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fallow_core/
lib.rs

1pub mod analyze;
2pub mod cache;
3pub mod cross_reference;
4pub mod discover;
5pub mod duplicates;
6pub mod errors;
7pub mod extract;
8pub mod plugins;
9pub mod progress;
10pub mod results;
11pub mod scripts;
12pub mod suppress;
13pub mod trace;
14
15// Re-export from fallow-graph for backwards compatibility
16pub use fallow_graph::graph;
17pub use fallow_graph::project;
18pub use fallow_graph::resolve;
19
20use std::path::Path;
21use std::time::Instant;
22
23use errors::FallowError;
24use fallow_config::{PackageJson, ResolvedConfig, discover_workspaces};
25use results::AnalysisResults;
26use trace::PipelineTimings;
27
28/// Result of the full analysis pipeline, including optional performance timings.
29pub struct AnalysisOutput {
30    pub results: AnalysisResults,
31    pub timings: Option<PipelineTimings>,
32    pub graph: Option<graph::ModuleGraph>,
33}
34
35/// Update cache: write freshly parsed modules and refresh stale mtime/size entries.
36fn update_cache(
37    store: &mut cache::CacheStore,
38    modules: &[extract::ModuleInfo],
39    files: &[discover::DiscoveredFile],
40) {
41    for module in modules {
42        if let Some(file) = files.get(module.file_id.0 as usize) {
43            let (mt, sz) = file_mtime_and_size(&file.path);
44            // If content hash matches, just refresh mtime/size if stale (e.g. `touch`ed file)
45            if let Some(cached) = store.get_by_path_only(&file.path)
46                && cached.content_hash == module.content_hash
47            {
48                if cached.mtime_secs != mt || cached.file_size != sz {
49                    store.insert(&file.path, cache::module_to_cached(module, mt, sz));
50                }
51                continue;
52            }
53            store.insert(&file.path, cache::module_to_cached(module, mt, sz));
54        }
55    }
56    store.retain_paths(files);
57}
58
59/// Extract mtime (seconds since epoch) and file size from a path.
60fn file_mtime_and_size(path: &std::path::Path) -> (u64, u64) {
61    std::fs::metadata(path)
62        .map(|m| {
63            let mt = m
64                .modified()
65                .ok()
66                .and_then(|t| t.duration_since(std::time::SystemTime::UNIX_EPOCH).ok())
67                .map_or(0, |d| d.as_secs());
68            (mt, m.len())
69        })
70        .unwrap_or((0, 0))
71}
72
73/// Run the full analysis pipeline.
74pub fn analyze(config: &ResolvedConfig) -> Result<AnalysisResults, FallowError> {
75    let output = analyze_full(config, false, false)?;
76    Ok(output.results)
77}
78
79/// Run the full analysis pipeline with export usage collection (for LSP Code Lens).
80pub fn analyze_with_usages(config: &ResolvedConfig) -> Result<AnalysisResults, FallowError> {
81    let output = analyze_full(config, false, true)?;
82    Ok(output.results)
83}
84
85/// Run the full analysis pipeline with optional performance timings and graph retention.
86pub fn analyze_with_trace(config: &ResolvedConfig) -> Result<AnalysisOutput, FallowError> {
87    analyze_full(config, true, false)
88}
89
90#[expect(clippy::unnecessary_wraps)] // Result kept for future error handling
91fn analyze_full(
92    config: &ResolvedConfig,
93    retain: bool,
94    collect_usages: bool,
95) -> Result<AnalysisOutput, FallowError> {
96    let _span = tracing::info_span!("fallow_analyze").entered();
97    let pipeline_start = Instant::now();
98
99    // Warn if node_modules is missing — resolution will be severely degraded
100    if !config.root.join("node_modules").is_dir() {
101        tracing::warn!(
102            "node_modules directory not found. Run `npm install` / `pnpm install` first for accurate results."
103        );
104    }
105
106    // Discover workspaces if in a monorepo
107    let t = Instant::now();
108    let workspaces_vec = discover_workspaces(&config.root);
109    let workspaces_ms = t.elapsed().as_secs_f64() * 1000.0;
110    if !workspaces_vec.is_empty() {
111        tracing::info!(count = workspaces_vec.len(), "workspaces discovered");
112    }
113
114    // Stage 1: Discover all source files
115    let t = Instant::now();
116    let discovered_files = discover::discover_files(config);
117    let discover_ms = t.elapsed().as_secs_f64() * 1000.0;
118
119    // Build ProjectState: owns the file registry with stable FileIds and workspace metadata.
