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resolution.test.ts 152 KB

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  1. /**
  2. * Resolution Module Tests
  3. *
  4. * Tests for Phase 3: Reference Resolution
  5. */
  6. import { describe, it, expect, beforeEach, afterEach } from 'vitest';
  7. import * as fs from 'fs';
  8. import * as path from 'path';
  9. import * as os from 'os';
  10. import { CodeGraph } from '../src';
  11. import { Node, UnresolvedReference } from '../src/types';
  12. import { ReferenceResolver, createResolver, ResolutionContext } from '../src/resolution';
  13. import { matchReference, resolveMethodOnType, matchByQualifiedName, preferCallSiteFile } from '../src/resolution/name-matcher';
  14. import { resolveImportPath, extractImportMappings, resolveJvmImport, loadCppIncludeDirs, clearCppIncludeDirCache, isPhpIncludePathRef } from '../src/resolution/import-resolver';
  15. import type { UnresolvedRef } from '../src/resolution/types';
  16. import { detectFrameworks, getAllFrameworkResolvers } from '../src/resolution/frameworks';
  17. import { QueryBuilder } from '../src/db/queries';
  18. import { DatabaseConnection } from '../src/db';
  19. describe('Resolution Module', () => {
  20. let tempDir: string;
  21. let cg: CodeGraph;
  22. beforeEach(() => {
  23. // Create temp directory
  24. tempDir = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-resolution-test-'));
  25. });
  26. afterEach(() => {
  27. // Clean up
  28. if (cg) {
  29. cg.destroy();
  30. } else if (fs.existsSync(tempDir)) {
  31. fs.rmSync(tempDir, { recursive: true });
  32. }
  33. });
  34. describe('Name Matcher', () => {
  35. it('should match exact name references', () => {
  36. // Create a mock context
  37. const mockNodes: Node[] = [
  38. {
  39. id: 'func:test.ts:myFunction:10',
  40. kind: 'function',
  41. name: 'myFunction',
  42. qualifiedName: 'test.ts::myFunction',
  43. filePath: 'test.ts',
  44. language: 'typescript',
  45. startLine: 10,
  46. endLine: 20,
  47. startColumn: 0,
  48. endColumn: 0,
  49. updatedAt: Date.now(),
  50. },
  51. ];
  52. const context: ResolutionContext = {
  53. getNodesInFile: () => mockNodes,
  54. getNodesByName: (name) => mockNodes.filter((n) => n.name === name),
  55. getNodesByQualifiedName: () => [],
  56. getNodesByKind: () => [],
  57. fileExists: () => true,
  58. readFile: () => null,
  59. getProjectRoot: () => '/test',
  60. getAllFiles: () => ['test.ts'],
  61. };
  62. const ref = {
  63. fromNodeId: 'caller:main.ts:caller:5',
  64. referenceName: 'myFunction',
  65. referenceKind: 'calls' as const,
  66. line: 5,
  67. column: 10,
  68. filePath: 'main.ts',
  69. language: 'typescript' as const,
  70. };
  71. const result = matchReference(ref, context);
  72. expect(result).not.toBeNull();
  73. expect(result?.targetNodeId).toBe('func:test.ts:myFunction:10');
  74. expect(result?.resolvedBy).toBe('exact-match');
  75. });
  76. it('should prefer same-module candidates over cross-module matches', () => {
  77. // Simulates a Python monorepo where multiple apps define navigate()
  78. const candidateA: Node = {
  79. id: 'func:apps/app_a/src/server.py:navigate:10',
  80. kind: 'function',
  81. name: 'navigate',
  82. qualifiedName: 'apps/app_a/src/server.py::navigate',
  83. filePath: 'apps/app_a/src/server.py',
  84. language: 'python',
  85. startLine: 10,
  86. endLine: 20,
  87. startColumn: 0,
  88. endColumn: 0,
  89. updatedAt: Date.now(),
  90. };
  91. const candidateB: Node = {
  92. id: 'func:apps/app_b/src/server.py:navigate:15',
  93. kind: 'function',
  94. name: 'navigate',
  95. qualifiedName: 'apps/app_b/src/server.py::navigate',
  96. filePath: 'apps/app_b/src/server.py',
  97. language: 'python',
  98. startLine: 15,
  99. endLine: 25,
  100. startColumn: 0,
  101. endColumn: 0,
  102. updatedAt: Date.now(),
  103. };
  104. const context: ResolutionContext = {
  105. getNodesInFile: () => [],
  106. getNodesByName: (name) => name === 'navigate' ? [candidateA, candidateB] : [],
  107. getNodesByQualifiedName: () => [],
  108. getNodesByKind: () => [],
  109. fileExists: () => true,
  110. readFile: () => null,
  111. getProjectRoot: () => '/test',
  112. getAllFiles: () => [],
  113. getNodesByLowerName: () => [],
  114. getImportMappings: () => [],
  115. };
  116. // Reference from app_a should resolve to app_a's navigate, not app_b's
  117. const ref = {
  118. fromNodeId: 'func:apps/app_a/src/handler.py:handler:5',
  119. referenceName: 'navigate',
  120. referenceKind: 'calls' as const,
  121. line: 5,
  122. column: 10,
  123. filePath: 'apps/app_a/src/handler.py',
  124. language: 'python' as const,
  125. };
  126. const result = matchReference(ref, context);
  127. expect(result).not.toBeNull();
  128. expect(result?.targetNodeId).toBe('func:apps/app_a/src/server.py:navigate:10');
  129. expect(result?.resolvedBy).toBe('exact-match');
  130. });
  131. it('should lower confidence for cross-module exact matches', () => {
  132. // Only one candidate but in a completely different module
  133. const candidates: Node[] = [
  134. {
  135. id: 'func:apps/app_b/src/server.py:navigate:10',
  136. kind: 'function',
  137. name: 'navigate',
  138. qualifiedName: 'apps/app_b/src/server.py::navigate',
  139. filePath: 'apps/app_b/src/server.py',
  140. language: 'python',
  141. startLine: 10,
  142. endLine: 20,
  143. startColumn: 0,
  144. endColumn: 0,
  145. updatedAt: Date.now(),
  146. },
  147. {
  148. id: 'func:apps/app_c/src/server.py:navigate:10',
  149. kind: 'function',
  150. name: 'navigate',
  151. qualifiedName: 'apps/app_c/src/server.py::navigate',
  152. filePath: 'apps/app_c/src/server.py',
  153. language: 'python',
  154. startLine: 10,
  155. endLine: 20,
  156. startColumn: 0,
  157. endColumn: 0,
  158. updatedAt: Date.now(),
  159. },
  160. ];
  161. const context: ResolutionContext = {
  162. getNodesInFile: () => [],
  163. getNodesByName: (name) => name === 'navigate' ? candidates : [],
  164. getNodesByQualifiedName: () => [],
  165. getNodesByKind: () => [],
  166. fileExists: () => true,
  167. readFile: () => null,
  168. getProjectRoot: () => '/test',
  169. getAllFiles: () => [],
  170. getNodesByLowerName: () => [],
  171. getImportMappings: () => [],
  172. };
  173. // Reference from app_a — neither candidate is in the same module
  174. const ref = {
  175. fromNodeId: 'func:apps/app_a/src/handler.py:handler:5',
  176. referenceName: 'navigate',
  177. referenceKind: 'calls' as const,
  178. line: 5,
  179. column: 10,
  180. filePath: 'apps/app_a/src/handler.py',
  181. language: 'python' as const,
  182. };
  183. const result = matchReference(ref, context);
  184. // Should still resolve but with low confidence
  185. expect(result).not.toBeNull();
  186. expect(result?.confidence).toBeLessThanOrEqual(0.4);
  187. });
  188. it('should match qualified name references', () => {
  189. const mockClassNode: Node = {
  190. id: 'class:user.ts:User:5',
  191. kind: 'class',
  192. name: 'User',
  193. qualifiedName: 'user.ts::User',
  194. filePath: 'user.ts',
  195. language: 'typescript',
  196. startLine: 5,
  197. endLine: 30,
  198. startColumn: 0,
  199. endColumn: 0,
  200. updatedAt: Date.now(),
  201. };
  202. const mockMethodNode: Node = {
  203. id: 'method:user.ts:User.save:15',
  204. kind: 'method',
  205. name: 'save',
  206. qualifiedName: 'user.ts::User::save',
  207. filePath: 'user.ts',
  208. language: 'typescript',
  209. startLine: 15,
  210. endLine: 25,
  211. startColumn: 0,
  212. endColumn: 0,
  213. updatedAt: Date.now(),
  214. };
  215. const context: ResolutionContext = {
  216. getNodesInFile: (fp) => fp === 'user.ts' ? [mockClassNode, mockMethodNode] : [],
  217. getNodesByName: (name) => {
  218. if (name === 'User') return [mockClassNode];
  219. if (name === 'save') return [mockMethodNode];
  220. return [];
  221. },
  222. getNodesByQualifiedName: (qn) => {
  223. if (qn === 'user.ts::User::save') return [mockMethodNode];
  224. return [];
  225. },
  226. getNodesByKind: () => [],
  227. fileExists: () => true,
  228. readFile: () => null,
  229. getProjectRoot: () => '/test',
  230. getAllFiles: () => ['user.ts'],
  231. };
  232. const ref = {
  233. fromNodeId: 'caller:main.ts:main:5',
  234. referenceName: 'User.save',
  235. referenceKind: 'calls' as const,
  236. line: 5,
  237. column: 10,
  238. filePath: 'main.ts',
  239. language: 'typescript' as const,
  240. };
  241. const result = matchReference(ref, context);
  242. expect(result).not.toBeNull();
  243. expect(result?.targetNodeId).toBe('method:user.ts:User.save:15');
  244. });
  245. });
  246. describe('Ubiquitous-name ceiling (#999)', () => {
  247. // A vendored theme/SDK re-declares the same method name across thousands of
  248. // files (Metronic's `init`/`update`/… on every widget). The fuzzy strategies
  249. // used to score every same-named candidate per ref — O(K) per ref, O(K²)
  250. // total — which pinned a core for 15-28 min at "Resolving refs … 94%". Above
  251. // the ceiling they must DECLINE instead, since no proximity/word-overlap
  252. // score can pick the one true target among thousands anyway.
  253. const CEILING = 500;
  254. // A spy context: counts how many nodes the strategy actually inspects, so we
  255. // can assert the cap short-circuits BEFORE the O(K) scoring (not just that it
  256. // returns null).
  257. const makeManyMethods = (n: number, name: string): Node[] =>
  258. Array.from({ length: n }, (_, i) => ({
  259. id: `method:widget${i}.js:Widget${i}.${name}:1`,
  260. kind: 'method' as const,
  261. name,
  262. qualifiedName: `widget${i}.js::Widget${i}::${name}`,
  263. filePath: `static/theme/widget${i}.js`,
  264. language: 'javascript' as const,
  265. startLine: 1,
  266. endLine: 5,
  267. startColumn: 0,
  268. endColumn: 0,
  269. updatedAt: Date.now(),
  270. }));
  271. const spyContext = (nodes: Node[]): { ctx: ResolutionContext; lookups: () => number } => {
  272. let scanned = 0;
  273. const ctx: ResolutionContext = {
  274. getNodesInFile: () => [],
  275. getNodesByName: (name) => {
  276. const hit = nodes.filter((n) => n.name === name);
  277. scanned += hit.length;
  278. return hit;
  279. },
  280. getNodesByQualifiedName: () => [],
  281. getNodesByKind: () => [],
  282. fileExists: () => true,
  283. readFile: () => null,
  284. getProjectRoot: () => '/test',
  285. getAllFiles: () => [],
  286. getNodesByLowerName: () => [],
  287. getImportMappings: () => [],
  288. };
  289. return { ctx, lookups: () => scanned };
  290. };
  291. it('declines a method call (`obj.init`) above the ceiling instead of scoring K candidates', () => {
  292. const { ctx } = spyContext(makeManyMethods(CEILING + 1, 'init'));
  293. const ref = {
  294. fromNodeId: 'method:caller.js:caller:1',
  295. referenceName: 'widget.init',
  296. referenceKind: 'calls' as const,
  297. line: 2,
  298. column: 4,
  299. filePath: 'static/theme/caller.js',
  300. language: 'javascript' as const,
  301. };
  302. expect(matchReference(ref, ctx)).toBeNull();
  303. });
  304. it('declines a bare exact-name ref above the ceiling', () => {
  305. const { ctx } = spyContext(makeManyMethods(CEILING + 1, 'render'));
  306. const ref = {
  307. fromNodeId: 'method:caller.js:caller:1',
  308. referenceName: 'render',
  309. referenceKind: 'calls' as const,
  310. line: 2,
  311. column: 4,
  312. filePath: 'static/theme/caller.js',
  313. language: 'javascript' as const,
  314. };
  315. expect(matchReference(ref, ctx)).toBeNull();
  316. });
  317. it('still resolves a SAME-FILE definition when one exists (precise path unaffected)', () => {
  318. // Strategy 1 (class-name) and same-file matching are precise — a ubiquitous
  319. // name with an unambiguous local target still resolves.
  320. const nodes = makeManyMethods(CEILING + 1, 'init');
  321. const local: Node = {
  322. id: 'class:static/theme/caller.js:Widgetly:1',
  323. kind: 'class',
  324. name: 'Widgetly',
  325. qualifiedName: 'static/theme/caller.js::Widgetly',
  326. filePath: 'static/theme/caller.js',
  327. language: 'javascript',
  328. startLine: 1, endLine: 9, startColumn: 0, endColumn: 0, updatedAt: Date.now(),
  329. };
  330. const localMethod: Node = {
  331. id: 'method:static/theme/caller.js:Widgetly.init:2',
  332. kind: 'method',
  333. name: 'init',
  334. qualifiedName: 'static/theme/caller.js::Widgetly::init',
  335. filePath: 'static/theme/caller.js',
  336. language: 'javascript',
  337. startLine: 2, endLine: 4, startColumn: 0, endColumn: 0, updatedAt: Date.now(),
  338. };
  339. const all = [...nodes, local, localMethod];
  340. const ctx: ResolutionContext = {
  341. getNodesInFile: (fp) => all.filter((n) => n.filePath === fp),
  342. getNodesByName: (name) => all.filter((n) => n.name === name),
  343. getNodesByQualifiedName: () => [],
  344. getNodesByKind: () => [],
  345. fileExists: () => true,
  346. readFile: () => null,
  347. getProjectRoot: () => '/test',
  348. getAllFiles: () => [],
  349. getNodesByLowerName: () => [],
  350. getImportMappings: () => [],
  351. };
  352. // `Widgetly.init` names the class explicitly → Strategy 1 resolves it.
  353. const ref = {
  354. fromNodeId: 'method:static/theme/caller.js:caller:6',
  355. referenceName: 'Widgetly.init',
  356. referenceKind: 'calls' as const,
  357. line: 6,
  358. column: 4,
  359. filePath: 'static/theme/caller.js',
  360. language: 'javascript' as const,
  361. };
  362. const result = matchReference(ref, ctx);
  363. expect(result?.targetNodeId).toBe('method:static/theme/caller.js:Widgetly.init:2');
  364. });
  365. it('still scores normally JUST below the ceiling (no behavior change for normal repos)', () => {
  366. // Real repos top out near ~40 same-named methods; this proves a sub-ceiling
  367. // collision still resolves via proximity, so the cap is invisible to them.
  368. const nodes = makeManyMethods(CEILING - 1, 'update');
  369. // Make ONE candidate share the caller's directory so proximity picks it.
  370. nodes[0] = {
  371. ...nodes[0]!,
  372. id: 'method:static/theme/app/Widget0.update:1',
  373. qualifiedName: 'static/theme/app/widget.js::Widget0::update',
  374. filePath: 'static/theme/app/widget.js',
  375. };
  376. const ctx: ResolutionContext = {
  377. getNodesInFile: () => [],
  378. getNodesByName: (name) => nodes.filter((n) => n.name === name),
  379. getNodesByQualifiedName: () => [],
  380. getNodesByKind: () => [],
  381. fileExists: () => true,
  382. readFile: () => null,
  383. getProjectRoot: () => '/test',
  384. getAllFiles: () => [],
  385. getNodesByLowerName: () => [],
  386. getImportMappings: () => [],
  387. };
  388. const ref = {
  389. fromNodeId: 'method:static/theme/app/caller.js:caller:1',
  390. referenceName: 'update',
  391. referenceKind: 'calls' as const,
  392. line: 2,
  393. column: 4,
  394. filePath: 'static/theme/app/caller.js',
  395. language: 'javascript' as const,
  396. };
  397. // Below the ceiling the fuzzy path runs and resolves SOMETHING (not capped).
  398. expect(matchReference(ref, ctx)).not.toBeNull();
  399. });
  400. });
  401. describe('Import Resolver', () => {
  402. it('should resolve relative import paths', () => {
  403. const context: ResolutionContext = {
  404. getNodesInFile: () => [],
  405. getNodesByName: () => [],
  406. getNodesByQualifiedName: () => [],
  407. getNodesByKind: () => [],
  408. fileExists: (p) => p === 'src/components/utils.ts' || p === 'src/components/utils/index.ts',
  409. readFile: () => null,
  410. getProjectRoot: () => '',
  411. getAllFiles: () => ['src/components/utils.ts', 'src/components/utils/index.ts'],
  412. };
  413. const result = resolveImportPath(
  414. './utils',
  415. 'src/components/Button.ts',
  416. 'typescript',
  417. context
  418. );
  419. expect(result).toBe('src/components/utils.ts');
  420. });
  421. it('should resolve parent directory imports', () => {
  422. const context: ResolutionContext = {
  423. getNodesInFile: () => [],
  424. getNodesByName: () => [],
  425. getNodesByQualifiedName: () => [],
  426. getNodesByKind: () => [],
  427. fileExists: (p) => p === 'src/helpers.ts' || p === 'src/helpers/index.ts',
  428. readFile: () => null,
  429. getProjectRoot: () => '',
  430. getAllFiles: () => ['src/helpers.ts', 'src/helpers/index.ts'],
  431. };
  432. const result = resolveImportPath(
  433. '../helpers',
  434. 'src/components/Button.ts',
  435. 'typescript',
  436. context
  437. );
  438. expect(result).toBe('src/helpers.ts');
  439. });
  440. it('should extract JS/TS import mappings', () => {
  441. const content = `
  442. import { foo } from './foo';
  443. import bar from '../bar';
  444. import * as utils from './utils';
  445. import { baz, qux } from './baz';
  446. `;
  447. const mappings = extractImportMappings(
  448. 'src/index.ts',
  449. content,
  450. 'typescript'
  451. );
  452. expect(mappings.length).toBeGreaterThan(0);
  453. expect(mappings.some((m) => m.localName === 'foo')).toBe(true);
  454. expect(mappings.some((m) => m.localName === 'bar')).toBe(true);
  455. });
  456. it('should extract Python import mappings', () => {
  457. const content = `
  458. from utils import helper
  459. from .models import User
  460. import os
  461. from ..services import auth_service
  462. `;
  463. const mappings = extractImportMappings(
  464. 'src/main.py',
  465. content,
  466. 'python'
  467. );
  468. expect(mappings.length).toBeGreaterThan(0);
  469. expect(mappings.some((m) => m.localName === 'helper')).toBe(true);
  470. expect(mappings.some((m) => m.localName === 'User')).toBe(true);
  471. });
  472. });
  473. describe('JVM FQN Import Resolution', () => {
  474. // Build a ResolutionContext stub whose getNodesByQualifiedName answers
  475. // from a fixed table — the only context method resolveJvmImport touches.
