#[cfg(windows)] use crossterm_winapi::{ConsoleMode, Handle}; use dialoguer::{ console::{Style, Term}, theme::ColorfulTheme, Select, }; use miette::{IntoDiagnostic, Result}; use nu_cli::{CliError, NuCompleter, NuHighlighter, NuValidator, NushellPrompt}; use nu_command::create_default_context; use nu_engine::eval_block; use nu_parser::parse; use nu_protocol::{ ast::Call, engine::{EngineState, Stack, StateWorkingSet}, Config, PipelineData, ShellError, Span, Value, CONFIG_VARIABLE_ID, }; use reedline::{Completer, CompletionActionHandler, DefaultPrompt, LineBuffer, Prompt}; use std::{ io::Write, sync::{ atomic::{AtomicBool, Ordering}, Arc, }, }; #[cfg(test)] mod tests; // Name of environment variable where the prompt could be stored const PROMPT_COMMAND: &str = "PROMPT_COMMAND"; struct FuzzyCompletion { completer: Box, } impl CompletionActionHandler for FuzzyCompletion { fn handle(&mut self, present_buffer: &mut LineBuffer) { let completions = self .completer .complete(present_buffer.get_buffer(), present_buffer.offset()); if completions.is_empty() { // do nothing } else if completions.len() == 1 { let span = completions[0].0; let mut offset = present_buffer.offset(); offset += completions[0].1.len() - (span.end - span.start); // TODO improve the support for multiline replace present_buffer.replace(span.start..span.end, &completions[0].1); present_buffer.set_insertion_point(offset); } else { let selections: Vec<_> = completions.iter().map(|(_, string)| string).collect(); let _ = crossterm::terminal::disable_raw_mode(); println!(); let theme = ColorfulTheme { active_item_style: Style::new().for_stderr().on_green().black(), ..Default::default() }; let result = Select::with_theme(&theme) .default(0) .items(&selections[..]) .interact_on_opt(&Term::stdout()) .unwrap_or(None); let _ = crossterm::terminal::enable_raw_mode(); if let Some(result) = result { let span = completions[result].0; let mut offset = present_buffer.offset(); offset += completions[result].1.len() - (span.end - span.start); // TODO improve the support for multiline replace present_buffer.replace(span.start..span.end, &completions[result].1); present_buffer.set_insertion_point(offset); } } } } fn main() -> Result<()> { // miette::set_panic_hook(); let miette_hook = std::panic::take_hook(); std::panic::set_hook(Box::new(move |x| { crossterm::terminal::disable_raw_mode().expect("unable to disable raw mode"); miette_hook(x); })); let mut engine_state = create_default_context(); // TODO: make this conditional in the future // Ctrl-c protection section let ctrlc = Arc::new(AtomicBool::new(false)); let handler_ctrlc = ctrlc.clone(); let engine_state_ctrlc = ctrlc.clone(); ctrlc::set_handler(move || { handler_ctrlc.store(true, Ordering::SeqCst); }) .expect("Error setting Ctrl-C handler"); engine_state.ctrlc = Some(engine_state_ctrlc); // End ctrl-c protection section if let Some(path) = std::env::args().nth(1) { let file = std::fs::read(&path).into_diagnostic()?; let (block, delta) = { let mut working_set = StateWorkingSet::new(&engine_state); let (output, err) = parse(&mut working_set, Some(&path), &file, false); if let Some(err) = err { report_error(&working_set, &err); std::process::exit(1); } (output, working_set.render()) }; if let Err(err) = engine_state.merge_delta(delta) { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &err); } let mut stack = nu_protocol::engine::Stack::new(); for (k, v) in std::env::vars() { stack.add_env_var(k, v); } // Set up our initial config to start from stack.vars.insert( CONFIG_VARIABLE_ID, Value::Record { cols: vec![], vals: vec![], span: Span::unknown(), }, ); let config = match stack.get_config() { Ok(config) => config, Err(e) => { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &e); Config::default() } }; match eval_block( &engine_state, &mut stack, &block, PipelineData::new(Span::unknown()), ) { Ok(pipeline_data) => { for item in pipeline_data { if let Value::Error { error } = item { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &error); std::process::exit(1); } println!("{}", item.into_string("\n", &config)); } // Next, let's check if there are any flags we want to pass to the main function let args: Vec = std::env::args().skip(2).collect(); if args.is_empty() && engine_state.find_decl(b"main").is_none() { return Ok(()); } let args = format!