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Interpreter, Virtual Machine and JIT-Compiler for Brainfuck Programs

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Brainfuck

This repository contains the following execution environments for executing Brainfuck programs:

  • Interpreter
  • Compiler
  • Virtual Machine
  • JIT-Compiler for x64 Linux

CLI

Execute the program with the JIT-Compiler if available, otherwise use the virtual machine:

brainfuck ./programs/mandelbrot.b

Explicitly specify the execution environment:

brainfuck --env jit ./programs/mandelbrot.b

Execution Environments

Interpreter

A simple interpreter to execute Brainfuck code. It takes the program as a &str and iterates over all bytes, executing valid Brainfuck instruction along the way.

Compiler

The compiler compiles the Brainfuck program into a list of instructions, which can then be executed by the virtual machine; it takes the program as a &str and produces a Vec<Instruction>.

This is more efficient than the interpreter because repeated instructions like +++ are represented by one instruction (Instruction::IncDP(3)) instead of three single increment instructions like in the interpreter.

Virtual Machine

The virtual machine is needed to execute the instructions generated by the compiler. Its code base is very similar to that of the interpreter, but instead of working with raw bytes, it uses the Instruction enum instead.

JIT-Compiler

The JIT-Compiler takes instructions generated by the compiler. It then generates machine code that is specific to x86_64 Linux systems and executes it. This is even more performant than the virtual machine, because the generated machine code does not have to check which instruction it has to execute; this also means that different Brainfuck programs result in different machine code.

The data pointer is kept in the register r12.

Optimizations

The JIT-Compiler contains a few simple optimizations:

  • Single +, -, > and < instructions use the inc or dec assembly instructions while repeating instructions use the add or sub instructions. See for example the function that generates machine code for the > instructions:
    pub fn emit_inc_dp(&mut self, n: usize) -> usize {
        let n = n as u8;
        match n {
            1 => {
                // inc r12
                self.write(&[0x49, 0xff, 0xc4])
            }
            2..=127 => {
                // add r12,<n>
                self.write(&[0x49, 0x83, 0xc4, n])
            }
            128..=255 => {
                // add r12,<n>
                self.write(&[0x49, 0x81, 0xc4, n, 0x00, 0x00, 0x00])
            }
            _ => 0,
        }
    }

Limitations

There are currently a few limitations:

  • The generated machine code is architecture and OS specific as it relies on Linux system calls and 64-Bit registers.
  • Input and output are hard coded to be stdin and stdout respectively, because the generated machine code uses the syscalls man 2 read and man 2 write with hard coded file descriptors.
  • Because stdin and stdout are hard coded, the output of the tests for jit.rs have to be manually checked.

Benchmarks

Running the following code that runs the mandelbrot.b program on my system produces the following result:

Interpreter:      28.961  s
Virtual Machine:   5.157  s
JIT Compiled:    583.073 ms

Code:

use std::io;
use std::time::{Duration, Instant};

use brainfuck::compiler::Compiler;
use brainfuck::interpreter::Interpreter;
use brainfuck::jit::JitCompiler;
use brainfuck::virtual_machine::VirtualMachine;
use brainfuck::FlushBehavior;

const PROGRAM: &str = include_str!("../programs/mandelbrot.b");

fn main() {
    let interpreter = measure("Interpreter", interpreter);
    let vm = measure("Virtual Machine", virtual_machine);
    let jit = measure("JIT Compiler", jit);

    eprintln!("Interpreter:     {interpreter:.3?}");
    eprintln!("Virtual Machine: {vm:.3?}");
    eprintln!("JIT Compiled:    {jit:.3?}");
}

fn interpreter() {
    Interpreter::new(PROGRAM, &mut io::empty(), &mut io::stdout().lock())
        .execute(FlushBehavior::OnWrite)
        .unwrap();
}

fn virtual_machine() {
    VirtualMachine::new(
        &Compiler::new(PROGRAM).compile(),
        &mut io::empty(),
        &mut io::stdout().lock(),
    )
    .execute(FlushBehavior::OnWrite)
    .unwrap();
}

fn jit() {
    JitCompiler::new(&Compiler::new(PROGRAM).compile())
        .execute()
        .unwrap();
}

fn measure(desc: &str, f: impl Fn()) -> Duration {
    eprintln!("{desc}:\n");
    let start = Instant::now();
    f();
    let time = start.elapsed();
    eprintln!();
    time
}

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