120    // This is the foundation for cross-workspace resolution and future incremental analysis.
121    let project = project::ProjectState::new(discovered_files, workspaces_vec);
122    let files = project.files();
123    let workspaces = project.workspaces();
124
125    // Stage 1.5: Run plugin system — parse config files, discover dynamic entries
126    let t = Instant::now();
127    let mut plugin_result = run_plugins(config, files, workspaces);
128    let plugins_ms = t.elapsed().as_secs_f64() * 1000.0;
129
130    // Stage 1.6: Analyze package.json scripts for binary usage and config file refs
131    let t = Instant::now();
132    let pkg_path = config.root.join("package.json");
133    if let Ok(pkg) = PackageJson::load(&pkg_path)
134        && let Some(ref pkg_scripts) = pkg.scripts
135    {
136        // In production mode, only analyze start/build scripts
137        let scripts_to_analyze = if config.production {
138            scripts::filter_production_scripts(pkg_scripts)
139        } else {
140            pkg_scripts.clone()
141        };
142        let script_analysis = scripts::analyze_scripts(&scripts_to_analyze, &config.root);
143        plugin_result.script_used_packages = script_analysis.used_packages;
144
145        // Add config files from scripts as entry points (resolved later)
146        for config_file in &script_analysis.config_files {
147            plugin_result.entry_patterns.push(config_file.clone());
148        }
149    }
150    // Also analyze workspace package.json scripts
151    for ws in workspaces {
152        let ws_pkg_path = ws.root.join("package.json");
153        if let Ok(ws_pkg) = PackageJson::load(&ws_pkg_path)
154            && let Some(ref ws_scripts) = ws_pkg.scripts
155        {
156            let scripts_to_analyze = if config.production {
157                scripts::filter_production_scripts(ws_scripts)
158            } else {
159                ws_scripts.clone()
160            };
161            let ws_analysis = scripts::analyze_scripts(&scripts_to_analyze, &ws.root);
162            plugin_result
163                .script_used_packages
164                .extend(ws_analysis.used_packages);
165
166            let ws_prefix = ws
167                .root
168                .strip_prefix(&config.root)
169                .unwrap_or(&ws.root)
170                .to_string_lossy();
171            for config_file in &ws_analysis.config_files {
172                plugin_result
173                    .entry_patterns
174                    .push(format!("{ws_prefix}/{config_file}"));
175            }
176        }
177    }
178    let scripts_ms = t.elapsed().as_secs_f64() * 1000.0;
179
180    // Stage 2: Parse all files in parallel and extract imports/exports
181    let t = Instant::now();
182    let mut cache_store = if config.no_cache {
183        None
184    } else {
185        cache::CacheStore::load(&config.cache_dir)
186    };
187
188    let parse_result = extract::parse_all_files(files, cache_store.as_ref());
189    let modules = parse_result.modules;
190    let cache_hits = parse_result.cache_hits;
191    let cache_misses = parse_result.cache_misses;
192    let parse_ms = t.elapsed().as_secs_f64() * 1000.0;
193
194    // Update cache with freshly parsed modules and refresh stale mtime/size entries.