  476. const makeContext = (byQName: Record<string, Node[]>): ResolutionContext => ({
  477. getNodesInFile: () => [],
  478. getNodesByName: () => [],
  479. getNodesByQualifiedName: (q) => byQName[q] ?? [],
  480. getNodesByKind: () => [],
  481. fileExists: () => false,
  482. readFile: () => null,
  483. getProjectRoot: () => '',
  484. getAllFiles: () => [],
  485. });
  486. const node = (id: string, name: string, qualifiedName: string, kind: Node['kind'] = 'class', language: Node['language'] = 'kotlin'): Node => ({
  487. id, kind, name, qualifiedName,
  488. filePath: 'Models.kt', language,
  489. startLine: 1, endLine: 1, startColumn: 0, endColumn: 0,
  490. updatedAt: 0,
  491. });
  492. const importRef = (referenceName: string, language: Node['language'] = 'kotlin'): UnresolvedRef => ({
  493. fromNodeId: 'caller',
  494. referenceName,
  495. referenceKind: 'imports',
  496. line: 1, column: 0,
  497. filePath: 'Caller.kt',
  498. language,
  499. });
  500. it('resolves a Kotlin class import by FQN regardless of filename', () => {
  501. const target = node('n1', 'Bar', 'com.example.foo::Bar');
  502. const ctx = makeContext({ 'com.example.foo::Bar': [target] });
  503. const result = resolveJvmImport(importRef('com.example.foo.Bar'), ctx);
  504. expect(result?.targetNodeId).toBe('n1');
  505. expect(result?.resolvedBy).toBe('import');
  506. });
  507. it('resolves a Kotlin top-level function import by FQN', () => {
  508. const util = node('n2', 'util', 'com.example.foo::util', 'function');
  509. const ctx = makeContext({ 'com.example.foo::util': [util] });
  510. const result = resolveJvmImport(importRef('com.example.foo.util'), ctx);
  511. expect(result?.targetNodeId).toBe('n2');
  512. });
  513. it('resolves a Java import by FQN', () => {
  514. const target = node('n3', 'Bar', 'com.example.foo::Bar', 'class', 'java');
  515. const ctx = makeContext({ 'com.example.foo::Bar': [target] });
  516. const result = resolveJvmImport(importRef('com.example.foo.Bar', 'java'), ctx);
  517. expect(result?.targetNodeId).toBe('n3');
  518. });
  519. it('resolves cross-language: Kotlin importing a Java class', () => {
  520. // The Kotlin file declares `import com.example.JavaBar` — the target is
  521. // a Java class node. JVM interop means the resolver doesn't care about
  522. // the source language of the target, only that the FQN matches.
  523. const target = node('n4', 'JavaBar', 'com.example::JavaBar', 'class', 'java');
  524. const ctx = makeContext({ 'com.example::JavaBar': [target] });
  525. const result = resolveJvmImport(importRef('com.example.JavaBar'), ctx);
  526. expect(result?.targetNodeId).toBe('n4');
  527. });
  528. it('disambiguates a name collision across packages', () => {
  529. // Two classes named `Bar` in different packages. Each import resolves
  530. // to the one whose FQN matches — not to "whichever was found first".
  531. const barA = node('n5a', 'Bar', 'com.example.alpha::Bar');
  532. const barB = node('n5b', 'Bar', 'com.example.beta::Bar');
  533. const ctx = makeContext({
  534. 'com.example.alpha::Bar': [barA],
  535. 'com.example.beta::Bar': [barB],
  536. });
  537. expect(resolveJvmImport(importRef('com.example.alpha.Bar'), ctx)?.targetNodeId).toBe('n5a');
  538. expect(resolveJvmImport(importRef('com.example.beta.Bar'), ctx)?.targetNodeId).toBe('n5b');
  539. });
  540. it('returns null for wildcard imports', () => {
  541. const ctx = makeContext({});
  542. expect(resolveJvmImport(importRef('com.example.foo.*'), ctx)).toBeNull();
  543. });
  544. it('returns null for unqualified names', () => {
  545. // A single-segment name has no package; nothing to look up by FQN.
  546. const ctx = makeContext({ 'Bar': [node('n6', 'Bar', 'Bar')] });
  547. expect(resolveJvmImport(importRef('Bar'), ctx)).toBeNull();
  548. });
  549. it('returns null for non-JVM languages', () => {
  550. const target = node('n7', 'Bar', 'com.example::Bar');
  551. const ctx = makeContext({ 'com.example::Bar': [target] });
  552. expect(resolveJvmImport(importRef('com.example.Bar', 'typescript'), ctx)).toBeNull();
  553. });
  554. it('returns null for non-imports reference kinds', () => {
  555. // The resolver intentionally only acts on `imports` refs; ordinary
  556. // `calls`/`extends` refs fall through to the framework + name-matcher
  557. // strategies.
  558. const target = node('n8', 'Bar', 'com.example::Bar');
  559. const ctx = makeContext({ 'com.example::Bar': [target] });
  560. const ref: UnresolvedRef = {
  561. fromNodeId: 'caller', referenceName: 'com.example.Bar',
  562. referenceKind: 'calls', line: 1, column: 0,
  563. filePath: 'Caller.kt', language: 'kotlin',
  564. };
  565. expect(resolveJvmImport(ref, ctx)).toBeNull();
  566. });
  567. it('returns null when the FQN is not in the index', () => {
  568. const ctx = makeContext({});
  569. expect(resolveJvmImport(importRef('com.example.Unknown'), ctx)).toBeNull();
  570. });
  571. });
  572. describe('Framework Detection', () => {
  573. it('should detect React framework', () => {
  574. const context: ResolutionContext = {
  575. getNodesInFile: () => [],
  576. getNodesByName: () => [],
  577. getNodesByQualifiedName: () => [],
  578. getNodesByKind: () => [],
  579. fileExists: () => false,
  580. readFile: (p) => {
  581. if (p === 'package.json') {
  582. return JSON.stringify({
  583. dependencies: { react: '^18.0.0' },
  584. });
  585. }
  586. return null;
  587. },
  588. getProjectRoot: () => '/test',
  589. getAllFiles: () => ['package.json', 'src/App.tsx'],
  590. };
  591. const frameworks = detectFrameworks(context);
  592. expect(frameworks.some((f) => f.name === 'react')).toBe(true);
  593. });
  594. it('should detect Express framework', () => {
  595. const context: ResolutionContext = {
  596. getNodesInFile: () => [],
  597. getNodesByName: () => [],
  598. getNodesByQualifiedName: () => [],
  599. getNodesByKind: () => [],
  600. fileExists: () => false,
  601. readFile: (p) => {
  602. if (p === 'package.json') {
  603. return JSON.stringify({
  604. dependencies: { express: '^4.18.0' },
  605. });
  606. }
  607. return null;
  608. },
  609. getProjectRoot: () => '/test',
  610. getAllFiles: () => ['package.json', 'src/app.js'],
  611. };
  612. const frameworks = detectFrameworks(context);
  613. expect(frameworks.some((f) => f.name === 'express')).toBe(true);
  614. });
  615. it('should detect Laravel framework', () => {
  616. const context: ResolutionContext = {
  617. getNodesInFile: () => [],
  618. getNodesByName: () => [],
  619. getNodesByQualifiedName: () => [],
  620. getNodesByKind: () => [],
  621. fileExists: (p) => p === 'artisan',
  622. readFile: () => null,
  623. getProjectRoot: () => '/test',
  624. getAllFiles: () => ['artisan', 'app/Http/Kernel.php'],
  625. };
  626. const frameworks = detectFrameworks(context);
  627. expect(frameworks.some((f) => f.name === 'laravel')).toBe(true);
  628. });
  629. it('should return all framework resolvers', () => {
  630. const resolvers = getAllFrameworkResolvers();
  631. expect(resolvers.length).toBeGreaterThan(0);
  632. expect(resolvers.some((r) => r.name === 'react')).toBe(true);
  633. expect(resolvers.some((r) => r.name === 'express')).toBe(true);
  634. expect(resolvers.some((r) => r.name === 'laravel')).toBe(true);
  635. });
  636. });
  637. describe('React Framework Resolver', () => {
  638. it('should resolve React component references', () => {
  639. const mockNodes: Node[] = [
  640. {
  641. id: 'component:src/Button.tsx:Button:5',
  642. kind: 'component',
  643. name: 'Button',
  644. qualifiedName: 'src/Button.tsx::Button',
  645. filePath: 'src/Button.tsx',
  646. language: 'tsx',
  647. startLine: 5,
  648. endLine: 20,
  649. startColumn: 0,
  650. endColumn: 0,
  651. updatedAt: Date.now(),
  652. },
  653. ];
  654. const context: ResolutionContext = {
  655. getNodesInFile: (fp) => (fp === 'src/Button.tsx' ? mockNodes : []),
  656. getNodesByName: () => mockNodes,
  657. getNodesByQualifiedName: () => [],
  658. getNodesByKind: () => [],
  659. fileExists: () => false,
  660. readFile: (p) => {
  661. if (p === 'package.json') {
  662. return JSON.stringify({ dependencies: { react: '^18.0.0' } });
  663. }
  664. return null;
  665. },
  666. getProjectRoot: () => '/test',
  667. getAllFiles: () => ['package.json', 'src/Button.tsx', 'src/App.tsx'],
  668. };
  669. const frameworks = detectFrameworks(context);
  670. const reactResolver = frameworks.find((f) => f.name === 'react');
  671. expect(reactResolver).toBeDefined();
  672. const ref = {
  673. fromNodeId: 'component:src/App.tsx:App:1',
  674. referenceName: 'Button',
  675. referenceKind: 'renders' as const,
  676. line: 10,
  677. column: 5,
  678. filePath: 'src/App.tsx',
  679. // Refs extracted from .tsx files carry language 'tsx' — component
  680. // resolution is gated to JSX-capable refs (#764: PascalCase TYPE refs
  681. // from plain .ts files were resolving to arbitrary same-named classes).
  682. language: 'tsx' as const,
  683. };
  684. const result = reactResolver!.resolve(ref, context);
  685. expect(result).not.toBeNull();
  686. expect(result?.targetNodeId).toBe('component:src/Button.tsx:Button:5');
  687. // The same PascalCase name referenced from a plain .ts file is a TYPE
  688. // reference, not a component usage — component resolution must decline
  689. // and leave it to proximity-aware name matching (#764: a .ts GraphQL
  690. // types file's own `Account` alias was losing to an arbitrary same-named
  691. // class in another monorepo package).
  692. const tsRef = { ...ref, filePath: 'src/models.ts', language: 'typescript' as const };
  693. expect(reactResolver!.resolve(tsRef, context)).toBeNull();
  694. });
  695. it('should resolve custom hook references', () => {
  696. const mockNodes: Node[] = [
  697. {
  698. id: 'hook:src/hooks/useAuth.ts:useAuth:1',
  699. kind: 'function',
  700. name: 'useAuth',
  701. qualifiedName: 'src/hooks/useAuth.ts::useAuth',
  702. filePath: 'src/hooks/useAuth.ts',
  703. language: 'typescript',
  704. startLine: 1,
  705. endLine: 20,
  706. startColumn: 0,
  707. endColumn: 0,
  708. updatedAt: Date.now(),
  709. },
  710. ];
  711. const context: ResolutionContext = {
  712. getNodesInFile: (fp) => (fp.includes('useAuth') ? mockNodes : []),
  713. getNodesByName: () => mockNodes,
  714. getNodesByQualifiedName: () => [],
  715. getNodesByKind: () => [],
  716. fileExists: () => false,
  717. readFile: (p) => {
  718. if (p === 'package.json') {
  719. return JSON.stringify({ dependencies: { react: '^18.0.0' } });
  720. }
  721. return null;
  722. },
  723. getProjectRoot: () => '/test',
  724. getAllFiles: () => ['package.json', 'src/hooks/useAuth.ts'],
  725. };
  726. const frameworks = detectFrameworks(context);
  727. const reactResolver = frameworks.find((f) => f.name === 'react');
  728. const ref = {
  729. fromNodeId: 'component:src/App.tsx:App:1',
  730. referenceName: 'useAuth',
  731. referenceKind: 'calls' as const,
  732. line: 5,
  733. column: 10,
  734. filePath: 'src/App.tsx',
  735. language: 'typescript' as const,
  736. };
  737. const result = reactResolver!.resolve(ref, context);
  738. expect(result).not.toBeNull();
  739. expect(result?.targetNodeId).toBe('hook:src/hooks/useAuth.ts:useAuth:1');
  740. });
  741. });
  742. describe('Integration Tests', () => {
  743. it('should create resolver from CodeGraph instance', async () => {
  744. // Create a simple TypeScript project
  745. fs.writeFileSync(
  746. path.join(tempDir, 'package.json'),
  747. JSON.stringify({ name: 'test', dependencies: { react: '^18.0.0' } })
  748. );
  749. const srcDir = path.join(tempDir, 'src');
  750. fs.mkdirSync(srcDir);
  751. // Create utility file
  752. fs.writeFileSync(
  753. path.join(srcDir, 'utils.ts'),
  754. `export function formatDate(date: Date): string {
  755. return date.toISOString();
  756. }
  757. export function parseDate(str: string): Date {
  758. return new Date(str);
  759. }`
  760. );
  761. // Create main file that uses utils
  762. fs.writeFileSync(
  763. path.join(srcDir, 'main.ts'),
  764. `import { formatDate, parseDate } from './utils';
  765. function processDate(input: string): string {
  766. const date = parseDate(input);
  767. return formatDate(date);
  768. }`
  769. );
  770. // Initialize and index
  771. cg = await CodeGraph.init(tempDir, { index: true });
  772. // Check that resolver detected React framework
  773. const frameworks = cg.getDetectedFrameworks();
  774. expect(frameworks).toContain('react');
  775. // Get stats to verify indexing worked
  776. const stats = cg.getStats();
  777. expect(stats.fileCount).toBe(2);
  778. expect(stats.nodeCount).toBeGreaterThan(0);
  779. });
  780. it('should resolve references after indexing', async () => {
  781. // Create a project with references
  782. const srcDir = path.join(tempDir, 'src');
  783. fs.mkdirSync(srcDir, { recursive: true });
  784. fs.writeFileSync(
  785. path.join(srcDir, 'helper.ts'),
  786. `export function helperFunction(): void {
  787. console.log('helper');
  788. }`
  789. );
  790. fs.writeFileSync(
  791. path.join(srcDir, 'main.ts'),
  792. `import { helperFunction } from './helper';
  793. function main(): void {
  794. helperFunction();
  795. }`
  796. );
  797. cg = await CodeGraph.init(tempDir, { index: true });
  798. // Run reference resolution
  799. const result = cg.resolveReferences();
  800. // Should have attempted resolution
  801. expect(result.stats.total).toBeGreaterThanOrEqual(0);
  802. });
  803. it('promotes calls→instantiates when target resolves to a class (Python)', async () => {
  804. // Python has no `new` keyword — `Foo()` is the standard
  805. // instantiation syntax. Extraction can't tell that apart from
  806. // a function call without symbol info, so it emits a `calls`
  807. // ref. Resolution promotes it to `instantiates` once the
  808. // target is known to be a class.
  809. const srcDir = path.join(tempDir, 'src');
  810. fs.mkdirSync(srcDir, { recursive: true });
  811. fs.writeFileSync(
  812. path.join(srcDir, 'app.py'),
  813. `class UserService:
  814. def __init__(self):
  815. self.db = None
  816. def bootstrap():
  817. return UserService()
  818. `
  819. );
  820. cg = await CodeGraph.init(tempDir, { index: true });
  821. cg.resolveReferences();
  822. const bootstrap = cg
  823. .getNodesByKind('function')
  824. .find((n) => n.name === 'bootstrap');
  825. expect(bootstrap).toBeDefined();
  826. const outgoing = cg.getOutgoingEdges(bootstrap!.id);
  827. const instantiates = outgoing.find((e) => e.kind === 'instantiates');
  828. expect(instantiates).toBeDefined();
  829. // Same edge must NOT also appear as a `calls` edge — promotion
  830. // replaces the kind, doesn't duplicate.
  831. const callsToUserService = outgoing.filter(
  832. (e) => e.kind === 'calls' && e.target === instantiates!.target
  833. );
  834. expect(callsToUserService).toHaveLength(0);
  835. });
  836. it('records instantiates for C++ stack/brace construction, targeting the class (#1035)', async () => {
  837. // `Calculator calc(0)` (direct-init) and `Widget w{1, 2}` (brace-init)
  838. // carry the constructor args directly on the declarator — there's no
  839. // call/new node — so they recorded no `instantiates` edge, while heap
  840. // `new Calculator(0)` did. Both stack forms now do.
  841. fs.writeFileSync(
  842. path.join(tempDir, 'm.cpp'),
  843. `class Calculator { public: Calculator(int seed) {} int add(int a, int b){ return a+b; } };
  844. class Widget { public: Widget(int a, int b) {} };
  845. int runStack(int a, int b) { Calculator calc(0); return calc.add(a, b); }
  846. int runBrace() { Widget w{1, 2}; return 0; }
  847. int runHeap(int a, int b) { Calculator* c = new Calculator(0); return c->add(a, b); }
  848. void noise() { int x(5); int y{6}; Calculator deferred; }
  849. `
  850. );
  851. cg = await CodeGraph.init(tempDir, { index: true });
  852. const fn = (name: string) => cg.getNodesByKind('function').find((n) => n.name === name)!;
  853. const instTargets = (name: string) =>
  854. cg
  855. .getOutgoingEdges(fn(name).id)
  856. .filter((e) => e.kind === 'instantiates')
  857. .map((e) => cg.getNode(e.target)!);
  858. // Direct-init (the issue) and brace-init both instantiate, targeting the
  859. // CLASS node — not the same-named constructor method.
  860. const stack = instTargets('runStack');
  861. expect(stack.map((n) => `${n.kind}:${n.name}`)).toContain('class:Calculator');
  862. expect(instTargets('runBrace').map((n) => `${n.kind}:${n.name}`)).toContain('class:Widget');
  863. // Heap still works (regression guard).
  864. expect(instTargets('runHeap').map((n) => `${n.kind}:${n.name}`)).toContain('class:Calculator');
  865. // Primitives (`int x(0)`/`int y{6}`) and bare default construction
  866. // (`Calculator deferred;`) must NOT mint an instantiates edge.
