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fallow_types/
extract.rs

1//! Module extraction types.
2
3use oxc_span::Span;
4
5use crate::discover::FileId;
6use crate::suppress::{Suppression, UnknownSuppressionKind};
7
8/// Extracted module information from a single file.
9#[derive(Debug, Clone)]
10pub struct ModuleInfo {
11    /// Unique identifier for this file.
12    pub file_id: FileId,
13    /// All export declarations in this module.
14    pub exports: Vec<ExportInfo>,
15    /// All import declarations in this module.
16    pub imports: Vec<ImportInfo>,
17    /// All re-export declarations (e.g., `export { foo } from './bar'`).
18    pub re_exports: Vec<ReExportInfo>,
19    /// All dynamic `import()` calls with string literal sources.
20    pub dynamic_imports: Vec<DynamicImportInfo>,
21    /// Dynamic import patterns.
22    pub dynamic_import_patterns: Vec<DynamicImportPattern>,
23    /// All `require()` calls.
24    pub require_calls: Vec<RequireCallInfo>,
25    /// Package names statically referenced through package path resolution.
26    pub package_path_references: Box<[String]>,
27    /// Static member access expressions (e.g., `Status.Active`).
28    pub member_accesses: Vec<MemberAccess>,
29    /// Typed semantic facts produced by extraction for cross-layer analysis.
30    ///
31    /// This carries facts that were previously encoded as synthetic
32    /// `member_accesses` strings. Extraction and analysis now use typed facts.
33    pub semantic_facts: Box<[SemanticFact]>,
34    /// Identifiers used in whole-object access patterns.
35    pub whole_object_uses: Box<[String]>,
36    /// Whether this module uses CommonJS exports.
37    pub has_cjs_exports: bool,
38    /// Whether this module declares an Angular component `templateUrl`.
39    pub has_angular_component_template_url: bool,
40    /// xxh3 hash of the file content for incremental caching.
41    pub content_hash: u64,
42    /// Inline suppression directives parsed from comments.
43    pub suppressions: Vec<Suppression>,
44    /// Suppression tokens that did not parse to any known `IssueKind`.
45    /// Surfaced as `StaleSuppression` findings via `find_stale` so users see
46    /// typos or obsolete kind names instead of having the entire marker
47    /// silently discarded. See issue #449.
48    pub unknown_suppression_kinds: Vec<UnknownSuppressionKind>,
49    /// Local names of import bindings that are never referenced in this file.
50    /// Populated via `oxc_semantic` scope analysis. Used at graph-build time
51    /// to skip adding references for imports whose binding is never read,
52    /// improving unused-export detection precision.
53    pub unused_import_bindings: Vec<String>,
54    /// Local import bindings that are referenced from TypeScript type positions.
55    /// Used to distinguish value-namespace and type-namespace references when a
56    /// module exports both `const X` and `type X`.
57    pub type_referenced_import_bindings: Vec<String>,
58    /// Local import bindings referenced from runtime/value positions.
59    pub value_referenced_import_bindings: Vec<String>,
60    /// Pre-computed byte offsets where each line starts.
61    pub line_offsets: Vec<u32>,
62    /// Per-function complexity metrics.
63    pub complexity: Vec<FunctionComplexity>,
64    /// Feature flag use sites.
65    pub flag_uses: Vec<FlagUse>,
66    /// Heritage metadata for exported classes that declare `implements`.
67    pub class_heritage: Vec<ClassHeritageInfo>,
68    /// Exported free-function factories that provably return one class instance
69    /// (`export function useApi() { return new RESTApi() }`). Origin-module proof
70    /// that an exported function returns a class instance, so a cross-module
71    /// `const x = useApi(); x.member` consumer can credit the returned class.
72    /// See issue #1441 (Part A).
73    pub exported_factory_returns: Box<[FactoryReturnExport]>,
74    /// Angular `InjectionToken<Interface>` declarations, as
75    /// `(token_export_name, interface_name)` pairs. Recorded only for
76    /// `new InjectionToken<I>(...)` initializers whose `InjectionToken` is
77    /// imported from `@angular/core`. The analyze layer follows the token's
78    /// interface type argument to the classes that `implement` it so a template
79    /// member call through `inject(TOKEN)` credits the concrete implementation.
80    /// See issue #920 (follow-up to #911 / #913).
81    pub injection_tokens: Vec<(String, String)>,
82    /// Local type-capable declarations.
83    pub local_type_declarations: Vec<LocalTypeDeclaration>,
84    /// Type references in exported public signatures.
85    pub public_signature_type_references: Vec<PublicSignatureTypeReference>,
86    /// Aliases of namespace imports re-exported through an object literal.
87    pub namespace_object_aliases: Vec<NamespaceObjectAlias>,
88    /// Deduped Iconify collection prefixes found in static icon props.
89    pub iconify_prefixes: Vec<String>,
90    /// Deduped Nuxt UI `i-<collection>-<icon>` icon class suffixes found in
91    /// static script-side icon properties.
92    pub iconify_icon_names: Vec<String>,
93    /// Bare identifiers that may be resolved by framework auto-imports.
94    pub auto_import_candidates: Vec<String>,
95    /// File-level string directives in source order (e.g. `"use client"`,
96    /// `"use server"`, `"use strict"`). Captured from `Program::directives`.
97    /// Consumed by the security `client-server-leak` detector to identify
98    /// React Server Component client boundaries.
99    pub directives: Vec<String>,
100    /// Byte-offset starts of dynamic `import()` expressions wrapped in
101    /// `next/dynamic(() => import('./X'), { ssr: false })`. The ssr:false option
102    /// is Next.js's sanctioned way to pull a client-only module, so a server-only
103    /// module reached ONLY through such an import is NOT a client-server leak. The
104    /// security `client-server-leak` BFS resolves each dynamic import to a graph
105    /// edge; these span starts let the BFS exclude exactly those edges (matched
106    /// against the edge's `import_span`). Empty for files with no ssr:false
107    /// dynamic import. Captured only by JS/TS extraction.
108    pub client_only_dynamic_import_spans: Vec<u32>,
109    /// Captured security sink sites (category-blind). Consumed by the
110    /// catalogue-driven `tainted_sink` detector. Captured only by JS/TS
111    /// extraction; empty for CSS/MDX/etc. See `security_matchers.toml`.
112    pub security_sinks: Vec<SinkSite>,
113    /// Count of sink-shaped nodes whose callee could not be flattened to a
114    /// static path (dynamic dispatch, computed members, aliased bindings).
115    /// Surfaced in-band so an empty catalogue result with a non-zero count is
116    /// not a clean bill.
117    pub security_sinks_skipped: u32,
118    /// Compact span-level diagnostics for skipped security sink callees. Kept
119    /// next to `security_sinks_skipped` so warm-cache and cold-cache security
120    /// output can explain where the blind spots are concentrated without source
121    /// snippets.
122    pub security_unresolved_callee_sites: Vec<SkippedSecurityCalleeSite>,
123    /// Local bindings whose initializer (or destructured object) is a flattened
124    /// member-access path. Used by the security `tainted_sink` detector to
125    /// back-trace a sink argument to a known untrusted source: the analyze layer
126    /// matches each binding's `source_path` against the data-driven source
127    /// catalogue (`security_matchers.toml` `[[source]]` rows) and treats the
128    /// matching `local` names as source-tainted. Intra-module and name-based
129    /// (no scope analysis); a conservative association, never a taint proof.
130    pub tainted_bindings: Vec<TaintedBinding>,
131    /// Sink arguments that were recognized as sanitizer calls at extraction
132    /// time. Used for direct sink calls such as
133    /// `el.innerHTML = DOMPurify.sanitize(input)`.
134    pub sanitized_sink_args: Vec<SanitizedSinkArg>,
135    /// Known defensive control call sites found in this module. Consumed only by
136    /// the `fallow security --surface` agent JSON path.
137    pub security_control_sites: Vec<SecurityControlSite>,
138    /// Statically flattenable callee paths invoked in this module, deduped per
139    /// unique path (first occurrence wins). Consumed by the
140    /// `boundaries.calls.forbidden` detector. Captured unconditionally because
141    /// extraction is config-blind; the per-module cost is bounded by the
142    /// unique-callee count.
143    pub callee_uses: Vec<CalleeUse>,
144    /// `"use client"` / `"use server"` directive strings written as expression
145    /// statements in `program.body` (misplaced, NOT in the leading
146    /// prologue), so the RSC bundler silently ignores them. One entry per
147    /// occurrence. Consumed by the `misplaced-directive` detector. Captured
148    /// only by JS/TS extraction.
149    pub misplaced_directives: Vec<MisplacedDirectiveSite>,
150    /// Export LOCAL NAMES of exported functions / const-arrows whose body has an
151    /// inline `"use server"` directive (`export async function f() { "use server"
152    /// }`), captured in a NON-`"use server"` file. Consumed by the
153    /// `unused-server-action` detector to reclassify an unused inline Server
154    /// Action export out of `unused-export`. Captured only by JS/TS extraction.
155    pub inline_server_action_exports: Vec<String>,
156    /// Vue `provide`/`inject` and Svelte `setContext`/`getContext` call sites
157    /// keyed by an identifier symbol. Consumed by the `unprovided-inject`
158    /// detector to find an inject/getContext whose key is provided nowhere
159    /// project-wide. Only identifier-keyed sites are recorded (string-literal
160    /// and computed keys abstain). Captured by JS/TS and SFC extraction.
161    pub di_key_sites: Vec<DiKeySite>,
162    /// `true` when this module contains a `provide(...)` / `*.provide(...)` /
163    /// `setContext(...)` call whose key argument is NOT a plain identifier
164    /// (spread, computed, member, loop variable). Such a call can provide an
165    /// unknowable key, so the `unprovided-inject` detector abstains on ALL
166    /// inject findings project-wide when any reachable module sets this flag.
167    /// Mirrors the spread-return whole-object abstain used for Pinia stores.
168    pub has_dynamic_provide: bool,
169    /// Local names of import bindings that ARE referenced somewhere in this file
170    /// (script value/type position OR template/markup). The complement of
171    /// `unused_import_bindings` among `imports`. Derived in
172    /// `release_resolution_payload` (where both `imports` and
173    /// `unused_import_bindings` are still present) so it survives the release and
174    /// is readable by the analyze layer; it is never cached (recomputed on every
175    /// cache load). Consumed by the `unrendered-component` detector to credit a
176    /// Vue/Svelte SFC that some file actually imports-and-uses, distinguishing it
177    /// from a component reachable only through a barrel re-export.
178    pub referenced_import_bindings: Vec<String>,
179    /// Vue `<script setup>` `defineProps` and Svelte 5 `$props()` declared
180    /// props. Consumed by the `unused-component-prop` detector to flag a prop
181    /// referenced nowhere in its own SFC. Each entry carries `used_in_script` /
182    /// `used_in_template`.
183    pub component_props: Vec<ComponentProp>,
184    /// `true` when the template spreads the whole props/attrs object
185    /// (`v-bind="$attrs"` / `v-bind="$props"` / `v-bind="props"`) or the props
186    /// return is destructured with a rest element. Either form can consume a prop
187    /// indirectly, so the detector abstains on the whole file.
188    pub has_props_attrs_fallthrough: bool,
189    /// `true` when the SFC calls `defineExpose(...)`. A prop may be re-exposed,
190    /// so the detector conservatively abstains on the whole file.
191    pub has_define_expose: bool,
192    /// `true` when the SFC calls `defineModel(...)`. Two-way model props are out
193    /// of scope for v1, so the detector abstains on the whole file.
194    pub has_define_model: bool,
195    /// `true` when props were declared through an unharvestable shape, such as a
196    /// Vue type-reference argument or an opaque Svelte `$props()` destructure.
197    /// The detector abstains on the whole file so a prop is never falsely
198    /// flagged.
199    pub has_unharvestable_props: bool,
200    /// Vue `<script setup>` `defineEmits` declared events. Consumed by the
201    /// `unused-component-emit` detector to flag an event emitted nowhere in its
202    /// own SFC. Each entry carries `used`.
203    pub component_emits: Vec<ComponentEmit>,
204    /// Angular component/directive inputs declared via `@Input()` decorators or
205    /// signal `input()` / `input.required()` / `model()` initializers. Consumed
206    /// by the `unused-component-input` detector to flag an input read nowhere in
207    /// its own component. Empty for every non-Angular class.
208    pub angular_inputs: Vec<AngularInputMember>,
209    /// Angular component/directive outputs declared via `@Output()` decorators or
210    /// signal `output()` / `outputFromObservable()` initializers. Consumed by the
211    /// `unused-component-output` detector to flag an output emitted nowhere in its
212    /// own component. A `model()` is recorded as an input only (see
213    /// `AngularOutputMember`). Empty for every non-Angular class.
214    pub angular_outputs: Vec<AngularOutputMember>,
215    /// Angular `@Component` declarations with their `selector` value(s), harvested
216    /// from `@Component({ selector: '...' })` decorators. Consumed by the Angular
217    /// arm of the `unrendered-component` detector. Empty for every non-Angular
218    /// class and for `@Directive`. See `AngularComponentSelector`.
219    pub angular_component_selectors: Vec<AngularComponentSelector>,
220    /// Lit / web-component custom elements REGISTERED in this file via
221    /// `@customElement('x-foo')` or `customElements.define('x-foo', C)`. Consumed
222    /// by the Lit arm of the `unrendered-component` detector, which flags a
223    /// registered element whose tag is rendered in NO `html` template
224    /// project-wide. Empty for non-Lit / non-web-component files. See
225    /// `RegisteredCustomElement`.
226    pub registered_custom_elements: Vec<RegisteredCustomElement>,
227    /// Custom-element tag names USED (rendered) in this file's `html` tagged
228    /// templates, e.g. `` html`<x-foo></x-foo>` `` -> `x-foo`. Only hyphenated
229    /// (custom-element) tags are recorded; native HTML tags are excluded by the
230    /// hyphen requirement. The detector unions these project-wide into the
231    /// rendered-tag set. Empty for files with no `html` templates.
232    pub used_custom_element_tags: Vec<String>,
233    /// Custom element selector tag names referenced in this file's Angular
234    /// templates (inline `@Component({ template })` and the linked external
235    /// `templateUrl` `.html` module), e.g. `<app-foo>` -> `app-foo`. Native HTML
236    /// tag names are excluded at harvest. The detector unions these project-wide
237    /// into the used-selector set. Empty for non-Angular files.
238    pub angular_used_selectors: Vec<String>,
239    /// Angular component class names referenced as a route entry or bootstrap
240    /// target: a route `component: Foo` / `loadComponent: () => import().then(m =>
241    /// m.Foo)` value, a `bootstrapApplication(Foo)` argument, or a
242    /// `bootstrap: [Foo]` NgModule entry. These are render-equivalent entry points
243    /// (Angular instantiates them without a template `<tag>`), so the Angular
244    /// `unrendered-component` detector abstains on a component whose class name is
245    /// in the project-wide union. A plain `declarations: [...]` / `imports: [...]`
246    /// registration is intentionally NOT harvested here (that is the dead case the
247    /// rule catches). Empty for non-Angular files.
248    pub angular_entry_component_refs: Vec<String>,
249    /// `true` when this file dynamically renders an Angular component fallow
250    /// cannot attribute to a literal class reference: a
251    /// `ViewContainerRef.createComponent(...)` / `*.createComponent(<ident>)`
252    /// call, or an `*ngComponentOutlet` template binding. The Angular
253    /// `unrendered-component` detector abstains project-wide when ANY reachable
254    /// module sets this (mirroring `unprovided-inject`'s `has_dynamic_provide`),
255    /// since a component could be rendered by a non-literal class reference.
256    pub has_dynamic_component_render: bool,
257    /// `true` when `defineEmits` was called with an unharvestable argument (a
258    /// type-reference type argument such as `defineEmits<MyEmits>()`, a
259    /// non-literal runtime form, or an unbound `defineEmits([...])`). The
260    /// detector abstains on the whole file so an emit is never falsely flagged.
261    pub has_unharvestable_emits: bool,
262    /// `true` when an `emit(<nonLiteral>)` call was seen (the emitted event name
263    /// cannot be known statically). The detector abstains on the whole file.
264    pub has_dynamic_emit: bool,
265    /// `true` when the `defineEmits` return binding was used as a WHOLE value
266    /// (passed to a function, returned, or spread), which can emit any event
267    /// opaquely. The detector abstains on the whole file.
268    pub has_emit_whole_object_use: bool,
269    /// SvelteKit `load()` return-object keys harvested from a
270    /// `+page.{ts,server.ts,js,server.js}` file's terminal return literal.
271    /// Consumed by the `unused-load-data-key` detector. Empty for every file
272    /// that is not a page-load producer (gated by basename at harvest time).
273    pub load_return_keys: Vec<LoadReturnKey>,
274    /// `true` when this file's `load()` body could not be harvested safely (a
275    /// spread return, a non-object/non-literal return, more than one top-level
276    /// `return`, a computed key, or a wrapped/re-exported `load`). The detector
277    /// abstains on the whole file so a key is never falsely flagged.
278    pub has_unharvestable_load: bool,
279    /// `true` when this file passes the whole `data` object opaquely (script
280    /// `const X = data`, `fn(data)` / `fn(...data)`, or template `data={data}` /
281    /// `{...data}` in a route component), so a child can read arbitrary keys the
282    /// detector cannot see. Name-gated on the `data` binding. Read ONLY by the
283    /// `unused-load-data-key` detector, so capturing it for all files is
284    /// byte-identity-safe. See FP-1 in the plan.
285    pub has_load_data_whole_use: bool,
286    /// `true` when this file uses the whole `page.data` / `$page.data` store
287    /// object opaquely (e.g. `Object.values(page.data)`, `{...$page.data}`), so a
288    /// reflective read could consume any route's key. Drives the
289    /// `unused-load-data-key` detector's project-wide abstain. Derived in
290    /// `release_resolution_payload` from `whole_object_uses` BEFORE that vector is
291    /// released (mirroring `referenced_import_bindings`), so it survives the
292    /// release the detector runs after; it is never cached (recomputed each run
293    /// from the cached `whole_object_uses`). Reassignment forms
294    /// (`const all = $page.data`) are not whole-object-tracked and stay out of
295    /// scope, matching the syntactic analyzer's conservative posture.
296    pub has_page_data_store_whole_use: bool,
297    /// React/JSX component definitions: functions/arrows whose body returns JSX.
298    /// Captured only for `.jsx`/`.tsx` files when a React/Preact dependency is
299    /// plausible. Consumed by the React `unused-component-prop` arm and the
300    /// complexity-fold phase. Empty for non-React files.
301    pub component_functions: Vec<ComponentFunction>,
302    /// React component props (reuses the shared `ComponentProp` struct). For
303    /// React, `used_in_template` is always false and `used_in_script` means
304    /// used-in-body. Empty for non-React files.
305    pub react_props: Vec<ComponentProp>,
306    /// React hook call sites (`useState` / `useEffect` / `useMemo` /
307    /// `useCallback` / custom `use*`). Drives hook-density complexity context.
308    /// Empty for non-React files.
309    pub hook_uses: Vec<HookUse>,
310    /// React render edges: one component rendering another. Captured with the
311    /// child's written name; child-to-`FileId` resolution is deferred to graph
312    /// build. Empty for non-React files.
313    pub render_edges: Vec<RenderEdge>,
314    /// Svelte custom events dispatched via `dispatch('<name>')` where `dispatch`
315    /// is the binding from `const dispatch = createEventDispatcher()`. Consumed
316    /// by the `unused-svelte-event` detector to flag an event dispatched here but
317    /// listened to nowhere project-wide. Each entry carries the literal event
318    /// name and its span. Empty for every non-Svelte file.
319    pub svelte_dispatched_events: Vec<DispatchedEvent>,
320    /// Svelte custom-event listener names harvested from template `on:<name>`
321    /// bindings on COMPONENT tags (PascalCase tag names). Lowercase DOM-element
322    /// `on:click` is a DOM event, not a custom event, and is excluded. Unioned
323    /// project-wide by the `unused-svelte-event` detector to build the liberal
324    /// "listened" set. Empty for every non-Svelte file.
325    pub svelte_listened_events: Vec<String>,
326    /// `true` when a `dispatch(<nonLiteral>)` call was seen (the dispatched event
327    /// name cannot be known statically), or the `dispatch` binding was used as a
328    /// whole value (passed / returned). The `unused-svelte-event` detector
329    /// abstains on the whole component so an event is never falsely flagged.
330    pub has_dynamic_dispatch: bool,
331}
332
333impl ModuleInfo {
334    /// Release extraction payload that resolution has already copied into the graph.
335    ///
336    /// This keeps fields needed by analysis, health, security, LSP, coverage,
337    /// and hash drift checks, while dropping vectors that otherwise duplicate
338    /// data owned by `ResolvedModule` or already credited into the module graph.
339    pub fn release_resolution_payload(&mut self) {
340        // Derive the referenced-binding set BEFORE releasing `unused_import_bindings`:
341        // the analyze-layer `unrendered-component` detector needs "which imports are
342        // actually used" but runs after this release, so capture the compact
343        // complement here. Skip empty local names (side-effect imports).
344        self.referenced_import_bindings = self
345            .imports
346            .iter()
347            .map(|import| import.local_name.clone())
348            .filter(|name| !name.is_empty() && !self.unused_import_bindings.contains(name))
349            .collect();
350        self.referenced_import_bindings.sort_unstable();
351        self.referenced_import_bindings.dedup();
352
353        // Derive the project-wide page-data-store whole-use signal BEFORE
354        // releasing `whole_object_uses`: the `unused-load-data-key` detector runs
355        // after this release and needs to know whether ANY module reflectively
356        // consumes the whole `page.data` / `$page.data` store.