("main {}", args.join(" ")).as_bytes().to_vec(); let (block, delta) = { let mut working_set = StateWorkingSet::new(&engine_state); let (output, err) = parse(&mut working_set, Some(""), &args, false); if let Some(err) = err { report_error(&working_set, &err); std::process::exit(1); } (output, working_set.render()) }; if let Err(err) = engine_state.merge_delta(delta) { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &err); } match eval_block( &engine_state, &mut stack, &block, PipelineData::new(Span::unknown()), ) { Ok(pipeline_data) => { for item in pipeline_data { if let Value::Error { error } = item { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &error); std::process::exit(1); } println!("{}", item.into_string("\n", &config)); } } Err(err) => { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &err); std::process::exit(1); } } } Err(err) => { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &err); std::process::exit(1); } } Ok(()) } else { use reedline::{FileBackedHistory, Reedline, Signal}; let mut entry_num = 0; let default_prompt = DefaultPrompt::new(1); let mut nu_prompt = NushellPrompt::new(); let mut stack = nu_protocol::engine::Stack::new(); for (k, v) in std::env::vars() { stack.add_env_var(k, v); } // Set up our initial config to start from stack.vars.insert( CONFIG_VARIABLE_ID, Value::Record { cols: vec![], vals: vec![], span: Span::unknown(), }, ); // Load config startup file if let Some(mut config_path) = nu_path::config_dir() { config_path.push("nushell"); config_path.push("config.nu"); if config_path.exists() { // FIXME: remove this message when we're ready println!("Loading config from: {:?}", config_path); let config_filename = config_path.to_string_lossy().to_owned(); if let Ok(contents) = std::fs::read_to_string(&config_path) { eval_source(&mut engine_state, &mut stack, &contents, &config_filename); } } } let history_path = if let Some(mut history_path) = nu_path::config_dir() { history_path.push("nushell"); history_path.push("history.txt"); Some(history_path) } else { None }; #[cfg(feature = "plugin")] { // Reading signatures from signature file // The plugin.nu file stores the parsed signature collected from each registered plugin if let Some(mut plugin_path) = nu_path::config_dir() { // Path to store plugins signatures plugin_path.push("nushell"); plugin_path.push("plugin.nu"); engine_state.plugin_signatures = Some(plugin_path.clone()); let plugin_filename = plugin_path.to_string_lossy().to_owned(); if let Ok(contents) = std::fs::read_to_string(&plugin_path) { eval_source(&mut engine_state, &mut stack, &contents, &plugin_filename); } } } loop { let config = match stack.get_config() { Ok(config) => config, Err(e) => { let working_set = StateWorkingSet::new(&engine_state); report_error(&working_set, &e); Config::default() } }; //Reset the ctrl-c handler ctrlc.store(false, Ordering::SeqCst); let line_editor = Reedline::create() .into_diagnostic()? .with_completion_action_handler(Box::new(FuzzyCompletion { completer: Box::new(NuCompleter::new(engine_state.clone())), })) .with_highlighter(Box::new(NuHighlighter { engine_state: engine_state.clone(), config: config.clone(), })) .with_animation(config.animate_prompt) // .with_completion_action_handler(Box::new( // ListCompletionHandler::default().with_completer(Box::new(completer)), // )) .with_validator(Box::new(NuValidator { engine_state: engine_state.clone(), })) .with_ansi_colors(config.use_ansi_coloring); //FIXME: if config.use_ansi_coloring is false then we should // turn off the hinter but I don't see any way to do that yet. let mut line_editor = if let Some(history_path) = history_path.clone() { line_editor .with_history(Box::new( FileBackedHistory::with_file(1000, history_path.clone()) .into_diagnostic()?, )) .into_diagnostic()? } else { line_editor }; let prompt = update_prompt( PROMPT_COMMAND, &engine_state, &stack, &mut nu_prompt, &default_prompt, ); entry_num += 1; let input = line_editor.read_line(prompt); match input { Ok(Signal::Success(s)) => { eval_source( &mut engine_state, &mut stack, &s, &format!("entry #{}", entry_num), ); } Ok(Signal::CtrlC) => { // `Reedline` clears the line content. New prompt is shown } Ok(Signal::CtrlD) => { // When exiting clear to a new line println!(); break; } Ok(Signal::CtrlL) => { line_editor.clear_screen().into_diagnostic()?; } Err(err) => { let message = err.to_string(); if !message.contains("duration") { println!("Error: {:?