use ::util::rel_path::RelPath; use ::util::{RangeExt, ResultExt as _}; use anyhow::{Context as _, Result}; use cloud_llm_client::predict_edits_v3::DeclarationScoreComponents; use edit_prediction_context::{ Declaration, DeclarationStyle, EditPredictionContext, Identifier, Imports, Reference, ReferenceRegion, SyntaxIndex, SyntaxIndexState, references_in_range, }; use futures::StreamExt as _; use futures::channel::mpsc; use gpui::Entity; use gpui::{AppContext, AsyncApp}; use language::OffsetRangeExt; use language::{BufferSnapshot, Point}; use ordered_float::OrderedFloat; use project::{Project, ProjectEntryId, ProjectPath, Worktree}; use serde::{Deserialize, Serialize}; use std::{ cmp::Reverse, collections::{HashMap, HashSet}, fs::File, hash::{Hash, Hasher}, io::{BufRead, BufReader, BufWriter, Write as _}, ops::Range, path::{Path, PathBuf}, sync::{ Arc, atomic::{self, AtomicUsize}, }, time::Duration, }; use util::paths::PathStyle; use crate::headless::ZetaCliAppState; use crate::source_location::SourceLocation; use crate::util::{open_buffer, open_buffer_with_language_server}; pub async fn retrieval_stats( worktree: PathBuf, app_state: Arc, only_extension: Option, file_limit: Option, skip_files: Option, options: zeta2::ZetaOptions, cx: &mut AsyncApp, ) -> Result { let options = Arc::new(options); let worktree_path = worktree.canonicalize()?; let project = cx.update(|cx| { Project::local( app_state.client.clone(), app_state.node_runtime.clone(), app_state.user_store.clone(), app_state.languages.clone(), app_state.fs.clone(), None, cx, ) })?; let worktree = project .update(cx, |project, cx| { project.create_worktree(&worktree_path, true, cx) })? .await?; // wait for worktree scan so that wait_for_initial_file_indexing waits for the whole worktree. worktree .read_with(cx, |worktree, _cx| { worktree.as_local().unwrap().scan_complete() })? .await; let index = cx.new(|cx| SyntaxIndex::new(&project, options.file_indexing_parallelism, cx))?; index .read_with(cx, |index, cx| index.wait_for_initial_file_indexing(cx))? .await?; let indexed_files = index .read_with(cx, |index, cx| index.indexed_file_paths(cx))? .await; let mut filtered_files = indexed_files .into_iter() .filter(|project_path| { let file_extension = project_path.path.extension(); if let Some(only_extension) = only_extension.as_ref() { file_extension.is_some_and(|extension| extension == only_extension) } else { file_extension .is_some_and(|extension| !["md", "json", "sh", "diff"].contains(&extension)) } }) .collect::>(); filtered_files.sort_by(|a, b| a.path.cmp(&b.path)); let index_state = index.read_with(cx, |index, _cx| index.state().clone())?; cx.update(|_| { drop(index); })?; let index_state = Arc::new( Arc::into_inner(index_state) .context("Index state had more than 1 reference")? .into_inner(), ); struct FileSnapshot { project_entry_id: ProjectEntryId, snapshot: BufferSnapshot, hash: u64, parent_abs_path: Arc, } let files: Vec = futures::future::try_join_all({ filtered_files .iter() .map(|file| { let buffer_task = open_buffer(project.clone(), worktree.clone(), file.path.clone(), cx); cx.spawn(async move |cx| { let buffer = buffer_task.await?; let (project_entry_id, parent_abs_path, snapshot) = buffer.read_with(cx, |buffer, cx| { let file = project::File::from_dyn(buffer.file()).unwrap(); let project_entry_id = file.project_entry_id().unwrap(); let mut parent_abs_path = file.worktree.read(cx).absolutize(&file.path); if !parent_abs_path.pop() { panic!("Invalid worktree path"); } (project_entry_id, parent_abs_path, buffer.snapshot()) })?; anyhow::Ok( cx.background_spawn(async move { let mut hasher = collections::FxHasher::default(); snapshot.text().hash(&mut hasher); FileSnapshot { project_entry_id, snapshot, hash: hasher.finish(), parent_abs_path: parent_abs_path.into(), } }) .await, ) }) }) .collect::>() }) .await?; let mut file_snapshots = HashMap::default(); let mut hasher = collections::FxHasher::default(); for FileSnapshot { project_entry_id, snapshot, hash, .. } in &files { file_snapshots.insert(*project_entry_id, snapshot.clone()); hash.hash(&mut hasher); } let files_hash = hasher.finish(); let file_snapshots = Arc::new(file_snapshots); let lsp_definitions_path = std::env::current_dir()?.join(format!