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fallow_core/plugins/registry/
helpers.rs

1//! Helper functions for plugin registry orchestration.
2//!
3//! Contains pattern aggregation, external plugin processing, config file discovery,
4//! config result merging, and plugin detection logic.
5
6use std::borrow::Cow;
7use std::ffi::{OsStr, OsString};
8use std::path::{Path, PathBuf};
9
10use rustc_hash::{FxHashMap, FxHashSet};
11
12use fallow_config::{ExternalPluginDef, PackageJson, PluginDetection, UsedClassMemberRule};
13
14use crate::discover::SOURCE_EXTENSIONS;
15
16use super::super::{PathRule, Plugin, PluginResult, PluginUsedExportRule, UsedExportRule};
17use super::{AggregatedPluginResult, PluginRegexValidationError, PluginRegexValidationErrorInput};
18
19/// True when a config pattern names a source-extension config file living
20/// directly in some directory (no path separator, no leading dot, all expanded
21/// extensions are in `SOURCE_EXTENSIONS`).
22///
23/// Such patterns describe files that are already in the discovered file set, so
24/// Phase 3a's in-memory matchers can find them after a `**/` prefix is added.
25/// Callers use this to skip the corresponding filesystem fallback walk in
26/// `discover_config_files`, which is the dominant cost on large monorepos.
27#[must_use]
28pub fn is_source_ext_root_pattern(pat: &str) -> bool {
29    if pat.is_empty() || pat.contains('/') {
30        return false;
31    }
32    for expanded in expand_brace_pattern(pat) {
33        if expanded.starts_with('.') {
34            return false;
35        }
36        let Some(ext) = std::path::Path::new(&expanded).extension() else {
37            return false;
38        };
39        let Some(ext_str) = ext.to_str() else {
40            return false;
41        };
42        if !SOURCE_EXTENSIONS.contains(&ext_str) {
43            return false;
44        }
45    }
46    true
47}
48
49/// Prepare a config pattern for `globset::Glob`.
50#[must_use]
51pub fn prepare_config_pattern(pat: &str) -> Cow<'_, str> {
52    if is_source_ext_root_pattern(pat) {
53        Cow::Owned(format!("**/{pat}"))
54    } else {
55        Cow::Borrowed(pat)
56    }
57}
58
59/// Collect static patterns from a single plugin into the aggregated result.
60pub fn process_static_patterns(
61    plugin: &dyn Plugin,
62    root: &Path,
63    result: &mut AggregatedPluginResult,
64) {
65    let pname = plugin.name().to_string();
66    result.active_plugins.push(pname.clone());
67    result
68        .entry_point_roles
69        .insert(pname.clone(), plugin.entry_point_role());
70
71    collect_static_plugin_rules(plugin, &pname, result);
72    collect_static_plugin_metadata(plugin, root, result);
73}
74
75/// Collect a plugin's entry/used-export/class-member/config/always-used rules
76/// into the aggregate, all scoped under `pname`.
77fn collect_static_plugin_rules(
78    plugin: &dyn Plugin,
79    pname: &str,
80    result: &mut AggregatedPluginResult,
81) {
82    for rule in plugin.entry_pattern_rules() {
83        result.entry_patterns.push((rule, pname.to_string()));
84    }
85    for pat in plugin.config_patterns() {
86        result.config_patterns.push((*pat).to_string());
87    }
88    for pat in plugin.always_used() {
89        result
90            .always_used
91            .push(((*pat).to_string(), pname.to_string()));
92    }
93    for rule in plugin.used_export_rules() {
94        result
95            .used_exports
96            .push(PluginUsedExportRule::new(pname.to_string(), rule));
97    }
98    for member in plugin.used_class_members() {
99        result
100            .used_class_members
101            .push(UsedClassMemberRule::from(*member));
102    }
103    for rule in plugin.used_class_member_rules() {
104        result.used_class_members.push(rule);
105    }
106    for pat in plugin.fixture_glob_patterns() {
107        result
108            .fixture_patterns
109            .push(((*pat).to_string(), pname.to_string()));
110    }
111}
112
113/// Collect a plugin's dependency/virtual-module/alias/auto-import metadata into
114/// the aggregate.
