- Parse --target flag in Cli_Run before command dispatch - Pass targetTriple through Cli_Build, Cli_BuildProject, Cli_RunProject - Use clang with -target when cross-compiling, cc otherwise - Selfhost loop: C output identical
Bux Programming Language
Status: v0.4.0 — Bootstrap compiler (
buxc, Nim) and self-hosted compiler (buxc2, Bux) both compile.bux→ C → native binary. Selfhost loop:buxc2can compile itself — deterministic C codegen verified. LIR backend produces clean 3-address C code. All 26 examples pass. Gradual Ownership:@[Checked]borrow checker,borrow &mutexpressions,@[Shared]attribute. Apps tested: compiler successfully parses all 3 real-world apps (apps/boko-framework,apps/jwt-pitbul,apps/nexus) — no hangs, no crashes.
Bux is a fast, compiled, strongly-typed systems programming language. Features a C backend for native code generation, raw multi-line strings, gradual ownership (opt-in borrow checking), async/await, generics, algebraic enums, and a package manager.
Quick Start
# Build the bootstrap compiler (Nim)
make build
# Create a new project
bux new hello
cd hello
# Build and run
bux run
Syntax Preview
Hello World
import Std::Io::PrintLine;
func Main() -> int {
PrintLine("Hello, Bux!");
return 0;
}
Raw Multi-line Strings
// Backtick strings: no escape processing, multi-line
func Main() -> int {
PrintLine(`Hello \n World`); // prints: Hello \n World (literal)
PrintLine(`Line 1
Line 2
Line 3`); // multi-line, newlines preserved
return 0;
}
Error Handling with ?
enum Result {
Ok(int),
Err(String)
}
func Divide(a: int, b: int) -> Result {
if b == 0 {
return Result_NewErr("division by zero");
}
return Result_NewOk(a / b);
}
func Compute() -> Result {
let x: int = Divide(10, 2)?; // auto-propagates Err
let y: int = Divide(x, 5)?;
return Result_NewOk(y);
}
Structs and Methods
struct Rectangle {
width: int;
height: int;
}
extend Rectangle {
func Area(self: Rectangle) -> int {
return self.width * self.height;
}
}
func Main() -> int {
let rect: Rectangle = Rectangle { width: 10, height: 5 };
PrintInt(rect.Area());
return 0;
}
Generics
func Max<T>(a: T, b: T) -> T {
if a > b {
return a;
}
return b;
}
func Main() -> int {
let m: int = Max<int>(10, 20);
PrintInt(m);
return 0;
}
Async/Await
import Std::Io::{PrintLine, PrintInt};
async func Compute() -> int {
PrintLine("Compute: step 1");
bux_async_yield();
PrintLine("Compute: step 2");
return 42;
}
func Main() -> int {
let h1 = spawn Compute();
let r1: int = h1.await as int;
PrintInt(r1);
return 0;
}
Channels (Producer/Consumer)
import Std::Io::{PrintLine, PrintInt};
import Std::Task::{Task_Join, TaskHandle};
import Std::Channel::{Channel, Channel_New, Channel_SendInt, Channel_RecvInt, Channel_Close};
func Producer(chPtr: *Channel<int>) {
var i: int = 1;
while i <= 5 {
Channel_SendInt(chPtr, i * 10);
i = i + 1;
}
Channel_Close<int>(chPtr);
}
func Consumer(chPtr: *Channel<int>) {
var total: int = 0;
while true {
let val: int = Channel_RecvInt(chPtr);
if val == 0 { break; }
total = total + val;
PrintInt(val);
PrintLine("");
}
PrintLine("Total:");
PrintInt(total);
PrintLine("");
}
func Main() -> int {
let ch: Channel<int> = Channel_New<int>(3);
let p: *void = spawn Producer(&ch);
let c: *void = spawn Consumer(&ch);
Task_Join(TaskHandle { handle: p });
Task_Join(TaskHandle { handle: c });
return 0;
}
Hash Map
import Std::Map::{Map, Map_New, Map_Set, Map_Get};
func Main() -> int {
let m: Map = Map_New(16);
Map_Set(&m, "answer", 42);
PrintInt(Map_Get(&m, "answer"));
return 0;
}
Features
| Feature | Status |
|---|---|
| Types | Primitives, pointers, slices, tuples, structs, enums, unions |
| Generics | Generic functions (monomorphization) |
| Algebraic Enums | Enums with data (Result, Option) |
| Pattern Matching | match with guards |
| Methods | extend blocks for struct methods |
| Interfaces | interface + extend for trait-like behavior |
| Error Handling | Result<T,E>, Option<T>, and the ? operator |
| Standard Library | Io, Array, String, Map, Fs, Mem, Set, Path, Math, Task, Channel, Sync, Os, Time, Process |
| Backend | LIR → C transpiler (clean 3-address code, then gcc/clang) |
| Strings | Raw multi-line backtick strings (...), C-string interop |
| Gradual Ownership | @[Checked] + @[Shared] + borrow &mut / borrow & expressions |
| Async/Await | async func, spawn, .await with stackful coroutines |
| Concurrency | Task/Channel/Sync (pthread-based), bux_async_yield/spawn |
| CTFE | const func — compile-time function execution |
| Trait Bounds | func Max<T: Comparable>(a: T, b: T) -> T |
| Package Manager | bux add, bux install, bux.lock, path + git deps |
| Tooling | bux new, bux build, bux run, bux test, bux check |
Project Structure
bux/
├── compiler/ # Compiler source code
│ ├── bootstrap/ # Bootstrap compiler (Nim)
│ ├── selfhost/ # Self-hosting compiler source (Bux)
│ └── tests/ # Compiler unit tests (Nim)
├── library/ # Standard library
│ ├── std/ # Standard library modules (.bux)
│ │ ├── Io.bux, String.bux, Array.bux, Map.bux
│ │ ├── Fs.bux, Mem.bux, Set.bux
│ │ ├── Path.bux, Math.bux
│ │ └── Task.bux, Channel.bux
│ └── runtime/ # C runtime files (runtime.c, io.c)
├── tests/ # Language integration tests
├── examples/ # Example programs
├── tools/ # Additional tooling
├── docs/ # Documentation
├── buxs/ # Windows-compatible project root
├── README.md
├── PLAN.md # Roadmap to self-hosting
└── Makefile
Build & Test
# Build bootstrap compiler (Nim → C)
make build
# Build self-hosted compiler (Bux → C → native)
make selfhost
# Run all tests
make test
# Run example programs
make test-examples
# Clean build artifacts
make clean
Windows users: Use the
buxs/directory as your project root to avoid path conflicts.
Applications
The apps/ directory contains real-world Bux applications that serve as integration tests for the compiler:
| App | Description | Lines |
|---|---|---|
| boko-framework | Async web framework (like FastAPI), multi-threaded HTTP server | ~660 |
| jwt-pitbul | JWT CLI tool — sign, verify, decode (HS256/384/512, RS256/384/512, ES256/384, EdDSA) | ~326 |
| nexus | High-performance HTTP/1.1, HTTP/2 & WebSocket server | ~550 |
The bootstrap compiler successfully parses and type-checks all three applications without hanging or crashing.
Documentation
docs/LanguageRef.md— Language referencedocs/Stdlib.md— Standard library documentationdocs/BuildAndTest.md— Build and test guidePLAN.md— Roadmap to self-hosting
License
MIT
