use super::{align_view, Align, Context, Editor}; use crate::{ compositor::{self, Compositor}, job::{Callback, Jobs}, ui::{self, FilePicker, Picker, Popup, Prompt, PromptEvent, Text}, }; use helix_core::{ syntax::{DebugArgumentValue, DebugConfigCompletion}, Selection, }; use helix_dap::{self as dap, Client, ThreadId}; use helix_lsp::block_on; use helix_view::editor::Breakpoint; use serde_json::{to_value, Value}; use tokio_stream::wrappers::UnboundedReceiverStream; use std::collections::HashMap; use std::future::Future; use std::path::PathBuf; use anyhow::{anyhow, bail}; // general utils: pub fn dap_pos_to_pos(doc: &helix_core::Rope, line: usize, column: usize) -> Option { // 1-indexing to 0 indexing let line = doc.try_line_to_char(line - 1).ok()?; let pos = line + column; // TODO: this is probably utf-16 offsets Some(pos) } pub fn resume_application(debugger: &mut Client) { if let Some(thread_id) = debugger.thread_id { debugger .thread_states .insert(thread_id, "running".to_string()); debugger.stack_frames.remove(&thread_id); } debugger.active_frame = None; debugger.thread_id = None; } pub async fn select_thread_id(editor: &mut Editor, thread_id: ThreadId, force: bool) { let debugger = match &mut editor.debugger { Some(debugger) => debugger, None => return, }; if !force && debugger.thread_id.is_some() { return; } debugger.thread_id = Some(thread_id); fetch_stack_trace(debugger, thread_id).await; let frame = debugger.stack_frames[&thread_id].get(0).cloned(); if let Some(frame) = &frame { jump_to_stack_frame(editor, frame); } } pub async fn fetch_stack_trace(debugger: &mut Client, thread_id: ThreadId) { let (frames, _) = match debugger.stack_trace(thread_id).await { Ok(frames) => frames, Err(_) => return, }; debugger.stack_frames.insert(thread_id, frames); debugger.active_frame = Some(0); } pub fn jump_to_stack_frame(editor: &mut Editor, frame: &helix_dap::StackFrame) { let path = if let Some(helix_dap::Source { path: Some(ref path), .. }) = frame.source { path.clone() } else { return; }; if let Err(e) = editor.open(path, helix_view::editor::Action::Replace) { editor.set_error(format!("Unable to jump to stack frame: {}", e)); return; } let (view, doc) = current!(editor); let text_end = doc.text().len_chars().saturating_sub(1); let start = dap_pos_to_pos(doc.text(), frame.line, frame.column).unwrap_or(0); let end = frame .end_line .and_then(|end_line| dap_pos_to_pos(doc.text(), end_line, frame.end_column.unwrap_or(0))) .unwrap_or(start); let selection = Selection::single(start.min(text_end), end.min(text_end)); doc.set_selection(view.id, selection); align_view(doc, view, Align::Center); } fn thread_picker( cx: &mut Context, callback_fn: impl Fn(&mut Editor, &dap::Thread) + Send + 'static, ) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; let future = debugger.threads(); dap_callback( cx.jobs, future, move |editor: &mut Editor, compositor: &mut Compositor, response: dap::requests::ThreadsResponse| { let threads = response.threads; if threads.len() == 1 { callback_fn(editor, &threads[0]); return; } let debugger = match &mut editor.debugger { Some(debugger) => debugger, None => return, }; let thread_states = debugger.thread_states.clone(); let picker = FilePicker::new( threads, move |thread| { format!( "{} ({})", thread.name, thread_states .get(&thread.id) .map(|state| state.as_str()) .unwrap_or("unknown") ) .into() }, move |cx, thread, _action| callback_fn(cx.editor, thread), move |editor, thread| { let frames = editor.debugger.as_ref()?.stack_frames.get(&thread.id)?; let frame = frames.get(0)?; let path = frame.source.as_ref()?.path.clone()?; let pos = Some(( frame.line.saturating_sub(1), frame.end_line.unwrap_or(frame.line).saturating_sub(1), )); Some((path, pos)) }, ); compositor.push(Box::new(picker)); }, ); } fn get_breakpoint_at_current_line(editor: &mut Editor) -> Option<(usize, Breakpoint)> { let (view, doc) = current!