115fn collect_static_plugin_metadata(
116    plugin: &dyn Plugin,
117    root: &Path,
118    result: &mut AggregatedPluginResult,
119) {
120    for dep in plugin.tooling_dependencies() {
121        result.tooling_dependencies.push((*dep).to_string());
122    }
123    for prefix in plugin.virtual_module_prefixes() {
124        result.virtual_module_prefixes.push((*prefix).to_string());
125    }
126    for suffix in plugin.virtual_package_suffixes() {
127        result.virtual_package_suffixes.push((*suffix).to_string());
128    }
129    for pattern in plugin.generated_import_patterns() {
130        result
131            .generated_import_patterns
132            .push((*pattern).to_string());
133    }
134    for prefix in plugin.generated_type_import_prefixes() {
135        result
136            .generated_type_import_prefixes
137            .push((*prefix).to_string());
138    }
139    for (prefix, replacement) in plugin.path_aliases(root) {
140        result.path_aliases.push((prefix.to_string(), replacement));
141    }
142    result.auto_imports.extend(plugin.auto_imports(root));
143    result
144        .provided_dependencies
145        .extend(plugin.provided_dependencies());
146}
147
148/// Resolve package.json metadata hooks for active plugins.
149pub fn process_package_json_metadata(
150    active: &[&dyn Plugin],
151    pkg: &PackageJson,
152    root: &Path,
153    result: &mut AggregatedPluginResult,
154    regex_errors: &mut Vec<PluginRegexValidationError>,
155) {
156    for plugin in active {
157        let package_referenced = plugin.package_json_referenced_dependencies(pkg, root);
158        if !package_referenced.is_empty() {
159            let pkg_path = root.join("package.json");
160            result.package_referenced_dependencies.extend(
161                package_referenced
162                    .into_iter()
163                    .map(|dep| (pkg_path.clone(), dep)),
164            );
165        }
166        let plugin_result = plugin.resolve_package_json(pkg, root);
167        if plugin_result.is_empty() {
168            continue;
169        }
170        tracing::debug!(
171            plugin = plugin.name(),
172            deps = plugin_result.referenced_dependencies.len(),
173            "resolved package.json metadata"
174        );
175        if let Err(mut errors) = process_config_result(plugin.name(), plugin_result, result, None) {
176            regex_errors.append(&mut errors);
177        }
178    }
179}
180
181/// Determine whether an external plugin activates against the given project.
182///
183/// Shared between `process_external_plugins` and the collision-warning
184/// helper in `registry::mod` so both paths agree on activation semantics.
185pub fn is_external_plugin_active(
186    ext: &ExternalPluginDef,
187    all_deps: &[String],
188    root: &Path,
189    discovered_files: &[PathBuf],
190) -> bool {
191    if let Some(detection) = &ext.detection {
192        let all_dep_refs: Vec<&str> = all_deps.iter().map(String::as_str).collect();
193        check_plugin_detection(detection, &all_dep_refs, root, discovered_files)
194    } else if !ext.enablers.is_empty() {
195        ext.enablers.iter().any(|enabler| {
196            if enabler.ends_with('/') {
197                all_deps.iter().any(|d| d.starts_with(enabler))
198            } else {
199                all_deps.iter().any(|d| d == enabler)
200            }
201        })
202    } else {
203        false
204    }
205}
206
207/// Process external plugin definitions, checking activation and aggregating patterns.
