xmake

A cross-platform build utility based on Lua
Modern C/C++ build tool: Simple, Fast, Powerful dependency package integration

Support this project by becoming a sponsor. Your logo will show up here with a link to your website. 🙏

You can also consider sponsoring us to get extra technical support services via the Github sponsor program. If you do, you can get access to the xmake-io/technical-support repository, which has the following benefits:

• Handling Issues with higher priority
• One-to-one technical consulting service
• Review your xmake.lua and provide suggestions for improvement

What is Xmake?

1. Xmake is a cross-platform build utility based on the Lua scripting language.
2. Xmake is very lightweight and has no dependencies outside of the standard library.
3. Uses the xmake.lua file to maintain project builds with a simple and readable syntax.

Xmake can be used to directly build source code (like with Make or Ninja), or it can generate project source files like CMake or Meson. It also has a built-in package management system to help users integrate C/C++ dependencies.

Xmake = Build backend + Project Generator + Package Manager + [Remote|Distributed] Build + Cache 

Although less precise, one can still understand Xmake in the following way:

Xmake ≈ Make/Ninja + CMake/Meson + Vcpkg/Conan + distcc + ccache/sccache 

If you want to know more, please refer to the Documentation, GitHub or Gitee. You are also welcome to join our community.

The official Xmake repository can be found at xmake-io/xmake-repo.

curl -fsSL https://xmake.io/shget.text | bash

wget https://xmake.io/shget.text -O - | bash

irm https://xmake.io/psget.text | iex

If you don't want to use the above scripts to install Xmake, visit the Installation Guide for other installation methods (building from source, package managers, etc.).

target("console") set_kind("binary") add_files("src/*.c")

Creates a new target console of kind binary, and adds all the files ending in .c in the src directory.

add_requires("tbox 1.6.*", "zlib", "libpng ~1.6")

Adds a requirement of tbox v1.6, zlib (any version), and libpng v1.6.

The official xmake package repository exists at: xmake-repo

The below assumes you are currently in the project's root directory.

$ xmake

$ xmake run console

$ xmake run -d console

$ xmake test

$ xmake f -p [windows|linux|macosx|android|iphoneos ..] -a [x86|arm64 ..] -m [debug|release] $ xmake

$ xmake f --menu

• Windows (x86, x64, arm, arm64, arm64ec)
• macOS (i386, x86_64, arm64)
• Linux (i386, x86_64, arm, arm64, riscv, mips, 390x, sh4 ...)
• *BSD (i386, x86_64)
• Android (x86, x86_64, armeabi, armeabi-v7a, arm64-v8a)
• iOS (armv7, armv7s, arm64, i386, x86_64)
• WatchOS (armv7k, i386)
• AppleTVOS (armv7, arm64, i386, x86_64)
• AppleXROS (arm64, x86_64)
• MSYS (i386, x86_64)
• MinGW (i386, x86_64, arm, arm64)
• Cygwin (i386, x86_64)
• Wasm (wasm32, wasm64)
• Haiku (i386, x86_64)
• Harmony (x86_64, armeabi-v7a, arm64-v8a)
• Cross (cross-toolchains ..)

$ xmake show -l toolchains xcode Xcode IDE msvc Microsoft Visual C/C++ Compiler clang-cl LLVM Clang C/C++ Compiler compatible with msvc yasm The Yasm Modular Assembler clang A C language family frontend for LLVM go Go Programming Language Compiler dlang D Programming Language Compiler (Auto) dmd D Programming Language Compiler ldc The LLVM-based D Compiler gdc The GNU D Compiler (GDC) gfortran GNU Fortran Programming Language Compiler zig Zig Programming Language Compiler sdcc Small Device C Compiler cuda CUDA Toolkit (nvcc, nvc, nvc++, nvfortran) ndk Android NDK rust Rust Programming Language Compiler swift Swift Programming Language Compiler llvm A collection of modular and reusable compiler and toolchain technologies cross Common cross compilation toolchain nasm NASM Assembler gcc GNU Compiler Collection mingw Minimalist GNU for Windows gnu-rm GNU Arm Embedded Toolchain envs Environment variables toolchain fasm Flat Assembler tinycc Tiny C Compiler emcc A toolchain for compiling to asm.js and WebAssembly icc Intel C/C++ Compiler ifort Intel Fortran Compiler ifx Intel LLVM Fortran Compiler muslcc The musl-based cross-compilation toolchain fpc Free Pascal Programming Language Compiler wasi WASI-enabled WebAssembly C/C++ toolchain nim Nim Programming Language Compiler circle A new C++20 compiler armcc ARM Compiler Version 5 of Keil MDK armclang ARM Compiler Version 6 of Keil MDK c51 Keil development tools for the 8051 Microcontroller Architecture icx Intel LLVM C/C++ Compiler dpcpp Intel LLVM C++ Compiler for data parallel programming model based on Khronos SYCL masm32 The MASM32 SDK iverilog Icarus Verilog verilator Verilator open-source SystemVerilog simulator and lint system cosmocc build-once run-anywhere hdk Harmony SDK ti-c2000 TI-CGT C2000 compiler ti-c6000 TI-CGT C6000 compiler iararm IAR ARM C/C++ Compiler kotlin-native Kotlin Native Programming Language Compiler

