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C3 Language

C3 is a programming language that builds on the syntax and semantics of the C language, with the goal of evolving it while still retaining familiarity for C programmers.

It's an evolution, not a revolution: the C-like for programmers who like C.

Precompiled binaries for the following operating systems are available:

The manual for C3 can be found at www.c3-lang.org.

vkQuake

Thanks to full ABI compatibility with C, it's possible to mix C and C3 in the same project with no effort. As a demonstration, vkQuake was compiled with a small portion of the code converted to C3 and compiled with the c3c compiler. (The fork can be found at https://github.com/c3lang/vkQuake)

Design Principles

C3 owes its inspiration to the C2 language: to iterate on top of C without trying to be a whole new language.

Example code

The following code shows generic modules (more examples can be found at https://c3-lang.org/references/docs/examples/).

module stack (<Type>);
// Above: the parameterized type is applied to the entire module.

struct Stack
{
    usz capacity;
    usz size;
    Type* elems;
}

// The type methods offers dot syntax calls,
// so this function can either be called 
// Stack.push(&my_stack, ...) or
// my_stack.push(...)
fn void Stack.push(Stack* this, Type element)
{
    if (this.capacity == this.size)
    {
        this.capacity *= 2;
		if (this.capacity < 16) this.capacity = 16;
        this.elems = realloc(this.elems, Type.sizeof * this.capacity);
    }
    this.elems[this.size++] = element;
}

fn Type Stack.pop(Stack* this)
{
    assert(this.size > 0);
    return this.elems[--this.size];
}

fn bool Stack.empty(Stack* this)
{
    return !this.size;
}

Testing it out:

import stack;

// Define our new types, the first will implicitly create 
// a complete copy of the entire Stack module with "Type" set to "int"
def IntStack = Stack(<int>);
// The second creates another copy with "Type" set to "double"
def DoubleStack = Stack(<double>);

// If we had added "define IntStack2 = Stack(<int>)"
// no additional copy would have been made (since we already
// have an parameterization of Stack(<int>)) so it would
// be same as declaring IntStack2 an alias of IntStack

// Importing an external C function is straightforward
// here is an example of importing libc's printf:
extern fn int printf(char* format, ...);

fn void main()
{
    IntStack stack;
    // Note that C3 uses zero initialization by default
    // so the above is equivalent to IntStack stack = {};
    
    stack.push(1);
    // The above can also be written IntStack.push(&stack, 1); 
    
    stack.push(2);
    
    // Prints pop: 2
    printf("pop: %d\n", stack.pop());
    // Prints pop: 1
    printf("pop: %d\n", stack.pop());
    
    DoubleStack dstack;
    dstack.push(2.3);
    dstack.push(3.141);
    dstack.push(1.1235);
    // Prints pop: 1.123500
    printf("pop: %f\n", dstack.pop());
}

In what ways does C3 differ from C?

Current status

The current stable version of the compiler is version 0.6.4.

The upcoming 0.6.x releases will focus on expanding the standard library. Follow the issues here.

If you have suggestions on how to improve the language, either file an issue or discuss C3 on its dedicated Discord: https://discord.gg/qN76R87.

The compiler is currently verified to compile on Linux, Windows and MacOS.