208pub fn process_external_plugins(
209    external_plugins: &[ExternalPluginDef],
210    all_deps: &[String],
211    root: &Path,
212    discovered_files: &[PathBuf],
213    result: &mut AggregatedPluginResult,
214) {
215    for ext in external_plugins {
216        let is_active = is_external_plugin_active(ext, all_deps, root, discovered_files);
217        if is_active {
218            result.active_plugins.push(ext.name.clone());
219            result
220                .entry_point_roles
221                .insert(ext.name.clone(), ext.entry_point_role);
222            result.entry_patterns.extend(
223                ext.entry_points
224                    .iter()
225                    .map(|p| (PathRule::new(p.clone()), ext.name.clone())),
226            );
227            if !ext.manifest_entries.is_empty() {
228                result.entry_patterns.extend(
229                    crate::plugins::manifest_entries::evaluate_manifest_entries(ext, root)
230                        .into_iter()
231                        .map(|rule| (rule, ext.name.clone())),
232                );
233            }
234            result.config_patterns.extend(ext.config_patterns.clone());
235            result.always_used.extend(
236                ext.config_patterns
237                    .iter()
238                    .chain(ext.always_used.iter())
239                    .map(|p| (p.clone(), ext.name.clone())),
240            );
241            result
242                .tooling_dependencies
243                .extend(ext.tooling_dependencies.clone());
244            for ue in &ext.used_exports {
245                result.used_exports.push(PluginUsedExportRule::new(
246                    ext.name.clone(),
247                    UsedExportRule::new(ue.pattern.clone(), ue.exports.clone()),
248                ));
249            }
250            result
251                .used_class_members
252                .extend(ext.used_class_members.iter().cloned());
253        }
254    }
255}
256
257/// In-memory directory listing of config-candidate files (and discovered source
258/// files), keyed by absolute directory, used to resolve plugin config patterns
259/// without re-walking the filesystem.
260///
261/// Built once from the files the discovery walk already collected, so a
262/// `discover_config_files` lookup that previously cost one filesystem stat per
263/// `(plugin, ancestor-directory, pattern)` becomes an in-memory set lookup. The
264/// walk respects `.gitignore` / `ignorePatterns` / the hidden-directory
265/// allowlist, so config discovery via this index follows the same traversal
266/// rules as source discovery (the raw filesystem path used in production mode
267/// does not); see the crate docs / CHANGELOG for that deliberate refinement.
268pub struct ConfigCandidateIndex {
269    dirs: FxHashMap<PathBuf, FxHashSet<OsString>>,
270}
271
272impl ConfigCandidateIndex {
273    /// Build the index from absolute file paths (discovered source files unioned
274    /// with non-source config candidates). Files with no parent or no file name
275    /// are skipped.
276    #[must_use]
277    pub fn build<'a>(paths: impl IntoIterator<Item = &'a Path>) -> Self {
278        let mut dirs: FxHashMap<PathBuf, FxHashSet<OsString>> = FxHashMap::default();
279        for path in paths {
280            if let (Some(parent), Some(name)) = (path.parent(), path.file_name()) {
281                dirs.entry(parent.to_path_buf())
282                    .or_default()
283                    .insert(name.to_os_string());
284            }
285        }
286        Self { dirs }
287    }
288
289    /// Whether the directory `dir` contains a file named `name`, per the files
290    /// the discovery walk collected. Used by file-based plugin activation to
291    /// avoid a per-directory filesystem `read` probe.
292    #[must_use]
293    pub fn dir_contains(&self, dir: &Path, name: &OsStr) -> bool {
294        self.dirs.get(dir).is_some_and(|names| names.contains(name))
295    }
296
297    /// Whether any directory at or below `root` contains a file named `name`,
298    /// per the files the discovery walk collected. Lets a plugin activate from
299    /// a sentinel file nested anywhere under `root` (e.g. a `.env.schema` in a
300    /// workspace subdirectory) without a recursive filesystem walk.
301    #[must_use]
302    pub fn any_descendant_contains(&self, root: &Path, name: &OsStr) -> bool {
303        self.dirs
304            .iter()
305            .any(|(dir, names)| dir.starts_with(root) && names.contains(name))
306    }
307
308    fn glob_matches_in_dir(&self, dir: &Path, matcher: &globset::GlobMatcher) -> Vec<PathBuf> {
309        self.dirs.get(dir).map_or_else(Vec::new, |names| {
310            names
311                .iter()
312                .filter(|name| matcher.is_match(Path::new(name)))
313                .map(|name| dir.join(name))
314                .collect()
315        })
316    }
317}
318
319/// Discover config files for plugins that were not matched against the
320/// discovered source set.
321///
322/// This intentionally probes only known search roots instead of recursively
323/// globbing the whole repository tree. Large monorepos often contain enormous
324/// `node_modules` directories, and a full `**/project.json` walk becomes
325/// pathological there. Callers should therefore pass a focused root list such
326/// as the repo root, workspace roots, and ancestors of discovered source files.
