use std::path::PathBuf; use std::rc::Rc; use rustc_hash::FxHashMap; use smol_str::SmolStr; use std::fmt::Write; use tracing::{instrument, Span}; use tracing_indicatif::span_ext::IndicatifSpanExt; use tvix_build::buildservice; use tvix_eval::{ builtins::impure_builtins, observer::{DisassemblingObserver, TracingObserver}, ErrorKind, EvalIO, GlobalsMap, SourceCode, Value, }; use tvix_glue::{ builtins::{add_derivation_builtins, add_fetcher_builtins, add_import_builtins}, configure_nix_path, tvix_io::TvixIO, tvix_store_io::TvixStoreIO, }; pub mod args; pub mod assignment; pub mod repl; pub use args::Args; pub use repl::Repl; pub fn init_io_handle(tokio_runtime: &tokio::runtime::Runtime, args: &Args) -> Rc { let (blob_service, directory_service, path_info_service, nar_calculation_service) = tokio_runtime .block_on(tvix_store::utils::construct_services( args.service_addrs.clone(), )) .expect("unable to setup {blob|directory|pathinfo}service before interpreter setup"); let build_service = tokio_runtime .block_on({ let blob_service = blob_service.clone(); let directory_service = directory_service.clone(); async move { buildservice::from_addr( &args.build_service_addr, blob_service.clone(), directory_service.clone(), ) .await } }) .expect("unable to setup buildservice before interpreter setup"); Rc::new(TvixStoreIO::new( blob_service.clone(), directory_service.clone(), path_info_service, nar_calculation_service.into(), build_service.into(), tokio_runtime.handle().clone(), )) } #[derive(Debug, Clone, Copy, PartialEq, Eq, Default)] pub enum AllowIncomplete { Allow, #[default] RequireComplete, } impl AllowIncomplete { fn allow(&self) -> bool { matches!(self, Self::Allow) } } #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub struct IncompleteInput; pub struct EvalResult { value: Option, globals: Rc, } /// Interprets the given code snippet, printing out warnings and errors and returning the result #[allow(clippy::too_many_arguments)] pub fn evaluate( tvix_store_io: Rc, code: &str, path: Option, args: &Args, allow_incomplete: AllowIncomplete, env: Option<&FxHashMap>, globals: Option>, source_map: Option, ) -> Result { let span = Span::current(); span.pb_start(); span.pb_set_style(&tvix_tracing::PB_SPINNER_STYLE); span.pb_set_message("Setting up evaluator…"); let mut eval_builder = tvix_eval::Evaluation::builder(Box::new(TvixIO::new( tvix_store_io.clone() as Rc, )) as Box) .enable_import() .with_strict(args.strict) .env(env); match globals { Some(globals) => { eval_builder = eval_builder.with_globals(globals); } None => { eval_builder = eval_builder.add_builtins(impure_builtins()); eval_builder = add_derivation_builtins(eval_builder, Rc::clone(&tvix_store_io)); eval_builder = add_fetcher_builtins(eval_builder, Rc::clone(&tvix_store_io)); eval_builder = add_import_builtins(eval_builder, tvix_store_io); eval_builder = configure_nix_path(eval_builder, &args.nix_search_path); } }; if let Some(source_map) = source_map { eval_builder = eval_builder.with_source_map(source_map); } let source_map = eval_builder.source_map().clone(); let (result, globals) = { let mut compiler_observer = DisassemblingObserver::new(source_map.clone(), std::io::stderr()); if args.dump_bytecode { eval_builder.set_compiler_observer(Some(&mut compiler_observer)); } let mut runtime_observer = TracingObserver::new(std::io::stderr()); if args.trace_runtime { if args.trace_runtime_timing { runtime_observer.enable_timing() } eval_builder.set_runtime_observer(Some(&mut runtime_observer)); } span.pb_set_message("Evaluating…"); let eval = eval_builder.build(); let globals = eval.globals(); let result = eval.evaluate(code, path); (result, globals) }; if allow_incomplete.allow() && result.errors.iter().any(|err| { matches!( &err.kind, ErrorKind::ParseErrors(pes) if pes.iter().any(|pe| matches!(pe, rnix::parser::ParseError::UnexpectedEOF)) ) }) { return Err(IncompleteInput); } 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(); } if !args.no_warnings { for warning in &result.warnings { warning.fancy_format_stderr(&source_map); } } Ok(EvalResult { globals, value: result.value, }) } pub struct InterpretResult { output: String, success: bool, pub(crate) globals: Option>, } impl InterpretResult { pub fn empty_success(globals: Option>) -> Self { Self { output: String::new(), success: true, globals, } } pub fn finalize(self) -> bool { print!("{}", self.output); self.success } pub fn output(&self) -> &str { &self.output } pub fn success(&self) -> bool { self.success } } /// Interprets the given code snippet, printing out warnings, errors /// and the result itself. The return value indicates whether /// evaluation succeeded. #[instrument(skip_all, fields(indicatif.pb_show=1))] #[allow(clippy::too_many_arguments)] pub fn interpret( tvix_store_io: Rc, code: &str, path: Option, args: &Args, explain: bool, allow_incomplete: AllowIncomplete, env: Option<&FxHashMap>, globals: Option>, source_map: Option, ) -> Result { let mut output = String::new(); let result = evaluate( tvix_store_io, code, path, args, allow_incomplete, env, globals, source_map, )?; if let Some(value) = result.value.as_ref() { if explain { writeln!(&mut output, "=> {}", value.explain()).unwrap(); } else if args.raw { writeln!(&mut output, "{}", value.to_contextful_str().unwrap()).unwrap(); } else { writeln!(&mut output, "=> {} :: {}", value, value.type_of()).unwrap(); } } // inform the caller about any errors Ok(InterpretResult { output, success: result.value.is_some(), globals: Some(result.globals), }) }