(editor); let text = doc.text().slice(..); let line = doc.selection(view.id).primary().cursor_line(text); let path = doc.path()?; editor.breakpoints.get(path).and_then(|breakpoints| { let i = breakpoints.iter().position(|b| b.line == line); i.map(|i| (i, breakpoints[i].clone())) }) } // -- DAP fn dap_callback( jobs: &mut Jobs, call: impl Future> + 'static + Send, callback: F, ) where T: for<'de> serde::Deserialize<'de> + Send + 'static, F: FnOnce(&mut Editor, &mut Compositor, T) + Send + 'static, { let callback = Box::pin(async move { let json = call.await?; let response = serde_json::from_value(json)?; let call: Callback = Box::new(move |editor: &mut Editor, compositor: &mut Compositor| { callback(editor, compositor, response) }); Ok(call) }); jobs.callback(callback); } pub fn dap_start_impl( cx: &mut compositor::Context, name: Option<&str>, socket: Option, params: Option>, ) -> Result<(), anyhow::Error> { let doc = doc!(cx.editor); let config = doc .language_config() .and_then(|config| config.debugger.as_ref()) .ok_or(anyhow!("No debug adapter available for language"))?; let result = match socket { Some(socket) => block_on(Client::tcp(socket, 0)), None => block_on(Client::process( &config.transport, &config.command, config.args.iter().map(|arg| arg.as_str()).collect(), config.port_arg.as_deref(), 0, )), }; let (mut debugger, events) = match result { Ok(r) => r, Err(e) => bail!("Failed to start debug session: {}", e), }; let request = debugger.initialize(config.name.clone()); if let Err(e) = block_on(request) { bail!("Failed to initialize debug adapter: {}", e); } debugger.quirks = config.quirks.clone(); // TODO: avoid refetching all of this... pass a config in let template = match name { Some(name) => config.templates.iter().find(|t| t.name == name), None => config.templates.get(0), } .ok_or(anyhow!("No debug config with given name"))?; let mut args: HashMap<&str, Value> = HashMap::new(); if let Some(params) = params { for (k, t) in &template.args { let mut value = t.clone(); for (i, x) in params.iter().enumerate() { let mut param = x.to_string(); if let Some(DebugConfigCompletion::Advanced(cfg)) = template.completion.get(i) { if matches!(cfg.completion.as_deref(), Some("filename" | "directory")) { param = std::fs::canonicalize(x) .ok() .and_then(|pb| pb.into_os_string().into_string().ok()) .unwrap_or_else(|| x.to_string()); } } // For param #0 replace {0} in args let pattern = format!("{{{}}}", i); value = match value { // TODO: just use toml::Value -> json::Value DebugArgumentValue::String(v) => { DebugArgumentValue::String(v.replace(&pattern, ¶m)) } DebugArgumentValue::Array(arr) => DebugArgumentValue::Array( arr.iter().map(|v| v.replace(&pattern, ¶m)).collect(), ), DebugArgumentValue::Boolean(_) => value, }; } match value { DebugArgumentValue::String(string) => { if let Ok(integer) = string.parse::() { args.insert(k, to_value(integer).unwrap()); } else { args.insert(k, to_value(string).unwrap()); } } DebugArgumentValue::Array(arr) => { args.insert(k, to_value(arr).unwrap()); } DebugArgumentValue::Boolean(bool) => { args.insert(k, to_value(bool).unwrap()); } } } } let args = to_value(args).unwrap(); let callback = |_editor: &mut Editor, _compositor: &mut Compositor, _response: Value| { // if let Err(e) = result { // editor.set_error(format!("Failed {} target: {}", template.request, e)); // } }; match &template.request[..] { "launch" => { let call = debugger.launch(args); dap_callback(cx.jobs, call, callback); } "attach" => { let call = debugger.attach(args); dap_callback(cx.jobs, call, callback); } request => bail!("Unsupported request '{}'", request), }; // TODO: either await "initialized" or buffer commands until event is received cx.editor.debugger = Some(debugger); let stream = UnboundedReceiverStream::new(events); cx.editor.debugger_events.push(stream); Ok(()) } pub fn dap_launch(cx: &mut Context) { if cx.editor.debugger.is_some() { cx.editor .set_error("Debugger is already running".to_string()); return; } let doc = doc!