357        self.has_page_data_store_whole_use = self
358            .whole_object_uses
359            .iter()
360            .any(|name| name == "page.data" || name == "$page.data");
361
362        Self::release_vec(&mut self.dynamic_imports);
363        Self::release_vec(&mut self.require_calls);
364        Self::release_boxed_slice(&mut self.package_path_references);
365        Self::release_boxed_slice(&mut self.whole_object_uses);
366        Self::release_vec(&mut self.unused_import_bindings);
367        Self::release_vec(&mut self.type_referenced_import_bindings);
368        Self::release_vec(&mut self.value_referenced_import_bindings);
369        Self::release_vec(&mut self.namespace_object_aliases);
370        Self::release_vec(&mut self.auto_import_candidates);
371    }
372
373    fn release_vec<T>(values: &mut Vec<T>) {
374        *values = Vec::new();
375    }
376
377    fn release_boxed_slice<T>(values: &mut Box<[T]>) {
378        *values = Box::default();
379    }
380}
381
382/// Defensive control family detected on a source to sink path.
383#[derive(
384    Debug,
385    Clone,
386    Copy,
387    PartialEq,
388    Eq,
389    PartialOrd,
390    Ord,
391    serde::Serialize,
392    serde::Deserialize,
393    bitcode::Encode,
394    bitcode::Decode,
395)]
396#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
397#[serde(rename_all = "kebab-case")]
398pub enum SecurityControlKind {
399    /// Sanitization or escaping before a sink.
400    Sanitization,
401    /// Input validation or schema parsing.
402    Validation,
403    /// Authentication check or middleware.
404    Authentication,
405    /// Authorization or permission check.
406    Authorization,
407}
408
409/// A known defensive control call site.
410#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, bitcode::Encode, bitcode::Decode)]
411pub struct SecurityControlSite {
412    /// Control family.
413    pub kind: SecurityControlKind,
414    /// Flattened callee path or a stable synthetic name for guard-derived
415    /// controls.
416    pub callee_path: String,
417    /// Byte offset of the control span start.
418    pub span_start: u32,
419    /// Byte offset of the control span end.
420    pub span_end: u32,
421}
422
423/// Sanitizer output domain. Kept intentionally narrow so a sanitizer for one
424/// domain cannot suppress a different sink family.
425#[derive(
426    Debug,
427    Clone,
428    Copy,
429    PartialEq,
430    Eq,
431    PartialOrd,
432    Ord,
433    serde::Serialize,
434    serde::Deserialize,
435    bitcode::Encode,
436    bitcode::Decode,
437)]
438pub enum SanitizerScope {
439    /// HTML markup sanitized by DOMPurify-compatible APIs.
440    Html,
441    /// URL or redirect target checked against a literal-backed allowlist.
442    Url,
443    /// Path value checked against a high-confidence containment guard.
444    Path,
445    /// SQL identifier quoted with a helper that doubles embedded identifier quotes.
446    SqlIdentifier,
447}
448
449/// A captured sink argument that is itself a recognized sanitizer call.
450#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, bitcode::Encode, bitcode::Decode)]
451pub struct SanitizedSinkArg {
452    /// Byte offset of the owning sink span start.
453    pub span_start: u32,
454    /// The positional argument index on the owning sink.
455    pub arg_index: u32,
456    /// The sanitizer output domain for this argument.
457    pub scope: SanitizerScope,
458}
459
460/// A local binding tied to the flattened member-access path it was initialized
461/// from. The analyze layer matches `source_path` against the data-driven source
462/// catalogue; when it matches, `local` is treated as carrying untrusted input.
463///
464/// Captured for two shapes: a direct assignment (`const id = req.query.id` ->
465/// `{ local: "id", source_path: "req.query" }`, the literal-key tail dropped so
466/// the path matches a catalogue prefix) and an object destructure
467/// (`const { id } = req.query` -> `{ local: "id", source_path: "req.query" }`).
468#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, bitcode::Encode, bitcode::Decode)]
469pub struct TaintedBinding {
470    /// The local binding name introduced by the declarator.
471    pub local: String,
472    /// The flattened object member-access path the binding was sourced from.
473    pub source_path: String,
474    /// Byte offset of the source read (the member-access expression the binding
475    /// was sourced from), so the analyze layer can anchor a taint trace's source
476    /// node at the real read line instead of the module import line. Stored as a
477    /// `u32` (not `Span`) to stay bitcode-encodable for the cache. `0` when no
478    /// concrete read expression is available (synthetic framework-param /
479    /// helper-return bindings), in which case the analyze layer falls back to the
480    /// sink site rather than claiming a spurious line.
481    pub source_span_start: u32,
482}
483
484/// Why a sink-shaped callee could not be flattened into a static catalogue
485/// path.
486#[derive(
487    Debug,
488    Clone,
489    Copy,
490    PartialEq,
491    Eq,
492    PartialOrd,
493    Ord,
494    serde::Serialize,
495    serde::Deserialize,
496    bitcode::Encode,
497    bitcode::Decode,
498)]
499#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
500#[serde(rename_all = "kebab-case")]
501pub enum SkippedSecurityCalleeReason {
502    /// A computed member access such as `client[method](input)`.
503    ComputedMember,
504    /// A dynamic non-member callee such as `(factory())(input)`.
505    DynamicDispatch,
506    /// An assignment target whose object could not be flattened.
507    UnsupportedAssignmentObject,
508}
509
510/// Syntactic expression shape for a skipped security callee.
511#[derive(
512    Debug,
513    Clone,
514    Copy,
515    PartialEq,
516    Eq,
517    PartialOrd,
518    Ord,
519    serde::Serialize,
520    serde::Deserialize,
521    bitcode::Encode,
522    bitcode::Decode,
523)]
524#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
525#[serde(rename_all = "kebab-case")]
526pub enum SkippedSecurityCalleeExpressionKind {
527    /// `obj.prop(...)`.
528    StaticMemberExpression,
529    /// `obj[prop](...)`.
530    ComputedMemberExpression,
531    /// A bare identifier or private identifier callee.
532    Identifier,
533    /// Any other call-like expression that cannot be represented compactly.
534    Other,
535}
536
537/// Span-only diagnostic for a skipped security callee inside one module.
538#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, bitcode::Encode, bitcode::Decode)]
539pub struct SkippedSecurityCalleeSite {
540    /// Why the callee was skipped.
541    pub reason: SkippedSecurityCalleeReason,
542    /// Compact expression shape of the skipped callee.
543    pub expression_kind: SkippedSecurityCalleeExpressionKind,
544    /// Start byte offset of the skipped callee expression.
545    pub span_start: u32,
546    /// End byte offset of the skipped callee expression.
547    pub span_end: u32,
548}
549
550/// The syntactic shape of a captured security sink site. Category-blind: the
551/// extractor records the shape and the dotted/bare callee path; the analyze
552/// layer matches it against the data-driven catalogue. See
553/// `crates/security/data/security_matchers.toml`.
554#[derive(
555    Debug,
556    Clone,
557    Copy,
558    PartialEq,
559    Eq,
560    serde::Serialize,
561    serde::Deserialize,
562    bitcode::Encode,
563    bitcode::Decode,
564)]
565pub enum SinkShape {
566    /// A call to a bare identifier (e.g. `eval(x)`).
567    Call,
568    /// A call to a dotted member path (e.g. `child_process.exec(x)`).
569    MemberCall,
570    /// An assignment to a member target (e.g. `el.innerHTML = x`).
571    MemberAssign,
572    /// A tagged template expression (e.g. ``sql`...${x}...` ``).
573    TaggedTemplate,
574    /// A JSX attribute value (e.g. `dangerouslySetInnerHTML={x}`).
575    JsxAttr,
576    /// A constructor call (e.g. `new Function("return x")`).
577    NewExpression,
578    /// A static string literal assigned to a secret-shaped identifier or known
579    /// provider credential prefix.
580    SecretLiteral,
581}
582
583/// The shape of the argument captured at a sink site. Category-blind like
584/// [`SinkShape`], but finer-grained: it lets the catalogue matcher require or
585/// exclude specific argument shapes. The discriminator is what distinguishes an
586/// unsafe SQL string concatenation or template-into-`.execute()` from a
587/// safely-parameterized `` sql`${x}` `` tagged template, an object-literal
588/// `.execute({ sql, args })` argument, or a literal-aware sink argument.
589#[derive(
590    Debug,
591    Clone,
592    Copy,
593    PartialEq,
594    Eq,
595    serde::Serialize,
596    serde::Deserialize,
597    bitcode::Encode,
598    bitcode::Decode,
599)]
600pub enum SinkArgKind {
601    /// A template literal with at least one `${...}` substitution (e.g.
602    /// `` `SELECT ${x}` ``). On a `tagged-template` shape this is the tag's
603    /// quasi; on a `call`/`member-call` shape it is the positional argument.
604    TemplateWithSubst,
605    /// A binary `+` string concatenation (e.g. `"SELECT " + x`).
606    Concat,
607    /// An object literal (e.g. `.execute({ sql, args })`, the parameterized form).
608    Object,
609    /// A call expression argument (e.g. `query(buildSql())`).
610    Call,
611    /// A literal argument admitted by a literal-aware security matcher.
612    Literal,
613    /// A zero-argument sink captured because the callee itself is the signal.
614    NoArg,
615    /// Any other non-literal expression (bare identifier, member access, etc.).
616    Other,
617}
618
619/// Static URL construction shape captured for URL-shaped security sinks.
620#[derive(
621    Debug,
622    Clone,
623    Copy,
624    PartialEq,
625    Eq,
626    serde::Serialize,
627    serde::Deserialize,
628    bitcode::Encode,
629    bitcode::Decode,
630)]
631#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
632#[serde(rename_all = "kebab-case")]
633pub enum SecurityUrlShape {
634    /// The sink target has a fixed origin, scheme, or relative root while only
635    /// path or query components are dynamic.
636    FixedOriginDynamicPath,
637    /// The sink target's scheme or origin is dynamic or opaque.
638    DynamicOrigin,
639}
640
641/// Literal values attached to literal-aware security sink captures.
642#[derive(
643    Debug,
644    Clone,
645    PartialEq,
646    Eq,
647    serde::Serialize,
648    serde::Deserialize,
649    bitcode::Encode,
650    bitcode::Decode,
651)]
652pub enum SinkLiteralValue {
653    /// A string literal value.
654    String(String),
655    /// An integer numeric literal value.
656    Integer(i64),
657    /// A boolean literal value.
658    Boolean(bool),
659    /// A null literal value.
660    Null,
661}
662
663/// Static object-literal property metadata attached to a captured sink
664/// argument. Nested object paths are flattened with dot-separated keys.
665#[derive(
666    Debug,
667    Clone,
668    PartialEq,
669    Eq,
670    serde::Serialize,
671    serde::Deserialize,
672    bitcode::Encode,
673    bitcode::Decode,
674)]
675pub struct SinkObjectProperty {
676    /// Static property name. Nested object properties use dot-separated paths.
677    pub key: String,
678    /// Literal property value when statically knowable.
679    pub value: SinkLiteralValue,
680}
681
682/// A captured sink site. The visitor records every existing non-literal call /
683/// member-assign / member-call / tagged-template / jsx-attr sink site, and a
684/// small allowlist of literal-aware sites where the literal value is the signal.
685/// It knows nothing about CWE categories.
686#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, bitcode::Encode, bitcode::Decode)]
687pub struct SinkSite {
688    /// The syntactic shape of the sink site.
689    pub sink_shape: SinkShape,
690    /// The flattened dotted/bare callee or member path.
691    pub callee_path: String,
692    /// The positional argument index. For zero-argument captures this is 0.
693    pub arg_index: u32,
694    /// Whether the relevant argument is non-literal. Existing non-literal
695    /// catalogue rows require this to remain true.
696    pub arg_is_non_literal: bool,
697    /// The finer-grained shape of the captured argument. Lets the catalogue
698    /// require unsafe shapes (concat / template-with-substitution / literal /
699    /// no-arg) and exclude safe ones (object literal, the parameterized form).
700    /// See [`SinkArgKind`].
701    pub arg_kind: SinkArgKind,
702    /// Literal argument value for literal-aware rows.
703    pub arg_literal: Option<SinkLiteralValue>,
704    /// Risky regex fragment for structural ReDoS candidates.
705    pub regex_pattern: Option<String>,
706    /// Static object-literal properties for option-object rows.
707    pub object_properties: Vec<SinkObjectProperty>,
708    /// Static top-level object-literal keys, including keys whose values are not
709    /// literal. Used by missing-option rows that only need key presence.
710    pub object_property_keys: Vec<String>,
711    /// Whether [`object_property_keys`](Self::object_property_keys) is complete.
712    /// False for non-object arguments and object literals with spread or
713    /// non-static keys, where a missing-key claim would be speculative.
714    pub object_property_keys_complete: bool,
715    /// Identifier names referenced anywhere inside the captured non-literal sink
716    /// argument, or contextual names for zero-argument captures such as a
717    /// token-like `Math.random()` assignment target. Deduped in source order.
718    /// Used by the analyze layer to back-trace the sink argument to a known
719    /// untrusted source or to apply narrow context gates. Intra-module,
720    /// name-based, conservative; it is never a taint proof.
721    pub arg_idents: Vec<String>,
722    /// Flattened static member paths referenced inside the captured non-literal
723    /// sink argument. Includes both the full path and source-object path for
724    /// leaf reads (`process.env.SECRET` records `process.env.SECRET` and
725    /// `process.env`) so direct source expressions can be matched without an
726    /// intermediate local binding.
727    pub arg_source_paths: Vec<String>,
728    /// Byte offset of the sink span start. Stored as `u32` (not `Span`) so the
729    /// struct is bitcode-encodable and can be persisted directly in the cache.
730    pub span_start: u32,
731    /// Byte offset of the sink span end.
732    pub span_end: u32,
733    /// The arg-0 URL string literal of a network-shaped call (`fetch`, `axios.*`,
734    /// `got`, ...), captured so the `secret-to-network` category (#890) can carry
735    /// a destination-host signal on its candidate: `Some(literal)` when the
736    /// destination is a static string literal (almost always intended auth, e.g.
737    /// the credential's own provider), `None` when it is dynamic (the suspicious
738    /// case). `None` for non-call sinks and calls with no arg 0.
739    pub url_arg_literal: Option<String>,
740    /// URL construction shape for URL-like sink arguments when the extractor can
741    /// classify it syntactically. `None` for non-URL sinks and URL expressions
742    /// whose shape is not visible at the sink.
743    pub url_shape: Option<SecurityUrlShape>,
744}
745
746impl SinkSite {
747    /// Reconstruct the source span from the stored byte offsets.
748    #[must_use]
749    pub fn span(&self) -> Span {
750        Span::new(self.span_start, self.span_end)
751    }
752}
753
754/// Env var-name prefixes that frameworks inline into the client bundle by
755/// convention. A read of one of these is normal and safe, so it does NOT count
756/// as a secret source (issue #890). Shared by the extract layer (so public env
757/// vars never become source signals) and the bespoke `client-server-leak` rule.
758pub const PUBLIC_ENV_PREFIXES: &[&str] = &[
759    "NEXT_PUBLIC_",
760    "VITE_",
761    "NUXT_PUBLIC_",
762    "REACT_APP_",
763    "PUBLIC_",
764    "GATSBY_",
765    "EXPO_PUBLIC_",
766    "STORYBOOK_",
767];
768
769/// Exact env var names that are public by convention (no prefix).
770pub const PUBLIC_ENV_EXACT: &[&str] = &["NODE_ENV"];
771
772/// Env var-name tokens that usually describe public build or deployment
773/// metadata rather than secrets. Secret-shaped names win over these tokens.
774pub const PUBLIC_ENV_METADATA_TOKENS: &[&str] =
775    &["BRANCH", "ENVIRONMENT", "MODE", "REF", "SHA", "TAG"];
776
777/// Env var-name tokens that should keep a variable source-backed even when the
778/// name also contains public metadata tokens such as `REF` or `SHA`.
779pub const SECRET_ENV_TOKENS: &[&str] = &[
780    "AUTH",
781    "CREDENTIAL",
782    "CREDENTIALS",
783    "KEY",
784    "PASS",
785    "PASSWORD",
786    "PRIVATE",
787    "SECRET",
788    "TOKEN",
789];
790
791fn env_name_has_token(name: &str, tokens: &[&str]) -> bool {
792    name.split(|ch: char| !ch.is_ascii_alphanumeric())
793        .filter(|part| !part.is_empty())
794        .any(|part| tokens.contains(&part))
795}
796
797/// Whether an env var name is public-by-convention (build-inlined into the
798/// client bundle), and therefore not a secret.
799#[must_use]
800pub fn is_public_env_var(name: &str) -> bool {
801    if PUBLIC_ENV_EXACT.contains(&name) || PUBLIC_ENV_PREFIXES.iter().any(|p| name.starts_with(p)) {
802        return true;
803    }
804    env_name_has_token(name, PUBLIC_ENV_METADATA_TOKENS)
805        && !env_name_has_token(name, SECRET_ENV_TOKENS)
806}
807
808/// Whether a flattened member path is a PUBLIC env-secret read
809/// (`process.env.NEXT_PUBLIC_X`, `import.meta.env.VITE_Y`), which must not be
810/// recorded as a secret source. Non-env paths (`req.query.id`) are never public.
811#[must_use]
812pub fn is_public_env_path(path: &str) -> bool {
813    for object in ["process.env.", "import.meta.env."] {
814        if let Some(var) = path.strip_prefix(object) {
815            return is_public_env_var(var);
816        }
817    }
818    false
819}
820
821/// One alias entry tying an exported object's dotted property path to a namespace import.
822#[derive(Debug, Clone)]
823pub struct NamespaceObjectAlias {
824    /// Canonical export name.
825    pub via_export_name: String,
826    /// Dotted suffix of the property path relative to the export.
827    pub suffix: String,
828    /// Local name of the namespace import.
829    pub namespace_local: String,
830}
831
832/// Compute a table of line-start byte offsets from source text.
833#[must_use]
834#[expect(
835    clippy::cast_possible_truncation,
836    reason = "source files are practically < 4GB"
837)]
838pub fn compute_line_offsets(source: &str) -> Vec<u32> {
839    let mut offsets = vec![0u32];
840    for (i, byte) in source.bytes().enumerate() {
841        if byte == b'\n' {
842            debug_assert!(
843                u32::try_from(i + 1).is_ok(),
844                "source file exceeds u32::MAX bytes: line offsets would overflow"
845            );
846            offsets.push((i + 1) as u32);
847        }
848    }
849    offsets
850}
851
852/// Convert a byte offset to a 1-based line number and 0-based byte column.
853#[must_use]
854#[expect(
855    clippy::cast_possible_truncation,
856    reason = "line count is bounded by source size"
857)]
858pub fn byte_offset_to_line_col(line_offsets: &[u32], byte_offset: u32) -> (u32, u32) {
859    let line_idx = match line_offsets.binary_search(&byte_offset) {
860        Ok(idx) => idx,
861        Err(idx) => idx.saturating_sub(1),
862    };
863    let line = line_idx as u32 + 1;
864    let col = byte_offset - line_offsets[line_idx];
865    (line, col)
866}
867
868/// Complexity metrics for a single function/method/arrow.
869#[derive(Debug, Clone, serde::Serialize, bitcode::Encode, bitcode::Decode)]
870pub struct FunctionComplexity {
871    /// Function name (or `"<anonymous>"` for unnamed functions/arrows).
872    pub name: String,
873    /// 1-based line number where the function starts.
874    pub line: u32,
875    /// 0-based byte column where the function starts.
876    pub col: u32,
877    /// `McCabe` cyclomatic complexity (1 + decision points).
878    pub cyclomatic: u16,
879    /// `SonarSource` cognitive complexity (structural + nesting penalty).
880    pub cognitive: u16,
881    /// Number of lines in the function body.
882    pub line_count: u32,
883    /// Number of parameters (excluding TypeScript's `this` parameter).
884    pub param_count: u8,
885    /// Number of React hook calls (`useState` / `useEffect` / `useMemo` /
886    /// `useCallback` / custom `use*`) made directly in this function's body.
887    /// Non-zero only for React components/hooks; descriptive context surfaced in
888    /// the hotspot drill-down, never a tunable threshold (anti-numerology).
889    pub react_hook_count: u16,
890    /// Maximum JSX element nesting depth reached in this function's body (the
891    /// deepest chain of element-inside-element). `0` when the function renders
892    /// no JSX. Descriptive context surfaced in the hotspot drill-down, never a
893    /// tunable threshold (anti-numerology).
894    pub react_jsx_max_depth: u16,
895    /// Number of props destructured from this component's first parameter (the
896    /// `{ a, b, c }` props object). `0` for non-component functions and for
897    /// components taking a bare `props` identifier (not statically countable).
898    /// Descriptive context surfaced in the hotspot drill-down, never a tunable
899    /// threshold (anti-numerology).
900    pub react_prop_count: u16,
901    /// Content digest of the function's full-span source slice.
902    pub source_hash: Option<String>,
903    /// Per-decision-point breakdown explaining WHICH constructs drove the
904    /// cyclomatic and cognitive scores. One entry per increment event (an `if`
905    /// emits one cyclomatic and one cognitive entry at the same line, because
906    /// the two metrics accrue at different granularities). Always computed and
907    /// cached; surfaced in JSON only behind `health --complexity-breakdown`.
908    pub contributions: Vec<ComplexityContribution>,
909}
910
911/// Structural CSS metrics for a single style rule, computed from the parsed CSS
912/// syntax tree. A rule is recorded only when it crosses a structural floor (an
913/// id selector, a complex selector, a `!important` declaration, or deep
914/// nesting), so the vector stays bounded on normal stylesheets.
915///
916/// Not persisted in the extraction cache: `fallow health` computes these
917/// on demand from the CSS source, so there is no `bitcode` derive.
918#[derive(Debug, Clone, serde::Serialize)]
919#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
920pub struct CssRuleMetric {
921    /// 1-based line of the rule's first selector.
922    pub line: u32,
923    /// 1-based column of the rule's first selector.
924    pub col: u32,
925    /// Specificity component `a` (id selectors), max across the rule's selectors.
926    pub specificity_a: u16,
927    /// Specificity component `b` (class / attribute / pseudo-class selectors).
928    pub specificity_b: u16,
929    /// Specificity component `c` (type / pseudo-element selectors).
930    pub specificity_c: u16,
931    /// Largest selector component count across the rule's selector list.
932    pub complexity: u16,
933    /// Declaration count in the rule (normal plus `!important`).
934    pub declaration_count: u16,
935    /// `!important` declaration count in the rule.