}", err); } } } } Ok(()) } } fn print_pipeline_data( input: PipelineData, engine_state: &EngineState, stack: &mut Stack, ) -> Result<(), ShellError> { // If the table function is in the declarations, then we can use it // to create the table value that will be printed in the terminal let config = stack.get_config().unwrap_or_default(); match engine_state.find_decl("table".as_bytes()) { Some(decl_id) => { let table = engine_state .get_decl(decl_id) .run(engine_state, stack, &Call::new(), input)?; for item in table { let stdout = std::io::stdout(); if let Value::Error { error } = item { return Err(error); } let mut out = item.into_string("\n", &config); out.push('\n'); match stdout.lock().write_all(out.as_bytes()) { Ok(_) => (), Err(err) => eprintln!("{}", err), }; } } None => { for item in input { let stdout = std::io::stdout(); if let Value::Error { error } = item { return Err(error); } let mut out = item.into_string("\n", &config); out.push('\n'); match stdout.lock().write_all(out.as_bytes()) { Ok(_) => (), Err(err) => eprintln!("{}", err), }; } } }; Ok(()) } fn update_prompt<'prompt>( env_variable: &str, engine_state: &EngineState, stack: &Stack, nu_prompt: &'prompt mut NushellPrompt, default_prompt: &'prompt DefaultPrompt, ) -> &'prompt dyn Prompt { let prompt_command = match stack.get_env_var(env_variable) { Some(prompt) => prompt, None => return default_prompt as &dyn Prompt, }; // Checking if the PROMPT_COMMAND is the same to avoid evaluating constantly // the same command, thus saturating the contents in the EngineState if !nu_prompt.is_new_prompt(prompt_command.as_str()) { return nu_prompt as &dyn Prompt; } let block = { let mut working_set = StateWorkingSet::new(engine_state); let (output, err) = parse(&mut working_set, None, prompt_command.as_bytes(), false); if let Some(err) = err { report_error(&working_set, &err); return default_prompt as &dyn Prompt; } output }; let mut stack = stack.clone(); let evaluated_prompt = match eval_block( engine_state, &mut stack, &block, PipelineData::new(Span::unknown()), ) { Ok(pipeline_data) => { let config = stack.get_config().unwrap_or_default(); pipeline_data.collect_string("", &config) } Err(..) => { // If we can't run the custom prompt, give them the default return default_prompt as &dyn Prompt; } }; nu_prompt.update_prompt(prompt_command, evaluated_prompt); nu_prompt as &dyn Prompt } fn eval_source( engine_state: &mut EngineState, stack: &mut Stack, source: &str, fname: &str, ) -> bool { let (block, delta) = { let mut working_set = StateWorkingSet::new(engine_state); let (output, err) = parse( &mut working_set, Some(fname), // format!("entry #{}", entry_num) source.as_bytes(), false, ); if let Some(err) = err { report_error(&working_set, &err); return false; } (output, working_set.render()) }; if let Err(err) = engine_state.merge_delta(delta) { let working_set = StateWorkingSet::new(engine_state); report_error(&working_set, &err); } match eval_block( engine_state, stack, &block, PipelineData::new(Span::unknown()), ) { Ok(pipeline_data) => { if let Err(err) = print_pipeline_data(pipeline_data, engine_state, stack) { let working_set = StateWorkingSet::new(engine_state); report_error(&working_set, &err); return false; } // reset vt processing, aka ansi because illbehaved externals can break it #[cfg(windows)] { let _ = enable_vt_processing(); } } Err(err) => { let working_set = StateWorkingSet::new(engine_state); report_error(&working_set, &err); return false; } } true } #[cfg(windows)] pub fn enable_vt_processing() -> Result<(), ShellError> { pub const ENABLE_PROCESSED_OUTPUT: u32 = 0x0001; pub const ENABLE_VIRTUAL_TERMINAL_PROCESSING: u32 = 0x0004; // let mask = ENABLE_VIRTUAL_TERMINAL_PROCESSING; let console_mode = ConsoleMode::from(Handle::current_out_handle()?); let old_mode = console_mode.mode()?; // researching odd ansi behavior in windows terminal repo revealed that // enable_processed_output and enable_virtual_terminal_processing should be used // also, instead of checking old_mode & mask, just set the mode already // if old_mode & mask == 0 { console_mode .set_mode(old_mode | ENABLE_PROCESSED_OUTPUT | ENABLE_VIRTUAL_TERMINAL_PROCESSING)?; // } Ok(()) } pub fn report_error( working_set: &StateWorkingSet, error: &(dyn miette::Diagnostic + Send + Sync + 'static), ) { eprintln!("Error: {:?}", CliError(error, working_set)); // reset vt processing, aka ansi because illbehaved externals can break it #[cfg(windows)] { let _ = enable_vt_processing(); } }