327///
328/// When `candidate_index` is `Some` (the non-production fast path), patterns are
329/// resolved against the in-memory directory index the discovery walk already
330/// built, avoiding one filesystem stat per `(plugin, root, pattern)`. When it is
331/// `None` (production mode), the filesystem is probed directly.
332///
333/// When `production_mode` is `false`, source-extension root-anchored patterns
334/// (e.g., `webpack.config.{ts,js,mjs,cjs}`) are skipped because Phase 3a's
335/// `**/`-prefixed matcher already finds them in the discovered source file
336/// set. In production mode, the file walker excludes `*.config.*` and dotfile
337/// configs, so the FS walk is still required to keep the discovery correct.
338pub fn discover_config_files<'a>(
339    config_matchers: &[(&'a dyn Plugin, Vec<globset::GlobMatcher>)],
340    resolved_plugins: &FxHashSet<&str>,
341    roots: &[&Path],
342    production_mode: bool,
343    candidate_index: Option<&ConfigCandidateIndex>,
344) -> Vec<(PathBuf, &'a dyn Plugin)> {
345    use rayon::prelude::*;
346    let mut pending: Vec<(&'a dyn Plugin, &Path, String)> = Vec::new();
347    for (plugin, _) in config_matchers {
348        if resolved_plugins.contains(plugin.name()) {
349            continue;
350        }
351        for root in roots {
352            for pat in plugin.config_patterns() {
353                if !production_mode && is_source_ext_root_pattern(pat) {
354                    continue;
355                }
356                pending.push((*plugin, *root, pat.to_string()));
357            }
358        }
359    }
360
361    let hits: Vec<(PathBuf, &'a dyn Plugin)> = pending
362        .par_iter()
363        .flat_map_iter(|(plugin, root, pat)| {
364            expand_brace_pattern(pat)
365                .into_iter()
366                .flat_map(|expanded| match candidate_index {
367                    // A pattern under a non-allowlisted hidden directory
368                    // (e.g. `.config/prisma.ts`) is never descended by the
369                    // discovery walk, so it cannot be in the in-memory index;
370                    // probe the filesystem for those few patterns even on the
371                    // fast path so they stay discoverable.
372                    Some(index) if !pattern_needs_filesystem(&expanded) => {
373                        match_pattern_in_index(root, &expanded, index)
374                    }
375                    _ => discover_pattern_matches(root, &expanded),
376                })
377                .map(move |path| (path, *plugin))
378                .collect::<Vec<_>>()
379        })
380        .collect();
381
382    let mut seen: FxHashSet<(PathBuf, &'a str)> = FxHashSet::default();
383    let mut config_files: Vec<(PathBuf, &'a dyn Plugin)> = Vec::with_capacity(hits.len());
384    for (path, plugin) in hits {
385        if seen.insert((path.clone(), plugin.name())) {
386            config_files.push((path, plugin));
387        }
388    }
389    config_files
390}
391
392fn pattern_has_glob(pattern: &str) -> bool {
393    pattern.contains('*') || pattern.contains('?') || pattern.contains('[')
394}
395
396/// True when `pattern` has a directory component (any component before the
397/// basename) that is a hidden directory NOT on the walk's traversal allowlist.
398/// The discovery walk never descends such directories, so the in-memory
399/// candidate index cannot contain files under them and the filesystem probe is
400/// required to keep those configs (e.g. `.config/prisma.ts`) discoverable.
401fn pattern_needs_filesystem(pattern: &str) -> bool {
402    let mut components = pattern.split('/').peekable();
403    let mut needs_fs = false;
404    while let Some(component) = components.next() {
405        if components.peek().is_none() {
406            break; // the basename is not a directory component
407        }
408        if component.starts_with('.')
409            && component != "."
410            && component != ".."
411            && !crate::discover::is_allowed_hidden_dir(OsStr::new(component))
412        {
413            needs_fs = true;
414            break;
415        }
416    }
417    needs_fs
418}
419
420/// In-memory equivalent of [`discover_pattern_matches`], resolving `pattern`
421/// against `index` instead of the filesystem. Mirrors that function's structure
422/// arm-for-arm (plain path, `**/` strip, parent/glob split) so the two produce
423/// identical hits for any file the index contains.