(cx.editor); let config = match doc .language_config() .and_then(|config| config.debugger.as_ref()) { Some(c) => c, None => { cx.editor .set_error("No debug adapter available for language".to_string()); return; } }; let templates = config.templates.clone(); cx.push_layer(Box::new(Picker::new( true, templates, |template| template.name.as_str().into(), |cx, template, _action| { let completions = template.completion.clone(); let name = template.name.clone(); let callback = Box::pin(async move { let call: Callback = Box::new(move |_editor: &mut Editor, compositor: &mut Compositor| { let prompt = debug_parameter_prompt(completions, name, Vec::new()); compositor.push(Box::new(prompt)); }); Ok(call) }); cx.jobs.callback(callback); }, ))); // TODO: wrap in popup with fixed size } fn debug_parameter_prompt( completions: Vec, config_name: String, mut params: Vec, ) -> Prompt { let completion = completions.get(params.len()).unwrap(); let field_type = if let DebugConfigCompletion::Advanced(cfg) = completion { cfg.completion.as_deref().unwrap_or("") } else { "" }; let name = match completion { DebugConfigCompletion::Advanced(cfg) => cfg.name.as_deref().unwrap_or(field_type), DebugConfigCompletion::Named(name) => name.as_str(), }; let default_val = match completion { DebugConfigCompletion::Advanced(cfg) => cfg.default.as_deref().unwrap_or(""), _ => "", } .to_owned(); let completer = match field_type { "filename" => ui::completers::filename, "directory" => ui::completers::directory, _ => |_input: &str| Vec::new(), }; Prompt::new( format!("{}: ", name).into(), None, completer, move |cx, input: &str, event: PromptEvent| { if event != PromptEvent::Validate { return; } let mut value = input.to_owned(); if value.is_empty() { value = default_val.clone(); } params.push(value); if params.len() < completions.len() { let completions = completions.clone(); let config_name = config_name.clone(); let params = params.clone(); let callback = Box::pin(async move { let call: Callback = Box::new(move |_editor: &mut Editor, compositor: &mut Compositor| { let prompt = debug_parameter_prompt(completions, config_name, params); compositor.push(Box::new(prompt)); }); Ok(call) }); cx.jobs.callback(callback); } else { if let Err(e) = dap_start_impl( cx, Some(&config_name), None, Some(params.iter().map(|x| x.as_str()).collect()), ) { cx.editor.set_error(e.to_string()); } } }, ) } pub fn dap_toggle_breakpoint(cx: &mut Context) { let (view, doc) = current!(cx.editor); let path = match doc.path() { Some(path) => path.clone(), None => { cx.editor .set_error("Can't set breakpoint: document has no path".to_string()); return; } }; let text = doc.text().slice(..); let line = doc.selection(view.id).primary().cursor_line(text); dap_toggle_breakpoint_impl(cx, path, line); } pub fn breakpoints_changed( debugger: &mut dap::Client, path: PathBuf, breakpoints: &mut [Breakpoint], ) -> Result<(), anyhow::Error> { // TODO: handle capabilities correctly again, by filterin breakpoints when emitting // if breakpoint.condition.is_some() // && !debugger // .caps // .as_ref() // .unwrap() // .supports_conditional_breakpoints // .unwrap_or_default() // { // bail!( // "Can't edit breakpoint: debugger does not support conditional breakpoints" // ) // } // if breakpoint.log_message.is_some() // && !debugger // .caps // .as_ref() // .unwrap() // .supports_log_points // .unwrap_or_default() // { // bail!("Can't edit breakpoint: debugger does not support logpoints") // } let source_breakpoints = breakpoints .iter() .map(|breakpoint| helix_dap::SourceBreakpoint { line: breakpoint.line + 1, // convert from 0-indexing to 1-indexing (TODO: could set debugger to 0-indexing on init) ..Default::default() }) .collect::>(); let request = debugger.set_breakpoints(path, source_breakpoints); match block_on(request) { Ok(Some(dap_breakpoints)) => { for (breakpoint, dap_breakpoint) in breakpoints.iter_mut().zip(dap_breakpoints) { breakpoint.id = dap_breakpoint.id; breakpoint.verified = dap_breakpoint.verified; breakpoint.message = dap_breakpoint.message; // TODO: handle breakpoint.message // TODO: verify source matches breakpoint.line = dap_breakpoint.line.unwrap_or(0).saturating_sub(1); // convert to 0-indexing // TODO: no unwrap breakpoint.column = dap_breakpoint.column; // TODO: verify end_linef/col instruction reference, offset } } Err(e) => anyhow::bail!