  867. expect(instTargets('noise')).toHaveLength(0);
  868. });
  869. it('resolves a cross-file static method call to the method, not the class (#825)', async () => {
  870. // `Foo.bar()` where `Foo` is an imported class must link to the static
  871. // method `Foo::bar`, NOT to the class `Foo`. Previously the import
  872. // resolver dropped the `.bar` member and resolved to `Foo`, which the
  873. // calls→instantiates promotion then turned into `run instantiates Foo`,
  874. // leaving the static method with zero callers and a hollow impact radius.
  875. fs.writeFileSync(
  876. path.join(tempDir, 'helpers.ts'),
  877. `export class Foo {\n static bar(x: number) { return x + 1; }\n}\n`
  878. );
  879. fs.writeFileSync(
  880. path.join(tempDir, 'caller.ts'),
  881. `import { Foo } from './helpers';\nexport function run() { return Foo.bar(41); }\n`
  882. );
  883. cg = await CodeGraph.init(tempDir, { index: true });
  884. cg.resolveReferences();
  885. const bar = cg.getNodesByKind('method').find((n) => n.name === 'bar');
  886. const foo = cg.getNodesByKind('class').find((n) => n.name === 'Foo');
  887. const run = cg.getNodesByKind('function').find((n) => n.name === 'run');
  888. expect(bar).toBeDefined();
  889. expect(foo).toBeDefined();
  890. expect(run).toBeDefined();
  891. // `run` is reported as a caller of the static method `Foo.bar`.
  892. const barCallers = cg.getCallers(bar!.id).map((c) => c.node.name);
  893. expect(barCallers).toContain('run');
  894. // And the call is NOT mis-promoted to `run instantiates Foo`.
  895. const outgoing = cg.getOutgoingEdges(run!.id);
  896. expect(
  897. outgoing.filter((e) => e.kind === 'instantiates' && e.target === foo!.id)
  898. ).toHaveLength(0);
  899. // The real edge is a `calls` edge to the method.
  900. expect(
  901. outgoing.some((e) => e.kind === 'calls' && e.target === bar!.id)
  902. ).toBe(true);
  903. });
  904. it('resolves Go cross-package qualified calls via go.mod module path (#388)', async () => {
  905. // Pre-#388, every `pkga.FuncX(...)` call in a Go monorepo was flagged
  906. // external (isExternalImport returned true for any non-`/internal/`
  907. // import without `.`-prefix) and resolution fell through to name-match
  908. // with path proximity — recall on cross-package callers was ~<1%.
  909. fs.writeFileSync(
  910. path.join(tempDir, 'go.mod'),
  911. 'module github.com/example/myproject\n\ngo 1.21\n'
  912. );
  913. const pkgaDir = path.join(tempDir, 'pkga');
  914. const pkgbDir = path.join(tempDir, 'pkgb');
  915. const pkgcDir = path.join(tempDir, 'pkgc');
  916. fs.mkdirSync(pkgaDir);
  917. fs.mkdirSync(pkgbDir);
  918. fs.mkdirSync(pkgcDir);
  919. // Same-name exported function in two packages — only the imported one
  920. // should resolve. Exercises disambiguation, not just connectivity.
  921. fs.writeFileSync(
  922. path.join(pkgaDir, 'conv.go'),
  923. 'package pkga\nfunc Convert(x int) int { return x * 2 }\n'
  924. );
  925. fs.writeFileSync(
  926. path.join(pkgbDir, 'conv.go'),
  927. 'package pkgb\nfunc Convert(x int) int { return x + 1 }\n'
  928. );
  929. fs.writeFileSync(
  930. path.join(pkgcDir, 'use.go'),
  931. `package pkgc
  932. import "github.com/example/myproject/pkga"
  933. func UsePkga() {
  934. pkga.Convert(5)
  935. }
  936. `
  937. );
  938. cg = await CodeGraph.init(tempDir, { index: true });
  939. const usePkga = cg.getNodesByKind('function').filter((n) => n.name ==='UsePkga')[0];
  940. expect(usePkga).toBeDefined();
  941. const outgoing = cg.getOutgoingEdges(usePkga!.id);
  942. const callEdges = outgoing.filter((e) => e.kind === 'calls');
  943. expect(callEdges).toHaveLength(1);
  944. const target = cg.getNode(callEdges[0]!.target);
  945. expect(target?.name).toBe('Convert');
  946. // Critical: the resolver must pick the imported pkga's Convert,
  947. // not pkgb's. With the broken (pre-fix) resolver this lands on
  948. // whichever Convert happens to be cheaper under path proximity.
  949. expect(target?.filePath.replace(/\\/g, '/')).toBe('pkga/conv.go');
  950. });
  951. it('resolves Go aliased imports across packages (#388)', async () => {
  952. fs.writeFileSync(
  953. path.join(tempDir, 'go.mod'),
  954. 'module github.com/example/myproject\n\ngo 1.21\n'
  955. );
  956. fs.mkdirSync(path.join(tempDir, 'pkgb'));
  957. fs.mkdirSync(path.join(tempDir, 'pkgd'));
  958. fs.writeFileSync(
  959. path.join(tempDir, 'pkgb', 'lib.go'),
  960. 'package pkgb\nfunc Compute(x int) int { return x }\n'
  961. );
  962. fs.writeFileSync(
  963. path.join(tempDir, 'pkgd', 'use.go'),
  964. `package pkgd
  965. import (
  966. "fmt"
  967. alias "github.com/example/myproject/pkgb"
  968. )
  969. func UseAliased() {
  970. fmt.Println("hi")
  971. alias.Compute(3)
  972. }
  973. `
  974. );
  975. cg = await CodeGraph.init(tempDir, { index: true });
  976. const useAliased = cg.getNodesByKind('function').filter((n) => n.name ==='UseAliased')[0];
  977. expect(useAliased).toBeDefined();
  978. const calls = cg.getOutgoingEdges(useAliased!.id).filter((e) => e.kind === 'calls');
  979. // fmt.Println is stdlib — must stay external. alias.Compute must resolve.
  980. expect(calls).toHaveLength(1);
  981. const target = cg.getNode(calls[0]!.target);
  982. expect(target?.name).toBe('Compute');
  983. expect(target?.filePath.replace(/\\/g, '/')).toBe('pkgb/lib.go');
  984. });
  985. it('resolves Python module-attribute calls after `from pkg import module` (#578)', async () => {
  986. // Pre-#578, a `module.func()` call where `module` was bound via
  987. // `from pkg import module` dropped its `calls` edge. The file→file import
  988. // edge resolved (resolveModuleImportToFile falls back to a dotted-module
  989. // file lookup for absolute package paths), but resolvePythonModuleMember
  990. // had no such fallback — resolveImportPath returns null for an absolute
  991. // package path like `pkg.module`, so the member never resolved and
  992. // callers/callees/impact on the target came back empty. Same root-cause
  993. // class as the Go cross-package qualified call (#388).
  994. fs.mkdirSync(path.join(tempDir, 'pkg'));
  995. fs.writeFileSync(path.join(tempDir, 'pkg', '__init__.py'), '');
  996. fs.writeFileSync(
  997. path.join(tempDir, 'pkg', 'module.py'),
  998. 'def func():\n return 1\n'
  999. );
  1000. fs.writeFileSync(
  1001. path.join(tempDir, 'main.py'),
  1002. `from pkg import module
  1003. import os
  1004. def caller():
  1005. return module.func()
  1006. def external_caller():
  1007. return os.getcwd()
  1008. `
  1009. );
  1010. cg = await CodeGraph.init(tempDir, { index: true });
  1011. const caller = cg.getNodesByKind('function').filter((n) => n.name === 'caller')[0];
  1012. expect(caller).toBeDefined();
  1013. const calls = cg.getOutgoingEdges(caller!.id).filter((e) => e.kind === 'calls');
  1014. // module.func() must resolve to the real function in the submodule file.
  1015. expect(calls).toHaveLength(1);
  1016. const target = cg.getNode(calls[0]!.target);
  1017. expect(target?.name).toBe('func');
  1018. expect(target?.filePath.replace(/\\/g, '/')).toBe('pkg/module.py');
  1019. // The flip side of the fix: an attribute call through a *stdlib* module
  1020. // (`os.getcwd()`) must still create no edge — the fallback only matches
  1021. // real in-repo module files.
  1022. const externalCaller = cg.getNodesByKind('function').filter((n) => n.name === 'external_caller')[0];
  1023. expect(externalCaller).toBeDefined();
  1024. const externalCalls = cg.getOutgoingEdges(externalCaller!.id).filter((e) => e.kind === 'calls');
  1025. expect(externalCalls).toHaveLength(0);
  1026. });
  1027. it('attaches Go methods to their receiver type across files (#583, cross-file half)', async () => {
  1028. // In Go a type's methods are commonly declared in a different file from the
  1029. // `type` declaration (`type Box` in box.go, `func (b *Box) Get()` in
  1030. // box_methods.go). Extraction only attaches the struct→method `contains`
  1031. // edge when the type is in the SAME file (the owner lookup is file-scoped),
  1032. // so a cross-file method was orphaned from its struct — breaking member
  1033. // outlines and any callers/callees/impact traversal through `contains`. A
  1034. // resolution-phase pass now links them within the package (= directory).
  1035. fs.writeFileSync(
  1036. path.join(tempDir, 'box.go'),
  1037. 'package main\n\ntype Box struct{ v int }\n'
  1038. );
  1039. fs.writeFileSync(
  1040. path.join(tempDir, 'box_methods.go'),
  1041. 'package main\n\nfunc (b *Box) Get() int { return b.v }\nfunc (b *Box) Set(x int) { b.v = x }\n'
  1042. );
  1043. // Generic receiver declared cross-file too — exercises #583 half A
  1044. // (generic `*Stack[T]` receiver parsing) and half B (cross-file) together.
  1045. fs.writeFileSync(
  1046. path.join(tempDir, 'stack.go'),
  1047. 'package main\n\ntype Stack[T any] struct {\n\titems []T\n}\n'
  1048. );
  1049. fs.writeFileSync(
  1050. path.join(tempDir, 'stack_push.go'),
  1051. 'package main\n\nfunc (s *Stack[T]) Push(v T) { s.items = append(s.items, v) }\n'
  1052. );
  1053. // A same-named type in another package must NOT capture this package's
  1054. // methods — the link is scoped to the receiver type's own directory.
  1055. fs.mkdirSync(path.join(tempDir, 'other'));
  1056. fs.writeFileSync(
  1057. path.join(tempDir, 'other', 'box.go'),
  1058. 'package other\n\ntype Box struct{ w int }\n'
  1059. );
  1060. cg = await CodeGraph.init(tempDir, { index: true });
  1061. const methodsOf = (typeName: string, file: string): string[] => {
  1062. const node = cg
  1063. .getNodesByKind('struct')
  1064. .find((n) => n.name === typeName && n.filePath.replace(/\\/g, '/') === file);
  1065. expect(node, `${typeName} @ ${file}`).toBeDefined();
  1066. return cg
  1067. .getOutgoingEdges(node!.id)
  1068. .filter((e) => e.kind === 'contains')
  1069. .map((e) => cg.getNode(e.target))
  1070. .filter((n) => !!n && n.kind === 'method')
  1071. .map((n) => n!.name)
  1072. .sort();
  1073. };
  1074. // Cross-file (non-generic) methods now attach to their struct.
  1075. expect(methodsOf('Box', 'box.go')).toEqual(['Get', 'Set']);
  1076. // Generic + cross-file.
  1077. expect(methodsOf('Stack', 'stack.go')).toEqual(['Push']);
  1078. // Cross-package isolation: other/Box defines no methods of its own.
  1079. expect(methodsOf('Box', 'other/box.go')).toEqual([]);
  1080. });
  1081. it('TS type_alias object-shape members resolve method calls (#359)', async () => {
  1082. // Pre-#359, `recorder.stop()` (recorder: RecorderHandle) attached
  1083. // to `StdioMcpClient.stop` in a sibling directory via path-proximity
  1084. // because the type_alias had no `stop` node — only the unrelated
  1085. // class did. Now type_alias produces member nodes (property/method),
  1086. // so the camelCase receiver↔type word overlap pulls the call to
  1087. // `RecorderHandle::stop` instead of the look-alike class.
  1088. fs.mkdirSync(path.join(tempDir, 'voice'));
  1089. fs.mkdirSync(path.join(tempDir, 'codegraph'));
  1090. fs.writeFileSync(
  1091. path.join(tempDir, 'voice', 'recorder.ts'),
  1092. `export type RecorderHandle = {
  1093. wavPath: string;
  1094. stop: () => Promise<{ ok: true }>;
  1095. };
  1096. `
  1097. );
  1098. fs.writeFileSync(
  1099. path.join(tempDir, 'voice', 'controller.ts'),
  1100. `import type { RecorderHandle } from "./recorder";
  1101. export async function finaliseRecording(recorder: RecorderHandle) {
  1102. return await recorder.stop();
  1103. }
  1104. `
  1105. );
  1106. fs.writeFileSync(
  1107. path.join(tempDir, 'codegraph', 'stdio-client.ts'),
  1108. `export class StdioMcpClient {
  1109. private stopped = false;
  1110. async stop(): Promise<void> { this.stopped = true; }
  1111. }
  1112. `
  1113. );
  1114. cg = await CodeGraph.init(tempDir, { index: true });
  1115. const handleStop = cg
  1116. .getNodesByKind('method')
  1117. .find((n) => n.qualifiedName === 'RecorderHandle::stop');
  1118. expect(handleStop).toBeDefined();
  1119. const clientStop = cg
  1120. .getNodesByKind('method')
  1121. .find((n) => n.qualifiedName === 'StdioMcpClient::stop');
  1122. expect(clientStop).toBeDefined();
  1123. const handleCallers = cg.getIncomingEdges(handleStop!.id).filter((e) => e.kind === 'calls');
  1124. const clientCallers = cg.getIncomingEdges(clientStop!.id).filter((e) => e.kind === 'calls');
  1125. expect(handleCallers.length).toBeGreaterThanOrEqual(1);
  1126. // The class method must have NO callers — voice/'s call must NOT
  1127. // mis-attribute. A non-empty list would mean the false-positive
  1128. // path is still firing.
  1129. expect(clientCallers).toHaveLength(0);
  1130. // Function-typed property surfaces as a `method` node, not `property`,
  1131. // because `stop()` semantics at the call site are method semantics.
  1132. expect(handleStop!.kind).toBe('method');
  1133. });
  1134. it('Java import disambiguates same-name classes across modules (#314)', async () => {
  1135. // Pre-#314 the import resolver had no Java branch at all, so a
  1136. // multi-module Maven repo where `dao/converter/FooConverter` and
  1137. // `service/converter/FooConverter` both export a `convert` method
  1138. // resolved by file-path proximity — picking whichever class was
  1139. // closer to the caller, which is wrong any time the caller lives
  1140. // in an equidistant cross-cutting module.
  1141. const daoDir = path.join(tempDir, 'dao/src/main/java/com/example/dao/converter');
  1142. const serviceDir = path.join(tempDir, 'service/src/main/java/com/example/service/converter');
  1143. const webDir = path.join(tempDir, 'web/src/main/java/com/example/web');
  1144. fs.mkdirSync(daoDir, { recursive: true });
  1145. fs.mkdirSync(serviceDir, { recursive: true });
  1146. fs.mkdirSync(webDir, { recursive: true });
  1147. fs.writeFileSync(
  1148. path.join(daoDir, 'FooConverter.java'),
  1149. `package com.example.dao.converter;
  1150. public class FooConverter { public String convert(String x) { return "dao:" + x; } }
  1151. `
  1152. );
  1153. fs.writeFileSync(
  1154. path.join(serviceDir, 'FooConverter.java'),
  1155. `package com.example.service.converter;
  1156. public class FooConverter { public String convert(String x) { return "svc:" + x; } }
  1157. `
  1158. );
  1159. // The caller imports the SERVICE version — even though dao is
  1160. // alphabetically/lexically first in the candidate list, the
  1161. // import must trump that order.
  1162. fs.writeFileSync(
  1163. path.join(webDir, 'Handler.java'),
  1164. `package com.example.web;
  1165. import com.example.service.converter.FooConverter;
  1166. public class Handler {
  1167. private FooConverter fooConverter;
  1168. public String use() { return fooConverter.convert("input"); }
  1169. }
  1170. `
  1171. );
  1172. cg = await CodeGraph.init(tempDir, { index: true });
  1173. const use = cg
  1174. .getNodesByKind('method')
  1175. .find((n) => n.qualifiedName === 'com.example.web::Handler::use');
  1176. expect(use).toBeDefined();
  1177. const calls = cg.getOutgoingEdges(use!.id).filter((e) => e.kind === 'calls');
  1178. expect(calls.length).toBeGreaterThanOrEqual(1);
  1179. const target = cg.getNode(calls[0]!.target);
  1180. expect(target?.name).toBe('convert');
  1181. expect(target?.filePath.replace(/\\/g, '/')).toBe(
  1182. 'service/src/main/java/com/example/service/converter/FooConverter.java'
  1183. );
  1184. });
  1185. it('C# extracts references from method/property/field types (#381)', async () => {
  1186. // Pre-#381, every C# project produced ZERO `references` edges:
  1187. // csharp.ts was missing returnField, and the type-leaf walker
  1188. // only recognized TS/Java's `type_identifier` nodes — C# uses
  1189. // `identifier`/`predefined_type`/`qualified_name`/`generic_name`.
  1190. const srcDir = path.join(tempDir, 'src');
  1191. fs.mkdirSync(srcDir, { recursive: true });
  1192. fs.writeFileSync(
  1193. path.join(srcDir, 'Dtos.cs'),
  1194. `namespace MyApp;
  1195. public class SessionInfoDto { public string Id { get; set; } = ""; }
  1196. public class UserDto { public string Name { get; set; } = ""; }
  1197. `
  1198. );
  1199. fs.writeFileSync(
  1200. path.join(srcDir, 'Service.cs'),
  1201. `using System.Threading.Tasks;
  1202. namespace MyApp;
  1203. public class DataExporter
  1204. {
  1205. public SessionInfoDto Build(UserDto user, SessionInfoDto session) { return session; }
  1206. public Task<SessionInfoDto> BuildAsync(UserDto user) { return Task.FromResult(new SessionInfoDto()); }
  1207. public SessionInfoDto Latest { get; set; } = new();
  1208. private UserDto _cached;
  1209. }
  1210. `
  1211. );
  1212. cg = await CodeGraph.init(tempDir, { index: true });
  1213. const sessionDto = cg
  1214. .getNodesByKind('class')
  1215. .find((n) => n.name === 'SessionInfoDto');
  1216. const userDto = cg
  1217. .getNodesByKind('class')
  1218. .find((n) => n.name === 'UserDto');
  1219. expect(sessionDto).toBeDefined();
  1220. expect(userDto).toBeDefined();
  1221. const sessionIncoming = cg
  1222. .getIncomingEdges(sessionDto!.id)
  1223. .filter((e) => e.kind === 'references');
  1224. const userIncoming = cg
  1225. .getIncomingEdges(userDto!.id)
  1226. .filter((e) => e.kind === 'references');
  1227. // SessionInfoDto: Build return, Build param, BuildAsync return (inside Task<>), Latest property.