195    let t = Instant::now();
196    if !config.no_cache {
197        let store = cache_store.get_or_insert_with(cache::CacheStore::new);
198        update_cache(store, &modules, files);
199        if let Err(e) = store.save(&config.cache_dir) {
200            tracing::warn!("Failed to save cache: {e}");
201        }
202    }
203    let cache_ms = t.elapsed().as_secs_f64() * 1000.0;
204
205    // Stage 3: Discover entry points (static patterns + plugin-discovered patterns)
206    let t = Instant::now();
207    let mut entry_points = discover::discover_entry_points(config, files);
208    for ws in workspaces {
209        let ws_entries = discover::discover_workspace_entry_points(&ws.root, config, files);
210        entry_points.extend(ws_entries);
211    }
212    let plugin_entries = discover::discover_plugin_entry_points(&plugin_result, config, files);
213    entry_points.extend(plugin_entries);
214    let entry_points_ms = t.elapsed().as_secs_f64() * 1000.0;
215
216    // Stage 4: Resolve imports to file IDs
217    let t = Instant::now();
218    let resolved = resolve::resolve_all_imports(
219        &modules,
220        files,
221        workspaces,
222        &plugin_result.active_plugins,
223        &plugin_result.path_aliases,
224        &config.root,
225    );
226    let resolve_ms = t.elapsed().as_secs_f64() * 1000.0;
227
228    // Stage 5: Build module graph
229    let t = Instant::now();
230    let graph = graph::ModuleGraph::build(&resolved, &entry_points, files);
231    let graph_ms = t.elapsed().as_secs_f64() * 1000.0;
232
233    // Stage 6: Analyze for dead code (with plugin context and workspace info)
234    let t = Instant::now();
235    let result = analyze::find_dead_code_full(
236        &graph,
237        config,
238        &resolved,
239        Some(&plugin_result),
240        workspaces,
241        &modules,
242        collect_usages,
243    );
244    let analyze_ms = t.elapsed().as_secs_f64() * 1000.0;
245
246    let total_ms = pipeline_start.elapsed().as_secs_f64() * 1000.0;
247
248    let cache_summary = if cache_hits > 0 {
249        format!(" ({cache_hits} cached, {cache_misses} parsed)")
250    } else {
251        String::new()
252    };
253
254    tracing::debug!(
255        "\n┌─ Pipeline Profile ─────────────────────────────\n\
256         │  discover files:   {:>8.1}ms  ({} files)\n\
257         │  workspaces:       {:>8.1}ms\n\
258         │  plugins:          {:>8.1}ms\n\
259         │  script analysis:  {:>8.1}ms\n\
260         │  parse/extract:    {:>8.1}ms  ({} modules{})\n\
261         │  cache update:     {:>8.1}ms\n\
262         │  entry points:     {:>8.1}ms  ({} entries)\n\
263         │  resolve imports:  {:>8.1}ms\n\
264         │  build graph:      {:>8.1}ms\n\
265         │  analyze:          {:>8.1}ms\n\
266         │  ────────────────────────────────────────────\n\
267         │  TOTAL:            {:>8.1}ms\n\
268         └─────────────────────────────────────────────────",
269        discover_ms,
270        files.len(),
271        workspaces_ms,
272        plugins_ms,
273        scripts_ms,
274        parse_ms,
275        modules.len(),
276        cache_summary,
277        cache_ms,
278        entry_points_ms,
279        entry_points.len(),
280        resolve_ms,
281        graph_ms,
282        analyze_ms,
283        total_ms,
284    );
285
286    let timings = if retain {
287        Some(PipelineTimings {
288            discover_files_ms: discover_ms,
289            file_count: files.len(),
290            workspaces_ms,
291            workspace_count: workspaces.len(),
292            plugins_ms,
293            script_analysis_ms: scripts_ms,
294            parse_extract_ms: parse_ms,
295            module_count: modules.len(),
296            cache_hits,
297            cache_misses,
298            cache_update_ms: cache_ms,
299            entry_points_ms,
300            entry_point_count: entry_points.len(),
301            resolve_imports_ms: resolve_ms,
302            build_graph_ms: graph_ms,
303            analyze_ms,
304            total_ms,
305        })
306    } else {
307        None
308    };
309
310    Ok(AnalysisOutput {
311        results: result,
312        timings,
313        graph: if retain { Some(graph) } else { None },
314    })
315}
316
317/// Run plugins for root project and all workspace packages.
318fn run_plugins(
319    config: &ResolvedConfig,
320    files: &[discover::DiscoveredFile],
321    workspaces: &[fallow_config::WorkspaceInfo],
322) -> plugins::AggregatedPluginResult {
323    let registry = plugins::PluginRegistry::new(config.external_plugins.clone());
324    let file_paths: Vec<std::path::PathBuf> = files.iter().map(|f| f.path.clone()).collect();
325
326    // Run plugins for root project (full run with external plugins, inline config, etc.)
327    let pkg_path = config.root.join("package.json");
328    let mut result = PackageJson::load(&pkg_path).map_or_else(
329        |_| plugins::AggregatedPluginResult::default(),
330        |pkg| registry.run(&pkg, &config.root, &file_paths),
331    );
332
333    if workspaces.is_empty() {
334        return result;
335    }
336
337    // Pre-compile config matchers and relative files once for all workspace runs.
338    // This avoids re-compiling glob patterns and re-computing relative paths per workspace
339    // (previously O(workspaces × plugins × files) glob compilations).