424fn match_pattern_in_index(
425    root: &Path,
426    pattern: &str,
427    index: &ConfigCandidateIndex,
428) -> Vec<PathBuf> {
429    if !pattern_has_glob(pattern) {
430        let path = root.join(pattern);
431        return match (path.parent(), path.file_name()) {
432            (Some(dir), Some(name)) if index.dir_contains(dir, name) => vec![path],
433            _ => Vec::new(),
434        };
435    }
436
437    if let Some(stripped) = pattern.strip_prefix("**/") {
438        return match_pattern_in_index(root, stripped, index);
439    }
440
441    let (dir, file_pattern) = match pattern.rsplit_once('/') {
442        Some((parent, file_pattern)) if !pattern_has_glob(parent) => {
443            (root.join(parent), file_pattern)
444        }
445        Some(_) => return Vec::new(),
446        None => (root.to_path_buf(), pattern),
447    };
448
449    let Ok(matcher) = globset::Glob::new(file_pattern).map(|g| g.compile_matcher()) else {
450        return Vec::new();
451    };
452    index.glob_matches_in_dir(&dir, &matcher)
453}
454
455fn discover_pattern_matches(root: &Path, pattern: &str) -> Vec<PathBuf> {
456    if !pattern_has_glob(pattern) {
457        let path = root.join(pattern);
458        return if path.is_file() {
459            vec![path]
460        } else {
461            Vec::new()
462        };
463    }
464
465    if let Some(stripped) = pattern.strip_prefix("**/") {
466        return discover_pattern_matches(root, stripped);
467    }
468
469    let (dir, file_pattern) = match pattern.rsplit_once('/') {
470        Some((parent, file_pattern)) if !pattern_has_glob(parent) => {
471            (root.join(parent), file_pattern)
472        }
473        Some(_) => return Vec::new(),
474        None => (root.to_path_buf(), pattern),
475    };
476
477    scan_dir_for_pattern(&dir, file_pattern)
478}
479
480fn scan_dir_for_pattern(dir: &Path, file_pattern: &str) -> Vec<PathBuf> {
481    let Ok(matcher) = globset::Glob::new(file_pattern).map(|g| g.compile_matcher()) else {
482        return Vec::new();
483    };
484    let Ok(entries) = std::fs::read_dir(dir) else {
485        return Vec::new();
486    };
487
488    entries
489        .filter_map(Result::ok)
490        .map(|entry| entry.path())
491        .filter(|path| path.is_file())
492        .filter(|path| {
493            path.file_name()
494                .is_some_and(|name| matcher.is_match(std::path::Path::new(name)))
495        })
496        .collect()
497}
498
499fn expand_brace_pattern(pattern: &str) -> Vec<String> {
500    let Some(open) = pattern.find('{') else {
501        return vec![pattern.to_string()];
502    };
503    let Some(close_rel) = pattern[open + 1..].find('}') else {
504        return vec![pattern.to_string()];
505    };
506    let close = open + 1 + close_rel;
507
508    let prefix = &pattern[..open];
509    let suffix = &pattern[close + 1..];
510    let inner = &pattern[open + 1..close];
511    let mut expanded = Vec::new();
512    for option in inner.split(',') {
513        for tail in expand_brace_pattern(suffix) {
514            expanded.push(format!("{prefix}{option}{tail}"));
515        }
516    }
517    expanded
518}
519
520/// Validate the user-supplied exclude regexes attached to a `PathRule`.
521///
522/// The originating plugin and source config file are surfaced so users can
523/// locate every typo in one config-load error.
524fn collect_path_rule_regex_errors(
525    rule: &crate::plugins::PathRule,
526    plugin_name: &str,
527    config_path: Option<&Path>,
528    rule_kind: &'static str,
529    errors: &mut Vec<PluginRegexValidationError>,
530) {
531    for pattern in &rule.exclude_regexes {
532        if let Err(source) = regex::Regex::new(pattern) {
533            errors.push(PluginRegexValidationError::new(
534                PluginRegexValidationErrorInput {
535                    plugin_name,
536                    config_path,
537                    rule_kind,
538                    field: "exclude_regexes",
539                    rule_pattern: &rule.pattern,
540                    regex_pattern: pattern,
541                    source: &source,
542                },
543            ));
544        }
545    }
546    for pattern in &rule.exclude_segment_regexes {
547        if let Err(source) = regex::Regex::new(pattern) {
548            errors.push(PluginRegexValidationError::new(
549                PluginRegexValidationErrorInput {
550                    plugin_name,
551                    config_path,
552                    rule_kind,
553                    field: "exclude_segment_regexes",
554                    rule_pattern: &rule.pattern,
555                    regex_pattern: pattern,
556                    source: &source,
557                },
558            ));
559        }
560    }
561}
562
563/// Merge a `PluginResult` from config parsing into the aggregated result.