  1228. // UserDto: Build param, BuildAsync param, _cached field.
  1229. expect(sessionIncoming.length).toBeGreaterThanOrEqual(4);
  1230. expect(userIncoming.length).toBeGreaterThanOrEqual(3);
  1231. });
  1232. it('C# primary-constructor parameters record their type dependencies (#237)', async () => {
  1233. // C# 12 primary constructors declare a type's injected dependencies inline
  1234. // (`class Svc(IRepo repo, [FromKeyedServices("k")] ICache cache)`). Each
  1235. // ctor parameter's type is recorded as a `references` edge from the class,
  1236. // so a DI-registered contract reached only through a primary ctor is no
  1237. // longer reported as having no dependents.
  1238. fs.mkdirSync(path.join(tempDir, 'src'), { recursive: true });
  1239. fs.writeFileSync(
  1240. path.join(tempDir, 'src', 'Contracts.cs'),
  1241. `namespace App;
  1242. public interface IRepo { }
  1243. public class ICache { }
  1244. `
  1245. );
  1246. fs.writeFileSync(
  1247. path.join(tempDir, 'src', 'OrderService.cs'),
  1248. `namespace App;
  1249. public sealed class OrderService(IRepo repo, [FromKeyedServices("primary")] ICache cache)
  1250. {
  1251. public void Run() { }
  1252. }
  1253. `
  1254. );
  1255. cg = await CodeGraph.init(tempDir, { index: true });
  1256. const svc = cg.getNodesByKind('class').find((n) => n.name === 'OrderService');
  1257. expect(svc).toBeDefined();
  1258. // The class itself must index (it used to vanish under the old grammar).
  1259. const out = cg.getOutgoingEdges(svc!.id).filter((e) => e.kind === 'references');
  1260. const depNames = out.map((e) => cg.getNode(e.target)?.name);
  1261. expect(depNames).toContain('IRepo');
  1262. expect(depNames).toContain('ICache'); // the keyed-DI ([FromKeyedServices]) dependency
  1263. });
  1264. it('Go: leaves stdlib calls (fmt.Println, etc.) external', async () => {
  1265. fs.writeFileSync(
  1266. path.join(tempDir, 'go.mod'),
  1267. 'module github.com/example/myproject\n\ngo 1.21\n'
  1268. );
  1269. fs.writeFileSync(
  1270. path.join(tempDir, 'main.go'),
  1271. `package main
  1272. import "fmt"
  1273. func main() {
  1274. fmt.Println("hi")
  1275. }
  1276. `
  1277. );
  1278. cg = await CodeGraph.init(tempDir, { index: true });
  1279. const mainFn = cg.getNodesByKind('function').filter((n) => n.name ==='main')[0];
  1280. const calls = cg.getOutgoingEdges(mainFn!.id).filter((e) => e.kind === 'calls');
  1281. // No spurious in-project edge — fmt.* must stay unresolved/external.
  1282. expect(calls).toHaveLength(0);
  1283. });
  1284. });
  1285. describe('Same-name method disambiguation (#1079)', () => {
  1286. // resolveMethodOnType picks among several methods that share a
  1287. // `Type::method` qualifiedName. The precedence is:
  1288. // 1. preferredFqn (Java/Kotlin import — target is intentionally in
  1289. // ANOTHER file, #314),
  1290. // 2. the call site's OWN file (language-agnostic, #1079),
  1291. // 3. matches[0] (first-indexed) as a last resort.
  1292. const methodNode = (
  1293. id: string,
  1294. filePath: string,
  1295. language: Node['language'] = 'cpp',
  1296. qualifiedName = 'Logger::log',
  1297. name = 'log',
  1298. ): Node => ({
  1299. id, kind: 'method', name, qualifiedName, filePath, language,
  1300. startLine: 1, endLine: 1, startColumn: 0, endColumn: 0, updatedAt: 0,
  1301. });
  1302. const callRef = (filePath: string, language: Node['language'] = 'cpp'): UnresolvedRef => ({
  1303. fromNodeId: 'caller', referenceName: 'lg.log', referenceKind: 'calls',
  1304. line: 2, column: 0, filePath, language,
  1305. });
  1306. const ctxFor = (candidates: Node[]): ResolutionContext => ({
  1307. getNodesInFile: () => [],
  1308. getNodesByName: (name) => candidates.filter((c) => c.name === name),
  1309. getNodesByQualifiedName: () => [],
  1310. getNodesByKind: () => [],
  1311. fileExists: () => false,
  1312. readFile: () => null,
  1313. getProjectRoot: () => '',
  1314. getAllFiles: () => [],
  1315. });
  1316. it('prefers the definition in the call site\'s own file (#1079)', () => {
  1317. // matches[0] is the a/ definition; the call comes from b/, so it must
  1318. // resolve to b/ — not collapse onto the first-indexed match.
  1319. const logA = methodNode('m:a', 'a/svc.cpp');
  1320. const logB = methodNode('m:b', 'b/svc.cpp');
  1321. const result = resolveMethodOnType(
  1322. 'Logger', 'log', callRef('b/svc.cpp'), ctxFor([logA, logB]), 0.9, 'instance-method',
  1323. );
  1324. expect(result?.targetNodeId).toBe('m:b');
  1325. });
  1326. it('lets an import FQN pin a cross-file target over the same-file preference (#314)', () => {
  1327. // Java: two `Bar::doIt` in different packages. The import FQN pins the
  1328. // alpha package; even though the call site lives in beta's file, the FQN
  1329. // must win — the same-file preference runs only AFTER preferredFqn.
  1330. const alpha = methodNode('m:alpha', 'com/example/alpha/Bar.java', 'java', 'Bar::doIt', 'doIt');
  1331. const beta = methodNode('m:beta', 'com/example/beta/Bar.java', 'java', 'Bar::doIt', 'doIt');
  1332. const result = resolveMethodOnType(
  1333. 'Bar', 'doIt', callRef('com/example/beta/Bar.java', 'java'),
  1334. ctxFor([alpha, beta]), 0.9, 'instance-method', 'com.example.alpha.Bar',
  1335. );
  1336. expect(result?.targetNodeId).toBe('m:alpha');
  1337. });
  1338. it('falls back to the first match when nothing disambiguates', () => {
  1339. // Call site is a third file: no FQN, no same-file candidate → matches[0].
  1340. const logA = methodNode('m:a', 'a/svc.cpp');
  1341. const logB = methodNode('m:b', 'b/svc.cpp');
  1342. const result = resolveMethodOnType(
  1343. 'Logger', 'log', callRef('c/other.cpp'), ctxFor([logA, logB]), 0.9, 'instance-method',
  1344. );
  1345. expect(result?.targetNodeId).toBe('m:a');
  1346. });
  1347. it('resolves C++ calls end-to-end to same-named classes in different files (#1079)', async () => {
  1348. // The exact repro from the issue: two files, each with its own
  1349. // `Logger::log`. Before the fix both callers pointed at the first def.
  1350. fs.mkdirSync(path.join(tempDir, 'a'), { recursive: true });
  1351. fs.mkdirSync(path.join(tempDir, 'b'), { recursive: true });
  1352. fs.writeFileSync(
  1353. path.join(tempDir, 'a', 'svc.cpp'),
  1354. `class Logger { public: void log() { int a = 1; } };\nvoid useA() { Logger lg; lg.log(); }\n`,
  1355. );
  1356. fs.writeFileSync(
  1357. path.join(tempDir, 'b', 'svc.cpp'),
  1358. `class Logger { public: void log() { int b = 2; } };\nvoid useB() { Logger lg; lg.log(); }\n`,
  1359. );
  1360. cg = await CodeGraph.init(tempDir, { index: true });
  1361. cg.resolveReferences();
  1362. const logInDir = (dir: string) =>
  1363. cg.getNodesByKind('method').find(
  1364. (n) => n.name === 'log' && n.filePath.replace(/\\/g, '/').endsWith(`${dir}/svc.cpp`),
  1365. )!;
  1366. const callTargets = (fnName: string) =>
  1367. cg
  1368. .getOutgoingEdges(cg.getNodesByKind('function').find((n) => n.name === fnName)!.id)
  1369. .filter((e) => e.kind === 'calls')
  1370. .map((e) => e.target);
  1371. const logA = logInDir('a');
  1372. const logB = logInDir('b');
  1373. expect(logA).toBeDefined();
  1374. expect(logB).toBeDefined();
  1375. expect(logA.id).not.toBe(logB.id);
  1376. // Each caller resolves to the Logger::log in its OWN file.
  1377. expect(callTargets('useA')).toContain(logA.id);
  1378. expect(callTargets('useB')).toContain(logB.id);
  1379. });
  1380. it('preferCallSiteFile puts same-file candidates first and is otherwise a no-op', () => {
  1381. const a = methodNode('m:a', 'a/svc.cpp');
  1382. const b = methodNode('m:b', 'b/svc.cpp');
  1383. // Same-file first; the rest keep their original order (stable).
  1384. expect(preferCallSiteFile([a, b], 'b/svc.cpp').map((n) => n.id)).toEqual(['m:b', 'm:a']);
  1385. expect(preferCallSiteFile([a, b], 'a/svc.cpp').map((n) => n.id)).toEqual(['m:a', 'm:b']);
  1386. // No same-file match → unchanged; <2 candidates → returned as-is.
  1387. expect(preferCallSiteFile([a, b], 'c/other.cpp').map((n) => n.id)).toEqual(['m:a', 'm:b']);
  1388. expect(preferCallSiteFile([a], 'z/none.cpp')).toHaveLength(1);
  1389. });
  1390. it('matchByQualifiedName prefers the same-file target when a qualified name is ambiguous (#1079)', () => {
  1391. // Two `Logger::log` definitions; an explicit `Logger::log()` call from b/
  1392. // must resolve to b/'s definition, not the first-indexed one.
  1393. const a = methodNode('m:a', 'a/svc.cpp');
  1394. const b = methodNode('m:b', 'b/svc.cpp');
  1395. const ctx: ResolutionContext = {
  1396. getNodesInFile: () => [],
  1397. getNodesByName: (name) => [a, b].filter((n) => n.name === name),
  1398. getNodesByQualifiedName: (q) => (q === 'Logger::log' ? [a, b] : []),
  1399. getNodesByKind: () => [],
  1400. fileExists: () => false,
  1401. readFile: () => null,
  1402. getProjectRoot: () => '',
  1403. getAllFiles: () => [],
  1404. };
  1405. const ref: UnresolvedRef = {
  1406. fromNodeId: 'caller', referenceName: 'Logger::log', referenceKind: 'calls',
  1407. line: 2, column: 0, filePath: 'b/svc.cpp', language: 'cpp',
  1408. };
  1409. expect(matchByQualifiedName(ref, ctx)?.targetNodeId).toBe('m:b');
  1410. });
  1411. it('resolves a static/class-receiver call to the class in the caller\'s file (#1079)', async () => {
  1412. // `Logger.log()` — the receiver is the class NAME, so this routes through
  1413. // the class-name-receiver strategy (not the C++ instance path). It was
  1414. // file-blind across languages; verified here on TypeScript.
  1415. fs.mkdirSync(path.join(tempDir, 'a'), { recursive: true });
  1416. fs.mkdirSync(path.join(tempDir, 'b'), { recursive: true });
  1417. fs.writeFileSync(
  1418. path.join(tempDir, 'a', 'svc.ts'),
  1419. `class Logger { static log() { return 1; } }\nexport function useA() { return Logger.log(); }\n`,
  1420. );
  1421. fs.writeFileSync(
  1422. path.join(tempDir, 'b', 'svc.ts'),
  1423. `class Logger { static log() { return 2; } }\nexport function useB() { return Logger.log(); }\n`,
  1424. );
  1425. cg = await CodeGraph.init(tempDir, { index: true });
  1426. cg.resolveReferences();
  1427. const logInDir = (dir: string) =>
  1428. cg.getNodesByKind('method').find(
  1429. (n) => n.name === 'log' && n.filePath.replace(/\\/g, '/').endsWith(`${dir}/svc.ts`),
  1430. )!;
  1431. const callTargets = (fnName: string) =>
  1432. cg
  1433. .getOutgoingEdges(cg.getNodesByKind('function').find((n) => n.name === fnName)!.id)
  1434. .filter((e) => e.kind === 'calls')
  1435. .map((e) => e.target);
  1436. const logA = logInDir('a');
  1437. const logB = logInDir('b');
  1438. expect(logA?.id).not.toBe(logB?.id);
  1439. expect(callTargets('useA')).toContain(logA.id);
  1440. expect(callTargets('useB')).toContain(logB.id);
  1441. });
  1442. it('resolves an explicitly-qualified call to the definition in the caller\'s file (#1079)', async () => {
  1443. // `Logger::log()` with two `Logger::log` definitions routes through the
  1444. // qualified-name strategy, whose partial match previously picked the first.
  1445. fs.mkdirSync(path.join(tempDir, 'a'), { recursive: true });
  1446. fs.mkdirSync(path.join(tempDir, 'b'), { recursive: true });
  1447. fs.writeFileSync(
  1448. path.join(tempDir, 'a', 'svc.cpp'),
  1449. `class Logger { public: static void log() { int a = 1; } };\nvoid useA() { Logger::log(); }\n`,
  1450. );
  1451. fs.writeFileSync(
  1452. path.join(tempDir, 'b', 'svc.cpp'),
  1453. `class Logger { public: static void log() { int b = 2; } };\nvoid useB() { Logger::log(); }\n`,
  1454. );
  1455. cg = await CodeGraph.init(tempDir, { index: true });
  1456. cg.resolveReferences();
  1457. const logInDir = (dir: string) =>
  1458. cg.getNodesByKind('method').find(
  1459. (n) => n.name === 'log' && n.filePath.replace(/\\/g, '/').endsWith(`${dir}/svc.cpp`),
  1460. )!;
  1461. const callTargets = (fnName: string) =>
  1462. cg
  1463. .getOutgoingEdges(cg.getNodesByKind('function').find((n) => n.name === fnName)!.id)
  1464. .filter((e) => e.kind === 'calls')
  1465. .map((e) => e.target);
  1466. const logA = logInDir('a');
  1467. const logB = logInDir('b');
  1468. expect(logA?.id).not.toBe(logB?.id);
  1469. expect(callTargets('useA')).toContain(logA.id);
  1470. expect(callTargets('useB')).toContain(logB.id);
  1471. });
  1472. });
  1473. describe('Local-variable receiver-type inference (#1108)', () => {
  1474. // `lg.log()` where `lg` is a local whose type is inferred from its
  1475. // declaration/initializer. Before this, only C++ resolved these; every
  1476. // other language produced no method edge. Each case is one file with a
  1477. // single Logger + a caller using a local-variable receiver — a correct
  1478. // resolution makes the caller a caller of `log`.
  1479. const cases: Array<{ lang: string; file: string; src: string }> = [
  1480. { lang: 'TypeScript (= new T)', file: 'svc.ts',
  1481. src: `class Logger { log() { return 1; } }\nexport function use() { const lg = new Logger(); return lg.log(); }\n` },
  1482. { lang: 'JavaScript (= new T)', file: 'svc.js',
  1483. src: `class Logger { log() { return 1; } }\nexport function use() { const lg = new Logger(); return lg.log(); }\n` },
  1484. { lang: 'Python (= T())', file: 'svc.py',
  1485. src: `class Logger:\n def log(self):\n return 1\ndef use():\n lg = Logger()\n return lg.log()\n` },
  1486. { lang: 'Java (T x = new T)', file: 'Svc.java',
  1487. src: `class Logger { void log() { int a = 1; } }\nclass Use { void run() { Logger lg = new Logger(); lg.log(); } }\n` },
  1488. { lang: 'C# (var x = new T)', file: 'Svc.cs',
  1489. src: `class Logger { void Log() { int a = 1; } }\nclass Use { void Run() { var lg = new Logger(); lg.Log(); } }\n` },
  1490. { lang: 'Kotlin (val x = T())', file: 'Svc.kt',
  1491. src: `class Logger { fun log(): Int { return 1 } }\nfun use(): Int { val lg = Logger(); return lg.log() }\n` },
  1492. { lang: 'Swift (let x = T())', file: 'svc.swift',
  1493. src: `class Logger { func log() -> Int { return 1 } }\nfunc use() -> Int { let lg = Logger(); return lg.log() }\n` },
  1494. { lang: 'Go (x := T{})', file: 'svc.go',
  1495. src: `package a\ntype Logger struct{}\nfunc (l Logger) Log() int { return 1 }\nfunc Use() int { lg := Logger{}; return lg.Log() }\n` },
  1496. { lang: 'Rust (let x = T{})', file: 'svc.rs',
  1497. src: `pub struct Logger { n: i32 }\nimpl Logger { pub fn log(&self) -> i32 { self.n } }\npub fn use_it() -> i32 { let lg = Logger { n: 1 }; lg.log() }\n` },
  1498. { lang: 'Dart (var x = T())', file: 'svc.dart',
  1499. src: `class Logger { int log() { return 1; } }\nint use() { var lg = Logger(); return lg.log(); }\n` },
  1500. { lang: 'PHP ($x = new T)', file: 'svc.php',
  1501. src: `<?php\nclass Logger { function log() { return 1; } }\nfunction useIt() { $lg = new Logger(); return $lg->log(); }\n` },
  1502. { lang: 'Scala (val x = new T)', file: 'Svc.scala',
  1503. src: `class Logger { def log(): Int = 1 }\nobject A { def use(): Int = { val lg = new Logger(); lg.log() } }\n` },
  1504. { lang: 'Ruby (x = T.new)', file: 'svc.rb',
  1505. src: `class Logger\n def log\n 1\n end\nend\ndef use\n lg = Logger.new\n lg.log\nend\n` },
  1506. { lang: 'Lua (x = T.new(); x:log())', file: 'svc.lua',
  1507. src: `local Logger = {}\nLogger.__index = Logger\nfunction Logger.new() return setmetatable({}, Logger) end\nfunction Logger:log() return 1 end\nlocal function use() local lg = Logger.new(); return lg:log() end\nreturn use\n` },
  1508. { lang: 'Luau (x = T.new(); x:log())', file: 'svc.luau',
  1509. src: `local Logger = {}\nLogger.__index = Logger\nfunction Logger.new() return setmetatable({}, Logger) end\nfunction Logger:log(): number return 1 end\nlocal function use(): number local lg = Logger.new(); return lg:log() end\nreturn use\n` },
  1510. { lang: 'R (x <- T$new(); x$log())', file: 'svc.R',
  1511. src: `Logger <- R6::R6Class("Logger", public = list(log = function() 1))\nuse <- function() { lg <- Logger$new(); lg$log() }\n` },
  1512. { lang: 'Pascal (var x: T; x.Method)', file: 'svc.pas',
  1513. src: `unit A;\ninterface\ntype TLogger = class function Log: Integer; end;\nimplementation\nfunction TLogger.Log: Integer; begin Result := 1; end;\nprocedure Use;\nvar lg: TLogger;\nbegin\n lg := TLogger.Create;\n lg.Log;\nend;\nend.\n` },
  1514. ];
  1515. for (const c of cases) {
  1516. it(`resolves a local-variable method call — ${c.lang}`, async () => {
  1517. fs.writeFileSync(path.join(tempDir, c.file), c.src);
  1518. cg = await CodeGraph.init(tempDir, { index: true });
  1519. cg.resolveReferences();
  1520. const logMethod = cg
  1521. .getNodesByKind('method')
  1522. .find((n) => n.name.toLowerCase() === 'log');
  1523. expect(logMethod, `${c.lang}: log method should be indexed`).toBeDefined();
  1524. // The enclosing caller resolves through the local variable to `log`.