Support matrix

PlatformNative C3 compiler available?Target supportedStack traceThreadsSocketsInline asm
Win32 x64YesYes + cross compilationYesYesYesYes*
Win32 Aarch64UntestedUntestedUntestedUntestedUntestedYes*
MacOS x64YesYes + cross compilationYesYesYesYes*
MacOS Aarch64YesYes + cross compilationYesYesYesYes*
iOS Aarch64NoUntestedUntestedYesYesYes*
Linux x86YesYesYesYesYesYes*
Linux x64YesYesYesYesYesYes*
Linux Aarch64YesYesYesYesYesYes*
Linux Riscv32YesYesYesYesYesUntested
Linux Riscv64YesYesYesYesYesUntested
ELF freestanding x86NoUntestedNoNoNoYes*
ELF freestanding x64NoUntestedNoNoNoYes*
ELF freestanding Aarch64NoUntestedNoNoNoYes*
ELF freestanding Riscv64NoUntestedNoNoNoUntested
ELF freestanding Riscv32NoUntestedNoNoNoUntested
FreeBSD x86UntestedUntestedNoYesUntestedYes*
FreeBSD x64UntestedUntestedNoYesUntestedYes*
NetBSD x86UntestedUntestedNoYesUntestedYes*
NetBSD x64UntestedUntestedNoYesUntestedYes*
OpenBSD x86UntestedUntestedNoYesUntestedYes*
OpenBSD x64UntestedUntestedNoYesUntestedYes*
MCU x86NoUntestedNoNoNoYes*
Wasm32NoYesNoNoNoNo
Wasm64NoUntestedNoNoNoNo

* Inline asm is still a work in progress

More platforms will be supported in the future.

What can you help with?

Installing

Installing on Windows with precompiled binaries

  1. Download the zip file: https://github.com/c3lang/c3c/releases/download/latest/c3-windows.zip (debug version here)
  2. Unzip exe and standard lib.
  3. If you don't have Visual Studio 17 installed you can either do so, or run the msvc_build_libraries.py Python script which will download the necessary files to compile on Windows.
  4. Run c3c.exe.

Installing on Debian with precompiled binaries

  1. Download tar file: https://github.com/c3lang/c3c/releases/download/latest/c3-linux.tar.gz (debug version here)
  2. Unpack executable and standard lib.
  3. Run ./c3c.

Installing on Ubuntu with precompiled binaries

  1. Download tar file: https://github.com/c3lang/c3c/releases/download/latest/c3-ubuntu-20.tar.gz (debug version here)
  2. Unpack executable and standard lib.
  3. Run ./c3c.

Installing on MacOS with precompiled binaries

  1. Make sure you have XCode with command line tools installed.
  2. Download the zip file: https://github.com/c3lang/c3c/releases/download/latest/c3-macos.zip (debug version here)
  3. Unzip executable and standard lib.
  4. Run ./c3c.

(*Note that there is a known issue with debug symbol generation on MacOS 13, see issue #1086)

Installing on Arch Linux

Arch includes c3c in the official 'extra' repo. It can be easily installed the usual way:

sudo pacman -S c3c
# or paru -S c3c
# or yay -S c3c
# or aura -A c3c

There is also an AUR package for the c3c compiler : c3c-git.

You can use your AUR package manager:

paru -S c3c-git
# or yay -S c3c-git
# or aura -A c3c-git

Or clone it manually:

git clone https://aur.archlinux.org/c3c-git.git
cd c3c-git
makepkg -si

Building via Docker

You can build c3c using either an Ubuntu 18.04 or 20.04 container:

./build-with-docker.sh 18

Replace 18 with 20 to build through Ubuntu 20.04.

For a release build specify:

./build-with-docker.sh 20 Release

A c3c executable will be found under bin/.

Installing on OS X using Homebrew

  1. Install CMake: brew install cmake
  2. Install LLVM 17+: brew install llvm
  3. Clone the C3C github repository: git clone https://github.com/c3lang/c3c.git
  4. Enter the C3C directory cd c3c.
  5. Create a build directory mkdir build
  6. Change directory to the build directory cd build
  7. Set up CMake build for debug: cmake ..
  8. Build: cmake --build .

Getting started with a "hello world"

Create a main.c3 file with:

module hello_world;
import std::io;

fn void main()
{
   io::printn("Hello, world!");
}

Make sure you have the standard libraries at either ../lib/std/ or /lib/std/.

Then run

c3c compile main.c3

The generated binary will by default be named after the module that contains the main function. In our case that is hello_world, so the resulting binary will be called hello_world or hello_world.exedepending on platform.