564///
565/// `config_path` is the source config file the plugin parsed (when known).
566/// It is only used to enrich config-load errors so users can find their typo.
567/// Tests and inline package.json fallbacks may pass `None`.
568pub fn process_config_result(
569    plugin_name: &str,
570    plugin_result: PluginResult,
571    result: &mut AggregatedPluginResult,
572    config_path: Option<&Path>,
573) -> Result<(), Vec<PluginRegexValidationError>> {
574    let mut regex_errors = Vec::new();
575
576    for rule in &plugin_result.entry_patterns {
577        collect_path_rule_regex_errors(
578            rule,
579            plugin_name,
580            config_path,
581            "entry_patterns[]",
582            &mut regex_errors,
583        );
584    }
585    for rule in &plugin_result.used_exports {
586        collect_path_rule_regex_errors(
587            &rule.path,
588            plugin_name,
589            config_path,
590            "used_exports[].path",
591            &mut regex_errors,
592        );
593    }
594    if !regex_errors.is_empty() {
595        return Err(regex_errors);
596    }
597    merge_plugin_result_fields(plugin_name, plugin_result, result);
598    Ok(())
599}
600
601/// Merge a validated `PluginResult`'s payload fields into the aggregate, applying
602/// the per-plugin `replace_*` semantics for entry patterns, used-export rules,
603/// and path aliases.
604fn merge_plugin_result_fields(
605    pname: &str,
606    plugin_result: PluginResult,
607    result: &mut AggregatedPluginResult,
608) {
609    if plugin_result.replace_entry_patterns && !plugin_result.entry_patterns.is_empty() {
610        result.entry_patterns.retain(|(_, name)| name != pname);
611    }
612    if plugin_result.replace_used_export_rules && !plugin_result.used_exports.is_empty() {
613        result.used_exports.retain(|rule| rule.plugin_name != pname);
614    }
615    result.entry_patterns.extend(
616        plugin_result
617            .entry_patterns
618            .into_iter()
619            .map(|rule| (rule, pname.to_string())),
620    );
621    result.used_exports.extend(
622        plugin_result
623            .used_exports
624            .into_iter()
625            .map(|rule| PluginUsedExportRule::new(pname.to_string(), rule)),
626    );
627    result
628        .used_class_members
629        .extend(plugin_result.used_class_members);
630    result
631        .referenced_dependencies
632        .extend(plugin_result.referenced_dependencies);
633    result.discovered_always_used.extend(
634        plugin_result
635            .always_used_files
636            .into_iter()
637            .map(|p| (p, pname.to_string())),
638    );
639    for (prefix, replacement) in plugin_result.path_aliases {
640        result
641            .path_aliases
642            .retain(|(existing_prefix, _)| existing_prefix != &prefix);
643        result.path_aliases.push((prefix, replacement));
644    }
645    result.setup_files.extend(
646        plugin_result
647            .setup_files
648            .into_iter()
649            .map(|p| (p, pname.to_string())),
650    );
651    result.fixture_patterns.extend(
652        plugin_result
653            .fixture_patterns
654            .into_iter()
655            .map(|p| (p, pname.to_string())),
656    );
657    result
658        .scss_include_paths
659        .extend(plugin_result.scss_include_paths);
660    result
661        .static_dir_mappings
662        .extend(plugin_result.static_dir_mappings);
663    result
664        .provided_dependencies
665        .extend(plugin_result.provided_dependencies);
666}
667
668/// Check if a plugin already has a config file matched against discovered files.