( "target/zeta2-lsp-definitions-{:x}.jsonl", files_hash )); let mut lsp_definitions = HashMap::default(); let mut lsp_files = 0; if std::fs::exists(&lsp_definitions_path)? { log::info!( "Using cached LSP definitions from {}", lsp_definitions_path.display() ); let file = File::options() .read(true) .write(true) .open(&lsp_definitions_path)?; let lines = BufReader::new(&file).lines(); let mut valid_len: usize = 0; for (line, expected_file) in lines.zip(files.iter()) { let line = line?; let FileLspDefinitions { path, references } = match serde_json::from_str(&line) { Ok(ok) => ok, Err(_) => { log::error!("Found invalid cache line. Truncating to #{lsp_files}.",); file.set_len(valid_len as u64)?; break; } }; let expected_path = expected_file.snapshot.file().unwrap().path().as_unix_str(); if expected_path != path.as_ref() { log::error!( "Expected file #{} to be {expected_path}, but found {path}. Truncating to #{lsp_files}.", lsp_files + 1 ); file.set_len(valid_len as u64)?; break; } for (point, ranges) in references { let Ok(path) = RelPath::new(Path::new(path.as_ref()), PathStyle::Posix) else { log::warn!("Invalid path: {}", path); continue; }; lsp_definitions.insert( SourceLocation { path: path.into_arc(), point: point.into(), }, ranges, ); } lsp_files += 1; valid_len += line.len() + 1 } } if lsp_files < files.len() { if lsp_files == 0 { log::warn!( "No LSP definitions found, populating {}", lsp_definitions_path.display() ); } else { log::warn!("{} files missing from LSP cache", files.len() - lsp_files); } gather_lsp_definitions( &lsp_definitions_path, lsp_files, &filtered_files, &worktree, &project, &mut lsp_definitions, cx, ) .await?; } let files_len = files.len().min(file_limit.unwrap_or(usize::MAX)); let done_count = Arc::new(AtomicUsize::new(0)); let (output_tx, mut output_rx) = mpsc::unbounded::(); let mut output = std::fs::File::create("target/zeta-retrieval-stats.txt")?; let tasks = files .into_iter() .skip(skip_files.unwrap_or(0)) .take(file_limit.unwrap_or(usize::MAX)) .map(|project_file| { let index_state = index_state.clone(); let lsp_definitions = lsp_definitions.clone(); let options = options.clone(); let output_tx = output_tx.clone(); let done_count = done_count.clone(); let file_snapshots = file_snapshots.clone(); cx.background_spawn(async move { let snapshot = project_file.snapshot; let full_range = 0..snapshot.len(); let references = references_in_range( full_range, &snapshot.text(), ReferenceRegion::Nearby, &snapshot, ); println!("references: {}", references.len(),); let imports = if options.context.use_imports { Imports::gather(&snapshot, Some(&project_file.parent_abs_path)) } else { Imports::default() }; let path = snapshot.file().unwrap().path(); for reference in references { let query_point = snapshot.offset_to_point(reference.range.start); let source_location = SourceLocation { path: path.clone(), point: query_point, }; let lsp_definitions = lsp_definitions .get(&source_location) .cloned() .unwrap_or_else(|| { log::warn!( "No definitions found for source location: {:?}", source_location ); Vec::new() }); let retrieve_result = retrieve_definitions( &reference, &imports, query_point, &snapshot, &index_state, &file_snapshots, &options, ) .await?; // TODO: LSP returns things like locals, this filters out some of those, but potentially // hides some retrieval issues. if retrieve_result.definitions.is_empty() { continue; } let mut best_match = None; let mut has_external_definition = false; let mut in_excerpt = false; for (index, retrieved_definition) in retrieve_result.definitions.iter().enumerate() { for lsp_definition in &lsp_definitions { let SourceRange { path, point_range, offset_range, } = lsp_definition; let lsp_point_range = SerializablePoint::into_language_point_range(point_range.clone()); has_external_definition = has_external_definition || path.is_absolute() || path .components() .any(|component| component.as_os_str() == "node_modules"); let is_match = path.as_path() == retrieved_definition.path.as_std_path() && retrieved_definition .range .contains_inclusive(&lsp_point_range); if is_match { if best_match.is_none() { best_match = Some(index); } } in_excerpt = in_excerpt || retrieve_result.excerpt_range.as_ref().is_some_and( |excerpt_range| excerpt_range.contains_inclusive(&offset_range), ); } } let outcome = if let Some(best_match) = best_match { RetrievalOutcome::Match { best_match } } else if has_external_definition { RetrievalOutcome::NoMatchDueToExternalLspDefinitions } else if in_excerpt { RetrievalOutcome::ProbablyLocal } else { RetrievalOutcome::NoMatch }; let result = RetrievalStatsResult { outcome, path: path.clone(), identifier: reference.identifier, point: query_point, lsp_definitions, retrieved_definitions: retrieve_result.definitions, }; output_tx.unbounded_send(result).ok(); } println!( "{:02}/{:02} done", done_count.fetch_add(1, atomic::Ordering::Relaxed) + 1, files_len, ); anyhow::Ok(()) }) }) .collect::>(); drop(output_tx); let results_task = cx.background_spawn(async move { let mut results = Vec::new(); while let Some(result) = output_rx.next().await { output .write_all(format!("{:#?}\n", result).as_bytes()) .log_err(); results.push(result) } results }); futures::future::try_join_all(tasks).await?; println!("Tasks completed"); let results = results_task.await; println!("Results received"); let mut references_count = 0; let mut included_count = 0; let mut both_absent_count = 0; let mut retrieved_count = 0; let mut top_match_count = 0; let mut non_top_match_count = 0; let mut ranking_involved_top_match_count = 0; let mut no_match_count = 0; let mut no_match_none_retrieved = 0; let mut no_match_wrong_retrieval = 0; let mut expected_no_match_count = 0; let mut in_excerpt_count = 0; let mut external_definition_count = 0; for result in results { references_count += 1; match &result.outcome { RetrievalOutcome::Match { best_match } => { included_count += 1; retrieved_count += 1; let multiple = result.retrieved_definitions.len() > 1; if *best_match == 0 { top_match_count += 1; if multiple { ranking_involved_top_match_count += 1; } } else { non_top_match_count += 1; } } RetrievalOutcome::NoMatch => { if result.lsp_definitions.is_empty() { included_count += 1; both_absent_count += 1; } else { no_match_count += 1; if result.retrieved_definitions.is_empty() { no_match_none_retrieved += 1; } else { no_match_wrong_retrieval += 1; } } } RetrievalOutcome::NoMatchDueToExternalLspDefinitions => { expected_no_match_count += 1; external_definition_count += 1; } RetrievalOutcome::ProbablyLocal => { included_count += 1; in_excerpt_count += 1; } } } fn count_and_percentage(part: usize, total: usize) -> String { format!("{} ({:.2}%)", part, (part as f64 / total as f64) * 100.0) } println!(""); println!("╮ references: {}", references_count); println!( "├─╮ included: {}", count_and_percentage(included_count, references_count), ); println!( "│ ├─╮ retrieved: {}", count_and_percentage(retrieved_count, references_count) ); println!( "│ │ ├─╮ top match : {}", count_and_percentage(top_match_count, retrieved_count) ); println!( "│ │ │ ╰─╴ involving ranking: {}", count_and_percentage(ranking_involved_top_match_count, top_match_count) ); println!( "│ │ ╰─╴ non-top match: {}", count_and_percentage(non_top_match_count, retrieved_count) ); println!( "│ ├─╴ both absent: {}", count_and_percentage(both_absent_count, included_count) ); println!( "│ ╰─╴ in excerpt: {}", count_and_percentage(in_excerpt_count, included_count) ); println!( "├─╮ no match: {}", count_and_percentage(no_match_count, references_count) ); println!( "│ ├─╴ none retrieved: {}", count_and_percentage(no_match_none_retrieved, no_match_count) ); println!( "│ ╰─╴ wrong retrieval: {}", count_and_percentage(no_match_wrong_retrieval, no_match_count) ); println!( "╰─╮ expected no match: {}", count_and_percentage(expected_no_match_count, references_count) ); println!