xPack GCC v13.3.0-1 released
The xPack GCC is a standalone cross-platform binary distribution of GCC.
There are separate binaries for Windows (x64), macOS (x64, arm64) and GNU/Linux (x64, arm64 and arm).
Download
The binary files are available from GitHub Releases.
Prerequisites
- x64 GNU/Linux: any system with GLIBC 2.27 or higher (like Ubuntu 18 or later, Debian 10 or later, RedHat 8 or later, Fedora 29 or later, etc)
- arm64/arm GNU/Linux: any system with GLIBC 2.27 or higher (like Raspberry Pi OS, Ubuntu 18 or later, Debian 10 or later, RedHat 8 or later, Fedora 29 or later, etc)
- x64 Windows: Windows 7 with the Universal C Runtime (UCRT), Windows 8, Windows 10
- x64 macOS: 10.13 or later
- arm64 macOS: 11.6 or later
Install
The full details of installing the xPack GCC on various platforms are presented in the separate Install page.
Easy install
The easiest way to install GCC is with
xpm
by using the binary xPack, available as
@xpack-dev-tools/gcc
from the npmjs.com registry.
With the xpm tool available, installing
the latest version of the package and adding it as
a development dependency for a project is quite easy:
cd my-project
xpm init # Add a package.json if not already present
xpm install @xpack-dev-tools/gcc@latest --verbose
ls -l xpacks/.bin
To install this specific version, use:
xpm install @xpack-dev-tools/gcc@13.3.0-1.1 --verbose
It is also possible to install GCC globally, in the user home folder, but this requires xPack aware tools to automatically identify them and manage paths.
xpm install --global @xpack-dev-tools/gcc@latest --verbose
Uninstall
To remove the links created by xpm in the current project:
cd my-project
xpm uninstall @xpack-dev-tools/gcc
To completely remove the package from the central xPack store:
xpm uninstall --global @xpack-dev-tools/gcc
Compliance
The xPack GCC generally follows the official GCC releases.
The current version is based on:
Supported languages
The supported languages are:
- C
- C++
- Obj-C
- Obj-C++
- Fortran
Note: Obj-C/C++ support is minimalistic.
Starting with 12.2.0-2, support for 32-bit multilib was added on x86
GNU/Linux; it can be enabled via the -m32 compile option.
Changes
Compared to the upstream, there are no functional changes.
Bug fixes
- none
Enhancements
- none
Known problems
Please see the separate tests results page.
Shared libraries
On all platforms the packages are standalone, and expect only the standard runtime to be present on the host.
All dependencies that are build as shared libraries are copied locally
in the libexec folder (or in the same folder as the executable for Windows).
DT_RPATH and LD_LIBRARY_PATH
On GNU/Linux the binaries are adjusted to use a relative path:
$ readelf -d library.so | grep runpath
0x000000000000001d (RPATH) Library rpath: [$ORIGIN]
In the GNU ld.so search strategy, the DT_RPATH has
the highest priority, higher than LD_LIBRARY_PATH, so if this later one
is set in the environment, it should not interfere with the xPack binaries.
Please note that previous versions, up to mid-2020, used DT_RUNPATH, which
has a priority lower than LD_LIBRARY_PATH, and does not tolerate setting
it in the environment.
@rpath and @loader_path
Similarly, on macOS, the binaries are adjusted with install_name_tool to use a
relative path.
Documentation
To save space and bandwidth, the original GNU GCC documentation is available online.
Build
The binaries for all supported platforms (Windows, macOS and GNU/Linux) were built using the xPack Build Box (XBB), a set of build environments based on slightly older distributions, that should be compatible with most recent systems.
For the prerequisites and more details on the build procedure, please see the How to build page.
CI tests
Before publishing, a set of simple tests were performed on an exhaustive set of platforms. The results are available from:
Tests
The binaries were tested on a variety of platforms, but mainly to check the integrity of the build, not the compiler functionality.
Checksums
The SHA-256 hashes for the files are:
05a48fb89e0564b5c1fc35a98ff13cf5bd24161c6713dca1812d61153c810804
xpack-gcc-13.3.0-1-darwin-arm64.tar.gz
83ddd9eb62e25d959beed9739284fbe60e0071946081affa2f9cc6f6b6ac6f63
xpack-gcc-13.3.0-1-darwin-x64.tar.gz
5c1ae72b2dc9ea33ce52e57cdd056767ae9b0481cb057188fb997b0bbdddaddf
xpack-gcc-13.3.0-1-linux-arm.tar.gz
13fd51c70cbaf9109cd758817b93e4db3fbd4b8b543975453701c10ee077fd75
xpack-gcc-13.3.0-1-linux-arm64.tar.gz
deeb1e7eb96e7d633d6af3a09f89f9953d9cc562c3aed7e836a7a81c5e184a85
xpack-gcc-13.3.0-1-linux-x64.tar.gz
9adf1c8c61276d688395ac825e72245f1a92d46dc89df683a5726c50f72a6cc2
xpack-gcc-13.3.0-1-win32-x64.zip
Deprecation notices
GNU/Linux minimum requirements
The minimum requirement is GLIBC 2.27, available starting with Ubuntu 18, Debian 10 and RedHat 8. Support for RedHat 7 was dropped in 2022.
32-bit support
Support for 32-bit x86 GNU/Linux and x86 Windows was dropped in 2022.
Pre-deprecation notice for 32-bit Arm GNU/Linux
Due to the large user base of 32-bit Raspberry Pi systems, Support for 32-bit Arm GNU/Linux (armv7l) will be preserved for a little while, but expect it to be dropped by 2025, so it is recommended to consider an upgrade to a RPi 4 or 5 with at least 4 GB (preferably 8 GB) of RAM.
Pre-deprecation notice for Ubuntu 18.04
Ubuntu 18.04 LTS Bionic Beaver reached the end of the standard five-year maintenance window for Long-Term Support (LTS) release on 31 May 2023.
As a courtesy, the xPack GNU/Linux releases will continue to be based on Ubuntu 18.04 for another year.
From 2025 onwards, the GNU/Linux binaries will be built on Debian 10, (GLIBC 2.28), and are also expected to run on RedHat 8.
Users are urged to update their build and test infrastructure to ensure a smooth transition to the next xPack releases.
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