Compiling

Compiling on Windows

  1. Make sure you have Visual Studio 17 2022 installed or alternatively install the "Buildtools for Visual Studio" (https://aka.ms/vs/17/release/vs_BuildTools.exe) and then select "Desktop development with C++" (there is also c3c/resources/install_win_reqs.bat to automate this)
  2. Install CMake
  3. Clone the C3C github repository: git clone https://github.com/c3lang/c3c.git
  4. Enter the C3C directory cd c3c.
  5. Set up the CMake build cmake -B build -G "Visual Studio 17 2022" -A x64 -DCMAKE_BUILD_TYPE=Release
  6. Build: cmake --build build --config Release
  7. You should now have the c3c.exe

You should now have a c3c executable.

You can try it out by running some sample code: c3c.exe compile ../resources/examples/hash.c3

Note that if you run into linking issues when building, make sure that you are using the latest version of VS17.

Compiling on Ubuntu 24.04 LTS

  1. Make sure you have a C compiler that handles C11 and a C++ compiler, such as GCC or Clang. Git also needs to be installed.
  2. Install LLVM 18 sudo apt-get install cmake git clang zlib1g zlib1g-dev libllvm18 llvm llvm-dev llvm-runtime liblld-dev liblld-18 libpolly-18-dev
  3. Clone the C3C github repository: git clone https://github.com/c3lang/c3c.git
  4. Enter the C3C directory cd c3c.
  5. Create a build directory mkdir build
  6. Change directory to the build directory cd build
  7. Set up CMake build: cmake ..
  8. Build: cmake --build .

You should now have a c3c executable.

You can try it out by running some sample code: ./c3c compile ../resources/examples/hash.c3

Compiling on Void Linux

  1. As root, ensure that all project dependencies are installed: xbps-install git cmake llvm17 llvm17-devel lld17-devel libcurl-devel ncurses-devel zlib-devel libzstd-devel libxml2-devel
  2. Clone the C3C repository: git clone https://github.com/c3lang/c3c.git
    • If you only need the latest commit, you may want to make a shallow clone instead: git clone https://github.com/c3lang/c3c.git --depth=1
  3. Enter the directory: cd c3c
  4. Create a build directory: mkdir build
  5. Enter the build directory: cd build
  6. Create the CMake build cache: cmake ..
  7. Build: cmake --build .

Your c3c executable should have compiled properly. You may want to test it: ./c3c compile ../resources/examples/hash.c3
For a sytem-wide installation, run the following as root: cmake --install .

Compiling on other Linux / Unix variants

  1. Install CMake.
  2. Install or compile LLVM and LLD libraries (version 17+ or higher)
  3. Clone the C3C github repository: git clone https://github.com/c3lang/c3c.git
  4. Enter the C3C directory cd c3c.
  5. Create a build directory mkdir build
  6. Change directory to the build directory cd build
  7. Set up CMake build for debug: cmake ... At this point you may need to manually provide the link path to the LLVM CMake directories, e.g. cmake -DLLVM_DIR=/usr/local/opt/llvm/lib/cmake/llvm/ ..
  8. Build: cmake --build .

A note on compiling for Linux/Unix/MacOS: to be able to fetch vendor libraries libcurl is needed. The CMake script should detect it if it is available. Note that this functionality is non-essential and it is perfectly fine to user the compiler without it.

Licensing

The C3 compiler is licensed under LGPL 3.0, the standard library itself is MIT licensed.

Editor plugins

Editor plugins can be found at https://github.com/c3lang/editor-plugins.

Contributing unit tests

  1. Write the test, either adding to existing test files in /test/unit/ or add a new file. (If testing the standard library, put it in the /test/unit/stdlib/ subdirectory).
  2. Make sure that the test functions have the @test attribute.
  3. Run tests and see that they pass. (Recommended settings: c3c compile-test -O0 test/unit.
    • in this example test/unit/ is the relative path to the test directory, so adjust as required)
  4. Make a pull request for the new tests.

Thank yous

A huge THANK YOU goes out to all contributors and sponsors.

A special thank you to sponsors Caleb-o and devdad for going the extra mile.