  1525. const callers = cg.getCallers(logMethod!.id).map((x) => x.node.name);
  1526. expect(
  1527. callers.length,
  1528. `${c.lang}: log should have a caller (got [${callers.join(', ')}])`,
  1529. ).toBeGreaterThan(0);
  1530. });
  1531. }
  1532. it('Ruby: builds receiver.method and keeps Foo.new as an instantiation', async () => {
  1533. // The Ruby extractor previously took the receiver as the callee and
  1534. // dropped the method name (`lg.log()` -> a call to `lg`). Now it builds
  1535. // `lg.log`, while `Logger.new` must still record an instantiation.
  1536. fs.writeFileSync(
  1537. path.join(tempDir, 'svc.rb'),
  1538. `class Logger\n def log\n 1\n end\nend\ndef run\n lg = Logger.new\n lg.log\nend\n`,
  1539. );
  1540. cg = await CodeGraph.init(tempDir, { index: true });
  1541. cg.resolveReferences();
  1542. const run = cg.getNodesByKind('function').find((n) => n.name === 'run')!;
  1543. const logMethod = cg.getNodesByKind('method').find((n) => n.name === 'log')!;
  1544. const logger = cg.getNodesByKind('class').find((n) => n.name === 'Logger')!;
  1545. const out = cg.getOutgoingEdges(run.id);
  1546. // lg.log resolved to the method (the receiver-type inference kicked in).
  1547. expect(out.some((e) => e.kind === 'calls' && e.target === logMethod.id)).toBe(true);
  1548. // Logger.new is still an instantiation of the class.
  1549. expect(out.some((e) => e.kind === 'instantiates' && e.target === logger.id)).toBe(true);
  1550. });
  1551. it('TypeScript: infers a typed-parameter receiver, disambiguating same-named methods (#1125)', async () => {
  1552. // A typed function parameter used as a receiver — `function use(lg: Logger)`
  1553. // — never matched the old TS/JS pattern (it required a const|let|var
  1554. // prefix), so `lg.log()` fell through to no edge once a second class shared
  1555. // the method name. Two ambiguous classes are load-bearing here: a
  1556. // single-class version resolves via a same-name fallback even without
  1557. // inference, so only the collision proves type inference actually fired.
  1558. fs.writeFileSync(
  1559. path.join(tempDir, 'svc.ts'),
  1560. `class Logger { log() { return 1; } }\n` +
  1561. `class Other { log() { return 2; } }\n` +
  1562. `export function use(lg: Logger) { return lg.log(); }\n` +
  1563. `export function useOther(o: Other) { return o.log(); }\n`,
  1564. );
  1565. cg = await CodeGraph.init(tempDir, { index: true });
  1566. cg.resolveReferences();
  1567. const classes = cg.getNodesByKind('class');
  1568. const logger = classes.find((n) => n.name === 'Logger')!;
  1569. const other = classes.find((n) => n.name === 'Other')!;
  1570. const logs = cg.getNodesByKind('method').filter((n) => n.name === 'log');
  1571. expect(logs.length, 'both log methods should be indexed').toBe(2);
  1572. // Associate each same-named `log` with its class by line containment.
  1573. const inClass = (m: (typeof logs)[number], c: typeof logger) =>
  1574. m.startLine >= c.startLine && m.startLine <= (c.endLine ?? c.startLine);
  1575. const loggerLog = logs.find((m) => inClass(m, logger))!;
  1576. const otherLog = logs.find((m) => inClass(m, other))!;
  1577. expect(loggerLog, "Logger's log").toBeDefined();
  1578. expect(otherLog, "Other's log").toBeDefined();
  1579. const loggerCallers = cg.getCallers(loggerLog.id).map((x) => x.node.name);
  1580. const otherCallers = cg.getCallers(otherLog.id).map((x) => x.node.name);
  1581. // Each typed-param call routes to its OWN class's method, not the other's.
  1582. expect(loggerCallers).toContain('use');
  1583. expect(loggerCallers).not.toContain('useOther');
  1584. expect(otherCallers).toContain('useOther');
  1585. expect(otherCallers).not.toContain('use');
  1586. });
  1587. });
  1588. describe('Name Matcher: kind bias for new ref kinds', () => {
  1589. const baseContext = (candidates: Node[]): ResolutionContext => ({
  1590. getNodesInFile: () => [],
  1591. getNodesByName: (name) => candidates.filter((c) => c.name === name),
  1592. getNodesByQualifiedName: () => [],
  1593. getNodesByKind: () => [],
  1594. fileExists: () => true,
  1595. readFile: () => null,
  1596. getProjectRoot: () => '/test',
  1597. getAllFiles: () => [],
  1598. getNodesByLowerName: () => [],
  1599. getImportMappings: () => [],
  1600. });
  1601. it('prefers a class candidate over a function for `instantiates` refs', () => {
  1602. // A class and a function share a name across the codebase.
  1603. // Without the kind bias, the function (which gets the +25 `calls`
  1604. // bonus historically applied to all candidates of that kind) would
  1605. // win. Now the instantiates branch reverses it.
  1606. const fn: Node = {
  1607. id: 'func:utils.ts:Logger:5', kind: 'function', name: 'Logger',
  1608. qualifiedName: 'utils.ts::Logger', filePath: 'utils.ts', language: 'typescript',
  1609. startLine: 5, endLine: 7, startColumn: 0, endColumn: 0, updatedAt: Date.now(),
  1610. };
  1611. const cls: Node = {
  1612. id: 'class:logger.ts:Logger:10', kind: 'class', name: 'Logger',
  1613. qualifiedName: 'logger.ts::Logger', filePath: 'logger.ts', language: 'typescript',
  1614. startLine: 10, endLine: 30, startColumn: 0, endColumn: 0, updatedAt: Date.now(),
  1615. };
  1616. const ref = {
  1617. fromNodeId: 'func:main.ts:bootstrap:1',
  1618. referenceName: 'Logger',
  1619. referenceKind: 'instantiates' as const,
  1620. line: 5, column: 0, filePath: 'main.ts', language: 'typescript' as const,
  1621. };
  1622. const result = matchReference(ref, baseContext([fn, cls]));
  1623. expect(result?.targetNodeId).toBe('class:logger.ts:Logger:10');
  1624. });
  1625. it('prefers a function candidate over a non-function for `decorates` refs', () => {
  1626. const variable: Node = {
  1627. id: 'var:config.ts:Inject:5', kind: 'variable', name: 'Inject',
  1628. qualifiedName: 'config.ts::Inject', filePath: 'config.ts', language: 'typescript',
  1629. startLine: 5, endLine: 5, startColumn: 0, endColumn: 0, updatedAt: Date.now(),
  1630. };
  1631. const decorator: Node = {
  1632. id: 'func:di.ts:Inject:10', kind: 'function', name: 'Inject',
  1633. qualifiedName: 'di.ts::Inject', filePath: 'di.ts', language: 'typescript',
  1634. startLine: 10, endLine: 20, startColumn: 0, endColumn: 0, updatedAt: Date.now(),
  1635. };
  1636. const ref = {
  1637. fromNodeId: 'class:svc.ts:UserService:1',
  1638. referenceName: 'Inject',
  1639. referenceKind: 'decorates' as const,
  1640. line: 5, column: 0, filePath: 'svc.ts', language: 'typescript' as const,
  1641. };
  1642. const result = matchReference(ref, baseContext([variable, decorator]));
  1643. expect(result?.targetNodeId).toBe('func:di.ts:Inject:10');
  1644. });
  1645. });
  1646. describe('tsconfig path aliases', () => {
  1647. it('resolves an aliased import to the alias-mapped file (not a same-named file elsewhere)', async () => {
  1648. // Two same-named exports in different directories. Without alias
  1649. // resolution, name-matcher would pick whichever it finds first;
  1650. // with alias resolution, the import path uniquely picks one.
  1651. fs.mkdirSync(path.join(tempDir, 'src/utils'), { recursive: true });
  1652. fs.mkdirSync(path.join(tempDir, 'src/legacy'), { recursive: true });
  1653. fs.writeFileSync(
  1654. path.join(tempDir, 'src/utils/format.ts'),
  1655. `export function pickMe(): number { return 1; }\n`
  1656. );
  1657. fs.writeFileSync(
  1658. path.join(tempDir, 'src/legacy/format.ts'),
  1659. `export function pickMe(): number { return 99; }\n`
  1660. );
  1661. fs.writeFileSync(
  1662. path.join(tempDir, 'src/main.ts'),
  1663. `import { pickMe } from '@utils/format';\nexport function go(): number { return pickMe(); }\n`
  1664. );
  1665. fs.writeFileSync(
  1666. path.join(tempDir, 'tsconfig.json'),
  1667. JSON.stringify({
  1668. compilerOptions: {
  1669. baseUrl: './src',
  1670. paths: { '@utils/*': ['utils/*'] },
  1671. },
  1672. })
  1673. );
  1674. cg = await CodeGraph.init(tempDir, { index: true });
  1675. cg.resolveReferences();
  1676. // The two pickMe nodes live in different files. The aliased
  1677. // import should attach the call edge to the @utils-mapped one,
  1678. // not the legacy duplicate.
  1679. const all = cg.getNodesByKind('function').filter((n) => n.name === 'pickMe');
  1680. const utilsNode = all.find((n) => n.filePath === 'src/utils/format.ts');
  1681. const legacyNode = all.find((n) => n.filePath === 'src/legacy/format.ts');
  1682. expect(utilsNode).toBeDefined();
  1683. expect(legacyNode).toBeDefined();
  1684. const utilsCallers = cg.getCallers(utilsNode!.id);
  1685. const legacyCallers = cg.getCallers(legacyNode!.id);
  1686. expect(utilsCallers.length).toBeGreaterThan(0);
  1687. expect(utilsCallers.some((c) => c.node.filePath === 'src/main.ts')).toBe(true);
  1688. // The legacy node should NOT have a caller from src/main.ts —
  1689. // the alias correctly picked the utils version.
  1690. expect(legacyCallers.some((c) => c.node.filePath === 'src/main.ts')).toBe(false);
  1691. });
  1692. it('falls back gracefully when tsconfig is absent', async () => {
  1693. fs.mkdirSync(path.join(tempDir, 'src'), { recursive: true });
  1694. fs.writeFileSync(
  1695. path.join(tempDir, 'src/a.ts'),
  1696. `export function aFn(): void {}\n`
  1697. );
  1698. fs.writeFileSync(
  1699. path.join(tempDir, 'src/b.ts'),
  1700. `import { aFn } from './a';\nexport function bFn(): void { aFn(); }\n`
  1701. );
  1702. cg = await CodeGraph.init(tempDir, { index: true });
  1703. // No tsconfig present — index should still complete and the
  1704. // relative-import-based call edge should be created.
  1705. const aFn = cg.getNodesByKind('function').find((n) => n.name === 'aFn');
  1706. expect(aFn).toBeDefined();
  1707. const callers = cg.getCallers(aFn!.id);
  1708. expect(callers.some((c) => c.node.filePath === 'src/b.ts')).toBe(true);
  1709. });
  1710. });
  1711. describe('re-export chain following', () => {
  1712. it('chases a 3-hop barrel chain (wildcard → named → declaration)', async () => {
  1713. // main.ts → all.ts (wildcard) → index.ts (named) → auth.ts (declaration).
  1714. // Without chain following, `signIn` resolves to nothing because
  1715. // none of the barrel files declare it directly.
  1716. fs.mkdirSync(path.join(tempDir, 'src/services'), { recursive: true });
  1717. fs.writeFileSync(
  1718. path.join(tempDir, 'src/services/auth.ts'),
  1719. `export function signIn(): void {}\n`
  1720. );
  1721. fs.writeFileSync(
  1722. path.join(tempDir, 'src/services/index.ts'),
  1723. `export { signIn } from './auth';\n`
  1724. );
  1725. fs.writeFileSync(
  1726. path.join(tempDir, 'src/all.ts'),
  1727. `export * from './services/index';\n`
  1728. );
  1729. fs.writeFileSync(
  1730. path.join(tempDir, 'src/main.ts'),
  1731. `import { signIn } from './all';\nexport function go(): void { signIn(); }\n`
  1732. );
  1733. cg = await CodeGraph.init(tempDir, { index: true });
  1734. cg.resolveReferences();
  1735. const signInNode = cg
  1736. .getNodesByKind('function')
  1737. .find((n) => n.name === 'signIn' && n.filePath === 'src/services/auth.ts');
  1738. expect(signInNode).toBeDefined();
  1739. const callers = cg.getCallers(signInNode!.id);
  1740. expect(callers.some((c) => c.node.filePath === 'src/main.ts')).toBe(true);
  1741. });
  1742. it('follows a renamed named re-export (export { foo as bar } from ...)', async () => {
  1743. // The chase has to look up `foo` in the upstream module even
  1744. // though the importer asked for `bar` — exercises the rename
  1745. // branch of findExportedSymbol.
  1746. fs.mkdirSync(path.join(tempDir, 'src'), { recursive: true });
  1747. fs.writeFileSync(
  1748. path.join(tempDir, 'src/auth.ts'),
  1749. `export function signIn(): void {}\n`
  1750. );
  1751. fs.writeFileSync(
  1752. path.join(tempDir, 'src/index.ts'),
  1753. `export { signIn as login } from './auth';\n`
  1754. );
  1755. fs.writeFileSync(
  1756. path.join(tempDir, 'src/main.ts'),
  1757. `import { login } from './index';\nexport function go(): void { login(); }\n`
  1758. );
  1759. cg = await CodeGraph.init(tempDir, { index: true });
  1760. cg.resolveReferences();
  1761. const signInNode = cg
  1762. .getNodesByKind('function')
  1763. .find((n) => n.name === 'signIn' && n.filePath === 'src/auth.ts');
  1764. expect(signInNode).toBeDefined();
  1765. const callers = cg.getCallers(signInNode!.id);
  1766. expect(callers.some((c) => c.node.filePath === 'src/main.ts')).toBe(true);
  1767. });
  1768. it('follows a default re-export of a .svelte component (export { default as Foo } from ./RealButton.svelte) (#629)', async () => {
  1769. // The ubiquitous Svelte/React component-barrel form. The leaf is a
  1770. // .svelte component (extracted as kind 'component', the default
  1771. // export). The re-export ALIAS (`Foo`) deliberately differs from the
  1772. // component's real name (`RealButton`) so the name-matcher fallback
  1773. // can't coincidentally connect them — the only path to the edge is
  1774. // the import-chase, which must match a `component` (not just
  1775. // function/class) for the default export. Otherwise the
  1776. // consumer↔component edge is never created and `callers` returns a
  1777. // false 0.
  1778. fs.mkdirSync(path.join(tempDir, 'src/lib'), { recursive: true });
  1779. fs.writeFileSync(
  1780. path.join(tempDir, 'src/lib/RealButton.svelte'),
  1781. `<script lang="ts">\n export let label: string = '';\n</script>\n\n<button>{label}</button>\n`
  1782. );
  1783. fs.writeFileSync(
  1784. path.join(tempDir, 'src/lib/index.ts'),
  1785. `export { default as Foo } from './RealButton.svelte';\n`
  1786. );
  1787. fs.writeFileSync(
  1788. path.join(tempDir, 'src/Bar.svelte'),
  1789. `<script lang="ts">\n import { Foo } from './lib';\n</script>\n\n<Foo />\n`
  1790. );
  1791. cg = await CodeGraph.init(tempDir, { index: true });
  1792. cg.resolveReferences();
  1793. const fooNode = cg
  1794. .getNodesByKind('component')
  1795. .find((n) => n.name === 'RealButton' && n.filePath === 'src/lib/RealButton.svelte');
  1796. expect(fooNode).toBeDefined();
  1797. const callers = cg.getCallers(fooNode!.id);
  1798. expect(callers.some((c) => c.node.filePath === 'src/Bar.svelte')).toBe(true);
  1799. });
  1800. it('links an .astro page to the component and TS util it uses (#768)', async () => {
  1801. // The canonical Astro shape: a page imports a layout/component in
  1802. // frontmatter and uses it as a template tag; the component's template
  1803. // calls an imported .ts util. Both hops must produce graph edges or
  1804. // an Astro project is invisible to callers/impact.
  1805. fs.mkdirSync(path.join(tempDir, 'src/components'), { recursive: true });
  1806. fs.mkdirSync(path.join(tempDir, 'src/utils'), { recursive: true });
  1807. fs.mkdirSync(path.join(tempDir, 'src/pages'), { recursive: true });
  1808. fs.writeFileSync(
  1809. path.join(tempDir, 'src/utils/format.ts'),
  1810. `export function formatDate(d: Date): string { return d.toISOString(); }\n`
  1811. );
  1812. fs.writeFileSync(
  1813. path.join(tempDir, 'src/components/PostCard.astro'),
  1814. `---\nimport { formatDate } from '../utils/format';\nconst { date } = Astro.props;\n---\n<time>{formatDate(date)}</time>\n`
  1815. );
  1816. fs.writeFileSync(
  1817. path.join(tempDir, 'src/pages/index.astro'),
  1818. `---\nimport PostCard from '../components/PostCard.astro';\n---\n<PostCard date={new Date()} />\n`
  1819. );
  1820. cg = await CodeGraph.init(tempDir, { index: true });
  1821. cg.resolveReferences();
  1822. // Hop 1: page → component (template tag through the frontmatter import)
  1823. const cardNode = cg
  1824. .getNodesByKind('component')
  1825. .find((n) => n.name === 'PostCard' && n.filePath === 'src/components/PostCard.astro');
  1826. expect(cardNode).toBeDefined();
  1827. const cardCallers = cg.getCallers(cardNode!.id);
  1828. expect(cardCallers.some((c) => c.node.filePath === 'src/pages/index.astro')).toBe(true);
  1829. // Hop 2: component template call → .ts util
  1830. const fmtNode = cg
  1831. .getNodesByKind('function')
  1832. .find((n) => n.name === 'formatDate' && n.filePath === 'src/utils/format.ts');
  1833. expect(fmtNode).toBeDefined();
  1834. const fmtCallers = cg.getCallers(fmtNode!.id);
  1835. expect(fmtCallers.some((c) => c.node.filePath === 'src/components/PostCard.astro')).toBe(true);
  1836. });
  1837. it('resolves a bare directory import (import { x } from "." / "./") to index.ts (#629)', async () => {
  1838. // `import { helper } from '.'` (or './') must map to the
  1839. // directory's index.ts before the re-export chase can run. The
  1840. // barrel renames `realHelper` → `helper` so the name-matcher can't
  1841. // mask a path-resolution failure: only the bare-dir resolution +
  1842. // rename chase can connect the edge.