("Failed to set breakpoints: {}", e), _ => {} }; Ok(()) } pub fn dap_toggle_breakpoint_impl(cx: &mut Context, path: PathBuf, line: usize) { // TODO: need to map breakpoints over edits and update them? // we shouldn't really allow editing while debug is running though let breakpoints = cx.editor.breakpoints.entry(path.clone()).or_default(); // TODO: always keep breakpoints sorted and use binary search to determine insertion point if let Some(pos) = breakpoints .iter() .position(|breakpoint| breakpoint.line == line) { breakpoints.remove(pos); } else { breakpoints.push(Breakpoint { line, ..Default::default() }); } let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Err(e) = breakpoints_changed(debugger, path, breakpoints) { cx.editor .set_error(format!("Failed to set breakpoints: {}", e)); } } pub fn dap_continue(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Some(thread_id) = debugger.thread_id { let request = debugger.continue_thread(thread_id); if let Err(e) = block_on(request) { cx.editor.set_error(format!("Failed to continue: {}", e)); return; } resume_application(debugger); } else { cx.editor .set_error("Currently active thread is not stopped. Switch the thread.".into()); } } pub fn dap_pause(cx: &mut Context) { thread_picker(cx, |editor, thread| { let debugger = match &mut editor.debugger { Some(debugger) => debugger, None => return, }; let request = debugger.pause(thread.id); // NOTE: we don't need to set active thread id here because DAP will emit a "stopped" event if let Err(e) = block_on(request) { editor.set_error(format!("Failed to pause: {}", e)); } }) } pub fn dap_step_in(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Some(thread_id) = debugger.thread_id { let request = debugger.step_in(thread_id); if let Err(e) = block_on(request) { cx.editor.set_error(format!("Failed to continue: {}", e)); return; } resume_application(debugger); } else { cx.editor .set_error("Currently active thread is not stopped. Switch the thread.".into()); } } pub fn dap_step_out(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Some(thread_id) = debugger.thread_id { let request = debugger.step_out(thread_id); if let Err(e) = block_on(request) { cx.editor.set_error(format!("Failed to continue: {}", e)); return; } resume_application(debugger); } else { cx.editor .set_error("Currently active thread is not stopped. Switch the thread.".into()); } } pub fn dap_next(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Some(thread_id) = debugger.thread_id { let request = debugger.next(thread_id); if let Err(e) = block_on(request) { cx.editor.set_error(format!("Failed to continue: {}", e)); return; } resume_application(debugger); } else { cx.editor .set_error("Currently active thread is not stopped. Switch the thread.".into()); } } pub fn dap_variables(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if debugger.thread_id.is_none() { cx.editor .set_status("Cannot access variables while target is running".to_owned()); return; } let (frame, thread_id) = match (debugger.active_frame, debugger.thread_id) { (Some(frame), Some(thread_id)) => (frame, thread_id), _ => { cx.editor .set_status("Cannot find current stack frame to access variables".to_owned()); return; } }; let frame_id = debugger.stack_frames[&thread_id][frame].id; let scopes = match block_on(debugger.scopes(frame_id)) { Ok(s) => s, Err(e) => { cx.editor.set_error(format!("Failed to get scopes: {}", e)); return; } }; let mut variables = Vec::new(); for scope in scopes.iter() { let response = block_on(debugger.variables(scope.variables_reference)); if let Ok(vars) = response { variables.reserve(vars.len()); for var in vars { let prefix = match var.ty { Some(data_type) => format!("{} ", data_type), None => "".to_owned(), }; variables.push(format!("{}{} = {}", prefix, var.name, var.value)); } } } let contents = Text::new(variables.join("\n")); let popup = Popup::new(contents); cx.push_layer(Box::new(popup)); } pub fn dap_terminate(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; let request = debugger.disconnect(); if let Err(e) = block_on(request) { cx.editor.set_error(format!