936    pub important_count: u16,
937    /// Style-rule nesting depth (0 = top level).
938    pub nesting_depth: u8,
939}
940
941/// A style rule's declaration-block fingerprint and location, for cross-file
942/// duplicate-block detection. Only rules with a meaningful number of
943/// declarations are recorded (small blocks repeat legitimately). Internal
944/// staging only: this is consumed in-process by the health layer to build the
945/// grouped `duplicate_declaration_blocks` output and is never serialized.
946#[derive(Debug, Clone)]
947pub struct CssDeclarationBlock {
948    /// xxh3 fingerprint over the rule's normalized (sorted, `!important`-tagged)
949    /// declaration set.
950    pub fingerprint: u64,
951    /// 1-based line of the rule's first selector.
952    pub line: u32,
953    /// Declaration count in the rule (normal plus `!important`).
954    pub declaration_count: u16,
955}
956
957/// Located raw styling value authored directly in CSS rather than via a
958/// custom property or design-token helper. Internal staging for the health
959/// layer; public output adds actions and confidence.
960#[derive(Debug, Clone, PartialEq, Eq)]
961pub struct CssRawStyleValue {
962    /// Value axis, e.g. `color`, `font-size`, `line-height`, `radius`, or `shadow`.
963    pub axis: String,
964    /// CSS property where the value appears.
965    pub property: String,
966    /// Rendered declaration value.
967    pub value: String,
968    /// 1-based line of the containing style rule.
969    pub line: u32,
970}
971
972/// Located CSS custom-property definition with its rendered value. Internal
973/// staging for design-token reuse suggestions in the health layer.
974#[derive(Debug, Clone, PartialEq, Eq)]
975pub struct CssCustomPropertyDefinition {
976    /// Custom property name, including the leading `--`.
977    pub name: String,
978    /// Rendered custom property value.
979    pub value: String,
980    /// 1-based line of the containing style rule.
981    pub line: u32,
982}
983
984/// Stylesheet-level structural CSS analytics, computed from the parsed CSS
985/// syntax tree. Feeds `fallow health` penalty weights and located findings,
986/// never a standalone CSS score.
987#[derive(Debug, Clone, Default, serde::Serialize)]
988#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
989pub struct CssAnalytics {
990    /// Total declarations across every style rule (normal plus `!important`).
991    pub total_declarations: u32,
992    /// Total `!important` declarations across every style rule.
993    pub important_declarations: u32,
994    /// Number of style rules.
995    pub rule_count: u32,
996    /// Number of style rules with no declarations.
997    pub empty_rule_count: u32,
998    /// Deepest style-rule nesting depth observed (0 = no nesting).
999    pub max_nesting_depth: u8,
1000    /// Rules that crossed the structural floor, in source order. Bounded; see
1001    /// [`Self::notable_truncated`]. The scalar aggregates above always reflect
1002    /// the full stylesheet regardless of truncation.
1003    pub notable_rules: Vec<CssRuleMetric>,
1004    /// `true` when more rules crossed the structural floor than `notable_rules`
1005    /// retains (compiled utility CSS can emit thousands of `!important` rules),
1006    /// so consumers can note that per-rule findings were capped.
1007    pub notable_truncated: bool,
1008    /// Distinct color VALUES in the stylesheet, sorted (a palette-size /
1009    /// design-token-sprawl signal). The parser canonicalizes notation, so the
1010    /// authored format is NOT preserved: `red`, `#f00`, `#ff0000`, and
1011    /// `rgb(255,0,0)` all collapse to one entry, and every legacy sRGB notation
1012    /// renders as hex. Notation-MIXING (hex vs rgb vs hsl) is therefore not
1013    /// detectable from this set; it would need a separate raw-token pass.
1014    pub colors: Vec<String>,
1015    /// Distinct `font-size` declaration values in the stylesheet, sorted.
1016    pub font_sizes: Vec<String>,
1017    /// Distinct `z-index` declaration values in the stylesheet, sorted.
1018    pub z_indexes: Vec<String>,
1019    /// Distinct `box-shadow` declaration values in the stylesheet, sorted. A
1020    /// high count signals an uncontrolled shadow scale (design-token sprawl).
1021    pub box_shadows: Vec<String>,
1022    /// Distinct `border-radius` declaration values in the stylesheet, sorted.
1023    pub border_radii: Vec<String>,
1024    /// Distinct `line-height` declaration values in the stylesheet, sorted.
1025    pub line_heights: Vec<String>,
1026    /// Bounded located raw styling values that bypass custom properties or
1027    /// token helpers. These are conservative declaration-level candidates for
1028    /// audit introduced-vs-base gating.
1029    #[serde(skip)]
1030    #[cfg_attr(feature = "schema", schemars(skip))]
1031    pub raw_style_values: Vec<CssRawStyleValue>,
1032    /// Located custom-property definitions with values. Internal staging
1033    /// consumed by the health layer for nearest-token suggestions.
1034    #[serde(skip)]
1035    #[cfg_attr(feature = "schema", schemars(skip))]
1036    pub custom_property_definitions: Vec<CssCustomPropertyDefinition>,
1037    /// Distinct custom properties (`--x`) DEFINED in the stylesheet, sorted.
1038    pub defined_custom_properties: Vec<String>,
1039    /// Distinct custom properties REFERENCED via `var()` in the stylesheet.
1040    pub referenced_custom_properties: Vec<String>,
1041    /// Distinct `@keyframes` names DEFINED in the stylesheet, sorted.
1042    pub defined_keyframes: Vec<String>,
1043    /// Distinct `@keyframes` names REFERENCED via `animation` / `animation-name`.
1044    pub referenced_keyframes: Vec<String>,
1045    /// Distinct custom properties REGISTERED via an `@property` rule, sorted.
1046    pub registered_custom_properties: Vec<String>,
1047    /// Distinct cascade layers DECLARED (via `@layer a, b;` statements or named
1048    /// `@layer a { }` blocks), sorted.
1049    pub declared_layers: Vec<String>,
1050    /// Distinct cascade layers POPULATED by a named `@layer a { }` block, sorted.
1051    /// A layer declared but never populated (and not imported into) is a
1052    /// cleanup candidate.
1053    pub populated_layers: Vec<String>,
1054    /// Distinct font families DECLARED by an `@font-face` rule in the stylesheet,
1055    /// sorted. A declared family referenced by no `font-family` anywhere is a
1056    /// dead web-font payload (cleanup candidate).
1057    pub defined_font_faces: Vec<String>,
1058    /// Distinct font families REFERENCED via `font-family` / `font` in the
1059    /// stylesheet, sorted (generic keywords like `serif` excluded).
1060    pub referenced_font_families: Vec<String>,
1061    /// Per-rule declaration-block fingerprints for rules at or above the minimum
1062    /// block size, used to detect duplicate declaration blocks across the
1063    /// project. Internal staging consumed by the health layer; never serialized
1064    /// (the public output is the grouped `duplicate_declaration_blocks`).
1065    #[serde(skip)]
1066    #[cfg_attr(feature = "schema", schemars(skip))]
1067    pub declaration_blocks: Vec<CssDeclarationBlock>,
1068}
1069
1070/// Which complexity metric a [`ComplexityContribution`] adds to.
1071#[derive(Debug, Clone, Copy, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1072#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1073#[serde(rename_all = "kebab-case")]
1074pub enum ComplexityMetric {
1075    /// `McCabe` cyclomatic complexity (independent execution paths).
1076    Cyclomatic,
1077    /// `SonarSource` cognitive complexity (structural + nesting penalty).
1078    Cognitive,
1079}
1080
1081/// The syntactic construct that produced a single complexity increment.
1082///
1083/// Mirrors `SonarSource` cognitive-complexity vocabulary where it overlaps.
1084/// `Case` means a `case` label carrying a test; a bare `default` adds nothing
1085/// to cyclomatic complexity and so produces no contribution.
1086#[derive(Debug, Clone, Copy, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1087#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1088#[serde(rename_all = "kebab-case")]
1089pub enum ComplexityContributionKind {
1090    /// An `if` condition.
1091    If,
1092    /// A bare `else` branch (cognitive only).
1093    Else,
1094    /// An `else if` continuation (both metrics: cyclomatic +1, cognitive flat
1095    /// +1 with no nesting penalty).
1096    ElseIf,
1097    /// A `?:` conditional (ternary) expression.
1098    Ternary,
1099    /// A logical `&&` operator.
1100    LogicalAnd,
1101    /// A logical `||` operator.
1102    LogicalOr,
1103    /// A `??` nullish-coalescing operator.
1104    NullishCoalescing,
1105    /// A logical assignment operator (`&&=`, `||=`, `??=`); cyclomatic only.
1106    LogicalAssignment,
1107    /// An optional-chaining link (`?.`); cyclomatic only.
1108    OptionalChain,
1109    /// A `for` loop.
1110    For,
1111    /// A `for...in` loop.
1112    ForIn,
1113    /// A `for...of` loop.
1114    ForOf,
1115    /// A `while` loop.
1116    While,
1117    /// A `do...while` loop.
1118    DoWhile,
1119    /// A `switch` statement (cognitive only; each `case` adds cyclomatic).
1120    Switch,
1121    /// A `case` label carrying a test (cyclomatic only).
1122    Case,
1123    /// A `catch` clause.
1124    Catch,
1125    /// A labeled `break` (cognitive only).
1126    LabeledBreak,
1127    /// A labeled `continue` (cognitive only).
1128    LabeledContinue,
1129    /// Legacy JSX-depth contribution kind kept for schema compatibility. Current
1130    /// extraction records JSX nesting as descriptive `react_jsx_max_depth`
1131    /// context and does not emit this kind for layout depth.
1132    JsxDepth,
1133    /// React hook density (cognitive only). One contribution per hook call in a
1134    /// component body (`useState` / `useEffect` / `useMemo` / `useCallback` /
1135    /// custom `use*`); a hook-heavy component accrues cognitive load the same way
1136    /// branching does.
1137    HookDensity,
1138    /// React prop count past the comfortable floor (cognitive only). A component
1139    /// destructuring many props is doing many things; the props beyond the floor
1140    /// fold into cognitive so a wide-interface component surfaces as a hotspot.
1141    PropCount,
1142}
1143
1144/// A single complexity increment, located at its source line/column.
1145///
1146/// `weight` is the amount this construct added to `metric`; for nested
1147/// cognitive increments `weight == 1 + nesting`. Consumers that render inline
1148/// (the VS Code editor breakdown) group contributions by `line` and sum the
1149/// weights, deferring the per-kind list to a hover.
1150#[derive(Debug, Clone, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1151#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1152pub struct ComplexityContribution {
1153    /// 1-based line number where the construct begins.
1154    pub line: u32,
1155    /// 0-based byte column where the construct begins.
1156    pub col: u32,
1157    /// Which metric this increment contributes to.
1158    pub metric: ComplexityMetric,
1159    /// The syntactic construct responsible for the increment.
1160    pub kind: ComplexityContributionKind,
1161    /// The amount added to `metric` at this site (`1 + nesting` for nested
1162    /// cognitive increments, otherwise `1`).
1163    pub weight: u16,
1164    /// The nesting depth at the increment site (`0` when not nested). Lets a
1165    /// consumer explain a cognitive `+3` as "+1 base, +2 nesting".
1166    pub nesting: u16,
1167}
1168
1169/// The kind of feature flag pattern detected.
1170#[derive(Debug, Clone, Copy, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
1171pub enum FlagUseKind {
1172    /// `process.env.FEATURE_X` pattern.
1173    EnvVar,
1174    /// SDK function call like `useFlag('name')`.
1175    SdkCall,
1176    /// Config object access like `config.features.x`.
1177    ConfigObject,
1178}
1179
1180/// A feature flag use site.
1181#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
1182pub struct FlagUse {
1183    /// Flag identifier.
1184    pub flag_name: String,
1185    /// Detection kind.
1186    pub kind: FlagUseKind,
1187    /// 1-based line number.
1188    pub line: u32,
1189    /// 0-based byte column offset.
1190    pub col: u32,
1191    /// Start byte offset of the guarded block.
1192    pub guard_span_start: Option<u32>,
1193    /// End byte offset of the guarded block.
1194    pub guard_span_end: Option<u32>,
1195    /// SDK/provider name.
1196    pub sdk_name: Option<String>,
1197}
1198
1199const _: () = assert!(std::mem::size_of::<FlagUse>() <= 96);
1200
1201/// A dynamic import with a partially resolved pattern.
1202#[derive(Debug, Clone)]
1203pub struct DynamicImportPattern {
1204    /// Static prefix of the import path (e.g., "./locales/"). May contain glob characters.
1205    pub prefix: String,
1206    /// Static suffix of the import path (e.g., ".json"), if any.
1207    pub suffix: Option<String>,
1208    /// Source span in the original file.
1209    pub span: Span,
1210}
1211
1212/// Visibility tag from JSDoc/TSDoc comments that suppresses unused-export detection.
1213#[derive(Debug, Clone, Copy, Default, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
1214#[serde(rename_all = "lowercase")]
1215#[repr(u8)]
1216pub enum VisibilityTag {
1217    /// No visibility tag present.
1218    #[default]
1219    None = 0,
1220    /// `@public` or `@api public` -- part of the public API surface.
1221    Public = 1,
1222    /// `@internal` -- exported for internal use (sister packages, build tools).
1223    Internal = 2,
1224    /// `@beta` -- public but unstable, may change without notice.
1225    Beta = 3,
1226    /// `@alpha` -- early preview, may change drastically without notice.
1227    Alpha = 4,
1228    /// `@expected-unused` -- intentionally unused, should warn when it becomes used.
1229    ExpectedUnused = 5,
1230}
1231
1232impl VisibilityTag {
1233    /// Whether this tag permanently suppresses unused-export detection.
1234    /// `ExpectedUnused` is handled separately (conditionally suppresses,
1235    /// reports stale when the export becomes used).
1236    pub const fn suppresses_unused(self) -> bool {
1237        matches!(
1238            self,
1239            Self::Public | Self::Internal | Self::Beta | Self::Alpha
1240        )
1241    }
1242
1243    /// For serde `skip_serializing_if`.
1244    pub fn is_none(&self) -> bool {
1245        matches!(self, Self::None)
1246    }
1247}
1248
1249/// An export declaration.
1250#[derive(Debug, Clone, serde::Serialize)]
1251pub struct ExportInfo {
1252    /// The exported name (named or default).
1253    pub name: ExportName,
1254    /// The local binding name, if different from the exported name.
1255    pub local_name: Option<String>,
1256    /// Whether this is a type-only export (`export type`).
1257    pub is_type_only: bool,
1258    /// Whether this export is registered through a runtime side effect at module load time.
1259    #[serde(default, skip_serializing_if = "std::ops::Not::not")]
1260    pub is_side_effect_used: bool,
1261    /// Visibility tag from JSDoc/TSDoc comment.
1262    #[serde(default, skip_serializing_if = "VisibilityTag::is_none")]
1263    pub visibility: VisibilityTag,
1264    /// Human-authored reason on `@expected-unused -- <reason>`, when present.
1265    #[serde(default, skip_serializing_if = "Option::is_none")]
1266    pub expected_unused_reason: Option<String>,
1267    /// Source span of the export declaration.
1268    #[serde(serialize_with = "serialize_span")]
1269    pub span: Span,
1270    /// Members of this export (for enums, classes, and namespaces).
1271    #[serde(default, skip_serializing_if = "Vec::is_empty")]
1272    pub members: Vec<MemberInfo>,
1273    /// The local name of the parent class from `extends` clause, if any.
1274    #[serde(default, skip_serializing_if = "Option::is_none")]
1275    pub super_class: Option<String>,
1276}
1277
1278/// Additional heritage metadata for an exported class.
1279#[derive(
1280    Debug,
1281    Clone,
1282    serde::Serialize,
1283    serde::Deserialize,
1284    bitcode::Encode,
1285    bitcode::Decode,
1286    PartialEq,
1287    Eq,
1288)]
1289pub struct ClassHeritageInfo {
1290    /// Export name (`default` for default-exported classes).
1291    pub export_name: String,
1292    /// Parent class name from the `extends` clause, if any.
1293    pub super_class: Option<String>,
1294    /// Interface names from the class `implements` clause.
1295    pub implements: Vec<String>,
1296    /// Typed instance bindings used to resolve member-access chains in external templates.
1297    #[serde(default, skip_serializing_if = "Vec::is_empty")]
1298    pub instance_bindings: Vec<(String, String)>,
1299}
1300
1301/// An exported free-function factory proven to return one class instance.
1302///
1303/// `export function useApi() { return new RESTApi() }` records
1304/// `FactoryReturnExport { export_name: "useApi", class_local_name: "RESTApi" }`.
1305/// The `class_local_name` is the factory module's own LOCAL name, resolved at
1306/// analyze time through that module's imports/exports to the real class export,
1307/// so a cross-module `const x = useApi(); x.member` consumer credits the class
1308/// across the boundary. See issue #1441 (Part A).
1309#[derive(
1310    Debug,
1311    Clone,
1312    serde::Serialize,
1313    serde::Deserialize,
1314    bitcode::Encode,
1315    bitcode::Decode,
1316    PartialEq,
1317    Eq,
1318)]
1319pub struct FactoryReturnExport {
1320    /// Public export name (honors `export { useApi as useRestApi }`).
1321    pub export_name: String,
1322    /// The returned class's local name within the factory module.
1323    pub class_local_name: String,
1324}
1325
1326/// A module-scope declaration that can be used as a TypeScript type.
1327#[derive(Debug, Clone, serde::Serialize, PartialEq, Eq)]
1328pub struct LocalTypeDeclaration {
1329    /// Local declaration name.
1330    pub name: String,
1331    /// Declaration identifier span.
1332    #[serde(serialize_with = "serialize_span")]
1333    pub span: Span,
1334}
1335
1336/// A reference from an exported symbol's public signature to a type name.
1337#[derive(Debug, Clone, serde::Serialize, PartialEq, Eq)]
1338pub struct PublicSignatureTypeReference {
1339    /// Exported symbol whose signature contains the reference.
1340    pub export_name: String,
1341    /// Referenced type name. Qualified names are reduced to their root identifier.
1342    pub type_name: String,
1343    /// Reference span.
1344    #[serde(serialize_with = "serialize_span")]
1345    pub span: Span,
1346}
1347
1348/// A member of an enum, class, or namespace.
1349#[derive(Debug, Clone, serde::Serialize)]
1350pub struct MemberInfo {
1351    /// Member name.
1352    pub name: String,
1353    /// The kind of member (enum, class method/property, or namespace member).
1354    pub kind: MemberKind,
1355    /// Source span of the member declaration.
1356    #[serde(serialize_with = "serialize_span")]
1357    pub span: Span,
1358    /// Whether this member has decorators (e.g., `@Column()`, `@Inject()`).
1359    /// Decorated members are used by frameworks at runtime and should not be
1360    /// flagged as unused class members, unless every decorator on the member
1361    /// is opted out via `FallowConfig.ignore_decorators`.
1362    #[serde(default, skip_serializing_if = "std::ops::Not::not")]
1363    pub has_decorator: bool,
1364    /// Full dotted path of each decorator on this member, in source order.
1365    /// `@step("x")` stores `"step"`; `@ns.foo` stores `"ns.foo"`. Empty for
1366    /// undecorated members, Angular signal-initializer properties (which set
1367    /// `has_decorator` without a literal decorator AST node), and decorators
1368    /// whose expression is not an identifier ladder (the entry is the empty
1369    /// string in that case, treated as never-matching by the predicate).
1370    #[serde(default, skip_serializing_if = "Vec::is_empty")]
1371    pub decorator_names: Vec<String>,
1372    /// True when this is a static class method that returns a fresh instance
1373    /// of the same class: either via `return new this()` / `return new
1374    /// <SameClassName>()` in the body's last statement, or via a declared
1375    /// return type matching the class name. Consumers calling such a static
1376    /// method receive an instance, so the call result's member accesses are
1377    /// credited against the class. See issues #346, #387.
1378    #[serde(default, skip_serializing_if = "std::ops::Not::not")]
1379    pub is_instance_returning_static: bool,
1380    /// True when this is an instance class method whose call result is an
1381    /// instance of the same class. Qualifies when the declared return type
1382    /// matches the class name (`setX(): EventBuilder { ... }`) or when the
1383    /// body's last statement is `return this`. The analyze layer walks fluent
1384    /// chains (`Class.factory().setX().setY()`) only through methods carrying
1385    /// this flag, so the chain stops at a non-self-returning method like
1386    /// `.build()`. See issue #387.
1387    #[serde(default, skip_serializing_if = "std::ops::Not::not")]
1388    pub is_self_returning: bool,
1389}
1390
1391/// The kind of member.
1392#[derive(
1393    Debug,
1394    Clone,
1395    Copy,
1396    PartialEq,
1397    Eq,
1398    serde::Serialize,
1399    serde::Deserialize,
1400    bitcode::Encode,
1401    bitcode::Decode,
1402)]
1403#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1404#[serde(rename_all = "snake_case")]
1405pub enum MemberKind {
1406    /// A TypeScript enum member.
1407    EnumMember,
1408    /// A class method.
1409    ClassMethod,
1410    /// A class property.
1411    ClassProperty,
1412    /// A member exported from a TypeScript namespace.
1413    NamespaceMember,
1414    /// A member declared by a store object (Pinia `state` / `getters` /
1415    /// `actions` key, or a setup-store returned key). Cross-graph dead-member
1416    /// detection: a store member never accessed by any consumer project-wide.
1417    StoreMember,
1418}
1419
1420/// A static member access expression (e.g., `Status.Active`, `MyClass.create()`).
1421#[derive(Debug, Clone, serde::Serialize, serde::Deserialize, bitcode::Encode, bitcode::Decode)]
1422pub struct MemberAccess {
1423    /// The identifier being accessed (the import name).
1424    pub object: String,
1425    /// The member being accessed.
1426    pub member: String,
1427}
1428
1429/// A typed extraction fact for cross-layer analysis.
1430#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1431#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1432#[serde(tag = "kind", rename_all = "snake_case")]
1433pub enum SemanticFact {
1434    /// A class member referenced from an Angular template, host binding, or
1435    /// component metadata entry.