( " ╰─╴ external definition: {}", count_and_percentage(external_definition_count, expected_no_match_count) ); println!(""); println!("LSP definition cache at {}", lsp_definitions_path.display()); Ok("".to_string()) } struct RetrieveResult { definitions: Vec, excerpt_range: Option>, } async fn retrieve_definitions( reference: &Reference, imports: &Imports, query_point: Point, snapshot: &BufferSnapshot, index: &Arc, file_snapshots: &Arc>, options: &Arc, ) -> Result { let mut single_reference_map = HashMap::default(); single_reference_map.insert(reference.identifier.clone(), vec![reference.clone()]); let edit_prediction_context = EditPredictionContext::gather_context_with_references_fn( query_point, snapshot, imports, &options.context, Some(&index), |_, _, _| single_reference_map, ); let Some(edit_prediction_context) = edit_prediction_context else { return Ok(RetrieveResult { definitions: Vec::new(), excerpt_range: None, }); }; let mut retrieved_definitions = Vec::new(); for scored_declaration in edit_prediction_context.declarations { match &scored_declaration.declaration { Declaration::File { project_entry_id, declaration, .. } => { let Some(snapshot) = file_snapshots.get(&project_entry_id) else { log::error!("bug: file project entry not found"); continue; }; let path = snapshot.file().unwrap().path().clone(); retrieved_definitions.push(RetrievedDefinition { path, range: snapshot.offset_to_point(declaration.item_range.start) ..snapshot.offset_to_point(declaration.item_range.end), score: scored_declaration.score(DeclarationStyle::Declaration), retrieval_score: scored_declaration.retrieval_score(), components: scored_declaration.components, }); } Declaration::Buffer { project_entry_id, rope, declaration, .. } => { let Some(snapshot) = file_snapshots.get(&project_entry_id) else { // This case happens when dependency buffers have been opened by // go-to-definition, resulting in single-file worktrees. continue; }; let path = snapshot.file().unwrap().path().clone(); retrieved_definitions.push(RetrievedDefinition { path, range: rope.offset_to_point(declaration.item_range.start) ..rope.offset_to_point(declaration.item_range.end), score: scored_declaration.score(DeclarationStyle::Declaration), retrieval_score: scored_declaration.retrieval_score(), components: scored_declaration.components, }); } } } retrieved_definitions.sort_by_key(|definition| Reverse(OrderedFloat(definition.score))); Ok(RetrieveResult { definitions: retrieved_definitions, excerpt_range: Some(edit_prediction_context.excerpt.range), }) } async fn gather_lsp_definitions( lsp_definitions_path: &Path, start_index: usize, files: &[ProjectPath], worktree: &Entity, project: &Entity, definitions: &mut HashMap>, cx: &mut AsyncApp, ) -> Result<()> { let worktree_id = worktree.read_with(cx, |worktree, _cx| worktree.id())?; let lsp_store = project.read_with(cx, |project, _cx| project.lsp_store())?; cx.subscribe(&lsp_store, { move |_, event, _| { if let project::LspStoreEvent::LanguageServerUpdate { message: client::proto::update_language_server::Variant::WorkProgress( client::proto::LspWorkProgress { message: Some(message), .. }, ), .. } = event { println!("⟲ {message}") } } })? .detach(); let (cache_line_tx, mut cache_line_rx) = mpsc::unbounded::(); let cache_file = File::options() .append(true) .create(true) .open(lsp_definitions_path) .unwrap(); let cache_task = cx.background_spawn(async move { let mut writer = BufWriter::new(cache_file); while let Some(line) = cache_line_rx.next().await { serde_json::to_writer(&mut writer, &line).unwrap(); writer.write_all(&[b'\n']).unwrap(); } writer.flush().unwrap(); }); let mut error_count = 0; let mut lsp_open_handles = Vec::new(); let mut ready_languages = HashSet::default(); for (file_index, project_path) in files[start_index..].iter().enumerate() { println!