• C and C++
• Objective-C and Objective-C++
• Swift
• Assembly
• Golang
• Rust
• Dlang
• Fortran
• Cuda
• Zig
• Vala
• Pascal
• Nim
• Verilog
• FASM
• NASM
• YASM
• MASM32
• Cppfront
• Kotlin

Xmake exhibits:

• Simple yet flexible configuration grammar.
• Quick, dependency-free installation.
• Easy compilation for most all supported platforms.
• Supports cross-compilation with intelligent analysis of cross toolchain information.
• Extremely fast parallel compilation support.
• Supports C++ modules (new in C++20).
• Supports cross-platform C/C++ dependencies with built-in package manager.
• Multi-language compilation support including mixed-language projects.
• Rich plug-in support with various project generators (ex. Visual Studio/Makefiles/CMake/compile_commands.json)
• REPL interactive execution support
• Incremental compilation support with automatic analysis of header files
• Built-in toolchain management
• A large number of expansion modules
• Remote compilation support
• Distributed compilation support
• Local and remote build cache support

Xmake supports the below types of projects:

• Static libraries
• Shared libraries
• Console/CLI applications
• CUDA programs
• Qt applications
• WDK drivers (umdf/kmdf/wdm)
• WinSDK applications
• MFC applications
• Darwin applications (with metal support)
• Frameworks and bundles (in Darwin)
• SWIG modules (Lua, Python, ...)
• LuaRocks modules
• Protobuf programs
• Lex/Yacc programs
• Linux kernel modules

Xmake can automatically fetch and install dependencies!

• Official package repository xmake-repo (tbox >1.6.1)
• Official package manager Xrepo
• User-built repositories
• Conan (conan::openssl/1.1.1g)
• Conda (conda::libpng 1.3.67)
• Vcpkg (vcpkg:ffmpeg)
• Homebrew/Linuxbrew (brew::pcre2/libpcre2-8)
• Pacman on archlinux/msys2 (pacman::libcurl)
• Apt on ubuntu/debian (apt::zlib1g-dev)
• Clib (clib::clibs/bytes@0.0.4)
• Dub (dub::log 0.4.3)
• Portage on Gentoo/Linux (portage::libhandy)
• Nimble for nimlang (nimble::zip >1.3)
• Cargo for rust (cargo::base64 0.13.0)
• Zypper on openSUSE (zypper::libsfml2 2.5)

• The official repository provides nearly 500+ packages with simple compilation on all supported platforms
• Full platform package support, support for cross-compiled dependent packages
• Support package virtual environment using xrepo env shell
• Precompiled package acceleration for Windows (NT)
• Support self-built package repositories and private repository deployment
• Third-party package repository support for repositories such as: vcpkg, conan, conda, etc.
• Supports automatic pulling of remote toolchains
• Supports dependency version locking

Below is a diagram showing roughly the architecture of Xmake, and thus how it functions.

• Cross-platform support.
• Support for MSVC, Clang, GCC and other cross-compilation toolchains.
• Support for building for Android, Linux, Windows NT, and Darwin hosts.
• No dependencies other than the compilation toolchain.
• Support for build server load balancing scheduling.
• Support for real time compressed transfer of large files (lz4).
• Almost zero configuration cost, no shared filesystem required, for convenience and security.

For more details see: Distributed Compilation

For more details see: Remote Compilation

For more details see: Build Cache Acceleration

Xmake's speed on is par with Ninja! The test project: xmake-core

add_rules("mode.debug", "mode.release") target("console") set_kind("binary") add_files("src/*.c") if is_mode("debug") then add_defines("DEBUG") end

target("test") set_kind("binary") add_files("src/*.c") after_build(function (target) print("hello: %s", target:name()) os.exec("echo %s", target:targetfile()) end)

Download and use packages in xmake-repo or third-party repositories:

add_requires("tbox >1.6.1", "libuv master", "vcpkg::ffmpeg", "brew::pcre2/libpcre2-8") add_requires("conan::openssl/1.1.1g", {alias = "openssl", optional = true, debug = true}) target("test") set_kind("binary") add_files("src/*.c") add_packages("tbox", "libuv", "vcpkg::ffmpeg", "brew::pcre2/libpcre2-8", "openssl")

In addition, we can also use the xrepo command to quickly install dependencies.

target("test") add_rules("qt.quickapp") add_files("src/*.cpp") add_files("src/qml.qrc")

target("test") set_kind("binary") add_files("src/*.cu") add_cugencodes("native") add_cugencodes("compute_35")

target("echo") add_rules("wdk.driver", "wdk.env.umdf") add_files("driver/*.c") add_files("driver/*.inx") add_includedirs("exe") target("app") add_rules("wdk.binary", "wdk.env.umdf") add_files("exe/*.cpp")