1436    AngularTemplateMemberAccess(AngularTemplateMemberAccessFact),
1437    /// An Angular component spreads `this` into an object literal, so component
1438    /// input/output usage is opaque.
1439    AngularThisSpread(AngularThisSpreadFact),
1440    /// A member access on a value returned by an imported static factory call.
1441    FactoryCallMemberAccess(FactoryCallMemberAccessFact),
1442    /// A member access on a value returned by an imported free-function factory
1443    /// (`const x = importedFactory(); x.member`). See issue #1441 (Part A).
1444    FactoryFnMemberAccess(FactoryFnMemberAccessFact),
1445    /// A member access on a fluent chain rooted at an imported static factory.
1446    FluentChainMemberAccess(FluentChainMemberAccessFact),
1447    /// A member access on a fluent chain rooted at a `new` expression.
1448    FluentChainNewMemberAccess(FluentChainNewMemberAccessFact),
1449    /// A member access on a Playwright fixture object inside a test callback.
1450    PlaywrightFixtureUse(PlaywrightFixtureUseFact),
1451    /// A Playwright fixture definition declared by a typed `test.extend<T>()`.
1452    PlaywrightFixtureDefinition(PlaywrightFixtureDefinitionFact),
1453    /// A Playwright fixture wrapper alias declared by `mergeTests` or `.extend`.
1454    PlaywrightFixtureAlias(PlaywrightFixtureAliasFact),
1455    /// A nested Playwright fixture binding declared by a fixture type alias.
1456    PlaywrightFixtureType(PlaywrightFixtureTypeFact),
1457    /// An exported value whose runtime instance targets a local class or interface.
1458    InstanceExportBinding(InstanceExportBindingFact),
1459    /// A dynamic custom-element tag render that makes static Lit tag credit opaque.
1460    DynamicCustomElementRender(DynamicCustomElementRenderFact),
1461}
1462
1463/// Iterate Angular template member names from typed semantic facts.
1464fn angular_template_member_names_from_parts(
1465    semantic_facts: &[SemanticFact],
1466) -> impl Iterator<Item = &str> {
1467    semantic_facts.iter().filter_map(|fact| {
1468        if let SemanticFact::AngularTemplateMemberAccess(access) = fact {
1469            Some(access.member.as_str())
1470        } else {
1471            None
1472        }
1473    })
1474}
1475
1476/// Iterate Angular template member names from a module's typed facts.
1477pub fn angular_template_member_names(module: &ModuleInfo) -> impl Iterator<Item = &str> {
1478    angular_template_member_names_from_parts(&module.semantic_facts)
1479}
1480
1481/// Return true when the fact slice contains any Angular template member
1482/// reference.
1483#[must_use]
1484fn has_angular_template_members_from_parts(semantic_facts: &[SemanticFact]) -> bool {
1485    angular_template_member_names_from_parts(semantic_facts)
1486        .next()
1487        .is_some()
1488}
1489
1490/// Return true when the module contains any Angular template member reference.
1491#[must_use]
1492pub fn has_angular_template_members(module: &ModuleInfo) -> bool {
1493    has_angular_template_members_from_parts(&module.semantic_facts)
1494}
1495
1496/// Return true when a module spreads `this` in Angular template context.
1497#[must_use]
1498pub fn has_angular_this_spread(module: &ModuleInfo) -> bool {
1499    SemanticFactView::new(&module.semantic_facts, &module.member_accesses).has_angular_this_spread()
1500}
1501
1502/// Return true when a module contains a dynamic custom-element render.
1503#[must_use]
1504pub fn has_dynamic_custom_element_render(module: &ModuleInfo) -> bool {
1505    module
1506        .semantic_facts
1507        .iter()
1508        .any(|fact| matches!(fact, SemanticFact::DynamicCustomElementRender(_)))
1509}
1510
1511/// Typed-first view over semantic extraction facts.
1512///
1513/// Extraction populates `semantic_facts` directly. The `member_accesses` slice
1514/// remains available for consumers that need ordinary source member accesses,
1515/// but it is no longer decoded as a string protocol for semantic facts.
1516#[derive(Debug, Clone, Copy)]
1517pub struct SemanticFactView<'a> {
1518    semantic_facts: &'a [SemanticFact],
1519    member_accesses: &'a [MemberAccess],
1520}
1521
1522impl<'a> SemanticFactView<'a> {
1523    /// Create a typed semantic fact view from current semantic facts plus
1524    /// ordinary source member accesses.
1525    #[must_use]
1526    pub const fn new(
1527        semantic_facts: &'a [SemanticFact],
1528        member_accesses: &'a [MemberAccess],
1529    ) -> Self {
1530        Self {
1531            semantic_facts,
1532            member_accesses,
1533        }
1534    }
1535
1536    /// Iterate typed semantic facts.
1537    pub fn facts(self) -> impl Iterator<Item = &'a SemanticFact> + 'a {
1538        self.semantic_facts.iter()
1539    }
1540
1541    /// Iterate Angular template member references.
1542    pub fn angular_template_member_names(self) -> impl Iterator<Item = &'a str> + 'a {
1543        angular_template_member_names_from_parts(self.semantic_facts)
1544    }
1545
1546    /// Return true when any Angular template member reference exists.
1547    #[must_use]
1548    pub fn has_angular_template_members(self) -> bool {
1549        self.angular_template_member_names().next().is_some()
1550    }
1551
1552    /// Return true when a module spreads `this` in Angular template context.
1553    #[must_use]
1554    pub fn has_angular_this_spread(self) -> bool {
1555        self.semantic_facts
1556            .iter()
1557            .any(|fact| matches!(fact, SemanticFact::AngularThisSpread(_)))
1558    }
1559
1560    /// Iterate ordinary source member accesses.
1561    pub fn ordinary_member_accesses(self) -> impl Iterator<Item = &'a MemberAccess> + 'a {
1562        self.member_accesses.iter()
1563    }
1564
1565    /// Collect instance-export binding facts.
1566    pub fn instance_export_bindings(self) -> Vec<InstanceExportBindingFact> {
1567        instance_export_binding_facts(self.semantic_facts)
1568            .cloned()
1569            .collect()
1570    }
1571
1572    /// Collect static factory call member facts.
1573    pub fn factory_call_member_accesses(self) -> Vec<FactoryCallMemberAccessFact> {
1574        factory_call_member_access_facts(self.semantic_facts)
1575            .cloned()
1576            .collect()
1577    }
1578
1579    /// Collect free-function factory-return member facts.
1580    pub fn factory_fn_member_accesses(self) -> Vec<FactoryFnMemberAccessFact> {
1581        factory_fn_member_access_facts(self.semantic_facts)
1582            .cloned()
1583            .collect()
1584    }
1585
1586    /// Collect static factory fluent-chain member facts.
1587    pub fn fluent_chain_member_accesses(self) -> Vec<FluentChainMemberAccessFact> {
1588        fluent_chain_member_access_facts(self.semantic_facts)
1589            .cloned()
1590            .collect()
1591    }
1592
1593    /// Collect constructor-rooted fluent-chain member facts.
1594    pub fn fluent_chain_new_member_accesses(self) -> Vec<FluentChainNewMemberAccessFact> {
1595        fluent_chain_new_member_access_facts(self.semantic_facts)
1596            .cloned()
1597            .collect()
1598    }
1599
1600    /// Collect Playwright fixture-use facts.
1601    pub fn playwright_fixture_uses(self) -> Vec<PlaywrightFixtureUseFact> {
1602        playwright_fixture_use_facts(self.semantic_facts)
1603            .cloned()
1604            .collect()
1605    }
1606
1607    /// Collect Playwright fixture-definition facts.
1608    pub fn playwright_fixture_definitions(self) -> Vec<PlaywrightFixtureDefinitionFact> {
1609        playwright_fixture_definition_facts(self.semantic_facts)
1610            .cloned()
1611            .collect()
1612    }
1613
1614    /// Collect Playwright fixture-alias facts.
1615    pub fn playwright_fixture_aliases(self) -> Vec<PlaywrightFixtureAliasFact> {
1616        playwright_fixture_alias_facts(self.semantic_facts)
1617            .cloned()
1618            .collect()
1619    }
1620
1621    /// Collect Playwright fixture-type facts.
1622    pub fn playwright_fixture_types(self) -> Vec<PlaywrightFixtureTypeFact> {
1623        playwright_fixture_type_facts(self.semantic_facts)
1624            .cloned()
1625            .collect()
1626    }
1627}
1628
1629/// Iterate ordinary whole-object uses.
1630pub fn ordinary_whole_object_uses(whole_object_uses: &[String]) -> impl Iterator<Item = &str> {
1631    whole_object_uses.iter().map(String::as_str)
1632}
1633
1634/// Iterate typed instance-export binding facts.
1635fn instance_export_binding_facts(
1636    semantic_facts: &[SemanticFact],
1637) -> impl Iterator<Item = &InstanceExportBindingFact> {
1638    semantic_facts.iter().filter_map(|fact| {
1639        if let SemanticFact::InstanceExportBinding(access) = fact {
1640            Some(access)
1641        } else {
1642            None
1643        }
1644    })
1645}
1646
1647/// Iterate typed factory-call member facts.
1648fn factory_call_member_access_facts(
1649    semantic_facts: &[SemanticFact],
1650) -> impl Iterator<Item = &FactoryCallMemberAccessFact> {
1651    semantic_facts.iter().filter_map(|fact| {
1652        if let SemanticFact::FactoryCallMemberAccess(access) = fact {
1653            Some(access)
1654        } else {
1655            None
1656        }
1657    })
1658}
1659
1660/// Iterate typed free-function factory-return member facts.
1661fn factory_fn_member_access_facts(
1662    semantic_facts: &[SemanticFact],
1663) -> impl Iterator<Item = &FactoryFnMemberAccessFact> {
1664    semantic_facts.iter().filter_map(|fact| {
1665        if let SemanticFact::FactoryFnMemberAccess(access) = fact {
1666            Some(access)
1667        } else {
1668            None
1669        }
1670    })
1671}
1672
1673/// Iterate typed fluent-chain member facts.
1674fn fluent_chain_member_access_facts(
1675    semantic_facts: &[SemanticFact],
1676) -> impl Iterator<Item = &FluentChainMemberAccessFact> {
1677    semantic_facts.iter().filter_map(|fact| {
1678        if let SemanticFact::FluentChainMemberAccess(access) = fact {
1679            Some(access)
1680        } else {
1681            None
1682        }
1683    })
1684}
1685
1686/// Iterate typed constructor-rooted fluent-chain member facts.
1687fn fluent_chain_new_member_access_facts(
1688    semantic_facts: &[SemanticFact],
1689) -> impl Iterator<Item = &FluentChainNewMemberAccessFact> {
1690    semantic_facts.iter().filter_map(|fact| {
1691        if let SemanticFact::FluentChainNewMemberAccess(access) = fact {
1692            Some(access)
1693        } else {
1694            None
1695        }
1696    })
1697}
1698
1699/// Iterate typed Playwright fixture-use facts.
1700fn playwright_fixture_use_facts(
1701    semantic_facts: &[SemanticFact],
1702) -> impl Iterator<Item = &PlaywrightFixtureUseFact> {
1703    semantic_facts.iter().filter_map(|fact| {
1704        if let SemanticFact::PlaywrightFixtureUse(access) = fact {
1705            Some(access)
1706        } else {
1707            None
1708        }
1709    })
1710}
1711
1712/// Iterate typed Playwright fixture-definition facts.
1713fn playwright_fixture_definition_facts(
1714    semantic_facts: &[SemanticFact],
1715) -> impl Iterator<Item = &PlaywrightFixtureDefinitionFact> {
1716    semantic_facts.iter().filter_map(|fact| {
1717        if let SemanticFact::PlaywrightFixtureDefinition(access) = fact {
1718            Some(access)
1719        } else {
1720            None
1721        }
1722    })
1723}
1724
1725/// Iterate typed Playwright fixture-alias facts.
1726fn playwright_fixture_alias_facts(
1727    semantic_facts: &[SemanticFact],
1728) -> impl Iterator<Item = &PlaywrightFixtureAliasFact> {
1729    semantic_facts.iter().filter_map(|fact| {
1730        if let SemanticFact::PlaywrightFixtureAlias(access) = fact {
1731            Some(access)
1732        } else {
1733            None
1734        }
1735    })
1736}
1737
1738/// Iterate typed Playwright fixture-type facts.
1739fn playwright_fixture_type_facts(
1740    semantic_facts: &[SemanticFact],
1741) -> impl Iterator<Item = &PlaywrightFixtureTypeFact> {
1742    semantic_facts.iter().filter_map(|fact| {
1743        if let SemanticFact::PlaywrightFixtureType(access) = fact {
1744            Some(access)
1745        } else {
1746            None
1747        }
1748    })
1749}
1750
1751/// A member name referenced from an Angular template surface.
1752#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1753#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1754pub struct AngularTemplateMemberAccessFact {
1755    /// Referenced class member name.
1756    pub member: String,
1757}
1758
1759/// Opaque Angular `{ ...this }` forwarding marker.
1760#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1761#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1762pub struct AngularThisSpreadFact;
1763
1764/// A member access on a static factory call result.
1765#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1766#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1767pub struct FactoryCallMemberAccessFact {
1768    /// Local imported class or namespace object used as the factory callee.
1769    pub callee_object: String,
1770    /// Static factory method invoked on the callee object.
1771    pub callee_method: String,
1772    /// Member accessed on the returned instance-like object.
1773    pub member: String,
1774}
1775
1776/// A member access on a value returned by an imported free-function factory.
1777///
1778/// `const x = importedFactory(); x.member` emits one fact per first-level read
1779/// on `x`. The analyze layer resolves `callee_name` through the consumer's
1780/// imports to the factory's origin module, reads that module's
1781/// `exported_factory_returns` to learn the returned class's local name, resolves
1782/// THAT through the factory module's own imports to the class export, and
1783/// credits `member` on the class. See issue #1441 (Part A).
1784#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1785#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1786pub struct FactoryFnMemberAccessFact {
1787    /// Local imported function used as the factory callee.
1788    pub callee_name: String,
1789    /// Member accessed on the returned instance-like object.
1790    pub member: String,
1791}
1792
1793/// A member access on a fluent chain rooted at a static factory call.
1794#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1795#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1796pub struct FluentChainMemberAccessFact {
1797    /// Local imported class or namespace object used as the chain root.
1798    pub root_object: String,
1799    /// Static factory method that starts the fluent chain.
1800    pub root_method: String,
1801    /// Intermediate fluent methods between the root method and final member.
1802    pub chain: Vec<String>,
1803    /// Member accessed at this chain step.
1804    pub member: String,
1805}
1806
1807/// A member access on a fluent chain rooted at a `new` expression.
1808#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1809#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1810pub struct FluentChainNewMemberAccessFact {
1811    /// Local imported class constructed by the `new` expression.
1812    pub class_name: String,
1813    /// Intermediate fluent methods between construction and final member.
1814    pub chain: Vec<String>,
1815    /// Member accessed at this chain step.
1816    pub member: String,
1817}
1818
1819/// A member access on a Playwright fixture object inside a test callback.
1820#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1821#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1822pub struct PlaywrightFixtureUseFact {
1823    /// Local test function or wrapper used as the callback callee.
1824    pub test_name: String,
1825    /// Fixture name or dotted fixture path referenced in the callback.
1826    pub fixture_name: String,
1827    /// Member accessed on the fixture target.
1828    pub member: String,
1829}
1830
1831/// A Playwright fixture definition declared by a typed `test.extend<T>()`.
1832#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1833#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1834pub struct PlaywrightFixtureDefinitionFact {
1835    /// Local test function or wrapper receiving the fixture definition.
1836    pub test_name: String,
1837    /// Fixture name or dotted fixture path declared by the fixture type.
1838    pub fixture_name: String,
1839    /// Local type symbol used as the fixture target.
1840    pub type_name: String,
1841}
1842
1843/// A Playwright fixture wrapper alias declared by `mergeTests` or `.extend`.
1844#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1845#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1846pub struct PlaywrightFixtureAliasFact {
1847    /// Local test function or wrapper that inherits fixture definitions.
1848    pub test_name: String,
1849    /// Local test function or wrapper inherited by `test_name`.
1850    pub base_name: String,
1851}
1852
1853/// A nested Playwright fixture binding declared by a fixture type alias.
1854#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1855#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1856pub struct PlaywrightFixtureTypeFact {
1857    /// Local type alias containing the nested fixture binding.
1858    pub alias_name: String,
1859    /// Fixture name or dotted fixture path declared inside the type alias.
1860    pub fixture_name: String,
1861    /// Local type symbol used as the nested fixture target.
1862    pub type_name: String,
1863}
1864
1865/// An exported value whose runtime instance targets a local class or interface.
1866#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1867#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1868pub struct InstanceExportBindingFact {
1869    /// Exported binding name.
1870    pub export_name: String,
1871    /// Local class or interface symbol used as the instance target.
1872    pub target_name: String,
1873}
1874
1875/// Opaque marker for a dynamic custom-element render site.
1876#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, bitcode::Encode, bitcode::Decode)]
1877#[cfg_attr(feature = "schema", derive(schemars::JsonSchema))]
1878pub struct DynamicCustomElementRenderFact;
1879
1880/// A statically flattenable callee path invoked in a module (e.g. `execSync`,
1881/// `child_process.exec`, `console.log`). One entry per unique `callee_path`
1882/// per module; the span anchors the first occurrence. Consumed by the
1883/// `boundaries.calls.forbidden` detector.
1884#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
1885pub struct CalleeUse {
1886    /// The dotted or bare callee path as written at the call site.
1887    pub callee_path: String,
1888    /// Start byte offset of the first call site using this path.
1889    pub span_start: u32,
1890}
1891
1892/// A `"use client"` / `"use server"` directive string written as an expression
1893/// statement in `program.body` (NOT the leading prologue), so the RSC bundler
1894/// silently ignores it. One entry per offending occurrence. Consumed by the
1895/// `misplaced-directive` detector.
1896#[derive(Debug, Clone, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
1897pub struct MisplacedDirectiveSite {
1898    /// `true` for `"use server"`, `false` for `"use client"`.
1899    pub is_server: bool,
1900    /// Start byte offset of the misplaced directive statement.
1901    pub span_start: u32,
1902}
1903
1904/// Which side of a dependency-injection link a call site represents.
1905#[derive(Debug, Clone, Copy, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
1906pub enum DiRole {
1907    /// `provide(KEY, value)` / `app.provide(KEY, value)` / `setContext(KEY, value)`.
1908    Provide,
1909    /// `inject(KEY)` / `getContext(KEY)`.
1910    Inject,
1911}
1912
1913/// Which framework's DI API a call site came from (drives the finding message).
1914#[derive(Debug, Clone, Copy, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
1915pub enum DiFramework {
1916    /// Vue `provide` / `inject` (from `vue` / `@vue/runtime-core`).
1917    Vue,
1918    /// Svelte `setContext` / `getContext` (from `svelte`).
1919    Svelte,
1920    /// Angular `inject(TOKEN)` / `@Inject(TOKEN)` (from `@angular/core`),
1921    /// matched against `{ provide: TOKEN, ... }` provider objects.
1922    Angular,
1923}
1924
1925/// A Vue `provide`/`inject` or Svelte `setContext`/`getContext` call site keyed
1926/// by an identifier symbol. The `key_local` is resolved at analyze time through
1927/// the consuming module's import/export tables to a canonical defining-site
1928/// export key, so a provide and an inject of the same shared symbol unify even
1929/// across barrel re-exports. Consumed by the `unprovided-inject` detector.
1930#[derive(Debug, Clone, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
1931pub struct DiKeySite {
1932    /// The key identifier as written at the call site.
1933    pub key_local: String,
1934    /// Whether this is a provide or an inject.
1935    pub role: DiRole,
1936    /// Which framework's API this came from.
1937    pub framework: DiFramework,
1938    /// Start byte offset of the call expression (anchors the finding).
1939    pub span_start: u32,
1940}
1941
1942/// A component prop declared by Vue `<script setup>` `defineProps` or Svelte 5
1943/// `$props()`. `used_in_script` / `used_in_template` are set during extraction;
1944/// the `unused-component-prop` detector flags a prop where neither is true. See
1945/// `harvest_define_props` and `harvest_svelte_props` in `sfc_props.rs`.
1946#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
1947pub struct ComponentProp {
1948    /// The declared prop name.
1949    pub name: String,
1950    /// The template/script-visible local binding name: the destructure alias for
1951    /// `const { name: alias } = defineProps()` or
1952    /// `let { name: alias } = $props()`, otherwise the prop name itself. A
1953    /// renamed prop is read through this local, so usage must be checked against
1954    /// it, not the declared name.
1955    pub local: String,
1956    /// Start byte offset of the prop declaration (anchors the finding).
1957    pub span_start: u32,
1958    /// Whether this prop is referenced in the component's `<script>` (a
1959    /// destructured local binding with a resolved reference, or a `props.<name>`
1960    /// member access). For React, this is set-in-body: a resolved reference to the
1961    /// destructured local anywhere in the component function body.
1962    pub used_in_script: bool,
1963    /// Whether this prop name is referenced in the component's `<template>`.
1964    /// Set by `apply_template_usage` when the template scanner credits the name.
1965    /// Always false for React (no template; React uses `used_in_script`).
1966    pub used_in_template: bool,
1967    /// The enclosing component name. Empty for Vue SFCs (one component per file,
1968    /// the file stem is the component, set by the detector). For React this is the
1969    /// component function/arrow name a prop was declared on, so the detector can
1970    /// emit the right `component_name` and apply the per-component abstain ladder
1971    /// (a file can declare several React components).
1972    pub component: String,
1973    /// React-only: `true` when the destructured prop local is referenced at least
1974    /// once OUTSIDE a child-JSX attribute value expression (a substantive
1975    /// consumption: a hook arg, a host-element child, a non-JSX-attr read). When
1976    /// `used_in_script` is true but this is false, the prop is referenced ONLY as
1977    /// the root of forwarded child attribute values, i.e. a pure pass-through.
1978    /// Always `false` for Vue (no forward-vs-consume distinction is computed).