( "Processing file {} of {}: {}", start_index + file_index + 1, files.len(), project_path.path.display(PathStyle::Posix) ); let Some((lsp_open_handle, language_server_id, buffer)) = open_buffer_with_language_server( project.clone(), worktree.clone(), project_path.path.clone(), &mut ready_languages, cx, ) .await .log_err() else { continue; }; lsp_open_handles.push(lsp_open_handle); let snapshot = buffer.read_with(cx, |buffer, _cx| buffer.snapshot())?; let full_range = 0..snapshot.len(); let references = references_in_range( full_range, &snapshot.text(), ReferenceRegion::Nearby, &snapshot, ); loop { let is_ready = lsp_store .read_with(cx, |lsp_store, _cx| { lsp_store .language_server_statuses .get(&language_server_id) .is_some_and(|status| status.pending_work.is_empty()) }) .unwrap(); if is_ready { break; } cx.background_executor() .timer(Duration::from_millis(10)) .await; } let mut cache_line_references = Vec::with_capacity(references.len()); for reference in references { // TODO: Rename declaration to definition in edit_prediction_context? let lsp_result = project .update(cx, |project, cx| { project.definitions(&buffer, reference.range.start, cx) })? .await; match lsp_result { Ok(lsp_definitions) => { let mut targets = Vec::new(); for target in lsp_definitions.unwrap_or_default() { let buffer = target.target.buffer; let anchor_range = target.target.range; buffer.read_with(cx, |buffer, cx| { let Some(file) = project::File::from_dyn(buffer.file()) else { return; }; let file_worktree = file.worktree.read(cx); let file_worktree_id = file_worktree.id(); // Relative paths for worktree files, absolute for all others let path = if worktree_id != file_worktree_id { file.worktree.read(cx).absolutize(&file.path) } else { file.path.as_std_path().to_path_buf() }; let offset_range = anchor_range.to_offset(&buffer); let point_range = SerializablePoint::from_language_point_range( offset_range.to_point(&buffer), ); targets.push(SourceRange { path, offset_range, point_range, }); })?; } let point = snapshot.offset_to_point(reference.range.start); cache_line_references.push((point.into(), targets.clone())); definitions.insert( SourceLocation { path: project_path.path.clone(), point, }, targets, ); } Err(err) => { log::error!("Language server error: {err}"); error_count += 1; } } } cache_line_tx .unbounded_send(FileLspDefinitions { path: project_path.path.as_unix_str().into(), references: cache_line_references, }) .log_err(); } drop(cache_line_tx); if error_count > 0 { log::error!("Encountered {} language server errors", error_count); } cache_task.await; Ok(()) } #[derive(Serialize, Deserialize)] struct FileLspDefinitions { path: Arc, references: Vec<(SerializablePoint, Vec)>, } #[derive(Debug, Clone, Serialize, Deserialize)] struct SourceRange { path: PathBuf, point_range: Range, offset_range: Range, } /// Serializes to 1-based row and column indices. #[derive(Debug, Clone, Serialize, Deserialize)] pub struct SerializablePoint { pub row: u32, pub column: u32, } impl SerializablePoint { pub fn into_language_point_range(range: Range) -> Range { range.start.into()..range.end.into() } pub fn from_language_point_range(range: Range) -> Range { range.start.into()..range.end.into() } } impl From for SerializablePoint { fn from(point: Point) -> Self { SerializablePoint { row: point.row + 1, column: point.column + 1, } } } impl From for Point { fn from(serializable: SerializablePoint) -> Self { Point { row: serializable.row.saturating_sub(1), column: serializable.column.saturating_sub(1), } } } #[derive(Debug)] struct RetrievalStatsResult { outcome: RetrievalOutcome, #[allow(dead_code)] path: Arc, #[allow(dead_code)] identifier: Identifier, #[allow(dead_code)] point: Point, #[allow(dead_code)] lsp_definitions: Vec, retrieved_definitions: Vec, } #[derive(Debug)] enum RetrievalOutcome { Match { /// Lowest index within retrieved_definitions that matches an LSP definition. best_match: usize, }, ProbablyLocal, NoMatch, NoMatchDueToExternalLspDefinitions, } #[derive(Debug)] struct RetrievedDefinition { path: Arc, range: Range, score: f32, #[allow(dead_code)] retrieval_score: f32, #[allow(dead_code)] components: DeclarationScoreComponents, }