  1843. fs.mkdirSync(path.join(tempDir, 'src'), { recursive: true });
  1844. fs.writeFileSync(
  1845. path.join(tempDir, 'src/util.ts'),
  1846. `export function realHelper(): void {}\n`
  1847. );
  1848. fs.writeFileSync(
  1849. path.join(tempDir, 'src/index.ts'),
  1850. `export { realHelper as helper } from './util';\n`
  1851. );
  1852. fs.writeFileSync(
  1853. path.join(tempDir, 'src/main.ts'),
  1854. `import { helper } from '.';\nexport function go(): void { helper(); }\n`
  1855. );
  1856. fs.writeFileSync(
  1857. path.join(tempDir, 'src/main2.ts'),
  1858. `import { helper } from './';\nexport function go2(): void { helper(); }\n`
  1859. );
  1860. cg = await CodeGraph.init(tempDir, { index: true });
  1861. cg.resolveReferences();
  1862. const helperNode = cg
  1863. .getNodesByKind('function')
  1864. .find((n) => n.name === 'realHelper' && n.filePath === 'src/util.ts');
  1865. expect(helperNode).toBeDefined();
  1866. const callers = cg.getCallers(helperNode!.id);
  1867. expect(callers.some((c) => c.node.filePath === 'src/main.ts')).toBe(true);
  1868. expect(callers.some((c) => c.node.filePath === 'src/main2.ts')).toBe(true);
  1869. });
  1870. it('resolves a workspace package-subpath barrel (@scope/pkg/sub) to its index (#629)', async () => {
  1871. // bun/npm/pnpm workspace: `@scope/ui/widgets` → the `ui` package's
  1872. // `widgets/` subdir index, which re-exports a .svelte component.
  1873. // Alias `Thing` ≠ component `Widget` defeats the name-matcher, so
  1874. // only workspace-package resolution can connect the edge.
  1875. fs.mkdirSync(path.join(tempDir, 'packages/ui/widgets'), { recursive: true });
  1876. fs.writeFileSync(
  1877. path.join(tempDir, 'package.json'),
  1878. JSON.stringify({ name: 'root', private: true, workspaces: ['packages/*'] }, null, 2)
  1879. );
  1880. fs.writeFileSync(
  1881. path.join(tempDir, 'packages/ui/package.json'),
  1882. JSON.stringify({ name: '@scope/ui', version: '1.0.0' }, null, 2)
  1883. );
  1884. fs.writeFileSync(
  1885. path.join(tempDir, 'packages/ui/widgets/Widget.svelte'),
  1886. `<script lang="ts">\n export let label: string = '';\n</script>\n\n<button>{label}</button>\n`
  1887. );
  1888. fs.writeFileSync(
  1889. path.join(tempDir, 'packages/ui/widgets/index.ts'),
  1890. `export { default as Thing } from './Widget.svelte';\n`
  1891. );
  1892. fs.mkdirSync(path.join(tempDir, 'app'), { recursive: true });
  1893. fs.writeFileSync(
  1894. path.join(tempDir, 'app/App.svelte'),
  1895. `<script lang="ts">\n import { Thing } from '@scope/ui/widgets';\n</script>\n\n<Thing />\n`
  1896. );
  1897. cg = await CodeGraph.init(tempDir, { index: true });
  1898. cg.resolveReferences();
  1899. const buttonNode = cg
  1900. .getNodesByKind('component')
  1901. .find((n) => n.name === 'Widget' && n.filePath === 'packages/ui/widgets/Widget.svelte');
  1902. expect(buttonNode).toBeDefined();
  1903. const callers = cg.getCallers(buttonNode!.id);
  1904. expect(callers.some((c) => c.node.filePath === 'app/App.svelte')).toBe(true);
  1905. });
  1906. it('resolves a barrel import from a Vue SFC <script> block (#629)', async () => {
  1907. // The same import-resolution gaps (no SFC import mappings, no SFC
  1908. // extension list, barrel parsed in the consumer's language) broke
  1909. // Vue SFCs too. Guards the resolver-side generalization to `.vue`.
  1910. // The barrel renames `realRun` → `run` so only the import-chase (not
  1911. // the name-matcher) can connect the call.
  1912. fs.mkdirSync(path.join(tempDir, 'src'), { recursive: true });
  1913. fs.writeFileSync(
  1914. path.join(tempDir, 'src/util.ts'),
  1915. `export function realRun(): void {}\n`
  1916. );
  1917. fs.writeFileSync(
  1918. path.join(tempDir, 'src/index.ts'),
  1919. `export { realRun as run } from './util';\n`
  1920. );
  1921. fs.writeFileSync(
  1922. path.join(tempDir, 'src/App.vue'),
  1923. `<script lang="ts">\nimport { run } from './';\nexport default { mounted() { run(); } };\n</script>\n<template><div/></template>\n`
  1924. );
  1925. cg = await CodeGraph.init(tempDir, { index: true });
  1926. cg.resolveReferences();
  1927. const runNode = cg
  1928. .getNodesByKind('function')
  1929. .find((n) => n.name === 'realRun' && n.filePath === 'src/util.ts');
  1930. expect(runNode).toBeDefined();
  1931. const callers = cg.getCallers(runNode!.id);
  1932. expect(callers.some((c) => c.node.filePath === 'src/App.vue')).toBe(true);
  1933. });
  1934. it('follows a Vue component used in a <template> through a default re-export barrel (#629)', async () => {
  1935. // End-to-end Vue analogue of the Svelte case: the leaf is a `.vue`
  1936. // component re-exported under an alias (`Thing`) that differs from its
  1937. // real name (`Widget`), and the consumer uses it ONLY in markup
  1938. // (`<Thing />`). Requires both the new template-tag extraction AND the
  1939. // barrel default-export chase to connect the edge.
  1940. fs.mkdirSync(path.join(tempDir, 'src/lib'), { recursive: true });
  1941. fs.writeFileSync(
  1942. path.join(tempDir, 'src/lib/Widget.vue'),
  1943. `<script setup lang="ts">\ndefineProps<{ label?: string }>();\n</script>\n<template><button>x</button></template>\n`
  1944. );
  1945. fs.writeFileSync(
  1946. path.join(tempDir, 'src/lib/index.ts'),
  1947. `export { default as Thing } from './Widget.vue';\n`
  1948. );
  1949. fs.writeFileSync(
  1950. path.join(tempDir, 'src/App.vue'),
  1951. `<script setup lang="ts">\nimport { Thing } from './lib';\n</script>\n<template>\n <Thing />\n</template>\n`
  1952. );
  1953. cg = await CodeGraph.init(tempDir, { index: true });
  1954. cg.resolveReferences();
  1955. const widgetNode = cg
  1956. .getNodesByKind('component')
  1957. .find((n) => n.name === 'Widget' && n.filePath === 'src/lib/Widget.vue');
  1958. expect(widgetNode).toBeDefined();
  1959. const callers = cg.getCallers(widgetNode!.id);
  1960. expect(callers.some((c) => c.node.filePath === 'src/App.vue')).toBe(true);
  1961. });
  1962. });
  1963. describe('C/C++ Import Resolution', () => {
  1964. afterEach(() => {
  1965. clearCppIncludeDirCache();
  1966. });
  1967. it('should resolve C include to header in same directory', () => {
  1968. const context: ResolutionContext = {
  1969. getNodesInFile: () => [],
  1970. getNodesByName: () => [],
  1971. getNodesByQualifiedName: () => [],
  1972. getNodesByKind: () => [],
  1973. fileExists: (p) => p === 'utils.h',
  1974. readFile: () => null,
  1975. getProjectRoot: () => '',
  1976. getAllFiles: () => ['utils.h', 'main.c'],
  1977. };
  1978. const result = resolveImportPath(
  1979. 'utils.h',
  1980. 'main.c',
  1981. 'c',
  1982. context
  1983. );
  1984. expect(result).toBe('utils.h');
  1985. });
  1986. it('should resolve C++ include with .hpp extension', () => {
  1987. const context: ResolutionContext = {
  1988. getNodesInFile: () => [],
  1989. getNodesByName: () => [],
  1990. getNodesByQualifiedName: () => [],
  1991. getNodesByKind: () => [],
  1992. fileExists: (p) => p === 'include/myclass.hpp',
  1993. readFile: () => null,
  1994. getProjectRoot: () => '',
  1995. getAllFiles: () => ['include/myclass.hpp', 'src/main.cpp'],
  1996. getCppIncludeDirs: () => ['include'],
  1997. };
  1998. const result = resolveImportPath(
  1999. 'myclass.hpp',
  2000. 'src/main.cpp',
  2001. 'cpp',
  2002. context
  2003. );
  2004. expect(result).toBe('include/myclass.hpp');
  2005. });
  2006. it('should resolve include with subdirectory path', () => {
  2007. const context: ResolutionContext = {
  2008. getNodesInFile: () => [],
  2009. getNodesByName: () => [],
  2010. getNodesByQualifiedName: () => [],
  2011. getNodesByKind: () => [],
  2012. fileExists: (p) => p === 'utils/helpers.h',
  2013. readFile: () => null,
  2014. getProjectRoot: () => '',
  2015. getAllFiles: () => ['utils/helpers.h', 'main.c'],
  2016. };
  2017. const result = resolveImportPath(
  2018. 'utils/helpers.h',
  2019. 'main.c',
  2020. 'c',
  2021. context
  2022. );
  2023. expect(result).toBe('utils/helpers.h');
  2024. });
  2025. it('should resolve include via include directories', () => {
  2026. const context: ResolutionContext = {
  2027. getNodesInFile: () => [],
  2028. getNodesByName: () => [],
  2029. getNodesByQualifiedName: () => [],
  2030. getNodesByKind: () => [],
  2031. fileExists: (p) => p === 'include/myheader.h',
  2032. readFile: () => null,
  2033. getProjectRoot: () => '',
  2034. getAllFiles: () => ['include/myheader.h', 'src/main.cpp'],
  2035. getCppIncludeDirs: () => ['include'],
  2036. };
  2037. const result = resolveImportPath(
  2038. 'myheader.h',
  2039. 'src/main.cpp',
  2040. 'cpp',
  2041. context
  2042. );
  2043. expect(result).toBe('include/myheader.h');
  2044. });
  2045. it('should resolve include trying multiple extensions', () => {
  2046. const context: ResolutionContext = {
  2047. getNodesInFile: () => [],
  2048. getNodesByName: () => [],
  2049. getNodesByQualifiedName: () => [],
  2050. getNodesByKind: () => [],
  2051. // myclass.h does not exist, but myclass.hpp does
  2052. fileExists: (p) => p === 'include/myclass.hpp',
  2053. readFile: () => null,
  2054. getProjectRoot: () => '',
  2055. getAllFiles: () => ['include/myclass.hpp', 'src/main.cpp'],
  2056. getCppIncludeDirs: () => ['include'],
  2057. };
  2058. const result = resolveImportPath(
  2059. 'myclass',
  2060. 'src/main.cpp',
  2061. 'cpp',
  2062. context
  2063. );
  2064. expect(result).toBe('include/myclass.hpp');
  2065. });
  2066. it('should return null for system headers', () => {
  2067. const context: ResolutionContext = {
  2068. getNodesInFile: () => [],
  2069. getNodesByName: () => [],
  2070. getNodesByQualifiedName: () => [],
  2071. getNodesByKind: () => [],
  2072. fileExists: () => true,
  2073. readFile: () => null,
  2074. getProjectRoot: () => '',
  2075. getAllFiles: () => [],
  2076. };
  2077. // C standard library header
  2078. expect(resolveImportPath('stdio.h', 'main.c', 'c', context)).toBeNull();
  2079. // C++ standard library header
  2080. expect(resolveImportPath('vector', 'main.cpp', 'cpp', context)).toBeNull();
  2081. // C++ C-wrapper header
  2082. expect(resolveImportPath('cstdio', 'main.cpp', 'cpp', context)).toBeNull();
  2083. });
  2084. it('should return null for single-component third-party paths that cannot be resolved', () => {
  2085. const context: ResolutionContext = {
  2086. getNodesInFile: () => [],
  2087. getNodesByName: () => [],
  2088. getNodesByQualifiedName: () => [],
  2089. getNodesByKind: () => [],
  2090. fileExists: () => false,
  2091. readFile: () => null,
  2092. getProjectRoot: () => '',
  2093. getAllFiles: () => [],
  2094. getCppIncludeDirs: () => [],
  2095. };
  2096. // Third-party bare header without path — not resolvable, returns null
  2097. const result = resolveImportPath(
  2098. 'openssl/ssl.h',
  2099. 'main.cpp',
  2100. 'cpp',
  2101. context
  2102. );
  2103. expect(result).toBeNull();
  2104. });
  2105. it('should not filter project headers with path separators', () => {
  2106. const context: ResolutionContext = {
  2107. getNodesInFile: () => [],
  2108. getNodesByName: () => [],
  2109. getNodesByQualifiedName: () => [],
  2110. getNodesByKind: () => [],
  2111. fileExists: (p) => p === 'mylib/utils.h',
  2112. readFile: () => null,
  2113. getProjectRoot: () => '',
  2114. getAllFiles: () => ['mylib/utils.h'],
  2115. };
  2116. // Path with separator should NOT be filtered as external
  2117. const result = resolveImportPath(
  2118. 'mylib/utils.h',
  2119. 'main.c',
  2120. 'c',
  2121. context
  2122. );
  2123. expect(result).toBe('mylib/utils.h');
  2124. });
  2125. it('should extract C/C++ import mappings from #include directives', () => {
  2126. const code = `#include <iostream>
  2127. #include "myheader.h"
  2128. #include "utils/helpers.hpp"`;
  2129. const mappings = extractImportMappings('main.cpp', code, 'cpp');
  2130. expect(mappings.length).toBe(3);
  2131. expect(mappings[0]).toEqual({
  2132. localName: 'iostream',
  2133. exportedName: '*',
  2134. source: 'iostream',
  2135. isDefault: false,
  2136. isNamespace: true,
  2137. });
  2138. expect(mappings[1]).toEqual({
  2139. localName: 'myheader',
  2140. exportedName: '*',
  2141. source: 'myheader.h',
  2142. isDefault: false,
  2143. isNamespace: true,
  2144. });
  2145. expect(mappings[2]).toEqual({
  2146. localName: 'helpers',
  2147. exportedName: '*',
  2148. source: 'utils/helpers.hpp',
  2149. isDefault: false,
  2150. isNamespace: true,
  2151. });
  2152. });
  2153. it('should discover include directories from compile_commands.json', () => {
  2154. // Create a temp project with compile_commands.json
  2155. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-cpp-test-'));
  2156. try {
  2157. const compileDb = [
  2158. {
  2159. directory: tempProject,
  2160. command: 'g++ -Iinclude -Isrc/lib -isystem /usr/include -c src/main.cpp',
  2161. file: 'src/main.cpp',
  2162. },
  2163. ];
  2164. fs.writeFileSync(
  2165. path.join(tempProject, 'compile_commands.json'),
  2166. JSON.stringify(compileDb)
  2167. );
  2168. // Create the include dirs so they exist
  2169. fs.mkdirSync(path.join(tempProject, 'include'), { recursive: true });
  2170. fs.mkdirSync(path.join(tempProject, 'src', 'lib'), { recursive: true });
  2171. clearCppIncludeDirCache();
  2172. const dirs = loadCppIncludeDirs(tempProject);
  2173. // Should find include and src/lib (relative to project root)
  2174. // /usr/include is absolute and outside project, should be excluded
  2175. expect(dirs).toContain('include');
  2176. expect(dirs).toContain('src/lib');
  2177. expect(dirs.some(d => d.includes('usr'))).toBe(false);
  2178. } finally {
  2179. fs.rmSync(tempProject, { recursive: true });
  2180. }
  2181. });
  2182. it('should fall back to heuristic include dirs when no compile_commands.json', () => {
  2183. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-cpp-test-'));
  2184. try {
  2185. // Create include/ and src/ directories with headers
  2186. fs.mkdirSync(path.join(tempProject, 'include'), { recursive: true });
  2187. fs.writeFileSync(path.join(tempProject, 'include', 'types.h'), '');
  2188. fs.mkdirSync(path.join(tempProject, 'src'), { recursive: true });
  2189. fs.writeFileSync(path.join(tempProject, 'src', 'main.cpp'), '');
  2190. // Create a directory without headers — should not be included
  2191. fs.mkdirSync(path.join(tempProject, 'docs'), { recursive: true });
  2192. clearCppIncludeDirCache();
  2193. const dirs = loadCppIncludeDirs(tempProject);
  2194. expect(dirs).toContain('include');
  2195. expect(dirs).toContain('src');
  2196. expect(dirs).not.toContain('docs');
  2197. } finally {
  2198. fs.rmSync(tempProject, { recursive: true });
  2199. }
  2200. });
  2201. // Documents the cross-language `.h` behavior. Objective-C and C++ share
  2202. // the `.h` extension, so in a mixed iOS-style project an Obj-C header
  2203. // dir gets claimed as a C/C++ include dir too. That's intentional — a
  2204. // C++ file legitimately can `#include "Foo.h"` against an Obj-C header
  2205. // (Obj-C++ / .mm callers), and false-positive inclusion is far cheaper
  2206. // than missing real resolutions. The test pins this so a later
  2207. // "exclude objc dirs" refactor breaks loudly and reviewers see the
  2208. // trade-off explicitly.
  2209. it('heuristic claims any top-level dir containing .h files, including Obj-C', () => {
  2210. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-cpp-test-'));
  2211. try {
  2212. // C++ side: an `cppmod` dir with a .hpp (C++-only extension)
  2213. fs.mkdirSync(path.join(tempProject, 'cppmod'), { recursive: true });
  2214. fs.writeFileSync(path.join(tempProject, 'cppmod', 'shared.hpp'), '');
  2215. // Obj-C side: an `iosmod` dir with .h + .m (no .cpp/.hpp).
  2216. fs.mkdirSync(path.join(tempProject, 'iosmod'), { recursive: true });
  2217. fs.writeFileSync(path.join(tempProject, 'iosmod', 'View.h'), '');
  2218. fs.writeFileSync(path.join(tempProject, 'iosmod', 'View.m'), '');
  2219. clearCppIncludeDirCache();
  2220. const dirs = loadCppIncludeDirs(tempProject);
  2221. // Both included — Obj-C dirs are intentionally allowed.