1979    pub used_outside_forward: bool,
1980}
1981
1982/// A Vue `<script setup>` `defineEmits` declared event, harvested from the type
1983/// tuple-call form (`defineEmits<{ (e: 'foo'): void }>()`), the type object form
1984/// (`defineEmits<{ foo: [x: string] }>()`), or the runtime array form
1985/// (`defineEmits(['foo'])`). `used` is set during extraction when the bound emit
1986/// name is called as `emit('<name>')`. The `unused-component-emit` detector flags
1987/// an event where `used` is false. See `harvest_define_emits` in `sfc_props.rs`.
1988#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
1989pub struct ComponentEmit {
1990    /// The declared emit event name.
1991    pub name: String,
1992    /// Start byte offset of the emit declaration (anchors the finding).
1993    pub span_start: u32,
1994    /// Whether this event is emitted via `emit('<name>')` somewhere in the
1995    /// component's `<script>`.
1996    pub used: bool,
1997}
1998
1999/// A Svelte custom event dispatched via `dispatch('<name>')`, where `dispatch`
2000/// is the binding from a `const dispatch = createEventDispatcher()` call. Only
2001/// literal-first-arg dispatches are recorded; a `dispatch(<nonLiteral>)` sets
2002/// `ModuleInfo::has_dynamic_dispatch` instead. Consumed by the
2003/// `unused-svelte-event` detector, which flags an event dispatched here but
2004/// listened to nowhere project-wide (the cross-file dead-output direction). The
2005/// span is a byte offset (not an `oxc_span::Span`) so the type round-trips
2006/// through the bitcode cache directly, mirroring `ComponentEmit::span_start`.
2007#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
2008pub struct DispatchedEvent {
2009    /// The dispatched event name (the literal first argument).
2010    pub name: String,
2011    /// Start byte offset of the `dispatch(...)` call (anchors the finding).
2012    pub span_start: u32,
2013}
2014
2015/// A declared Angular component/directive input, harvested from an `@Input()`
2016/// decorator or a signal `input()` / `input.required()` / `model()` initializer
2017/// on an Angular-decorated class. Consumed by the `unused-component-input`
2018/// detector, which flags an input read nowhere in its own component (neither the
2019/// template nor the class body). The span is stored as a byte offset (not an
2020/// `oxc_span::Span`) so the type is cheap to mirror onto the cache, matching
2021/// `ComponentEmit::span_start`. `ModuleInfo` is not serialized, so no serde
2022/// attrs are derived here. `bitcode` derives let the type be mirrored directly
2023/// onto `CachedModule` (the same pattern as `ComponentEmit`).
2024#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
2025pub struct AngularInputMember {
2026    /// The declared input name (the property key).
2027    pub name: String,
2028    /// Start byte offset of the property key (anchors the finding).
2029    pub span_start: u32,
2030}
2031
2032/// A declared Angular component/directive output, harvested from an `@Output()`
2033/// decorator or a signal `output()` / `outputFromObservable()` initializer on an
2034/// Angular-decorated class. Consumed by the `unused-component-output` detector,
2035/// which flags an output emitted nowhere in its own component. A `model()` is an
2036/// input and a framework-driven output, so it is recorded ONLY as an input and
2037/// never appears here (the implicit `update:` emit is framework-managed). The
2038/// span is a byte offset for the same reason as `AngularInputMember`.
2039#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
2040pub struct AngularOutputMember {
2041    /// The declared output name (the property key).
2042    pub name: String,
2043    /// Start byte offset of the property key (anchors the finding).
2044    pub span_start: u32,
2045}
2046
2047/// A declared Angular `@Component` and its `selector` value(s), harvested from a
2048/// `@Component({ selector: '...' })` decorator. Consumed by the Angular arm of
2049/// the `unrendered-component` detector, which flags a component whose every
2050/// element selector is used in NO template project-wide (and that is not
2051/// referenced by class name anywhere, e.g. routed / bootstrapped / dynamically
2052/// rendered). A multi-selector string (`'app-foo, [appBar]'`) is split into the
2053/// `selectors` list. The span is stored as a byte offset (not an
2054/// `oxc_span::Span`) so the type round-trips through the bitcode cache directly,
2055/// mirroring `AngularInputMember::span_start`. `@Directive` is intentionally NOT
2056/// harvested here (directives have no template render). `ModuleInfo` is not
2057/// serialized, so no serde attrs are derived.
2058#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
2059pub struct AngularComponentSelector {
2060    /// The declared selector strings for this component, split on `,`. A purely
2061    /// element-selector component has only `app-foo`-shaped entries; attribute
2062    /// (`[appFoo]`) and class (`.foo`) selectors are retained verbatim so the
2063    /// detector can abstain when ANY non-element selector is present.
2064    pub selectors: Vec<String>,
2065    /// Start byte offset of the component class declaration (anchors the
2066    /// finding).
2067    pub span_start: u32,
2068    /// The component class name (used to credit routed / bootstrapped / dynamic
2069    /// class-name references project-wide).
2070    pub class_name: String,
2071}
2072
2073/// A Lit / web-component custom element registered in a module via
2074/// `@customElement('x-foo')` or `customElements.define('x-foo', C)`. Consumed by
2075/// the Lit arm of the `unrendered-component` detector. The span is stored as a
2076/// byte offset (not an `oxc_span::Span`) so the type round-trips through the
2077/// bitcode cache directly, mirroring `AngularComponentSelector::span_start`.
2078#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
2079pub struct RegisteredCustomElement {
2080    /// The registered custom-element tag name (`x-foo`).
2081    pub tag: String,
2082    /// The registering class's local name, used for the public-API / export
2083    /// abstain (an exported / published element is rendered by a downstream
2084    /// consumer the scan cannot see). Empty for an anonymous
2085    /// `export default @customElement('x-foo') class extends LitElement {}`.
2086    pub class_local_name: String,
2087    /// Start byte offset of the registering class declaration (anchors the
2088    /// finding at the element, NOT line 1, since a `.ts` file can register
2089    /// several custom elements).
2090    pub span_start: u32,
2091}
2092
2093/// A key returned from a SvelteKit route `load()` function's terminal return
2094/// object literal. Harvested from `+page.{ts,server.ts,js,server.js}` files
2095/// exporting a `load` function. Consumed by the `unused-load-data-key` detector,
2096/// which flags a key read by no consumer. The span is stored as byte offsets
2097/// (not an `oxc_span::Span`) so the type round-trips through the bitcode cache
2098/// directly, mirroring `DiKeySite::span_start` / `ComponentEmit::span_start`.
2099#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode, PartialEq, Eq)]
2100pub struct LoadReturnKey {
2101    /// The returned-object property key name.
2102    pub name: String,
2103    /// Start byte offset of the key (anchors the finding).
2104    pub span_start: u32,
2105    /// End byte offset of the key.
2106    pub span_end: u32,
2107}
2108
2109/// The syntactic shape of an identified React component definition. Drives the
2110/// abstain ladder later phases apply: a `forwardRef` / `memo` wrapper whose
2111/// props come from an imported interface fallow cannot resolve must abstain
2112/// (ADR-001), not guess.
2113#[derive(Debug, Clone, Copy, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
2114pub enum ComponentFunctionKind {
2115    /// A `function Foo() { return <.../> }` declaration.
2116    FnDecl,
2117    /// A `const Foo = () => <.../>` arrow (or function-expression) binding.
2118    Arrow,
2119    /// A `const Foo = forwardRef((props, ref) => <.../>)` wrapper.
2120    ForwardRefWrapper,
2121    /// A `const Foo = memo((props) => <.../>)` wrapper.
2122    MemoWrapper,
2123}
2124
2125/// An identified React component: a function/arrow whose body returns JSX.
2126/// Captured by `visit_jsx_element`'s enclosing-component tracking. The
2127/// `unused-component-prop` (React arm) and complexity-fold phases consume this;
2128/// the abstain flags keep zero-FP on the cases ADR-001 cannot resolve.
2129#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
2130pub struct ComponentFunction {
2131    /// The component name (the binding or declaration identifier).
2132    pub name: String,
2133    /// Start byte offset of the component definition (anchors findings).
2134    pub span_start: u32,
2135    /// The syntactic shape of the definition.
2136    pub kind: ComponentFunctionKind,
2137    /// Whether the component is exported from its module (a named export, a
2138    /// `export default`, or re-exported in the same module). Public-API
2139    /// components abstain in the prop phase.
2140    pub is_exported: bool,
2141    /// `true` when the component's props are not statically harvestable: a
2142    /// rest/spread in the signature (`{ ...rest }`), props passed wholesale to a
2143    /// hook/helper, or a `forwardRef` / `memo` wrapper whose props come from an
2144    /// imported interface generic fallow cannot resolve (ADR-001). The prop
2145    /// phase abstains on the whole component when set.
2146    pub has_unharvestable_props: bool,
2147    /// `true` when the component body calls `cloneElement` / `React.cloneElement`.
2148    /// `cloneElement` injects props by reflection, so the static forward-set is
2149    /// incomplete; the prop-drilling phase abstains on any chain through this
2150    /// component (ADR-001, zero-FP).
2151    pub uses_clone_element: bool,
2152    /// `true` when the component renders a `*.Provider` member-expression tag
2153    /// (`<FooContext.Provider>`). A context provider in the subtree means the
2154    /// drilling may be a deliberate non-context choice (or the prop is about to
2155    /// be provided); the prop-drilling phase downgrades/abstains.
2156    pub renders_provider: bool,
2157    /// `true` when the component passes a function as a child render value
2158    /// (render-props / children-as-function: `<Foo>{() => ...}</Foo>` or
2159    /// `<Foo render={() => ...}/>`). The forwarded shape is dynamic; the
2160    /// prop-drilling phase abstains on chains through this component.
2161    pub has_children_as_function: bool,
2162    /// `true` when the component body is pure structural indirection: a single
2163    /// statement returning exactly one capitalized/member-expression JSX element
2164    /// (no host wrapper, no extra children, optionally a fragment wrapping a
2165    /// single element) that forwards props via a bare spread of the component's
2166    /// own props binding / rest local (`<Child {...props}/>`), with NO named
2167    /// attributes alongside the spread and NO self-render. The cross-component
2168    /// `thin-wrapper` phase joins this with hook-density / cyclomatic checks and
2169    /// the resolved single render edge to flag a component that is a candidate
2170    /// for inlining. Computed from the component's own AST only, so it caches
2171    /// byte-identity-safe (ADR-001).
2172    pub is_pure_passthrough: bool,
2173}
2174
2175/// The kind of a React hook call. `Custom` covers any `use*`-named call that is
2176/// not one of the built-in hooks.
2177#[derive(Debug, Clone, Copy, PartialEq, Eq, bitcode::Encode, bitcode::Decode)]
2178pub enum HookUseKind {
2179    /// `useState(...)`.
2180    UseState,
2181    /// `useEffect(...)`.
2182    UseEffect,
2183    /// `useMemo(...)`.
2184    UseMemo,
2185    /// `useCallback(...)`.
2186    UseCallback,
2187    /// Any other `use*`-named call (a custom hook).
2188    Custom,
2189}
2190
2191/// A React hook call site inside a component. Consumed by the complexity-fold
2192/// phase (hook density) and surfaced as descriptive hotspot context.
2193#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
2194pub struct HookUse {
2195    /// The hook kind.
2196    pub kind: HookUseKind,
2197    /// The dependency-array arity, recorded ONLY when a literal array is present
2198    /// at the dependency-array position (`[a, b]` -> `Some(2)`, `[]` ->
2199    /// `Some(0)`). `None` when the call has no dependency array argument or the
2200    /// argument is not a literal array (ADR-001: do not guess).
2201    pub dep_array_arity: Option<u32>,
2202    /// Start byte offset of the hook call (anchors findings).
2203    pub span_start: u32,
2204    /// The enclosing component name (the top of the visitor's component stack
2205    /// when the hook call was recorded). Lets the descriptive per-component hook
2206    /// summary attribute hooks exactly even when a file declares several
2207    /// components. A hook recorded outside any component carries an empty string
2208    /// (the visitor only records hooks inside a component, so this is the
2209    /// rare top-level / unattributed case).
2210    pub component: String,
2211}
2212
2213/// A render edge: one component rendering another (a capitalized or
2214/// member-expression JSX tag). Captured at extraction time with the child's
2215/// written name; resolution of `child_component_name` to a `FileId`/export is
2216/// deferred to graph build via the existing import map.
2217#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
2218pub struct RenderEdge {
2219    /// The name of the component that renders the child (the enclosing
2220    /// component). Empty when the JSX is not inside an identified component (a
2221    /// top-level render expression).
2222    pub parent_component: String,
2223    /// The rendered child component name as written (`Foo` or the full
2224    /// member-expression path `Foo.Bar`).
2225    pub child_component_name: String,
2226    /// The attribute (prop) names passed at the render site, in source order.
2227    pub attr_names: Vec<String>,
2228    /// `true` when the render site contains a JSX spread (`{...x}`), so the
2229    /// passed-prop set is not statically complete.
2230    pub has_spread: bool,
2231    /// The forwarded attributes at this render site: each pairs the child
2232    /// attribute NAME with the identifier ROOT of its value expression
2233    /// (`userName={user.name}` -> `{ attr: "userName", root: "user" }`;
2234    /// `value={x}` -> `{ attr: "value", root: "x" }`). ONLY plain identifier or
2235    /// member-root access values are recorded (`{x}`, `{x.y}`, `{x.y.z}`); a value
2236    /// that is a call, an arrow/function, a conditional, a JSX element, or any
2237    /// other complex expression is NOT recorded here (its root would not be a pure
2238    /// forward) and sets `has_complex_forward` instead. The prop-drilling chain
2239    /// walk uses this pairing to map "this component forwards prop P" to "the
2240    /// child receives it as attribute A".
2241    pub forward_attrs: Vec<ForwardAttr>,
2242    /// `true` when at least one attribute value at this render site is a complex
2243    /// expression (a call, an arrow/function render-prop, a conditional, a JSX
2244    /// element-as-prop, a template literal, etc.) whose identifier root was NOT
2245    /// recorded in `forward_attrs`. The prop-drilling phase abstains on a chain
2246    /// whose forwarded prop flows through such a value (ADR-001, zero-FP).
2247    pub has_complex_forward: bool,
2248}
2249
2250/// One forwarded JSX attribute: the child attribute name plus the identifier
2251/// root of its value expression. See [`RenderEdge::forward_attrs`].
2252#[derive(Debug, Clone, bitcode::Encode, bitcode::Decode)]
2253pub struct ForwardAttr {
2254    /// The child attribute (prop) name as written (`userName`).
2255    pub attr: String,
2256    /// The identifier root of the attribute value expression (`user` for
2257    /// `userName={user.name}`).
2258    pub root: String,
2259}
2260
2261#[expect(
2262    clippy::trivially_copy_pass_by_ref,
2263    reason = "serde serialize_with requires &T"
2264)]
2265fn serialize_span<S: serde::Serializer>(span: &Span, serializer: S) -> Result<S::Ok, S::Error> {
2266    use serde::ser::SerializeMap;
2267    let mut map = serializer.serialize_map(Some(2))?;
2268    map.serialize_entry("start", &span.start)?;
2269    map.serialize_entry("end", &span.end)?;
2270    map.end()
2271}
2272
2273/// Export identifier.
2274#[derive(Debug, Clone, PartialEq, Eq, Hash, serde::Serialize, serde::Deserialize)]
2275pub enum ExportName {
2276    /// A named export (e.g., `export const foo`).
2277    Named(String),
2278    /// The default export.
2279    Default,
2280}
2281
2282impl ExportName {
2283    /// Compare against a string without allocating (avoids `to_string()`).
2284    #[must_use]
2285    pub fn matches_str(&self, s: &str) -> bool {
2286        match self {
2287            Self::Named(n) => n == s,
2288            Self::Default => s == "default",
2289        }
2290    }
2291}
2292
2293impl std::fmt::Display for ExportName {
2294    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
2295        match self {
2296            Self::Named(n) => write!(f, "{n}"),
2297            Self::Default => write!(f, "default"),
2298        }
2299    }
2300}
2301
2302/// An import declaration.
2303#[derive(Debug, Clone)]
2304pub struct ImportInfo {
2305    /// The import specifier (e.g., `./utils` or `react`).
2306    pub source: String,
2307    /// How the symbol is imported (named, default, namespace, or side-effect).
2308    pub imported_name: ImportedName,
2309    /// The local binding name in the importing module.
2310    pub local_name: String,
2311    /// Whether this is a type-only import (`import type`).
2312    pub is_type_only: bool,
2313    /// Whether this import originated from a CSS-context.
2314    pub from_style: bool,
2315    /// Source span of the import declaration.
2316    pub span: Span,
2317    /// Span of the source string literal used by the LSP to highlight the specifier.
2318    pub source_span: Span,
2319}
2320
2321/// How a symbol is imported.
2322#[derive(Debug, Clone, PartialEq, Eq, serde::Serialize, serde::Deserialize)]
2323pub enum ImportedName {
2324    /// A named import (e.g., `import { foo }`).
2325    Named(String),
2326    /// A default import (e.g., `import React`).
2327    Default,
2328    /// A namespace import (e.g., `import * as utils`).
2329    Namespace,
2330    /// A side-effect import (e.g., `import './styles.css'`).
2331    SideEffect,
2332}
2333
2334#[cfg(target_pointer_width = "64")]
2335const _: () = assert!(std::mem::size_of::<ExportInfo>() == 136);
2336#[cfg(target_pointer_width = "64")]
2337const _: () = assert!(std::mem::size_of::<ImportInfo>() == 96);
2338#[cfg(target_pointer_width = "64")]
2339const _: () = assert!(std::mem::size_of::<ExportName>() == 24);
2340#[cfg(target_pointer_width = "64")]
2341const _: () = assert!(std::mem::size_of::<ImportedName>() == 24);
2342#[cfg(target_pointer_width = "64")]
2343const _: () = assert!(std::mem::size_of::<MemberAccess>() == 48);
2344#[cfg(target_pointer_width = "64")]
2345const _: () = assert!(std::mem::size_of::<SemanticFact>() == 96);
2346#[cfg(target_pointer_width = "64")]
2347const _: () = assert!(std::mem::size_of::<SinkSite>() == 216);
2348#[cfg(target_pointer_width = "64")]
2349const _: () = assert!(std::mem::size_of::<ModuleInfo>() == 1320);
2350
2351/// A re-export declaration.
2352#[derive(Debug, Clone)]
2353pub struct ReExportInfo {
2354    /// The module being re-exported from.
2355    pub source: String,
2356    /// The name imported from the source module (or `*` for star re-exports).
2357    pub imported_name: String,
2358    /// The name exported from this module.
2359    pub exported_name: String,
2360    /// Whether this is a type-only re-export.
2361    pub is_type_only: bool,
2362    /// Source span of the re-export declaration on this module.
2363    pub span: oxc_span::Span,
2364}
2365
2366/// A dynamic `import()` call.
2367#[derive(Debug, Clone)]
2368pub struct DynamicImportInfo {
2369    /// The import specifier.
2370    pub source: String,
2371    /// Source span of the `import()` expression.
2372    pub span: Span,
2373    /// Names destructured from the dynamic import result.
2374    /// Non-empty means `const { a, b } = await import(...)` -> Named imports.
2375    /// Empty means simple `import(...)` or `const x = await import(...)` -> Namespace.
2376    pub destructured_names: Vec<String>,
2377    /// The local variable name for `const x = await import(...)`.
2378    /// Used for namespace import narrowing via member access tracking.
2379    pub local_name: Option<String>,
2380    /// True when this dynamic import was synthesised by fallow rather than appearing in user source.
2381    pub is_speculative: bool,
2382}
2383
2384/// A `require()` call.
2385#[derive(Debug, Clone)]
2386pub struct RequireCallInfo {
2387    /// The require specifier.
2388    pub source: String,
2389    /// Source span of the `require()` call.
2390    pub span: Span,
2391    /// Source span of the specifier string-literal argument (including its
2392    /// quotes), e.g. the `'./x'` in `require('./x')`. Used to anchor an
2393    /// `unresolved-import` diagnostic squiggly under the specifier rather than
2394    /// the `require` keyword. `Span::default()` when the argument is not a
2395    /// plain string literal.
2396    pub source_span: Span,
2397    /// Names destructured from the `require()` result.
2398    pub destructured_names: Vec<String>,
2399    /// The local variable name for `const x = require(...)`.
2400    pub local_name: Option<String>,
2401}
2402
2403/// Result of parsing all files, including incremental cache statistics.
2404pub struct ParseResult {
2405    /// Extracted module information for all successfully parsed files.
2406    pub modules: Vec<ModuleInfo>,
2407    /// Number of files whose parse results were loaded from cache (unchanged).
2408    pub cache_hits: usize,
2409    /// Number of files that required a full parse (new or changed).
2410    pub cache_misses: usize,
2411    /// Summed wall-clock time of the actual AST parses across all rayon workers.