340    let precompiled_matchers = registry.precompile_config_matchers();
341    let relative_files: Vec<(&std::path::PathBuf, String)> = file_paths
342        .iter()
343        .map(|f| {
344            let rel = f
345                .strip_prefix(&config.root)
346                .unwrap_or(f)
347                .to_string_lossy()
348                .into_owned();
349            (f, rel)
350        })
351        .collect();
352
353    // Run plugins for each workspace package using the fast path
354    for ws in workspaces {
355        let ws_pkg_path = ws.root.join("package.json");
356        if let Ok(ws_pkg) = PackageJson::load(&ws_pkg_path) {
357            let ws_result = registry.run_workspace_fast(
358                &ws_pkg,
359                &ws.root,
360                &precompiled_matchers,
361                &relative_files,
362            );
363
364            // Early skip if workspace produced no results (common for leaf packages)
365            if ws_result.active_plugins.is_empty() {
366                continue;
367            }
368
369            // Workspace plugin patterns are relative to the workspace root (e.g., `jest.setup.ts`),
370            // but `discover_plugin_entry_points` matches against paths relative to the monorepo root
371            // (e.g., `packages/foo/jest.setup.ts`). Prefix workspace patterns with the workspace
372            // path to make them matchable from the monorepo root.
373            let ws_prefix = ws
374                .root
375                .strip_prefix(&config.root)
376                .unwrap_or(&ws.root)
377                .to_string_lossy();
378
379            for pat in &ws_result.entry_patterns {
380                result.entry_patterns.push(format!("{ws_prefix}/{pat}"));
381            }
382            for pat in &ws_result.always_used {
383                result.always_used.push(format!("{ws_prefix}/{pat}"));
384            }
385            for pat in &ws_result.discovered_always_used {
386                result
387                    .discovered_always_used
388                    .push(format!("{ws_prefix}/{pat}"));
389            }
390            for (file_pat, exports) in &ws_result.used_exports {
391                result
392                    .used_exports
393                    .push((format!("{ws_prefix}/{file_pat}"), exports.clone()));
394            }
395            // Merge active plugin names (deduplicated)
396            for plugin_name in &ws_result.active_plugins {
397                if !result.active_plugins.contains(plugin_name) {
398                    result.active_plugins.push(plugin_name.clone());
399                }
400            }
401            // These don't need prefixing (absolute paths / package names)
402            result
403                .referenced_dependencies
404                .extend(ws_result.referenced_dependencies);
405            result.setup_files.extend(ws_result.setup_files);
406            result
407                .tooling_dependencies
408                .extend(ws_result.tooling_dependencies);
409            // Virtual module prefixes (e.g., Docusaurus @theme/, @site/) are
410            // package-name prefixes, not file paths — no workspace prefix needed.
411            for prefix in &ws_result.virtual_module_prefixes {
412                if !result.virtual_module_prefixes.contains(prefix) {
413                    result.virtual_module_prefixes.push(prefix.clone());
414                }
415            }
416        }
417    }
418
419    result
420}
421
422/// Run analysis on a project directory (with export usages for LSP Code Lens).
423pub fn analyze_project(root: &Path) -> Result<AnalysisResults, FallowError> {
424    let config = default_config(root);
425    analyze_with_usages(&config)
426}
427
428/// Create a default config for a project root.
429pub(crate) fn default_config(root: &Path) -> ResolvedConfig {
430    let user_config = fallow_config::FallowConfig::find_and_load(root)
431        .ok()
432        .flatten();
433    match user_config {
434        Some((config, _path)) => config.resolve(
435            root.to_path_buf(),
436            fallow_config::OutputFormat::Human,
437            num_cpus(),
438            false,
439        ),
440        None => fallow_config::FallowConfig {
441            schema: None,
442            extends: vec![],
443            entry: vec![],
444            ignore_patterns: vec![],
445            framework: vec![],
446            workspaces: None,
447            ignore_dependencies: vec![],
448            ignore_exports: vec![],
449            duplicates: fallow_config::DuplicatesConfig::default(),
450            rules: fallow_config::RulesConfig::default(),
451            production: false,
452            plugins: vec![],
453            overrides: vec![],
454        }
455        .resolve(
456            root.to_path_buf(),
457            fallow_config::OutputFormat::Human,
458            num_cpus(),
459            false,
460        ),
461    }
462}
463
464fn num_cpus() -> usize {
465    std::thread::available_parallelism()
466        .map(|n| n.get())
467        .unwrap_or(4)
468}