  2222. expect(dirs).toContain('cppmod');
  2223. expect(dirs).toContain('iosmod');
  2224. } finally {
  2225. fs.rmSync(tempProject, { recursive: true });
  2226. }
  2227. });
  2228. // End-to-end: ensure `#include "X.h"` produces a file→file `imports` edge
  2229. // in the actual indexing pipeline (not just a phantom file→import-node
  2230. // edge). This pins the include-dir resolution path so the headline PR
  2231. // feature can't silently regress to a no-op in the indexing flow.
  2232. it('connects #include to the real header file via include-dir scan (end-to-end)', async () => {
  2233. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-cpp-e2e-'));
  2234. try {
  2235. fs.mkdirSync(path.join(tempProject, 'include'), { recursive: true });
  2236. fs.mkdirSync(path.join(tempProject, 'src'), { recursive: true });
  2237. fs.writeFileSync(
  2238. path.join(tempProject, 'include', 'utils.h'),
  2239. `#ifndef UTILS_H\n#define UTILS_H\nint add(int, int);\n#endif\n`
  2240. );
  2241. fs.writeFileSync(
  2242. path.join(tempProject, 'src', 'main.cpp'),
  2243. `#include "utils.h"\n#include <vector>\nint main(){ return add(1,2); }\n`
  2244. );
  2245. clearCppIncludeDirCache();
  2246. cg = await CodeGraph.init(tempProject, { index: true });
  2247. // Sanity: file nodes exist for the header and the cpp.
  2248. const allFiles = cg.getStats();
  2249. expect(allFiles.fileCount).toBe(2);
  2250. // The `#include "utils.h"` edge should target the real
  2251. // `include/utils.h` file node — not a floating `import` node
  2252. // living inside main.cpp.
  2253. const db = DatabaseConnection.open(path.join(tempProject, '.codegraph', 'codegraph.db'));
  2254. const rows = db.getDb().prepare(`
  2255. select dst.kind as dstKind, dst.file_path as dstPath
  2256. from edges e
  2257. join nodes src on e.source = src.id
  2258. join nodes dst on e.target = dst.id
  2259. where e.kind = 'imports'
  2260. and src.kind = 'file'
  2261. and src.file_path = 'src/main.cpp'
  2262. `).all() as Array<{ dstKind: string; dstPath: string }>;
  2263. const resolvedToHeader = rows.find(
  2264. (r) => r.dstKind === 'file' && r.dstPath === 'include/utils.h'
  2265. );
  2266. expect(resolvedToHeader, 'main.cpp → include/utils.h imports edge missing').toBeDefined();
  2267. // `<vector>` should NOT produce a file edge — it's a stdlib header.
  2268. const stdlibFile = rows.find(
  2269. (r) => r.dstKind === 'file' && r.dstPath && r.dstPath.endsWith('vector')
  2270. );
  2271. expect(stdlibFile).toBeUndefined();
  2272. } finally {
  2273. fs.rmSync(tempProject, { recursive: true, force: true });
  2274. }
  2275. });
  2276. });
  2277. describe('C++ templated base-class inheritance (#1043)', () => {
  2278. // A class deriving from a TEMPLATE — `class D : public Base<int>` (or a CRTP
  2279. // `class W : public CRTPBase<W>`, or a qualified `class Q : public ns::Tpl<int>`)
  2280. // recorded its base as the full instantiation text (`Base<int>`), which never
  2281. // name-matched the template, indexed as the bare node `Base`. The `<…>` args
  2282. // are now stripped so the `extends` edge resolves end-to-end.
  2283. it('resolves an extends edge to a templated base (plain, CRTP, struct, multi-base)', async () => {
  2284. fs.writeFileSync(
  2285. path.join(tempDir, 'lib.hpp'),
  2286. `#pragma once
  2287. template<typename T> class Base { public: void foo(); };
  2288. template<typename Derived> class CRTPBase {};
  2289. class Plain {};
  2290. class Widget : public Base<int> {}; // plain template base
  2291. class App : public CRTPBase<App> {}; // CRTP (curiously-recurring)
  2292. struct Node : public Base<double> {}; // struct inheriting a template
  2293. class Both : public Base<char>, public Plain {}; // templated + plain in one clause
  2294. `
  2295. );
  2296. cg = await CodeGraph.init(tempDir, { index: true });
  2297. const db = DatabaseConnection.open(path.join(tempDir, '.codegraph', 'codegraph.db'));
  2298. const edges = db
  2299. .getDb()
  2300. .prepare(
  2301. `select src.name as fromName, dst.name as toName
  2302. from edges e
  2303. join nodes src on e.source = src.id
  2304. join nodes dst on e.target = dst.id
  2305. where e.kind = 'extends'`
  2306. )
  2307. .all() as Array<{ fromName: string; toName: string }>;
  2308. const has = (from: string, to: string) =>
  2309. edges.some((r) => r.fromName === from && r.toName === to);
  2310. // Every templated base now resolves to the bare template node.
  2311. expect(has('Widget', 'Base'), 'Widget : Base<int>').toBe(true);
  2312. expect(has('App', 'CRTPBase'), 'App : CRTPBase<App> (CRTP)').toBe(true);
  2313. expect(has('Node', 'Base'), 'struct Node : Base<double>').toBe(true);
  2314. // A mixed clause resolves BOTH the templated and the plain base.
  2315. expect(has('Both', 'Base'), 'Both : Base<char>').toBe(true);
  2316. expect(has('Both', 'Plain'), 'Both : Plain (non-templated, regression guard)').toBe(true);
  2317. });
  2318. });
  2319. describe('PHP Include Resolution', () => {
  2320. it('isPhpIncludePathRef distinguishes include paths from namespace use (#660)', () => {
  2321. const mk = (name: string, over: Partial<UnresolvedRef> = {}): UnresolvedRef => ({
  2322. fromNodeId: 'f', referenceName: name, referenceKind: 'imports',
  2323. line: 1, column: 0, filePath: 'x.php', language: 'php', ...over,
  2324. });
  2325. // include paths: contain a slash or a file extension
  2326. expect(isPhpIncludePathRef(mk('lib.php'))).toBe(true);
  2327. expect(isPhpIncludePathRef(mk('inc/db.php'))).toBe(true);
  2328. expect(isPhpIncludePathRef(mk('../config.php'))).toBe(true);
  2329. // namespace use symbols: a bare class (Closure) or FQN — never a path,
  2330. // so they must NOT be treated as includes (would mis-connect to a
  2331. // same-named Closure.php / Bar.php file).
  2332. expect(isPhpIncludePathRef(mk('Closure'))).toBe(false);
  2333. expect(isPhpIncludePathRef(mk('PDO'))).toBe(false);
  2334. expect(isPhpIncludePathRef(mk('App\\Foo\\Bar'))).toBe(false);
  2335. // scoped to PHP imports only
  2336. expect(isPhpIncludePathRef(mk('lib.php', { language: 'c' }))).toBe(false);
  2337. expect(isPhpIncludePathRef(mk('lib.php', { referenceKind: 'calls' }))).toBe(false);
  2338. });
  2339. it('resolves require_once to a file→file imports edge (#660)', async () => {
  2340. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-php-e2e-'));
  2341. try {
  2342. fs.mkdirSync(path.join(tempProject, 'src'), { recursive: true });
  2343. fs.writeFileSync(
  2344. path.join(tempProject, 'src', 'lib.php'),
  2345. `<?php\nfunction greet() { return "hi"; }\n`
  2346. );
  2347. fs.writeFileSync(
  2348. path.join(tempProject, 'src', 'page.php'),
  2349. `<?php\nrequire_once("lib.php");\necho greet();\n`
  2350. );
  2351. cg = await CodeGraph.init(tempProject, { index: true });
  2352. // reporter's repro: page.php's `require_once("lib.php")` must resolve
  2353. // to the real src/lib.php file node — a file→file `imports` edge, so
  2354. // callers(lib.php) now includes page.php.
  2355. const db = DatabaseConnection.open(path.join(tempProject, '.codegraph', 'codegraph.db'));
  2356. const rows = db.getDb().prepare(`
  2357. select dst.kind as dstKind, dst.file_path as dstPath
  2358. from edges e
  2359. join nodes src on e.source = src.id
  2360. join nodes dst on e.target = dst.id
  2361. where e.kind = 'imports'
  2362. and src.kind = 'file'
  2363. and src.file_path = 'src/page.php'
  2364. `).all() as Array<{ dstKind: string; dstPath: string }>;
  2365. const resolved = rows.find(
  2366. (r) => r.dstKind === 'file' && r.dstPath === 'src/lib.php'
  2367. );
  2368. expect(resolved, 'page.php → src/lib.php imports edge missing').toBeDefined();
  2369. } finally {
  2370. fs.rmSync(tempProject, { recursive: true, force: true });
  2371. }
  2372. });
  2373. it('resolves a subdirectory include path to the correct file (#660)', async () => {
  2374. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-php-subdir-'));
  2375. try {
  2376. fs.mkdirSync(path.join(tempProject, 'inc'), { recursive: true });
  2377. fs.writeFileSync(
  2378. path.join(tempProject, 'inc', 'db.php'),
  2379. `<?php\nfunction query() { return 1; }\n`
  2380. );
  2381. fs.writeFileSync(
  2382. path.join(tempProject, 'index.php'),
  2383. `<?php\nrequire "inc/db.php";\nquery();\n`
  2384. );
  2385. cg = await CodeGraph.init(tempProject, { index: true });
  2386. const db = DatabaseConnection.open(path.join(tempProject, '.codegraph', 'codegraph.db'));
  2387. const rows = db.getDb().prepare(`
  2388. select dst.kind as dstKind, dst.file_path as dstPath
  2389. from edges e
  2390. join nodes src on e.source = src.id
  2391. join nodes dst on e.target = dst.id
  2392. where e.kind = 'imports'
  2393. and src.kind = 'file'
  2394. and src.file_path = 'index.php'
  2395. `).all() as Array<{ dstKind: string; dstPath: string }>;
  2396. expect(
  2397. rows.find((r) => r.dstKind === 'file' && r.dstPath === 'inc/db.php'),
  2398. 'index.php → inc/db.php imports edge missing'
  2399. ).toBeDefined();
  2400. } finally {
  2401. fs.rmSync(tempProject, { recursive: true, force: true });
  2402. }
  2403. });
  2404. it('does not mis-connect an unresolvable include to a same-named file elsewhere (#660)', async () => {
  2405. const tempProject = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-php-misresolve-'));
  2406. try {
  2407. // app/page.php's `require "inc/db.php"` resolves relative to app/, where
  2408. // inc/db.php does NOT exist. A same-named lib/inc/db.php exists elsewhere
  2409. // but is unrelated — no edge should be created (a wrong edge is worse
  2410. // than a missing one).
  2411. fs.mkdirSync(path.join(tempProject, 'app'), { recursive: true });
  2412. fs.mkdirSync(path.join(tempProject, 'lib', 'inc'), { recursive: true });
  2413. fs.writeFileSync(
  2414. path.join(tempProject, 'lib', 'inc', 'db.php'),
  2415. `<?php\nfunction unrelated() {}\n`
  2416. );
  2417. fs.writeFileSync(
  2418. path.join(tempProject, 'app', 'page.php'),
  2419. `<?php\nrequire "inc/db.php";\n`
  2420. );
  2421. cg = await CodeGraph.init(tempProject, { index: true });
  2422. const db = DatabaseConnection.open(path.join(tempProject, '.codegraph', 'codegraph.db'));
  2423. const rows = db.getDb().prepare(`
  2424. select dst.kind as dstKind, dst.file_path as dstPath
  2425. from edges e
  2426. join nodes src on e.source = src.id
  2427. join nodes dst on e.target = dst.id
  2428. where e.kind = 'imports'
  2429. and src.kind = 'file'
  2430. and src.file_path = 'app/page.php'
  2431. `).all() as Array<{ dstKind: string; dstPath: string }>;
  2432. expect(
  2433. rows.find((r) => r.dstKind === 'file' && r.dstPath === 'lib/inc/db.php'),
  2434. 'app/page.php must NOT mis-connect to unrelated lib/inc/db.php'
  2435. ).toBeUndefined();
  2436. } finally {
  2437. fs.rmSync(tempProject, { recursive: true, force: true });
  2438. }
  2439. });
  2440. });
  2441. describe('C++ chained-call receiver resolution (#645)', () => {
  2442. async function indexCpp(files: Record<string, string>): Promise<void> {
  2443. for (const [name, content] of Object.entries(files)) {
  2444. fs.writeFileSync(path.join(tempDir, name), content);
  2445. }
  2446. cg = await CodeGraph.init(tempDir, { index: true });
  2447. }
  2448. function callerNamesOf(qualifiedName: string): string[] {
  2449. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2450. if (!target) return [];
  2451. const names = cg
  2452. .getIncomingEdges(target.id)
  2453. .filter((e) => e.kind === 'calls')
  2454. .map((e) => cg.getNode(e.source)?.name)
  2455. .filter((n): n is string => !!n);
  2456. return [...new Set(names)].sort();
  2457. }
  2458. it('resolves singleton chains and auto locals to the right class, never the first-sorted one', async () => {
  2459. // Two classes share writeLog; Logger sorts first so it wins any name-only
  2460. // tie. All three call forms target Metrics.
  2461. await indexCpp({
  2462. 'logger.hpp': `#pragma once
  2463. #include <string>
  2464. class Logger { public: static Logger& instance(); void writeLog(const std::string&); };
  2465. class Metrics { public: static Metrics& instance(); void writeLog(const std::string&); };
  2466. `,
  2467. 'impl.cpp': `#include "logger.hpp"
  2468. Logger& Logger::instance() { static Logger l; return l; }
  2469. Metrics& Metrics::instance() { static Metrics m; return m; }
  2470. void Logger::writeLog(const std::string&) {}
  2471. void Metrics::writeLog(const std::string&) {}
  2472. `,
  2473. 'app.cpp': `#include "logger.hpp"
  2474. void a() { Metrics::instance().writeLog("x"); } // chained singleton
  2475. void b() { auto& m = Metrics::instance(); m.writeLog("x"); } // stored in auto
  2476. void c() { Metrics& m = Metrics::instance(); m.writeLog("x"); } // explicit type
  2477. `,
  2478. });
  2479. expect(callerNamesOf('Metrics::writeLog')).toEqual(['a', 'b', 'c']);
  2480. expect(callerNamesOf('Logger::writeLog')).toEqual([]);
  2481. });
  2482. it('resolves factories, free-function factories, and member chains via the inner call return type', async () => {
  2483. await indexCpp({
  2484. 'types.hpp': `#pragma once
  2485. #include <memory>
  2486. struct Widget { void draw(); };
  2487. struct Session { void run(); };
  2488. struct View { void render(); };
  2489. class WidgetFactory { public: static Widget create(); };
  2490. class Manager { public: View view(); };
  2491. Session* openSession();
  2492. // Decoy that sorts first and has all three methods — must never win.
  2493. struct Aaa { void draw(); void run(); void render(); };
  2494. `,
  2495. 'impl.cpp': `#include "types.hpp"
  2496. void Widget::draw() {}
  2497. void Session::run() {}
  2498. void View::render() {}
  2499. void Aaa::draw() {}
  2500. void Aaa::run() {}
  2501. void Aaa::render() {}
  2502. Widget WidgetFactory::create() { return Widget(); }
  2503. View Manager::view() { return View(); }
  2504. Session* openSession() { return nullptr; }
  2505. `,
  2506. 'app.cpp': `#include "types.hpp"
  2507. void factory() { WidgetFactory::create().draw(); } // -> Widget::draw
  2508. void freefunc() { openSession()->run(); } // -> Session::run
  2509. void member() { Manager mgr; mgr.view().render(); } // -> View::render
  2510. void makeUnique() { auto w = std::make_unique<Widget>(); w->draw(); } // -> Widget::draw
  2511. `,
  2512. });
  2513. expect(callerNamesOf('Widget::draw')).toEqual(['factory', 'makeUnique']);
  2514. expect(callerNamesOf('Session::run')).toEqual(['freefunc']);
  2515. expect(callerNamesOf('View::render')).toEqual(['member']);
  2516. // The first-sorted decoy never captures any of them.
  2517. expect(callerNamesOf('Aaa::draw')).toEqual([]);
  2518. expect(callerNamesOf('Aaa::run')).toEqual([]);
  2519. expect(callerNamesOf('Aaa::render')).toEqual([]);
  2520. });
  2521. it('creates NO edge when the inferred type lacks the method (silent miss, not a wrong edge)', async () => {
  2522. await indexCpp({
  2523. 'types.hpp': `#pragma once
  2524. struct Widget { void draw(); };
  2525. struct Other { void onlyOther(); };
  2526. class WidgetFactory { public: static Widget create(); };
  2527. `,
  2528. 'impl.cpp': `#include "types.hpp"
  2529. void Widget::draw() {}
  2530. void Other::onlyOther() {}
  2531. Widget WidgetFactory::create() { return Widget(); }
  2532. `,
  2533. 'app.cpp': `#include "types.hpp"
  2534. // Widget has no onlyOther() — must produce NO edge, never a wrong one to Other.
  2535. void wrong() { WidgetFactory::create().onlyOther(); }
  2536. `,
  2537. });
  2538. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  2539. });
  2540. });
  2541. describe('PHP chained static-factory call resolution (#608)', () => {
  2542. function callerNamesOf(qualifiedName: string): string[] {
  2543. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2544. if (!target) return [];
  2545. const names = cg
  2546. .getIncomingEdges(target.id)
  2547. .filter((e) => e.kind === 'calls')
  2548. .map((e) => cg.getNode(e.source)?.name)
  2549. .filter((n): n is string => !!n);
  2550. return [...new Set(names)].sort();
  2551. }
  2552. it('resolves Cls::for($x)->method() via the factory\'s `: self` return (#608)', async () => {
  2553. fs.writeFileSync(
  2554. path.join(tempDir, 'ApiClient.php'),
  2555. `<?php\nclass ApiClient {\n public static function for(string $c): self { return new self; }\n public function createOrder(array $p): array { return []; }\n}\n`
  2556. );
  2557. fs.writeFileSync(
  2558. path.join(tempDir, 'DispatchOrder.php'),
  2559. `<?php\nclass DispatchOrder {\n public function handle(): void {\n ApiClient::for('cred')->createOrder([]);\n }\n}\n`
  2560. );
  2561. cg = await CodeGraph.init(tempDir, { index: true });
  2562. // The chained call's edge attaches to the factory result's method.
  2563. expect(callerNamesOf('ApiClient::createOrder')).toContain('handle');
  2564. });
  2565. it('creates NO edge when the factory result lacks the method (#608)', async () => {
  2566. fs.writeFileSync(
  2567. path.join(tempDir, 'lib.php'),
  2568. `<?php\nclass ApiClient { public static function for(string $c): self { return new self; } }\nclass Other { public function onlyOther(): void {} }\nclass Caller { public function go(): void { ApiClient::for('x')->onlyOther(); } }\n`
  2569. );
  2570. cg = await CodeGraph.init(tempDir, { index: true });
  2571. // ApiClient has no onlyOther — must not mis-attach to the same-named Other::onlyOther.