2412    pub parse_cpu_ms: f64,
2413}
2414
2415#[cfg(test)]
2416mod tests {
2417    use super::*;
2418
2419    fn span() -> Span {
2420        Span::new(0, 1)
2421    }
2422
2423    macro_rules! assert_released {
2424        ($values:expr) => {{
2425            assert!($values.is_empty());
2426        }};
2427    }
2428
2429    #[test]
2430    fn public_env_var_includes_public_ci_metadata() {
2431        for name in ["TAG_REF", "GITHUB_SHA", "CI_COMMIT_BRANCH", "APP_MODE"] {
2432            assert!(is_public_env_var(name), "{name} should be public metadata");
2433        }
2434    }
2435
2436    #[test]
2437    fn public_env_var_keeps_secret_shaped_names_source_backed() {
2438        for name in ["GITHUB_TOKEN", "REFRESH_TOKEN", "API_KEY", "SECRET_SHA"] {
2439            assert!(
2440                !is_public_env_var(name),
2441                "{name} should remain secret-shaped"
2442            );
2443        }
2444    }
2445
2446    #[test]
2447    fn ordinary_access_helpers_keep_source_accesses() {
2448        let member_accesses = vec![
2449            MemberAccess {
2450                object: "this".to_string(),
2451                member: "render".to_string(),
2452            },
2453            MemberAccess {
2454                object: "service".to_string(),
2455                member: "run".to_string(),
2456            },
2457        ];
2458        let ordinary = SemanticFactView::new(&[], &member_accesses)
2459            .ordinary_member_accesses()
2460            .map(|access| (access.object.as_str(), access.member.as_str()))
2461            .collect::<Vec<_>>();
2462
2463        assert_eq!(ordinary, vec![("this", "render"), ("service", "run")]);
2464
2465        let whole_object_uses = vec!["model".to_string(), "service".to_string()];
2466
2467        assert_eq!(
2468            ordinary_whole_object_uses(&whole_object_uses).collect::<Vec<_>>(),
2469            vec!["model", "service"]
2470        );
2471    }
2472
2473    #[test]
2474    fn angular_template_member_names_use_typed_facts() {
2475        let mut module = minimal_module_info();
2476        push_semantic_fact(
2477            &mut module,
2478            SemanticFact::AngularTemplateMemberAccess(AngularTemplateMemberAccessFact {
2479                member: "typed".to_string(),
2480            }),
2481        );
2482
2483        let names: Vec<&str> = angular_template_member_names(&module).collect();
2484
2485        assert_eq!(names, vec!["typed"]);
2486        assert!(has_angular_template_members(&module));
2487    }
2488
2489    #[test]
2490    fn angular_this_spread_uses_typed_fact() {
2491        let mut typed = minimal_module_info();
2492        push_semantic_fact(
2493            &mut typed,
2494            SemanticFact::AngularThisSpread(AngularThisSpreadFact),
2495        );
2496
2497        assert!(has_angular_this_spread(&typed));
2498        assert!(!has_angular_this_spread(&minimal_module_info()));
2499    }
2500
2501    #[test]
2502    fn semantic_fact_view_iterates_typed_facts() {
2503        let mut module = minimal_module_info();
2504        push_semantic_fact(
2505            &mut module,
2506            SemanticFact::FactoryCallMemberAccess(FactoryCallMemberAccessFact {
2507                callee_object: "Svc".to_string(),
2508                callee_method: "make".to_string(),
2509                member: "run".to_string(),
2510            }),
2511        );
2512
2513        let facts = SemanticFactView::new(&module.semantic_facts, &module.member_accesses)
2514            .facts()
2515            .collect::<Vec<_>>();
2516
2517        assert_eq!(
2518            facts[0],
2519            &SemanticFact::FactoryCallMemberAccess(FactoryCallMemberAccessFact {
2520                callee_object: "Svc".to_string(),
2521                callee_method: "make".to_string(),
2522                member: "run".to_string(),
2523            })
2524        );
2525    }
2526
2527    #[test]
2528    fn typed_fact_helpers_collect_each_family() {
2529        let mut module = minimal_module_info();
2530        push_semantic_fact(
2531            &mut module,
2532            SemanticFact::InstanceExportBinding(InstanceExportBindingFact {
2533                export_name: "exported".to_string(),
2534                target_name: "target".to_string(),
2535            }),
2536        );
2537        push_semantic_fact(
2538            &mut module,
2539            SemanticFact::FactoryCallMemberAccess(FactoryCallMemberAccessFact {
2540                callee_object: "Svc".to_string(),
2541                callee_method: "create".to_string(),
2542                member: "run".to_string(),
2543            }),
2544        );
2545        push_semantic_fact(
2546            &mut module,
2547            SemanticFact::FluentChainMemberAccess(FluentChainMemberAccessFact {
2548                root_object: "Builder".to_string(),
2549                root_method: "start".to_string(),
2550                chain: vec!["next".to_string()],
2551                member: "value".to_string(),
2552            }),
2553        );
2554        push_semantic_fact(
2555            &mut module,
2556            SemanticFact::FluentChainNewMemberAccess(FluentChainNewMemberAccessFact {
2557                class_name: "Builder".to_string(),
2558                chain: vec!["next".to_string(), "finish".to_string()],
2559                member: "done".to_string(),
2560            }),
2561        );
2562
2563        assert_eq!(
2564            SemanticFactView::new(&module.semantic_facts, &module.member_accesses)
2565                .instance_export_bindings(),
2566            vec![InstanceExportBindingFact {
2567                export_name: "exported".to_string(),
2568                target_name: "target".to_string(),
2569            }]
2570        );
2571        assert_eq!(
2572            SemanticFactView::new(&module.semantic_facts, &module.member_accesses)
2573                .factory_call_member_accesses(),
2574            vec![FactoryCallMemberAccessFact {
2575                callee_object: "Svc".to_string(),
2576                callee_method: "create".to_string(),
2577                member: "run".to_string(),
2578            }]
2579        );
2580        assert_eq!(
2581            SemanticFactView::new(&module.semantic_facts, &module.member_accesses)
2582                .fluent_chain_member_accesses(),
2583            vec![FluentChainMemberAccessFact {
2584                root_object: "Builder".to_string(),
2585                root_method: "start".to_string(),
2586                chain: vec!["next".to_string()],
2587                member: "value".to_string(),
2588            }]
2589        );
2590        assert_eq!(
2591            SemanticFactView::new(&module.semantic_facts, &module.member_accesses)
2592                .fluent_chain_new_member_accesses(),
2593            vec![FluentChainNewMemberAccessFact {
2594                class_name: "Builder".to_string(),
2595                chain: vec!["next".to_string(), "finish".to_string()],
2596                member: "done".to_string(),
2597            }]
2598        );
2599    }
2600
2601    #[test]
2602    fn semantic_fact_view_exposes_typed_first_contract() {
2603        let mut module = minimal_module_info();
2604        push_semantic_fact(
2605            &mut module,
2606            SemanticFact::FactoryCallMemberAccess(FactoryCallMemberAccessFact {
2607                callee_object: "Svc".to_string(),
2608                callee_method: "create".to_string(),
2609                member: "run".to_string(),
2610            }),
2611        );
2612        push_semantic_fact(
2613            &mut module,
2614            SemanticFact::PlaywrightFixtureUse(PlaywrightFixtureUseFact {
2615                test_name: "test".to_string(),
2616                fixture_name: "page".to_string(),
2617                member: "goto".to_string(),
2618            }),
2619        );
2620        push_semantic_fact(
2621            &mut module,
2622            SemanticFact::InstanceExportBinding(InstanceExportBindingFact {
2623                export_name: "exported".to_string(),
2624                target_name: "target".to_string(),
2625            }),
2626        );
2627
2628        let view = SemanticFactView::new(&module.semantic_facts, &module.member_accesses);
2629
2630        assert_eq!(
2631            view.factory_call_member_accesses(),
2632            vec![FactoryCallMemberAccessFact {
2633                callee_object: "Svc".to_string(),
2634                callee_method: "create".to_string(),
2635                member: "run".to_string(),
2636            }]
2637        );
2638        assert_eq!(
2639            view.playwright_fixture_uses(),
2640            vec![PlaywrightFixtureUseFact {
2641                test_name: "test".to_string(),
2642                fixture_name: "page".to_string(),
2643                member: "goto".to_string(),
2644            }]
2645        );
2646        assert_eq!(
2647            view.instance_export_bindings(),
2648            vec![InstanceExportBindingFact {
2649                export_name: "exported".to_string(),
2650                target_name: "target".to_string(),
2651            }]
2652        );
2653    }
2654
2655    #[test]
2656    fn playwright_fixture_fact_helpers_select_each_fact_family() {
2657        let mut module = minimal_module_info();
2658        push_semantic_fact(
2659            &mut module,
2660            SemanticFact::PlaywrightFixtureUse(PlaywrightFixtureUseFact {
2661                test_name: "test".to_string(),
2662                fixture_name: "page".to_string(),
2663                member: "goto".to_string(),
2664            }),
2665        );
2666        push_semantic_fact(
2667            &mut module,
2668            SemanticFact::PlaywrightFixtureDefinition(PlaywrightFixtureDefinitionFact {
2669                test_name: "test".to_string(),
2670                fixture_name: "adminPage".to_string(),
2671                type_name: "AdminPage".to_string(),
2672            }),
2673        );
2674        push_semantic_fact(
2675            &mut module,
2676            SemanticFact::PlaywrightFixtureAlias(PlaywrightFixtureAliasFact {
2677                test_name: "mergedTest".to_string(),
2678                base_name: "test".to_string(),
2679            }),
2680        );
2681        push_semantic_fact(
2682            &mut module,
2683            SemanticFact::PlaywrightFixtureType(PlaywrightFixtureTypeFact {
2684                alias_name: "Pages".to_string(),
2685                fixture_name: "adminPage".to_string(),
2686                type_name: "AdminPage".to_string(),
2687            }),
2688        );
2689
2690        assert_eq!(
2691            playwright_fixture_use_facts(&module.semantic_facts)
2692                .map(|fact| fact.member.as_str())
2693                .collect::<Vec<_>>(),
2694            vec!["goto"]
2695        );
2696        assert_eq!(
2697            playwright_fixture_definition_facts(&module.semantic_facts)
2698                .map(|fact| fact.type_name.as_str())
2699                .collect::<Vec<_>>(),
2700            vec!["AdminPage"]
2701        );
2702        assert_eq!(
2703            playwright_fixture_alias_facts(&module.semantic_facts)
2704                .map(|fact| fact.base_name.as_str())
2705                .collect::<Vec<_>>(),
2706            vec!["test"]
2707        );
2708        assert_eq!(
2709            playwright_fixture_type_facts(&module.semantic_facts)
2710                .map(|fact| fact.fixture_name.as_str())
2711                .collect::<Vec<_>>(),
2712            vec!["adminPage"]
2713        );
2714    }
2715
2716    #[test]
2717    fn line_offsets_empty_string() {
2718        assert_eq!(compute_line_offsets(""), vec![0]);
2719    }
2720
2721    #[test]
2722    #[expect(
2723        clippy::too_many_lines,
2724        reason = "exhaustive field-by-field construction + release assertions for every ModuleInfo field"
2725    )]
2726    fn release_resolution_payload_drops_copied_vectors_only() {
2727        let mut module = ModuleInfo {
2728            file_id: FileId(7),
2729            exports: vec![ExportInfo {
2730                name: ExportName::Named("kept".to_string()),
2731                local_name: None,
2732                is_type_only: false,
2733                is_side_effect_used: false,
2734                visibility: VisibilityTag::None,
2735                expected_unused_reason: None,
2736                span: span(),
2737                members: Vec::new(),
2738                super_class: None,
2739            }],
2740            imports: vec![ImportInfo {
2741                source: "node:child_process".to_string(),
2742                imported_name: ImportedName::Default,
2743                local_name: "childProcess".to_string(),
2744                is_type_only: false,
2745                from_style: false,
2746                span: span(),
2747                source_span: span(),
2748            }],
2749            re_exports: vec![ReExportInfo {
2750                source: "./kept".to_string(),
2751                imported_name: "kept".to_string(),
2752                exported_name: "kept".to_string(),
2753                is_type_only: false,
2754                span: span(),
2755            }],
2756            dynamic_imports: vec![DynamicImportInfo {
2757                source: "./dynamic".to_string(),
2758                span: span(),
2759                destructured_names: vec!["value".to_string()],
2760                local_name: None,
2761                is_speculative: false,
2762            }],
2763            dynamic_import_patterns: vec![DynamicImportPattern {
2764                prefix: "./pages/".to_string(),
2765                suffix: Some(".tsx".to_string()),
2766                span: span(),
2767            }],
2768            require_calls: vec![RequireCallInfo {
2769                source: "./required".to_string(),
2770                span: span(),
2771                source_span: span(),
2772                destructured_names: Vec::new(),
2773                local_name: Some("required".to_string()),
2774            }],
2775            package_path_references: vec!["react".to_string()].into(),
2776            member_accesses: vec![MemberAccess {
2777                object: "Status".to_string(),
2778                member: "Active".to_string(),
2779            }],
2780            semantic_facts: Box::default(),
2781            whole_object_uses: vec!["Status".to_string()].into(),
2782            has_cjs_exports: true,
2783            has_angular_component_template_url: true,
2784            content_hash: 42,
2785            suppressions: Vec::new(),
2786            unknown_suppression_kinds: Vec::new(),
2787            unused_import_bindings: vec!["unused".to_string()],
2788            type_referenced_import_bindings: vec!["TypeOnly".to_string()],
2789            value_referenced_import_bindings: vec!["Value".to_string()],
2790            line_offsets: vec![0, 8],
2791            complexity: vec![FunctionComplexity {
2792                name: "work".to_string(),
2793                line: 1,
2794                col: 0,
2795                cyclomatic: 2,
2796                cognitive: 3,
2797                line_count: 4,
2798                param_count: 1,
2799                react_hook_count: 0,
2800                react_jsx_max_depth: 0,
2801                react_prop_count: 0,
2802                source_hash: Some("hash".to_string()),
2803                contributions: Vec::new(),
2804            }],
2805            flag_uses: vec![FlagUse {
2806                flag_name: "FEATURE_X".to_string(),
2807                kind: FlagUseKind::EnvVar,
2808                line: 1,
2809                col: 0,
2810                guard_span_start: None,
2811                guard_span_end: None,
2812                sdk_name: None,
2813            }],
2814            class_heritage: vec![ClassHeritageInfo {
2815                export_name: "Child".to_string(),
2816                super_class: Some("Parent".to_string()),
2817                implements: vec!["Contract".to_string()],
2818                instance_bindings: Vec::new(),
2819            }],
2820            exported_factory_returns: Box::from([FactoryReturnExport {
2821                export_name: "useApi".to_string(),
2822                class_local_name: "RESTApi".to_string(),
2823            }]),
2824            injection_tokens: vec![("TOKEN".to_string(), "Contract".to_string())],
2825            local_type_declarations: vec![LocalTypeDeclaration {
2826                name: "Contract".to_string(),
2827                span: span(),
2828            }],
2829            public_signature_type_references: vec![PublicSignatureTypeReference {
2830                export_name: "kept".to_string(),
2831                type_name: "Contract".to_string(),
2832                span: span(),
2833            }],
2834            namespace_object_aliases: vec![NamespaceObjectAlias {
2835                via_export_name: "api".to_string(),
2836                suffix: "read".to_string(),
2837                namespace_local: "ns".to_string(),
2838            }],
2839            iconify_prefixes: vec!["hero".to_string()],
2840            iconify_icon_names: vec!["hero-home".to_string()],
2841            auto_import_candidates: vec!["useState".to_string()],
2842            directives: vec!["use client".to_string()],
2843            client_only_dynamic_import_spans: Vec::new(),
2844            security_sinks: Vec::new(),
2845            security_sinks_skipped: 1,
2846            security_unresolved_callee_sites: Vec::new(),
2847            tainted_bindings: Vec::new(),
2848            sanitized_sink_args: Vec::new(),
2849            security_control_sites: Vec::new(),
2850            callee_uses: Vec::new(),
2851            misplaced_directives: Vec::new(),
2852            inline_server_action_exports: Vec::new(),
2853            di_key_sites: Vec::new(),
2854            has_dynamic_provide: false,
2855            referenced_import_bindings: Vec::new(),
2856            component_props: Vec::new(),
2857            has_props_attrs_fallthrough: false,
2858            has_define_expose: false,
2859            has_define_model: false,
2860            has_unharvestable_props: false,
2861            component_emits: Vec::new(),
2862            angular_inputs: Vec::new(),
2863            angular_outputs: Vec::new(),
2864            angular_component_selectors: Vec::new(),
2865            registered_custom_elements: Vec::new(),
2866            used_custom_element_tags: Vec::new(),
2867            angular_used_selectors: Vec::new(),
2868            angular_entry_component_refs: Vec::new(),
2869            has_dynamic_component_render: false,
2870            has_unharvestable_emits: false,
2871            has_dynamic_emit: false,
2872            has_emit_whole_object_use: false,
2873            load_return_keys: Vec::new(),
2874            has_unharvestable_load: false,
2875            has_load_data_whole_use: false,
2876            has_page_data_store_whole_use: false,
2877            component_functions: Vec::new(),
2878            react_props: Vec::new(),
2879            hook_uses: Vec::new(),
2880            render_edges: Vec::new(),
2881            svelte_dispatched_events: Vec::new(),
2882            svelte_listened_events: Vec::new(),
2883            has_dynamic_dispatch: false,
2884        };
2885
2886        module.release_resolution_payload();
2887
2888        assert_eq!(module.file_id, FileId(7));
2889        assert_eq!(module.content_hash, 42);
2890        assert_eq!(module.line_offsets, vec![0, 8]);
2891        assert_eq!(module.imports.len(), 1);
2892        assert_eq!(module.exports.len(), 1);
2893        assert_eq!(module.re_exports.len(), 1);
2894        assert_eq!(module.dynamic_import_patterns.len(), 1);
2895        assert_eq!(module.member_accesses.len(), 1);
2896        assert_eq!(module.complexity.len(), 1);
2897        assert_eq!(module.flag_uses.len(), 1);
2898        assert_eq!(module.class_heritage.len(), 1);
2899        assert_eq!(module.exported_factory_returns.len(), 1);
2900        assert_eq!(module.injection_tokens.len(), 1);
2901        assert_eq!(module.local_type_declarations.len(), 1);
2902        assert_eq!(module.public_signature_type_references.len(), 1);
2903        assert_eq!(module.iconify_prefixes.len(), 1);
2904        assert_eq!(module.iconify_icon_names.len(), 1);
2905        assert_eq!(module.directives.len(), 1);
2906        assert_eq!(module.security_sinks_skipped, 1);
2907        assert_released!(module.dynamic_imports);
2908        assert_released!(module.require_calls);
2909        assert_released!(module.package_path_references);
2910        assert_released!(module.whole_object_uses);
2911        assert_released!(module.unused_import_bindings);
2912        assert_released!(module.type_referenced_import_bindings);
2913        assert_released!(module.value_referenced_import_bindings);
2914        assert_released!(module.namespace_object_aliases);
2915        assert_released!(module.auto_import_candidates);
2916        assert_eq!(
2917            module.referenced_import_bindings,
2918            vec!["childProcess".to_string()]
2919        );
2920    }
2921
2922    #[test]
2923    fn sink_shape_bitcode_roundtrip() {
2924        for shape in [
2925            SinkShape::Call,
2926            SinkShape::MemberCall,
2927            SinkShape::MemberAssign,
2928            SinkShape::TaggedTemplate,
2929            SinkShape::JsxAttr,
2930            SinkShape::NewExpression,
2931            SinkShape::SecretLiteral,
2932        ] {
2933            let encoded = bitcode::encode(&shape);
2934            let decoded: SinkShape = bitcode::decode(&encoded).expect("decode sink shape");
2935            assert_eq!(shape, decoded);
2936        }
2937    }
2938
2939    #[test]
2940    fn sink_arg_kind_bitcode_roundtrip() {
2941        for kind in [
2942            SinkArgKind::TemplateWithSubst,
2943            SinkArgKind::Concat,
2944            SinkArgKind::Object,
2945            SinkArgKind::Call,
2946            SinkArgKind::Literal,
2947            SinkArgKind::NoArg,
2948            SinkArgKind::Other,
2949        ] {
2950            let encoded = bitcode::encode(&kind);
2951            let decoded: SinkArgKind = bitcode::decode(&encoded).expect("decode sink arg kind");
2952            assert_eq!(kind, decoded);
2953        }
2954    }
2955
2956    #[test]
2957    fn security_url_shape_bitcode_roundtrip() {
2958        for shape in [
2959            SecurityUrlShape::FixedOriginDynamicPath,
2960            SecurityUrlShape::DynamicOrigin,
2961        ] {
2962            let encoded = bitcode::encode(&shape);
2963            let decoded: SecurityUrlShape =
