mod derivation;
mod errors;
mod known_paths;
mod nix_compat;
mod refscan;
use std::cell::RefCell;
use std::rc::Rc;
use std::{fs, path::PathBuf};
use clap::Parser;
use known_paths::KnownPaths;
use rustyline::{error::ReadlineError, Editor};
use tvix_eval::observer::{DisassemblingObserver, TracingObserver};
use tvix_eval::{Builtin, Value};
#[derive(Parser)]
struct Args {
/// Path to a script to evaluate
script: Option<PathBuf>,
#[clap(long, short = 'E')]
expr: Option<String>,
/// Dump the raw AST to stdout before interpreting
#[clap(long, env = "TVIX_DISPLAY_AST")]
display_ast: bool,
/// Dump the bytecode to stdout before evaluating
#[clap(long, env = "TVIX_DUMP_BYTECODE")]
dump_bytecode: bool,
/// Trace the runtime of the VM
#[clap(long, env = "TVIX_TRACE_RUNTIME")]
trace_runtime: bool,
/// Only compile, but do not execute code. This will make Tvix act
/// sort of like a linter.
#[clap(long)]
compile_only: bool,
/// A colon-separated list of directories to use to resolve `<...>`-style paths
#[clap(long, short = 'I', env = "NIX_PATH")]
nix_search_path: Option<String>,
/// Print "raw" (unquoted) output.
#[clap(long)]
raw: bool,
/// Strictly evaluate values, traversing them and forcing e.g.
/// elements of lists and attribute sets before printing the
/// return value.
#[clap(long)]
strict: bool,
}
/// Interprets the given code snippet, printing out warnings, errors
/// and the result itself. The return value indicates whether
/// evaluation succeeded.
fn interpret(code: &str, path: Option<PathBuf>, args: &Args, explain: bool) -> bool {
let mut eval = tvix_eval::Evaluation::new_impure(code, path);
let known_paths: Rc<RefCell<KnownPaths>> = Default::default();
eval.strict = args.strict;
eval.io_handle = Box::new(nix_compat::NixCompatIO::new(known_paths.clone()));
// bundle fetchurl.nix (used in nixpkgs) by resolving <nix> to
// `/__corepkgs__`, which has special handling in [`nix_compat`].
eval.nix_path = args
.nix_search_path
.as_ref()
.map(|p| format!("nix=/__corepkgs__:{}", p))
.or_else(|| Some("nix=/__corepkgs__".to_string()));
eval.builtins
.extend(derivation::derivation_builtins(known_paths));
// Add the actual `builtins.derivation` from compiled Nix code
eval.src_builtins
.push(("derivation", include_str!("derivation.nix")));
let source_map = eval.source_map();
let result = {
let mut compiler_observer =
DisassemblingObserver::new(source_map.clone(), std::io::stderr());
if args.dump_bytecode {
eval.compiler_observer = Some(&mut compiler_observer);
}
let mut runtime_observer = TracingObserver::new(std::io::stderr());
if args.trace_runtime {
eval.runtime_observer = Some(&mut runtime_observer);
}
eval.evaluate()
};
if args.display_ast {
if let Some(ref expr) = result.expr {
eprintln!("AST: {}", tvix_eval::pretty_print_expr(expr));
}
}
for error in &result.errors {
error.fancy_format_stderr(&source_map);
}
for warning in &result.warnings {
warning.fancy_format_stderr(&source_map);
}
if let Some(value) = result.value.as_ref() {
if explain {
println!("=> {}", value.explain());
} else {
println_result(value, args.raw);
}
}
// inform the caller about any errors
result.errors.is_empty()
}
/// Interpret the given code snippet, but only run the Tvix compiler
/// on it and return errors and warnings.
fn lint(code: &str, path: Option<PathBuf>, args: &Args) -> bool {
let mut eval = tvix_eval::Evaluation::new_impure(code, path);
eval.strict = args.strict;
let source_map = eval.source_map();
let mut compiler_observer = DisassemblingObserver::new(source_map.clone(), std::io::stderr());
if args.dump_bytecode {
eval.compiler_observer = Some(&mut compiler_observer);
}
if args.trace_runtime {
eprintln!("warning: --trace-runtime has no effect with --compile-only!");
}
let result = eval.compile_only();
if args.display_ast {
if let Some(ref expr) = result.expr {
eprintln!("AST: {}", tvix_eval::pretty_print_expr(expr));
}
}
for error in &result.errors {
error.fancy_format_stderr(&source_map);
}
for warning in &result.warnings {
warning.fancy_format_stderr(&source_map);
}
// inform the caller about any errors
result.errors.is_empty()
}
fn main() {
let args = Args::parse();
if let Some(file) = &args.script {
run_file(file.clone(), &args)
} else if let Some(expr) = &args.expr {
if !interpret(expr, None, &args, false) {
std::process::exit(1);
}
} else {
run_prompt(&args)
}
}
fn run_file(mut path: PathBuf, args: &Args) {
if path.is_dir() {
path.push("default.nix");
}
let contents = fs::read_to_string(&path).expect("failed to read the input file");
let success = if args.compile_only {
lint(&contents, Some(path), args)
} else {
interpret(&contents, Some(path), args, false)
};
if !success {
std::process::exit(1);
}
}
fn println_result(result: &Value, raw: bool) {
if raw {
println!("{}", result.to_str().unwrap().as_str())
} else {
println!("=> {} :: {}", result, result.type_of())
}
}
fn state_dir() -> Option<PathBuf> {
let mut path = dirs::data_dir();
if let Some(p) = path.as_mut() {
p.push("tvix")
}
path
}
fn run_prompt(args: &Args) {
let mut rl = Editor::<()>::new().expect("should be able to launch rustyline");
if args.compile_only {
eprintln!("warning: `--compile-only` has no effect on REPL usage!");
}
let history_path = match state_dir() {
// Attempt to set up these paths, but do not hard fail if it
// doesn't work.
Some(mut path) => {
let _ = std::fs::create_dir_all(&path);
path.push("history.txt");
let _ = rl.load_history(&path);
Some(path)
}
None => None,
};
loop {
let readline = rl.readline("tvix-repl> ");
match readline {
Ok(line) => {
if line.is_empty() {
continue;
}
rl.add_history_entry(&line);
if let Some(without_prefix) = line.strip_prefix(":d ") {
interpret(without_prefix, None, args, true);
} else {
interpret(&line, None, args, false);
}
}
Err(ReadlineError::Interrupted) | Err(ReadlineError::Eof) => break,
Err(err) => {
eprintln!("error: {}", err);
break;
}
}
}
if let Some(path) = history_path {
rl.save_history(&path).unwrap();
}
}