669pub fn check_has_config_file(
670    plugin: &dyn Plugin,
671    config_matchers: &[(&dyn Plugin, Vec<globset::GlobMatcher>)],
672    relative_files: &[(PathBuf, String)],
673) -> bool {
674    !plugin.config_patterns().is_empty()
675        && config_matchers.iter().any(|(p, matchers)| {
676            p.name() == plugin.name()
677                && relative_files
678                    .iter()
679                    .any(|(_, rel)| matchers.iter().any(|m| m.is_match(rel.as_str())))
680        })
681}
682
683/// Check if a `PluginDetection` condition is satisfied.
684pub fn check_plugin_detection(
685    detection: &PluginDetection,
686    all_deps: &[&str],
687    root: &Path,
688    discovered_files: &[PathBuf],
689) -> bool {
690    match detection {
691        PluginDetection::Dependency { package } => all_deps.iter().any(|d| *d == package),
692        PluginDetection::FileExists { pattern } => {
693            if let Ok(matcher) = globset::Glob::new(pattern).map(|g| g.compile_matcher()) {
694                for file in discovered_files {
695                    let relative = file.strip_prefix(root).unwrap_or(file);
696                    if matcher.is_match(relative) {
697                        return true;
698                    }
699                }
700            }
701            let full_pattern = root.join(pattern).to_string_lossy().to_string();
702            glob::glob(&full_pattern)
703                .ok()
704                .is_some_and(|mut g| g.next().is_some())
705        }
706        PluginDetection::All { conditions } => conditions
707            .iter()
708            .all(|c| check_plugin_detection(c, all_deps, root, discovered_files)),
709        PluginDetection::Any { conditions } => conditions
710            .iter()
711            .any(|c| check_plugin_detection(c, all_deps, root, discovered_files)),
712    }
713}
714
715#[cfg(test)]
716mod tests {
717    use super::*;
718
719    #[test]
720    fn pattern_needs_filesystem_only_for_non_allowlisted_hidden_dirs() {
721        // `.config` is a hidden directory not on the walk's allowlist, so a
722        // config under it is never in the in-memory index and must be probed.
723        assert!(pattern_needs_filesystem(".config/prisma.ts"));
724        // Plain, nested-non-hidden, dotfile-basename, `**/`, and allowlisted
725        // hidden-dir (`.storybook`) patterns all resolve from the index.
726        assert!(!pattern_needs_filesystem("tsconfig.json"));
727        assert!(!pattern_needs_filesystem("prisma/schema.prisma"));
728        assert!(!pattern_needs_filesystem(".eslintrc.json"));
729        assert!(!pattern_needs_filesystem("**/project.json"));
730        assert!(!pattern_needs_filesystem(".storybook/main.ts"));
731        assert!(!pattern_needs_filesystem("a/b/c.json"));
732    }
733
734    #[test]
735    fn config_candidate_index_matches_plain_nested_and_glob_shapes() {
736        let root = Path::new("/project");
737        let index = ConfigCandidateIndex::build([
738            Path::new("/project/tsconfig.json"),
739            Path::new("/project/packages/a/tsconfig.json"),
740            Path::new("/project/prisma/schema.prisma"),
741            Path::new("/project/src/main.ts"),
742        ]);
743
744        // Plain basename resolved at the project root and at a nested root.
745        assert_eq!(
746            match_pattern_in_index(root, "tsconfig.json", &index),
747            vec![PathBuf::from("/project/tsconfig.json")]
748        );
749        assert_eq!(
750            match_pattern_in_index(Path::new("/project/packages/a"), "tsconfig.json", &index),
751            vec![PathBuf::from("/project/packages/a/tsconfig.json")]
752        );
753        // Nested non-glob, `**/` strip, and a basename glob.
754        assert_eq!(
755            match_pattern_in_index(root, "prisma/schema.prisma", &index),
756            vec![PathBuf::from("/project/prisma/schema.prisma")]
757        );
758        assert_eq!(
759            match_pattern_in_index(root, "**/tsconfig.json", &index),
760            vec![PathBuf::from("/project/tsconfig.json")]
761        );
762        assert_eq!(
763            match_pattern_in_index(Path::new("/project/prisma"), "*.prisma", &index),
764            vec![PathBuf::from("/project/prisma/schema.prisma")]
765        );
766        // A pattern present in no indexed directory yields nothing.
767        assert!(match_pattern_in_index(root, "missing.json", &index).is_empty());
768    }
769}