., MSVC 2019 on Windows)
You can include SixtyFPS in your CMake project using CMake’s FetchContent
feature.
Insert the following snippet into your CMakeLists.txt
to make CMake download the latest release, compile it and make the CMake integration available:
include(FetchContent)
FetchContent_Declare(
SixtyFPS
GIT_REPOSITORY https://github.com/sixtyfpsui/sixtyfps.git
GIT_TAG v0.1.5
SOURCE_SUBDIR api/sixtyfps-cpp
)
FetchContent_MakeAvailable(SixtyFPS)
If you prefer to treat SixtyFPS as an external CMake package, then you can also build SixtyFPS from source like a regular
CMake project, install it into a prefix directory of your choice and use find_package(SixtyFPS)
in your CMakeLists.txt
.
Features
The SixtyFPS run-time library supports different features that can be toggled. You might want to enable a feature that is not enabled by default but that is revelant for you, or you may want to disable a feature that you know you do not need and therefore reduce the size of the resulting library.
The CMake configure step offers CMake options for various feature that are all prefixed with SIXTYFPS_FEATURE_
. For example
you can enable support for the Wayland windowing system on Linux by enabling the SIXTYFPS_FEATURE_WAYLAND
feature. There are
different ways of toggling CMake options. For example on the command line using the -D
parameter:
cmake -DSIXTYFPS_FEATURE_WAYLAND=ON ...
Alternatively, after the configure step you can use cmake-gui
or ccmake
on the build directory for a list of all features
and their description.
This works when compiling SixtyFPS as a package, using cmake --build
and cmake --install
, or when including SixtyFPS
using FetchContent
.
Cross-compiling
It is possible to cross-compile SixtyFPS to a different target architecture when building with CMake. In order to complete that, you need to make sure that your CMake setup is ready for cross-compilation. You can find more information about how to set this up in the upstream CMake documentation. If you are building against a Yocto SDK, it is sufficient to source the SDK’s environment setup file.
Since SixtyFPS is implemented using the Rust programming language, you need to determine which Rust target matches the target architecture that you’re compiling to. Please consult the upstream Rust documentation to find the correct target name. Now you need to install the Rust toolchain:
rustup target add <target-name>
Then you’re ready to invoke CMake and you need to add -DRust_CARGO_TARGET=<target name>
to the CMake command line.
This ensures that the SixtyFPS library is built for the correct architecture.
For example if you are building against an embedded Linux Yocto SDK targeting an ARM64 board, the following commands show how to compile:
Install the Rust targe toolchain once:
rustup target add aarch64-unknown-linux-gnu
Set up the environment and build:
. /path/to/yocto/sdk/environment-setup-cortexa53-crypto-poky-linux
cd sixtyfps
mkdir build
cd build
cmake -DRust_CARGO_TARGET=aarch64-unknown-linux-gnu -DCMAKE_INSTALL_PREFIX=/sixtyfps/install/path ..
cmake --build .
cmake --install .