For more WDK driver examples (UMDF/KMDF/WDM), please visit WDK Program Examples

target("test") add_rules("xcode.application") add_files("src/*.m", "src/**.storyboard", "src/*.xcassets") add_files("src/Info.plist")

target("test") add_rules("xcode.framework") -- or xcode.bundle add_files("src/*.m") add_files("src/Info.plist")

add_requires("libomp", {optional = true}) target("loop") set_kind("binary") add_files("src/*.cpp") add_rules("c++.openmp") add_packages("libomp")

target("test") set_kind("binary") add_files("src/main.zig")

Require the Clang version packaged with LLM-10 to compile a project.

add_requires("llvm 10.x", {alias = "llvm-10"}) target("test") set_kind("binary") add_files("src/*.c") set_toolchains("llvm@llvm-10")

We can also pull a specified cross-compilation toolchain in to compile the project.

add_requires("muslcc") target("test") set_kind("binary") add_files("src/*.c") set_toolchains("@muslcc")

We can also use the specified muslcc cross-compilation toolchain to compile and integrate all dependent packages.

add_requires("muslcc") add_requires("zlib", "libogg", {system = false}) set_toolchains("@muslcc") target("test") set_kind("binary") add_files("src/*.c") add_packages("zlib", "libogg")

$ xmake project -k vsxmake -m "debug,release" # New vsproj generator (Recommended) $ xmake project -k vs -m "debug,release" $ xmake project -k cmake $ xmake project -k ninja $ xmake project -k compile_commands

$ xmake l ./test.lua $ xmake l -c "print('hello xmake!')" $ xmake l lib.detect.find_tool gcc $ xmake l > print("hello xmake!") > {1, 2, 3} < { 1, 2, 3 }

To see a list of builtin plugins, please visit Builtin plugins.

Please download and install other plugins from the plugins repository xmake-plugins.

• xmake-vscode

• xmake-sublime

• xmake-idea

• xmake.vim (third-party, thanks @luzhlon)
• xmake-visualstudio (third-party, thanks @HelloWorld886)
• xmake-qtcreator (third-party, thanks @Arthapz)

We can use the xmake-gradle plugin to compile JNI libraries via gradle.

plugins { id 'org.tboox.gradle-xmake-plugin' version '1.1.5' } android { externalNativeBuild { xmake { path "jni/xmake.lua" } } } 

The xmakeBuild task will be injected into the assemble task automatically if the gradle-xmake-plugin has been applied.

$ ./gradlew app:assembleDebug > Task :nativelib:xmakeConfigureForArm64 > Task :nativelib:xmakeBuildForArm64 >> xmake build [ 50%]: cache compiling.debug nativelib.cc [ 75%]: linking.debug libnativelib.so [100%]: build ok! >> install artifacts to /Users/ruki/projects/personal/xmake-gradle/nativelib/libs/arm64-v8a > Task :nativelib:xmakeConfigureForArmv7 > Task :nativelib:xmakeBuildForArmv7 >> xmake build [ 50%]: cache compiling.debug nativelib.cc [ 75%]: linking.debug libnativelib.so [100%]: build ok! >> install artifacts to /Users/ruki/projects/personal/xmake-gradle/nativelib/libs/armeabi-v7a > Task :nativelib:preBuild > Task :nativelib:assemble > Task :app:assembleDebug

The github-action-setup-xmake plugin for GitHub Actions can allow you to use Xmake with minimal efforts if you use GitHub Actions for your CI pipeline.

uses: xmake-io/github-action-setup-xmake@v1 with: xmake-version: latest

The list of people and projects who are using Xmake is available here.

If you are using Xmake, you are welcome to submit your information to the above list through a PR, so that other users and the developers can gauge interest. This also lets users use xmake more confidently and gives us motivation to continue to maintain it.

This will help the Xmake project and it's community grow stronger and expand!

• Email：waruqi@gmail.com
• Homepage：xmake.io
• Community
  • Chat on Reddit
  • Chat on Telegram
  • Chat on Discord
  • Chat on QQ Group: 343118190, 662147501
• Source Code：GitHub, Gitee
• WeChat Public: tboox-os

This project exists thanks to all the people who have contributed:

• TitanSnow: Provide the xmake logo and install scripts
• uael: Provide the semantic versioning library sv
• OpportunityLiu: Improve cuda, tests and ci
• xq144: Improve xrepo env shell, and contribute a lot of packages to the xmake-repo repository.
• star-hengxing: Contribute a lot of packages to the xmake-repo repository.
• Arthapz: Contribute new C++ Modules implementation.
• SirLynix: Contributed many packages and let more people know about xmake.
• enderger: Helped smooth out the edges on the English translation of the README