("Failed to disconnect: {}", e)); return; } cx.editor.debugger = None; } pub fn dap_enable_exceptions(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; let filters = match &debugger.capabilities().exception_breakpoint_filters { Some(filters) => filters.iter().map(|f| f.filter.clone()).collect(), None => return, }; if let Err(e) = block_on(debugger.set_exception_breakpoints(filters)) { cx.editor .set_error(format!("Failed to set up exception breakpoints: {}", e)); } } pub fn dap_disable_exceptions(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Err(e) = block_on(debugger.set_exception_breakpoints(vec![])) { cx.editor .set_error(format!("Failed to set up exception breakpoints: {}", e)); } } // TODO: both edit condition and edit log need to be stable: we might get new breakpoints from the debugger which can change offsets pub fn dap_edit_condition(cx: &mut Context) { if let Some((pos, breakpoint)) = get_breakpoint_at_current_line(cx.editor) { let path = match doc!(cx.editor).path() { Some(path) => path.clone(), None => return, }; let callback = Box::pin(async move { let call: Callback = Box::new(move |_editor: &mut Editor, compositor: &mut Compositor| { let mut prompt = Prompt::new( "condition:".into(), None, |_input: &str| Vec::new(), move |cx, input: &str, event: PromptEvent| { if event != PromptEvent::Validate { return; } let breakpoints = &mut cx.editor.breakpoints.get_mut(&path).unwrap(); breakpoints[pos].condition = match input { "" => None, input => Some(input.to_owned()), }; let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Err(e) = breakpoints_changed(debugger, path.clone(), breakpoints) { cx.editor .set_error(format!("Failed to set breakpoints: {}", e)); } }, ); if let Some(condition) = breakpoint.condition { prompt.insert_str(&condition) } compositor.push(Box::new(prompt)); }); Ok(call) }); cx.jobs.callback(callback); } } pub fn dap_edit_log(cx: &mut Context) { if let Some((pos, breakpoint)) = get_breakpoint_at_current_line(cx.editor) { let path = match doc!(cx.editor).path() { Some(path) => path.clone(), None => return, }; let callback = Box::pin(async move { let call: Callback = Box::new(move |_editor: &mut Editor, compositor: &mut Compositor| { let mut prompt = Prompt::new( "log-message:".into(), None, |_input: &str| Vec::new(), move |cx, input: &str, event: PromptEvent| { if event != PromptEvent::Validate { return; } let breakpoints = &mut cx.editor.breakpoints.get_mut(&path).unwrap(); breakpoints[pos].log_message = match input { "" => None, input => Some(input.to_owned()), }; let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; if let Err(e) = breakpoints_changed(debugger, path.clone(), breakpoints) { cx.editor .set_error(format!("Failed to set breakpoints: {}", e)); } }, ); if let Some(log_message) = breakpoint.log_message { prompt.insert_str(&log_message); } compositor.push(Box::new(prompt)); }); Ok(call) }); cx.jobs.callback(callback); } } pub fn dap_switch_thread(cx: &mut Context) { thread_picker(cx, |editor, thread| { block_on(select_thread_id(editor, thread.id, true)); }) } pub fn dap_switch_stack_frame(cx: &mut Context) { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; let thread_id = match debugger.thread_id { Some(thread_id) => thread_id, None => { cx.editor .set_error("No thread is currently active".to_owned()); return; } }; let frames = debugger.stack_frames[&thread_id].clone(); let picker = FilePicker::new( frames, |frame| frame.name.clone().into(), // TODO: include thread_states in the label move |cx, frame, _action| { let debugger = match &mut cx.editor.debugger { Some(debugger) => debugger, None => return, }; // TODO: this should be simpler to find let pos = debugger.stack_frames[&thread_id] .iter() .position(|f| f.id == frame.id); debugger.active_frame = pos; let frame = debugger.stack_frames[&thread_id] .get(pos.unwrap_or(0)) .cloned(); if let Some(frame) = &frame { jump_to_stack_frame(cx.editor, frame); } }, move |_editor, frame| { frame .source .as_ref() .and_then(|source| source.path.clone()) .map(|path| { ( path, Some(( frame.line.saturating_sub(1), frame.end_line.unwrap_or(frame.line).saturating_sub(1), )), ) }) }, ); cx.push_layer(Box::new(picker)) }