2964                bitcode::decode(&encoded).expect("decode security url shape");
2965            assert_eq!(shape, decoded);
2966        }
2967    }
2968
2969    #[test]
2970    fn sink_site_bitcode_roundtrip() {
2971        let site = SinkSite {
2972            sink_shape: SinkShape::MemberAssign,
2973            callee_path: "el.innerHTML".to_string(),
2974            arg_index: 0,
2975            arg_is_non_literal: true,
2976            arg_kind: SinkArgKind::Other,
2977            arg_literal: Some(SinkLiteralValue::Integer(511)),
2978            regex_pattern: None,
2979            object_properties: vec![SinkObjectProperty {
2980                key: "origin".to_string(),
2981                value: SinkLiteralValue::String("*".to_string()),
2982            }],
2983            object_property_keys: vec!["origin".to_string()],
2984            object_property_keys_complete: true,
2985            arg_idents: vec!["userInput".to_string()],
2986            arg_source_paths: vec!["req.body.email".to_string(), "req.body".to_string()],
2987            span_start: 10,
2988            span_end: 20,
2989            url_arg_literal: Some("https://api.example.com".to_string()),
2990            url_shape: Some(SecurityUrlShape::FixedOriginDynamicPath),
2991        };
2992        let encoded = bitcode::encode(&site);
2993        let decoded: SinkSite = bitcode::decode(&encoded).expect("decode sink site");
2994        assert_eq!(decoded.sink_shape, site.sink_shape);
2995        assert_eq!(decoded.callee_path, site.callee_path);
2996        assert_eq!(decoded.arg_index, site.arg_index);
2997        assert_eq!(decoded.arg_is_non_literal, site.arg_is_non_literal);
2998        assert_eq!(decoded.arg_kind, site.arg_kind);
2999        assert_eq!(decoded.arg_literal, site.arg_literal);
3000        assert_eq!(decoded.object_properties, site.object_properties);
3001        assert_eq!(decoded.object_property_keys, site.object_property_keys);
3002        assert_eq!(
3003            decoded.object_property_keys_complete,
3004            site.object_property_keys_complete
3005        );
3006        assert_eq!(decoded.arg_idents, site.arg_idents);
3007        assert_eq!(decoded.arg_source_paths, site.arg_source_paths);
3008        assert_eq!(decoded.url_shape, site.url_shape);
3009        assert_eq!(decoded.span(), site.span());
3010    }
3011
3012    #[test]
3013    fn line_offsets_single_line_no_newline() {
3014        assert_eq!(compute_line_offsets("hello"), vec![0]);
3015    }
3016
3017    #[test]
3018    fn line_offsets_single_line_with_newline() {
3019        assert_eq!(compute_line_offsets("hello\n"), vec![0, 6]);
3020    }
3021
3022    #[test]
3023    fn line_offsets_multiple_lines() {
3024        assert_eq!(compute_line_offsets("abc\ndef\nghi"), vec![0, 4, 8]);
3025    }
3026
3027    #[test]
3028    fn line_offsets_trailing_newline() {
3029        assert_eq!(compute_line_offsets("abc\ndef\n"), vec![0, 4, 8]);
3030    }
3031
3032    #[test]
3033    fn line_offsets_consecutive_newlines() {
3034        assert_eq!(compute_line_offsets("\n\n\n"), vec![0, 1, 2, 3]);
3035    }
3036
3037    #[test]
3038    fn line_offsets_multibyte_utf8() {
3039        assert_eq!(compute_line_offsets("á\n"), vec![0, 3]);
3040    }
3041
3042    #[test]
3043    fn line_col_offset_zero() {
3044        let offsets = compute_line_offsets("abc\ndef\nghi");
3045        let (line, col) = byte_offset_to_line_col(&offsets, 0);
3046        assert_eq!((line, col), (1, 0));
3047    }
3048
3049    #[test]
3050    fn line_col_middle_of_first_line() {
3051        let offsets = compute_line_offsets("abc\ndef\nghi");
3052        let (line, col) = byte_offset_to_line_col(&offsets, 2);
3053        assert_eq!((line, col), (1, 2));
3054    }
3055
3056    #[test]
3057    fn line_col_start_of_second_line() {
3058        let offsets = compute_line_offsets("abc\ndef\nghi");
3059        let (line, col) = byte_offset_to_line_col(&offsets, 4);
3060        assert_eq!((line, col), (2, 0));
3061    }
3062
3063    #[test]
3064    fn line_col_middle_of_second_line() {
3065        let offsets = compute_line_offsets("abc\ndef\nghi");
3066        let (line, col) = byte_offset_to_line_col(&offsets, 5);
3067        assert_eq!((line, col), (2, 1));
3068    }
3069
3070    #[test]
3071    fn line_col_start_of_third_line() {
3072        let offsets = compute_line_offsets("abc\ndef\nghi");
3073        let (line, col) = byte_offset_to_line_col(&offsets, 8);
3074        assert_eq!((line, col), (3, 0));
3075    }
3076
3077    #[test]
3078    fn line_col_end_of_file() {
3079        let offsets = compute_line_offsets("abc\ndef\nghi");
3080        let (line, col) = byte_offset_to_line_col(&offsets, 10);
3081        assert_eq!((line, col), (3, 2));
3082    }
3083
3084    #[test]
3085    fn line_col_single_line() {
3086        let offsets = compute_line_offsets("hello");
3087        let (line, col) = byte_offset_to_line_col(&offsets, 3);
3088        assert_eq!((line, col), (1, 3));
3089    }
3090
3091    #[test]
3092    fn line_col_at_newline_byte() {
3093        let offsets = compute_line_offsets("abc\ndef");
3094        let (line, col) = byte_offset_to_line_col(&offsets, 3);
3095        assert_eq!((line, col), (1, 3));
3096    }
3097
3098    #[test]
3099    fn export_name_matches_str_named() {
3100        let name = ExportName::Named("foo".to_string());
3101        assert!(name.matches_str("foo"));
3102        assert!(!name.matches_str("bar"));
3103        assert!(!name.matches_str("default"));
3104    }
3105
3106    #[test]
3107    fn export_name_matches_str_default() {
3108        let name = ExportName::Default;
3109        assert!(name.matches_str("default"));
3110        assert!(!name.matches_str("foo"));
3111    }
3112
3113    #[test]
3114    fn export_name_display_named() {
3115        let name = ExportName::Named("myExport".to_string());
3116        assert_eq!(name.to_string(), "myExport");
3117    }
3118
3119    #[test]
3120    fn export_name_display_default() {
3121        let name = ExportName::Default;
3122        assert_eq!(name.to_string(), "default");
3123    }
3124
3125    #[test]
3126    fn export_name_equality_named() {
3127        let a = ExportName::Named("foo".to_string());
3128        let b = ExportName::Named("foo".to_string());
3129        let c = ExportName::Named("bar".to_string());
3130        assert_eq!(a, b);
3131        assert_ne!(a, c);
3132    }
3133
3134    #[test]
3135    fn export_name_equality_default() {
3136        let a = ExportName::Default;
3137        let b = ExportName::Default;
3138        assert_eq!(a, b);
3139    }
3140
3141    #[test]
3142    fn export_name_named_not_equal_to_default() {
3143        let named = ExportName::Named("default".to_string());
3144        let default = ExportName::Default;
3145        assert_ne!(named, default);
3146    }
3147
3148    #[test]
3149    fn export_name_hash_consistency() {
3150        use std::collections::hash_map::DefaultHasher;
3151        use std::hash::{Hash, Hasher};
3152
3153        let mut h1 = DefaultHasher::new();
3154        let mut h2 = DefaultHasher::new();
3155        ExportName::Named("foo".to_string()).hash(&mut h1);
3156        ExportName::Named("foo".to_string()).hash(&mut h2);
3157        assert_eq!(h1.finish(), h2.finish());
3158    }
3159
3160    #[test]
3161    fn export_name_matches_str_empty_string() {
3162        let name = ExportName::Named(String::new());
3163        assert!(name.matches_str(""));
3164        assert!(!name.matches_str("foo"));
3165    }
3166
3167    #[test]
3168    fn export_name_default_does_not_match_empty() {
3169        let name = ExportName::Default;
3170        assert!(!name.matches_str(""));
3171    }
3172
3173    #[test]
3174    fn imported_name_equality() {
3175        assert_eq!(
3176            ImportedName::Named("foo".to_string()),
3177            ImportedName::Named("foo".to_string())
3178        );
3179        assert_ne!(
3180            ImportedName::Named("foo".to_string()),
3181            ImportedName::Named("bar".to_string())
3182        );
3183        assert_eq!(ImportedName::Default, ImportedName::Default);
3184        assert_eq!(ImportedName::Namespace, ImportedName::Namespace);
3185        assert_eq!(ImportedName::SideEffect, ImportedName::SideEffect);
3186        assert_ne!(ImportedName::Default, ImportedName::Namespace);
3187        assert_ne!(
3188            ImportedName::Named("default".to_string()),
3189            ImportedName::Default
3190        );
3191    }
3192
3193    #[test]
3194    fn member_kind_equality() {
3195        assert_eq!(MemberKind::EnumMember, MemberKind::EnumMember);
3196        assert_eq!(MemberKind::ClassMethod, MemberKind::ClassMethod);
3197        assert_eq!(MemberKind::ClassProperty, MemberKind::ClassProperty);
3198        assert_eq!(MemberKind::NamespaceMember, MemberKind::NamespaceMember);
3199        assert_ne!(MemberKind::EnumMember, MemberKind::ClassMethod);
3200        assert_ne!(MemberKind::ClassMethod, MemberKind::ClassProperty);
3201        assert_ne!(MemberKind::NamespaceMember, MemberKind::EnumMember);
3202    }
3203
3204    #[test]
3205    fn member_kind_bitcode_roundtrip() {
3206        let kinds = [
3207            MemberKind::EnumMember,
3208            MemberKind::ClassMethod,
3209            MemberKind::ClassProperty,
3210            MemberKind::NamespaceMember,
3211        ];
3212        for kind in &kinds {
3213            let bytes = bitcode::encode(kind);
3214            let decoded: MemberKind = bitcode::decode(&bytes).unwrap();
3215            assert_eq!(&decoded, kind);
3216        }
3217    }
3218
3219    #[test]
3220    fn member_access_bitcode_roundtrip() {
3221        let access = MemberAccess {
3222            object: "Status".to_string(),
3223            member: "Active".to_string(),
3224        };
3225        let bytes = bitcode::encode(&access);
3226        let decoded: MemberAccess = bitcode::decode(&bytes).unwrap();
3227        assert_eq!(decoded.object, "Status");
3228        assert_eq!(decoded.member, "Active");
3229    }
3230
3231    #[test]
3232    fn line_offsets_crlf_only_counts_lf() {
3233        let offsets = compute_line_offsets("ab\r\ncd");
3234        assert_eq!(offsets, vec![0, 4]);
3235    }
3236
3237    #[test]
3238    fn line_col_empty_file_offset_zero() {
3239        let offsets = compute_line_offsets("");
3240        let (line, col) = byte_offset_to_line_col(&offsets, 0);
3241        assert_eq!((line, col), (1, 0));
3242    }
3243
3244    // --- VisibilityTag ---
3245
3246    #[test]
3247    fn visibility_tag_default_is_none_variant() {
3248        assert_eq!(VisibilityTag::default(), VisibilityTag::None);
3249    }
3250
3251    #[test]
3252    fn visibility_tag_is_none_only_for_none_variant() {
3253        assert!(VisibilityTag::None.is_none());
3254        assert!(!VisibilityTag::Public.is_none());
3255        assert!(!VisibilityTag::Internal.is_none());
3256        assert!(!VisibilityTag::Beta.is_none());
3257        assert!(!VisibilityTag::Alpha.is_none());
3258        assert!(!VisibilityTag::ExpectedUnused.is_none());
3259    }
3260
3261    #[test]
3262    fn visibility_tag_suppresses_unused_for_api_tags() {
3263        assert!(VisibilityTag::Public.suppresses_unused());
3264        assert!(VisibilityTag::Internal.suppresses_unused());
3265        assert!(VisibilityTag::Beta.suppresses_unused());
3266        assert!(VisibilityTag::Alpha.suppresses_unused());
3267    }
3268
3269    #[test]
3270    fn visibility_tag_does_not_suppress_none_or_expected_unused() {
3271        assert!(!VisibilityTag::None.suppresses_unused());
3272        assert!(!VisibilityTag::ExpectedUnused.suppresses_unused());
3273    }
3274
3275    // --- is_public_env_path ---
3276
3277    #[test]
3278    fn is_public_env_path_process_env_public_prefix() {
3279        assert!(is_public_env_path("process.env.NEXT_PUBLIC_API_URL"));
3280        assert!(is_public_env_path("process.env.VITE_APP_KEY"));
3281        assert!(is_public_env_path("process.env.REACT_APP_TITLE"));
3282        assert!(is_public_env_path("process.env.NODE_ENV"));
3283    }
3284
3285    #[test]
3286    fn is_public_env_path_import_meta_env_public_prefix() {
3287        assert!(is_public_env_path("import.meta.env.VITE_BASE_URL"));
3288        assert!(is_public_env_path("import.meta.env.PUBLIC_API"));
3289    }
3290
3291    #[test]
3292    fn is_public_env_path_secret_env_vars_are_not_public() {
3293        assert!(!is_public_env_path("process.env.SECRET_KEY"));
3294        assert!(!is_public_env_path("process.env.DATABASE_PASSWORD"));
3295        assert!(!is_public_env_path("import.meta.env.API_TOKEN"));
3296    }
3297
3298    #[test]
3299    fn is_public_env_path_non_env_paths_are_not_public() {
3300        assert!(!is_public_env_path("req.query.id"));
3301        assert!(!is_public_env_path("process.argv"));
3302        assert!(!is_public_env_path("window.location.href"));
3303    }
3304
3305    // --- is_public_env_var edge cases ---
3306
3307    #[test]
3308    fn is_public_env_var_exact_matches() {
3309        assert!(is_public_env_var("NODE_ENV"));
3310    }
3311
3312    #[test]
3313    fn is_public_env_var_all_known_prefixes() {
3314        assert!(is_public_env_var("NUXT_PUBLIC_API_URL"));
3315        assert!(is_public_env_var("PUBLIC_API_KEY"));
3316        assert!(is_public_env_var("GATSBY_APP_ID"));
3317        assert!(is_public_env_var("EXPO_PUBLIC_SENTRY_DSN"));
3318        assert!(is_public_env_var("STORYBOOK_ENV"));
3319    }
3320
3321    #[test]
3322    fn is_public_env_var_secret_token_beats_metadata_token() {
3323        // "SECRET_SHA": has SECRET (wins) and SHA (metadata); should NOT be public
3324        assert!(!is_public_env_var("SECRET_SHA"));
3325        // "REF_TOKEN": has TOKEN (secret) and REF (metadata); should NOT be public
3326        assert!(!is_public_env_var("REF_TOKEN"));
3327    }
3328
3329    #[test]
3330    fn is_public_env_var_plain_unknown_names_are_not_public() {
3331        assert!(!is_public_env_var("MY_SERVICE_URL"));
3332        assert!(!is_public_env_var("FEATURE_FLAG"));
3333        assert!(!is_public_env_var("DATABASE_URL"));
3334    }
3335
3336    // --- SinkSite::span ---
3337
3338    #[test]
3339    fn sink_site_span_reconstructs_from_offsets() {
3340        let site = SinkSite {
3341            sink_shape: SinkShape::Call,
3342            callee_path: "eval".to_string(),
3343            arg_index: 0,
3344            arg_is_non_literal: true,
3345            arg_kind: SinkArgKind::Other,
3346            arg_literal: None,
3347            regex_pattern: None,
3348            object_properties: Vec::new(),
3349            object_property_keys: Vec::new(),
3350            object_property_keys_complete: false,
3351            arg_idents: Vec::new(),
3352            arg_source_paths: Vec::new(),
3353            span_start: 5,
3354            span_end: 15,
3355            url_arg_literal: None,
3356            url_shape: None,
3357        };
3358        let s = site.span();
3359        assert_eq!(s.start, 5);
3360        assert_eq!(s.end, 15);
3361    }
3362
3363    // --- SecurityControlKind ---
3364
3365    #[test]
3366    fn security_control_kind_equality_and_ordering() {
3367        assert_eq!(
3368            SecurityControlKind::Sanitization,
3369            SecurityControlKind::Sanitization
3370        );
3371        assert_eq!(
3372            SecurityControlKind::Validation,
3373            SecurityControlKind::Validation
3374        );
3375        assert_ne!(
3376            SecurityControlKind::Sanitization,
3377            SecurityControlKind::Validation
3378        );
3379        assert!(SecurityControlKind::Sanitization < SecurityControlKind::Validation);
3380        assert!(SecurityControlKind::Authentication < SecurityControlKind::Authorization);
3381    }
3382
3383    // --- SanitizerScope ---
3384
3385    #[test]
3386    fn sanitizer_scope_equality_and_ordering() {
3387        assert_eq!(SanitizerScope::Html, SanitizerScope::Html);
3388        assert_eq!(SanitizerScope::Url, SanitizerScope::Url);
3389        assert_eq!(SanitizerScope::Path, SanitizerScope::Path);
3390        assert_eq!(SanitizerScope::SqlIdentifier, SanitizerScope::SqlIdentifier);
3391        assert_ne!(SanitizerScope::Html, SanitizerScope::Url);
3392        assert!(SanitizerScope::Html < SanitizerScope::Url);
3393    }
3394
3395    // --- SkippedSecurityCalleeReason ---
3396
3397    #[test]
3398    fn skipped_security_callee_reason_equality() {
3399        assert_eq!(
3400            SkippedSecurityCalleeReason::ComputedMember,
3401            SkippedSecurityCalleeReason::ComputedMember
3402        );
3403        assert_ne!(
3404            SkippedSecurityCalleeReason::ComputedMember,
3405            SkippedSecurityCalleeReason::DynamicDispatch
3406        );
3407        assert_ne!(
3408            SkippedSecurityCalleeReason::DynamicDispatch,
3409            SkippedSecurityCalleeReason::UnsupportedAssignmentObject
3410        );
3411    }
3412
3413    // --- SkippedSecurityCalleeExpressionKind ---
3414
3415    #[test]
3416    fn skipped_security_callee_expression_kind_equality() {
3417        use SkippedSecurityCalleeExpressionKind as K;
3418        assert_eq!(K::StaticMemberExpression, K::StaticMemberExpression);
3419        assert_eq!(K::ComputedMemberExpression, K::ComputedMemberExpression);
3420        assert_eq!(K::Identifier, K::Identifier);
3421        assert_eq!(K::Other, K::Other);
3422        assert_ne!(K::StaticMemberExpression, K::ComputedMemberExpression);
3423        assert_ne!(K::Identifier, K::Other);
3424    }
3425
3426    // --- SinkLiteralValue ---
3427
3428    #[test]
3429    fn sink_literal_value_equality() {
3430        assert_eq!(
3431            SinkLiteralValue::String("x".to_string()),
3432            SinkLiteralValue::String("x".to_string())
3433        );
3434        assert_ne!(
3435            SinkLiteralValue::String("x".to_string()),
3436            SinkLiteralValue::String("y".to_string())
3437        );
3438        assert_eq!(SinkLiteralValue::Integer(42), SinkLiteralValue::Integer(42));
3439        assert_ne!(SinkLiteralValue::Integer(1), SinkLiteralValue::Integer(2));
3440        assert_eq!(
3441            SinkLiteralValue::Boolean(true),
3442            SinkLiteralValue::Boolean(true)
3443        );
3444        assert_ne!(
3445            SinkLiteralValue::Boolean(true),
3446            SinkLiteralValue::Boolean(false)
3447        );
3448        assert_eq!(SinkLiteralValue::Null, SinkLiteralValue::Null);
3449        assert_ne!(SinkLiteralValue::Null, SinkLiteralValue::Boolean(false));
3450    }
3451
3452    // --- SecurityUrlShape ---
3453
3454    #[test]
3455    fn security_url_shape_equality() {
3456        assert_eq!(
3457            SecurityUrlShape::FixedOriginDynamicPath,
3458            SecurityUrlShape::FixedOriginDynamicPath
3459        );
3460        assert_eq!(
3461            SecurityUrlShape::DynamicOrigin,
3462            SecurityUrlShape::DynamicOrigin
3463        );
3464        assert_ne!(
3465            SecurityUrlShape::FixedOriginDynamicPath,
3466            SecurityUrlShape::DynamicOrigin
3467        );
3468    }
3469
3470    // --- FlagUseKind ---
3471
3472    #[test]
3473    fn flag_use_kind_equality() {
3474        assert_eq!(FlagUseKind::EnvVar, FlagUseKind::EnvVar);
3475        assert_eq!(FlagUseKind::SdkCall, FlagUseKind::SdkCall);
3476        assert_eq!(FlagUseKind::ConfigObject, FlagUseKind::ConfigObject);
3477        assert_ne!(FlagUseKind::EnvVar, FlagUseKind::SdkCall);
3478        assert_ne!(FlagUseKind::SdkCall, FlagUseKind::ConfigObject);
3479    }
3480
3481    // --- ComplexityMetric ---
3482
3483    #[test]
3484    fn complexity_metric_equality() {
3485        assert_eq!(ComplexityMetric::Cyclomatic, ComplexityMetric::Cyclomatic);
3486        assert_eq!(ComplexityMetric::Cognitive, ComplexityMetric::Cognitive);
3487        assert_ne!(ComplexityMetric::Cyclomatic, ComplexityMetric::Cognitive);
3488    }
3489
3490    // --- ComplexityContributionKind ---
3491
3492    #[test]
3493    fn complexity_contribution_kind_equality_spot_check() {
3494        use ComplexityContributionKind as K;
3495        assert_eq!(K::If, K::If);
3496        assert_eq!(K::Else, K::Else);
3497        assert_eq!(K::ElseIf, K::ElseIf);
3498        assert_eq!(K::Ternary, K::Ternary);
3499        assert_eq!(K::LogicalAnd, K::LogicalAnd);
3500        assert_eq!(K::LogicalOr, K::LogicalOr);
3501        assert_eq!(K::NullishCoalescing, K::NullishCoalescing);
3502        assert_eq!(K::LogicalAssignment, K::LogicalAssignment);
3503        assert_eq!(K::OptionalChain, K::OptionalChain);
3504        assert_eq!(K::For, K::For);
3505        assert_eq!(K::ForIn, K::ForIn);
3506        assert_eq!(K::ForOf, K::ForOf);
3507        assert_eq!(K::While, K::While);
3508        assert_eq!(K::DoWhile, K::DoWhile);
3509        assert_eq!(K::Switch, K::Switch);
3510        assert_eq!(K::Case, K::Case);
3511        assert_eq!(K::Catch, K::Catch);
3512        assert_eq!(K::LabeledBreak, K::LabeledBreak);
3513        assert_eq!(K::LabeledContinue, K::LabeledContinue);
3514        assert_eq!(K::JsxDepth, K::JsxDepth);
3515        assert_eq!(K::HookDensity, K::HookDensity);
3516        assert_eq!(K::PropCount, K::PropCount);
3517        assert_ne!(K::If, K::Else);
3518        assert_ne!(K::For, K::While);
3519        assert_ne!(K::Switch, K::Case);
3520    }
3521
3522    // --- MisplacedDirectiveSite ---
3523
3524    #[test]
3525    fn misplaced_directive_site_equality() {
3526        let client = MisplacedDirectiveSite {
3527            is_server: false,
3528            span_start: 10,
3529        };
3530        let server = MisplacedDirectiveSite {
3531            is_server: true,
3532            span_start: 10,
3533        };
3534        let client2 = MisplacedDirectiveSite {
3535            is_server: false,
3536            span_start: 10,
3537        };
3538        assert_eq!(client, client2);
3539        assert_ne!(client, server);
3540    }
3541
3542    #[test]
3543    fn misplaced_directive_site_is_server_flag() {
3544        let site = MisplacedDirectiveSite {
3545            is_server: true,
3546            span_start: 42,
3547        };
3548        assert!(site.is_server);
3549        assert_eq!(site.span_start, 42);
3550
3551        let client_site = MisplacedDirectiveSite {
3552            is_server: false,
3553            span_start: 0,
3554        };
3555        assert!(!client_site.is_server);
3556    }
3557
3558    // --- DiRole / DiFramework ---
3559
3560    #[test]
3561    fn di_role_equality() {
3562        assert_eq!(DiRole::Provide, DiRole::Provide);
3563        assert_eq!(DiRole::Inject, DiRole::Inject);
3564        assert_ne!(DiRole::Provide, DiRole::Inject);
3565    }
3566
3567    #[test]
3568    fn di_framework_equality() {
3569        assert_eq!(DiFramework::Vue, DiFramework::Vue);
3570        assert_eq!(DiFramework::Svelte, DiFramework::Svelte);
3571        assert_eq!(DiFramework::Angular, DiFramework::Angular);
3572        assert_ne!(DiFramework::Vue, DiFramework::Svelte);
3573        assert_ne!(DiFramework::Svelte, DiFramework::Angular);
3574    }
3575
3576    // --- ComponentEmit ---
3577
3578    #[test]
3579    fn component_emit_equality() {
3580        let a = ComponentEmit {
3581            name: "close".to_string(),
3582            span_start: 10,
3583            used: true,
3584        };
3585        let b = ComponentEmit {
3586            name: "close".to_string(),
3587            span_start: 10,
3588            used: true,
3589        };
3590        let different_used = ComponentEmit {
3591            name: "close".to_string(),
3592            span_start: 10,
3593            used: false,
3594        };
3595        let different_name = ComponentEmit {
3596            name: "open".to_string(),
3597            span_start: 10,
3598            used: true,
3599        };
3600        assert_eq!(a, b);
3601        assert_ne!(a, different_used);
3602        assert_ne!(a, different_name);
3603    }
3604
3605    // --- DispatchedEvent ---
3606
3607    #[test]
3608    fn dispatched_event_equality() {
3609        let a = DispatchedEvent {
3610            name: "myEvent".to_string(),
3611            span_start: 20,
3612        };
3613        let b = DispatchedEvent {
3614            name: "myEvent".to_string(),
3615            span_start: 20,
3616        };
3617        let c = DispatchedEvent {
3618            name: "otherEvent".to_string(),
3619            span_start: 20,
3620        };
3621        let d = DispatchedEvent {
3622            name: "myEvent".to_string(),
3623            span_start: 99,
3624        };
3625        assert_eq!(a, b);
3626        assert_ne!(a, c);
3627        assert_ne!(a, d);
3628    }
3629
3630    // --- AngularInputMember / AngularOutputMember ---
3631
3632    #[test]
3633    fn angular_input_member_equality() {
3634        let a = AngularInputMember {
3635            name: "title".to_string(),
3636            span_start: 5,
3637        };
3638        let b = AngularInputMember {
3639            name: "title".to_string(),
3640            span_start: 5,
3641        };
3642        let c = AngularInputMember {
3643            name: "label".to_string(),
3644            span_start: 5,
3645        };
3646        assert_eq!(a, b);
3647        assert_ne!(a, c);
3648    }
3649
3650    #[test]
3651    fn angular_output_member_equality() {
3652        let a = AngularOutputMember {
3653            name: "clicked".to_string(),
3654            span_start: 8,
3655        };
3656        let b = AngularOutputMember {
3657            name: "clicked".to_string(),
3658            span_start: 8,
3659        };
3660        let c = AngularOutputMember {
3661            name: "hovered".to_string(),
3662            span_start: 8,
3663        };
3664        assert_eq!(a, b);
3665        assert_ne!(a, c);
3666    }
3667
3668    // --- AngularComponentSelector ---
3669
3670    #[test]
3671    fn angular_component_selector_fields() {
3672        let s = AngularComponentSelector {
3673            selectors: vec!["app-foo".to_string(), "[appFoo]".to_string()],
3674            span_start: 100,
3675            class_name: "FooComponent".to_string(),
3676        };
3677        assert_eq!(s.selectors.len(), 2);
3678        assert_eq!(s.selectors[0], "app-foo");
3679        assert_eq!(s.selectors[1], "[appFoo]");
3680        assert_eq!(s.class_name, "FooComponent");
3681    }
3682
3683    #[test]
3684    fn angular_component_selector_equality() {
3685        let a = AngularComponentSelector {
3686            selectors: vec!["app-bar".to_string()],
3687            span_start: 0,
3688            class_name: "BarComponent".to_string(),
3689        };
3690        let b = AngularComponentSelector {
3691            selectors: vec!["app-bar".to_string()],
3692            span_start: 0,
3693            class_name: "BarComponent".to_string(),
3694        };
3695        let c = AngularComponentSelector {
3696            selectors: vec!["app-baz".to_string()],
3697            span_start: 0,
3698            class_name: "BazComponent".to_string(),
3699        };
3700        assert_eq!(a, b);
3701        assert_ne!(a, c);
3702    }
3703
3704    // --- LoadReturnKey ---
3705
3706    #[test]
3707    fn load_return_key_equality() {
3708        let a = LoadReturnKey {
3709            name: "user".to_string(),
3710            span_start: 50,
3711            span_end: 54,
3712        };
3713        let b = LoadReturnKey {
3714            name: "user".to_string(),
3715            span_start: 50,
3716            span_end: 54,
3717        };
3718        let c = LoadReturnKey {
3719            name: "posts".to_string(),
3720            span_start: 50,
3721            span_end: 55,
3722        };
3723        assert_eq!(a, b);
3724        assert_ne!(a, c);
3725    }
3726
3727    #[test]
3728    fn load_return_key_span_fields() {
3729        let key = LoadReturnKey {
3730            name: "data".to_string(),
3731            span_start: 10,
3732            span_end: 14,
3733        };
3734        assert_eq!(key.span_start, 10);
3735        assert_eq!(key.span_end, 14);
3736        assert_eq!(key.name, "data");
3737    }
3738
3739    // --- ComponentFunctionKind ---
3740
3741    #[test]
3742    fn component_function_kind_equality() {
3743        assert_eq!(ComponentFunctionKind::FnDecl, ComponentFunctionKind::FnDecl);
3744        assert_eq!(ComponentFunctionKind::Arrow, ComponentFunctionKind::Arrow);
3745        assert_eq!(
3746            ComponentFunctionKind::ForwardRefWrapper,
3747            ComponentFunctionKind::ForwardRefWrapper
3748        );
3749        assert_eq!(
3750            ComponentFunctionKind::MemoWrapper,
3751            ComponentFunctionKind::MemoWrapper
3752        );
3753        assert_ne!(ComponentFunctionKind::FnDecl, ComponentFunctionKind::Arrow);
3754        assert_ne!(
3755            ComponentFunctionKind::ForwardRefWrapper,
3756            ComponentFunctionKind::MemoWrapper
3757        );
3758    }
3759
3760    // --- HookUseKind ---
3761
3762    #[test]
3763    fn hook_use_kind_equality() {
3764        assert_eq!(HookUseKind::UseState, HookUseKind::UseState);
3765        assert_eq!(HookUseKind::UseEffect, HookUseKind::UseEffect);
3766        assert_eq!(HookUseKind::UseMemo, HookUseKind::UseMemo);
3767        assert_eq!(HookUseKind::UseCallback, HookUseKind::UseCallback);
3768        assert_eq!(HookUseKind::Custom, HookUseKind::Custom);
3769        assert_ne!(HookUseKind::UseState, HookUseKind::UseEffect);
3770        assert_ne!(HookUseKind::UseMemo, HookUseKind::Custom);
3771    }
3772
3773    // --- HookUse ---
3774
3775    #[test]
3776    fn hook_use_fields() {
3777        let h = HookUse {
3778            kind: HookUseKind::UseEffect,
3779            dep_array_arity: Some(2),
3780            span_start: 30,
3781            component: "Widget".to_string(),
3782        };
3783        assert_eq!(h.kind, HookUseKind::UseEffect);
3784        assert_eq!(h.dep_array_arity, Some(2));
3785        assert_eq!(h.span_start, 30);
3786        assert_eq!(h.component, "Widget");
3787    }
3788
3789    #[test]
3790    fn hook_use_no_dep_array() {
3791        let h = HookUse {
3792            kind: HookUseKind::UseCallback,
3793            dep_array_arity: None,
3794            span_start: 0,
3795            component: String::new(),
3796        };
3797        assert!(h.dep_array_arity.is_none());
3798    }
3799
3800    // --- MemberKind::StoreMember (missed in existing bitcode test) ---
3801
3802    #[test]
3803    fn member_kind_store_member_bitcode_roundtrip() {
3804        let kind = MemberKind::StoreMember;
3805        let bytes = bitcode::encode(&kind);
3806        let decoded: MemberKind = bitcode::decode(&bytes).unwrap();
3807        assert_eq!(decoded, kind);
3808    }
3809
3810    // --- RenderEdge / ForwardAttr ---
3811
3812    #[test]
3813    fn render_edge_fields() {
3814        let edge = RenderEdge {
3815            parent_component: "Parent".to_string(),
3816            child_component_name: "Child".to_string(),
3817            attr_names: vec!["title".to_string(), "onClick".to_string()],
3818            has_spread: false,
3819            forward_attrs: vec![ForwardAttr {
3820                attr: "title".to_string(),
3821                root: "props".to_string(),
3822            }],
3823            has_complex_forward: false,
3824        };
3825        assert_eq!(edge.parent_component, "Parent");
3826        assert_eq!(edge.child_component_name, "Child");
3827        assert_eq!(edge.attr_names.len(), 2);
3828        assert!(!edge.has_spread);
3829        assert_eq!(edge.forward_attrs.len(), 1);
3830        assert_eq!(edge.forward_attrs[0].attr, "title");
3831        assert_eq!(edge.forward_attrs[0].root, "props");
3832        assert!(!edge.has_complex_forward);
3833    }
3834
3835    #[test]
3836    fn render_edge_with_spread() {
3837        let edge = RenderEdge {
3838            parent_component: "Wrapper".to_string(),
3839            child_component_name: "Inner".to_string(),
3840            attr_names: Vec::new(),
3841            has_spread: true,
3842            forward_attrs: Vec::new(),
3843            has_complex_forward: true,
3844        };
3845        assert!(edge.has_spread);
3846        assert!(edge.has_complex_forward);
3847    }
3848
3849    // --- ComponentFunction ---
3850
3851    #[test]
3852    fn component_function_fields() {
3853        let cf = ComponentFunction {
3854            name: "MyButton".to_string(),
3855            span_start: 0,
3856            kind: ComponentFunctionKind::Arrow,
3857            is_exported: true,
3858            has_unharvestable_props: false,
3859            uses_clone_element: false,
3860            renders_provider: false,
3861            has_children_as_function: false,
3862            is_pure_passthrough: false,
3863        };
3864        assert_eq!(cf.name, "MyButton");
3865        assert_eq!(cf.kind, ComponentFunctionKind::Arrow);
3866        assert!(cf.is_exported);
3867        assert!(!cf.has_unharvestable_props);
3868        assert!(!cf.is_pure_passthrough);
3869    }
3870
3871    #[test]
3872    fn component_function_passthrough_flag() {
3873        let cf = ComponentFunction {
3874            name: "Passthrough".to_string(),
3875            span_start: 5,
3876            kind: ComponentFunctionKind::FnDecl,
3877            is_exported: false,
3878            has_unharvestable_props: false,
3879            uses_clone_element: false,
3880            renders_provider: false,
3881            has_children_as_function: false,
3882            is_pure_passthrough: true,
3883        };
3884        assert!(cf.is_pure_passthrough);
3885        assert!(!cf.is_exported);
3886    }
3887
3888    // --- DiKeySite ---
3889
3890    #[test]
3891    fn di_key_site_fields() {
3892        let site = DiKeySite {
3893            key_local: "MY_KEY".to_string(),
3894            role: DiRole::Provide,
3895            framework: DiFramework::Vue,
3896            span_start: 77,
3897        };
3898        assert_eq!(site.key_local, "MY_KEY");
3899        assert_eq!(site.role, DiRole::Provide);
3900        assert_eq!(site.framework, DiFramework::Vue);
3901        assert_eq!(site.span_start, 77);
3902    }
3903
3904    #[test]
3905    fn di_key_site_inject_svelte() {
3906        let site = DiKeySite {
3907            key_local: "ctx_key".to_string(),
3908            role: DiRole::Inject,
3909            framework: DiFramework::Svelte,
3910            span_start: 0,
3911        };
3912        assert_eq!(site.role, DiRole::Inject);
3913        assert_eq!(site.framework, DiFramework::Svelte);
3914    }
3915
3916    // --- release_resolution_payload: page data store whole-use derivation ---
3917
3918    #[test]
3919    fn release_payload_derives_page_data_store_whole_use_from_page_data() {
3920        let mut m = minimal_module_info();
3921        m.whole_object_uses = vec!["page.data".to_string()].into();
3922        m.release_resolution_payload();
3923        assert!(m.has_page_data_store_whole_use);
3924    }
3925
3926    #[test]
3927    fn release_payload_derives_page_data_store_whole_use_from_dollar_page_data() {
3928        let mut m = minimal_module_info();
3929        m.whole_object_uses = vec!["$page.data".to_string()].into();
3930        m.release_resolution_payload();
3931        assert!(m.has_page_data_store_whole_use);
3932    }
3933
3934    #[test]
3935    fn release_payload_does_not_set_page_data_store_whole_use_for_other_names() {
3936        let mut m = minimal_module_info();
3937        m.whole_object_uses = vec!["data".to_string(), "page".to_string()].into();
3938        m.release_resolution_payload();
3939        assert!(!m.has_page_data_store_whole_use);
3940    }
3941
3942    // --- release_resolution_payload: referenced_import_bindings derivation ---
3943
3944    #[test]
3945    fn release_payload_referenced_bindings_excludes_empty_local_names() {
3946        let mut m = minimal_module_info();
3947        m.imports = vec![
3948            ImportInfo {
3949                source: "./styles.css".to_string(),
3950                imported_name: ImportedName::SideEffect,
3951                local_name: String::new(), // empty = side-effect import
3952                is_type_only: false,
3953                from_style: true,
3954                span: span(),
3955                source_span: span(),
3956            },
3957            ImportInfo {
3958                source: "react".to_string(),
3959                imported_name: ImportedName::Default,
3960                local_name: "React".to_string(),
3961                is_type_only: false,
3962                from_style: false,
3963                span: span(),
3964                source_span: span(),
3965            },
3966        ];
3967        m.unused_import_bindings = vec!["React".to_string()];
3968        m.release_resolution_payload();
3969        // "React" was unused, empty local is filtered; result should be empty
3970        assert!(m.referenced_import_bindings.is_empty());
3971    }
3972
3973    #[test]
3974    fn release_payload_referenced_bindings_sorted_and_deduped() {
3975        let mut m = minimal_module_info();
3976        // Two imports with the same local name (unusual but possible via re-exports)
3977        m.imports = vec![
3978            ImportInfo {
3979                source: "a".to_string(),
3980                imported_name: ImportedName::Named("foo".to_string()),
3981                local_name: "foo".to_string(),
3982                is_type_only: false,
3983                from_style: false,
3984                span: span(),
3985                source_span: span(),
3986            },
3987            ImportInfo {
3988                source: "b".to_string(),
3989                imported_name: ImportedName::Named("bar".to_string()),
3990                local_name: "bar".to_string(),
3991                is_type_only: false,
3992                from_style: false,
3993                span: span(),
3994                source_span: span(),
3995            },
3996            ImportInfo {
3997                source: "c".to_string(),
3998                imported_name: ImportedName::Named("foo".to_string()),
3999                local_name: "foo".to_string(),
4000                is_type_only: false,
4001                from_style: false,
4002                span: span(),
4003                source_span: span(),
4004            },
4005        ];
4006        m.unused_import_bindings = Vec::new();
4007        m.release_resolution_payload();
4008        // sorted: ["bar", "foo"] with "foo" deduped
4009        assert_eq!(
4010            m.referenced_import_bindings,
4011            vec!["bar".to_string(), "foo".to_string()]
4012        );
4013    }
4014
4015    // --- CalleeUse ---
4016
4017    #[test]
4018    fn callee_use_fields() {
4019        let cu = CalleeUse {
4020            callee_path: "child_process.exec".to_string(),
4021            span_start: 100,
4022        };
4023        assert_eq!(cu.callee_path, "child_process.exec");
4024        assert_eq!(cu.span_start, 100);
4025    }
4026
4027    // --- Helper to build a minimal ModuleInfo for targeted tests ---
4028
4029    fn minimal_module_info() -> ModuleInfo {
4030        ModuleInfo {
4031            file_id: FileId(0),
4032            exports: Vec::new(),
4033            imports: Vec::new(),
4034            re_exports: Vec::new(),
4035            dynamic_imports: Vec::new(),
4036            dynamic_import_patterns: Vec::new(),
4037            require_calls: Vec::new(),
4038            package_path_references: Box::default(),
4039            member_accesses: Vec::new(),
4040            semantic_facts: Box::default(),
4041            whole_object_uses: Box::default(),
4042            has_cjs_exports: false,
4043            has_angular_component_template_url: false,
4044            content_hash: 0,
4045            suppressions: Vec::new(),
4046            unknown_suppression_kinds: Vec::new(),
4047            unused_import_bindings: Vec::new(),
4048            type_referenced_import_bindings: Vec::new(),
4049            value_referenced_import_bindings: Vec::new(),
4050            line_offsets: Vec::new(),
4051            complexity: Vec::new(),
4052            flag_uses: Vec::new(),
4053            class_heritage: Vec::new(),
4054            exported_factory_returns: Box::default(),
4055            injection_tokens: Vec::new(),
4056            local_type_declarations: Vec::new(),
4057            public_signature_type_references: Vec::new(),
4058            namespace_object_aliases: Vec::new(),
4059            iconify_prefixes: Vec::new(),
4060            iconify_icon_names: Vec::new(),
4061            auto_import_candidates: Vec::new(),
4062            directives: Vec::new(),
4063            client_only_dynamic_import_spans: Vec::new(),
4064            security_sinks: Vec::new(),
4065            security_sinks_skipped: 0,
4066            security_unresolved_callee_sites: Vec::new(),
4067            tainted_bindings: Vec::new(),
4068            sanitized_sink_args: Vec::new(),
4069            security_control_sites: Vec::new(),
4070            callee_uses: Vec::new(),
4071            misplaced_directives: Vec::new(),
4072            inline_server_action_exports: Vec::new(),
4073            di_key_sites: Vec::new(),
4074            has_dynamic_provide: false,
4075            referenced_import_bindings: Vec::new(),
4076            component_props: Vec::new(),
4077            has_props_attrs_fallthrough: false,
4078            has_define_expose: false,
4079            has_define_model: false,
4080            has_unharvestable_props: false,
4081            component_emits: Vec::new(),
4082            angular_inputs: Vec::new(),
4083            angular_outputs: Vec::new(),
4084            angular_component_selectors: Vec::new(),
4085            registered_custom_elements: Vec::new(),
4086            used_custom_element_tags: Vec::new(),
4087            angular_used_selectors: Vec::new(),
4088            angular_entry_component_refs: Vec::new(),
4089            has_dynamic_component_render: false,
4090            has_unharvestable_emits: false,
4091            has_dynamic_emit: false,
4092            has_emit_whole_object_use: false,
4093            load_return_keys: Vec::new(),
4094            has_unharvestable_load: false,
4095            has_load_data_whole_use: false,
4096            has_page_data_store_whole_use: false,
4097            component_functions: Vec::new(),
4098            react_props: Vec::new(),
4099            hook_uses: Vec::new(),
4100            render_edges: Vec::new(),
4101            svelte_dispatched_events: Vec::new(),
4102            svelte_listened_events: Vec::new(),
4103            has_dynamic_dispatch: false,
4104        }
4105    }
4106
4107    fn push_semantic_fact(module: &mut ModuleInfo, fact: SemanticFact) {
4108        let mut facts = std::mem::take(&mut module.semantic_facts).into_vec();
4109        facts.push(fact);
4110        module.semantic_facts = facts.into_boxed_slice();
4111    }
4112
4113    #[test]
4114    fn dynamic_custom_element_render_helper_prefers_typed_fact() {
4115        let mut module = minimal_module_info();
4116        push_semantic_fact(
4117            &mut module,
4118            SemanticFact::DynamicCustomElementRender(DynamicCustomElementRenderFact),
4119        );
4120
4121        assert!(has_dynamic_custom_element_render(&module));
4122    }
4123
4124    #[test]
4125    fn function_complexity_bitcode_roundtrip() {
4126        let fc = FunctionComplexity {
4127            name: "processData".to_string(),
4128            line: 42,
4129            col: 4,
4130            cyclomatic: 15,
4131            cognitive: 25,
4132            line_count: 80,
4133            param_count: 3,
4134            react_hook_count: 0,
4135            react_jsx_max_depth: 0,
4136            react_prop_count: 0,
4137            source_hash: Some("0123456789abcdef".to_string()),
4138            contributions: vec![
4139                ComplexityContribution {
4140                    line: 43,
4141                    col: 8,
4142                    metric: ComplexityMetric::Cyclomatic,
4143                    kind: ComplexityContributionKind::If,
4144                    weight: 1,
4145                    nesting: 0,
4146                },
4147                ComplexityContribution {
4148                    line: 45,
4149                    col: 12,
4150                    metric: ComplexityMetric::Cognitive,
4151                    kind: ComplexityContributionKind::ElseIf,
4152                    weight: 3,
4153                    nesting: 2,
4154                },
4155            ],
4156        };
4157        let bytes = bitcode::encode(&fc);
4158        let decoded: FunctionComplexity = bitcode::decode(&bytes).unwrap();
4159        assert_eq!(decoded.name, "processData");
4160        assert_eq!(decoded.line, 42);
4161        assert_eq!(decoded.col, 4);
4162        assert_eq!(decoded.cyclomatic, 15);
4163        assert_eq!(decoded.cognitive, 25);
4164        assert_eq!(decoded.line_count, 80);
4165        assert_eq!(decoded.source_hash.as_deref(), Some("0123456789abcdef"));
4166        assert_eq!(decoded.contributions.len(), 2);
4167        assert_eq!(
4168            decoded.contributions[1].kind,
4169            ComplexityContributionKind::ElseIf
4170        );
4171        assert_eq!(decoded.contributions[1].weight, 3);
4172        assert_eq!(decoded.contributions[1].nesting, 2);
4173        assert_eq!(decoded.contributions[1].metric, ComplexityMetric::Cognitive);
4174    }
4175}