  2572. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  2573. });
  2574. });
  2575. describe('Java chained static-factory call resolution (#645/#608 mechanism)', () => {
  2576. function callerNamesOf(qualifiedName: string): string[] {
  2577. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2578. if (!target) return [];
  2579. const names = cg
  2580. .getIncomingEdges(target.id)
  2581. .filter((e) => e.kind === 'calls')
  2582. .map((e) => cg.getNode(e.source)?.name)
  2583. .filter((n): n is string => !!n);
  2584. return [...new Set(names)].sort();
  2585. }
  2586. it('resolves Foo.getInstance().bar() via the factory return type, never a same-named decoy', async () => {
  2587. // Aaa sorts first and has a same-named bar() — it must never win the chain.
  2588. fs.writeFileSync(
  2589. path.join(tempDir, 'Main.java'),
  2590. `class Aaa { void bar() {} }
  2591. class Foo {
  2592. static Foo getInstance() { return new Foo(); }
  2593. void bar() {}
  2594. }
  2595. class Caller {
  2596. void run() { Foo.getInstance().bar(); }
  2597. }
  2598. `
  2599. );
  2600. cg = await CodeGraph.init(tempDir, { index: true });
  2601. expect(callerNamesOf('Foo::bar')).toEqual(['run']);
  2602. expect(callerNamesOf('Aaa::bar')).toEqual([]);
  2603. });
  2604. it('resolves a factory chain that passes arguments — Foo.create(cfg).build()', async () => {
  2605. // The factory call carries an argument; the extractor must normalize the
  2606. // receiver to empty parens (`Foo.create().build`) so the chain still splits.
  2607. fs.writeFileSync(
  2608. path.join(tempDir, 'Main.java'),
  2609. `class Config {}
  2610. class Foo {
  2611. static Foo create(Config c) { return new Foo(); }
  2612. void build() {}
  2613. }
  2614. class Caller {
  2615. void run() { Foo.create(new Config()).build(); }
  2616. }
  2617. `
  2618. );
  2619. cg = await CodeGraph.init(tempDir, { index: true });
  2620. expect(callerNamesOf('Foo::build')).toEqual(['run']);
  2621. });
  2622. it('creates NO edge when the factory return type lacks the method (silent miss, not a wrong edge)', async () => {
  2623. fs.writeFileSync(
  2624. path.join(tempDir, 'Main.java'),
  2625. `class Foo {
  2626. static Foo getInstance() { return new Foo(); }
  2627. }
  2628. class Other { void onlyOther() {} }
  2629. class Caller {
  2630. void run() { Foo.getInstance().onlyOther(); }
  2631. }
  2632. `
  2633. );
  2634. cg = await CodeGraph.init(tempDir, { index: true });
  2635. // Foo has no onlyOther() — must not mis-attach to the same-named Other::onlyOther.
  2636. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  2637. });
  2638. });
  2639. describe('Kotlin chained companion-factory call resolution (#645/#608 mechanism)', () => {
  2640. function callerNamesOf(qualifiedName: string): string[] {
  2641. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2642. if (!target) return [];
  2643. const names = cg
  2644. .getIncomingEdges(target.id)
  2645. .filter((e) => e.kind === 'calls')
  2646. .map((e) => cg.getNode(e.source)?.name)
  2647. .filter((n): n is string => !!n);
  2648. return [...new Set(names)].sort();
  2649. }
  2650. it('resolves Foo.getInstance().bar() via the companion return type, never a same-named decoy', async () => {
  2651. // Aaa sorts first and has a same-named bar() — without the chain fix Kotlin
  2652. // dropped the receiver to a bare `bar` and attached to Aaa (a wrong edge).
  2653. fs.writeFileSync(
  2654. path.join(tempDir, 'Main.kt'),
  2655. `class Aaa { fun bar() {} }
  2656. class Foo {
  2657. companion object {
  2658. fun getInstance(): Foo = Foo()
  2659. }
  2660. fun bar() {}
  2661. }
  2662. class Caller {
  2663. fun run() { Foo.getInstance().bar() }
  2664. }
  2665. `
  2666. );
  2667. cg = await CodeGraph.init(tempDir, { index: true });
  2668. expect(callerNamesOf('Foo::bar')).toEqual(['run']);
  2669. expect(callerNamesOf('Aaa::bar')).toEqual([]);
  2670. });
  2671. it('resolves a companion factory chain that passes arguments — Foo.create(cfg).build()', async () => {
  2672. fs.writeFileSync(
  2673. path.join(tempDir, 'Main.kt'),
  2674. `class Config
  2675. class Foo {
  2676. companion object {
  2677. fun create(c: Config): Foo = Foo()
  2678. }
  2679. fun build() {}
  2680. }
  2681. class Caller {
  2682. fun run() { Foo.create(Config()).build() }
  2683. }
  2684. `
  2685. );
  2686. cg = await CodeGraph.init(tempDir, { index: true });
  2687. expect(callerNamesOf('Foo::build')).toEqual(['run']);
  2688. });
  2689. it('creates NO edge when the companion return type lacks the method (silent miss, not a wrong edge)', async () => {
  2690. fs.writeFileSync(
  2691. path.join(tempDir, 'Main.kt'),
  2692. `class Foo {
  2693. companion object {
  2694. fun getInstance(): Foo = Foo()
  2695. }
  2696. }
  2697. class Other { fun onlyOther() {} }
  2698. class Caller {
  2699. fun run() { Foo.getInstance().onlyOther() }
  2700. }
  2701. `
  2702. );
  2703. cg = await CodeGraph.init(tempDir, { index: true });
  2704. // Foo has no onlyOther() — must not mis-attach to the same-named Other::onlyOther.
  2705. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  2706. });
  2707. });
  2708. describe('C# chained static-factory call resolution (#645/#608 mechanism)', () => {
  2709. function callerNamesOf(qualifiedName: string): string[] {
  2710. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2711. if (!target) return [];
  2712. const names = cg
  2713. .getIncomingEdges(target.id)
  2714. .filter((e) => e.kind === 'calls')
  2715. .map((e) => cg.getNode(e.source)?.name)
  2716. .filter((n): n is string => !!n);
  2717. return [...new Set(names)].sort();
  2718. }
  2719. it('resolves Foo.Create().Bar() via the factory return type, never a same-named decoy', async () => {
  2720. // Aaa sorts first and has a same-named Bar() — it must never win the chain.
  2721. fs.writeFileSync(
  2722. path.join(tempDir, 'Main.cs'),
  2723. `class Aaa { void Bar() {} }
  2724. class Foo {
  2725. static Foo Create() { return new Foo(); }
  2726. void Bar() {}
  2727. }
  2728. class Caller {
  2729. void Run() { Foo.Create().Bar(); }
  2730. }
  2731. `
  2732. );
  2733. cg = await CodeGraph.init(tempDir, { index: true });
  2734. expect(callerNamesOf('Foo::Bar')).toEqual(['Run']);
  2735. expect(callerNamesOf('Aaa::Bar')).toEqual([]);
  2736. });
  2737. it('resolves a factory chain that passes arguments — Foo.Make(cfg).Build()', async () => {
  2738. fs.writeFileSync(
  2739. path.join(tempDir, 'Main.cs'),
  2740. `class Config {}
  2741. class Foo {
  2742. static Foo Make(Config c) { return new Foo(); }
  2743. void Build() {}
  2744. }
  2745. class Caller {
  2746. void Run() { Foo.Make(new Config()).Build(); }
  2747. }
  2748. `
  2749. );
  2750. cg = await CodeGraph.init(tempDir, { index: true });
  2751. expect(callerNamesOf('Foo::Build')).toEqual(['Run']);
  2752. });
  2753. it('creates NO edge when the factory return type lacks the method (silent miss, not a wrong edge)', async () => {
  2754. fs.writeFileSync(
  2755. path.join(tempDir, 'Main.cs'),
  2756. `class Foo {
  2757. static Foo Create() { return new Foo(); }
  2758. }
  2759. class Other { void OnlyOther() {} }
  2760. class Caller {
  2761. void Run() { Foo.Create().OnlyOther(); }
  2762. }
  2763. `
  2764. );
  2765. cg = await CodeGraph.init(tempDir, { index: true });
  2766. // Foo has no OnlyOther() — must not mis-attach to the same-named Other::OnlyOther.
  2767. expect(callerNamesOf('Other::OnlyOther')).toEqual([]);
  2768. });
  2769. });
  2770. describe('Swift chained static-factory call resolution (#645/#608 mechanism)', () => {
  2771. function callerNamesOf(qualifiedName: string): string[] {
  2772. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2773. if (!target) return [];
  2774. const names = cg
  2775. .getIncomingEdges(target.id)
  2776. .filter((e) => e.kind === 'calls')
  2777. .map((e) => cg.getNode(e.source)?.name)
  2778. .filter((n): n is string => !!n);
  2779. return [...new Set(names)].sort();
  2780. }
  2781. it('resolves Foo.make().draw() via the factory return type, never a same-named decoy', async () => {
  2782. // Aaa sorts first and has a same-named draw() — without the fix Swift dropped
  2783. // the receiver to a bare `draw` and attached to Aaa (a wrong edge).
  2784. fs.writeFileSync(
  2785. path.join(tempDir, 'Main.swift'),
  2786. `class Aaa { func draw() {} }
  2787. class Foo {
  2788. static func make() -> Foo { return Foo() }
  2789. func draw() {}
  2790. }
  2791. func runCaller() { Foo.make().draw() }
  2792. `
  2793. );
  2794. cg = await CodeGraph.init(tempDir, { index: true });
  2795. expect(callerNamesOf('Foo::draw')).toEqual(['runCaller']);
  2796. expect(callerNamesOf('Aaa::draw')).toEqual([]);
  2797. });
  2798. it('resolves a constructor chain Foo().draw() and an args factory chain Foo.build(c).render()', async () => {
  2799. fs.writeFileSync(
  2800. path.join(tempDir, 'Main.swift'),
  2801. `class Config {}
  2802. class Foo {
  2803. static func build(_ c: Config) -> Foo { return Foo() }
  2804. func draw() {}
  2805. func render() {}
  2806. }
  2807. func runCaller() {
  2808. Foo().draw()
  2809. Foo.build(Config()).render()
  2810. }
  2811. `
  2812. );
  2813. cg = await CodeGraph.init(tempDir, { index: true });
  2814. expect(callerNamesOf('Foo::draw')).toEqual(['runCaller']);
  2815. expect(callerNamesOf('Foo::render')).toEqual(['runCaller']);
  2816. });
  2817. it('creates NO edge when the factory return type lacks the method (silent miss, not a wrong edge)', async () => {
  2818. fs.writeFileSync(
  2819. path.join(tempDir, 'Main.swift'),
  2820. `class Foo {
  2821. static func make() -> Foo { return Foo() }
  2822. }
  2823. class Other { func onlyOther() {} }
  2824. func runCaller() { Foo.make().onlyOther() }
  2825. `
  2826. );
  2827. cg = await CodeGraph.init(tempDir, { index: true });
  2828. // Foo has no onlyOther() — must not mis-attach to the same-named Other::onlyOther.
  2829. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  2830. });
  2831. });
  2832. describe('Chained call resolves a method on a supertype (conformance, #750)', () => {
  2833. function callerNamesOf(qualifiedName: string): string[] {
  2834. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2835. if (!target) return [];
  2836. const names = cg
  2837. .getIncomingEdges(target.id)
  2838. .filter((e) => e.kind === 'calls')
  2839. .map((e) => cg.getNode(e.source)?.name)
  2840. .filter((n): n is string => !!n);
  2841. return [...new Set(names)].sort();
  2842. }
  2843. it('resolves a chained method defined only on a SUPERCLASS the return type extends', async () => {
  2844. // draw() lives on Base; Widget (the factory's return type) has no draw() of
  2845. // its own. Decoy.draw must never win. Needs the conformance second pass.
  2846. fs.writeFileSync(
  2847. path.join(tempDir, 'Main.java'),
  2848. `class Base { void draw() {} }
  2849. class Widget extends Base {}
  2850. class Decoy { void draw() {} }
  2851. class Factory { static Widget create() { return new Widget(); } }
  2852. class Caller {
  2853. void run() { Factory.create().draw(); }
  2854. }
  2855. `
  2856. );
  2857. cg = await CodeGraph.init(tempDir, { index: true });
  2858. expect(callerNamesOf('Base::draw')).toEqual(['run']);
  2859. expect(callerNamesOf('Decoy::draw')).toEqual([]);
  2860. });
  2861. it('resolves a chained method defined on an INTERFACE the return type implements (default method)', async () => {
  2862. fs.writeFileSync(
  2863. path.join(tempDir, 'Main.java'),
  2864. `interface Drawable { default void draw() {} }
  2865. class Widget implements Drawable {}
  2866. class Decoy { void draw() {} }
  2867. class Factory { static Widget create() { return new Widget(); } }
  2868. class Caller {
  2869. void run() { Factory.create().draw(); }
  2870. }
  2871. `
  2872. );
  2873. cg = await CodeGraph.init(tempDir, { index: true });
  2874. expect(callerNamesOf('Drawable::draw')).toEqual(['run']);
  2875. expect(callerNamesOf('Decoy::draw')).toEqual([]);
  2876. });
  2877. it('still creates NO edge when no supertype has the method (safety preserved)', async () => {
  2878. fs.writeFileSync(
  2879. path.join(tempDir, 'Main.java'),
  2880. `class Base {}
  2881. class Widget extends Base {}
  2882. class Other { void onlyOther() {} }
  2883. class Factory { static Widget create() { return new Widget(); } }
  2884. class Caller {
  2885. void run() { Factory.create().onlyOther(); }
  2886. }
  2887. `
  2888. );
  2889. cg = await CodeGraph.init(tempDir, { index: true });
  2890. // Neither Widget nor Base has onlyOther() — must not attach to Other::onlyOther.
  2891. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  2892. });
  2893. });
  2894. describe('Rust chained associated-function call resolution (#645/#608 mechanism)', () => {
  2895. function callerNamesOf(qualifiedName: string): string[] {
  2896. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2897. if (!target) return [];
  2898. const names = cg
  2899. .getIncomingEdges(target.id)
  2900. .filter((e) => e.kind === 'calls')
  2901. .map((e) => cg.getNode(e.source)?.name)
  2902. .filter((n): n is string => !!n);
  2903. return [...new Set(names)].sort();
  2904. }
  2905. it('resolves Foo::new().bar() (and a Self return) via the associated fn, never a same-named decoy', async () => {
  2906. fs.writeFileSync(
  2907. path.join(tempDir, 'main.rs'),
  2908. `struct Aaa { _x: i32 }
  2909. impl Aaa { fn bar(&self) {} }
  2910. struct Foo { _x: i32 }
  2911. impl Foo {
  2912. fn new() -> Foo { Foo { _x: 0 } }
  2913. fn make() -> Self { Foo { _x: 0 } }
  2914. fn bar(&self) {}
  2915. }
  2916. fn caller() {
  2917. Foo::new().bar();
  2918. Foo::make().bar();
  2919. }
  2920. `
  2921. );
  2922. cg = await CodeGraph.init(tempDir, { index: true });
  2923. expect(callerNamesOf('Foo::bar')).toEqual(['caller']);
  2924. expect(callerNamesOf('Aaa::bar')).toEqual([]);
  2925. });
  2926. it('resolves a chain that passes arguments — Foo::with(c).build()', async () => {
  2927. fs.writeFileSync(
  2928. path.join(tempDir, 'main.rs'),
  2929. `struct Config;
  2930. struct Foo { _x: i32 }
  2931. impl Foo {
  2932. fn with(c: Config) -> Foo { Foo { _x: 0 } }
  2933. fn build(&self) {}
  2934. }
  2935. fn caller() { Foo::with(Config).build(); }
  2936. `
  2937. );
  2938. cg = await CodeGraph.init(tempDir, { index: true });
  2939. expect(callerNamesOf('Foo::build')).toEqual(['caller']);
  2940. });
  2941. it('resolves a chained method from a trait the type implements (default method, via conformance)', async () => {
  2942. fs.writeFileSync(
  2943. path.join(tempDir, 'main.rs'),
  2944. `struct Foo { _x: i32 }
  2945. impl Foo { fn new() -> Foo { Foo { _x: 0 } } }
  2946. struct Decoy { _x: i32 }
  2947. impl Decoy { fn draw(&self) {} }
  2948. trait Drawable { fn draw(&self) {} }
  2949. impl Drawable for Foo {}
  2950. fn caller() { Foo::new().draw(); }
  2951. `
  2952. );
  2953. cg = await CodeGraph.init(tempDir, { index: true });
  2954. expect(callerNamesOf('Drawable::draw')).toEqual(['caller']);
  2955. expect(callerNamesOf('Decoy::draw')).toEqual([]);
  2956. });
  2957. it('creates NO edge when neither the type nor a supertype has the method (silent miss)', async () => {
  2958. fs.writeFileSync(
  2959. path.join(tempDir, 'main.rs'),
  2960. `struct Foo { _x: i32 }
  2961. impl Foo { fn new() -> Foo { Foo { _x: 0 } } }
  2962. struct Other { _x: i32 }
  2963. impl Other { fn only_other(&self) {} }
  2964. fn caller() { Foo::new().only_other(); }
  2965. `
  2966. );
  2967. cg = await CodeGraph.init(tempDir, { index: true });
  2968. // Foo has no only_other() — must not mis-attach to the same-named Other::only_other.
  2969. expect(callerNamesOf('Other::only_other')).toEqual([]);
  2970. });
  2971. });
  2972. describe('Go chained factory-function call resolution (#645/#608 mechanism)', () => {
  2973. function callerNamesOf(qualifiedName: string): string[] {
  2974. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  2975. if (!target) return [];
  2976. const names = cg
  2977. .getIncomingEdges(target.id)
  2978. .filter((e) => e.kind === 'calls')
  2979. .map((e) => cg.getNode(e.source)?.name)
  2980. .filter((n): n is string => !!n);
  2981. return [...new Set(names)].sort();
  2982. }
  2983. it('resolves New().Bar() via the factory return type (pointer), never a same-named decoy', async () => {
  2984. fs.writeFileSync(
  2985. path.join(tempDir, 'main.go'),
  2986. `package main
  2987. type Aaa struct{}
  2988. func (a *Aaa) Bar() {}
  2989. type Foo struct{}
  2990. func New() *Foo { return &Foo{} }
  2991. func (f *Foo) Bar() {}
  2992. func caller() { New().Bar() }
  2993. `
  2994. );
  2995. cg = await CodeGraph.init(tempDir, { index: true });
  2996. expect(callerNamesOf('Foo::Bar')).toEqual(['caller']);
  2997. expect(callerNamesOf('Aaa::Bar')).toEqual([]);
  2998. });
  2999. it('resolves an args chain and a multi-return factory — With(c).Build(), (*Foo, error)', async () => {
  3000. fs.writeFileSync(
  3001. path.join(tempDir, 'main.go'),
  3002. `package main
  3003. type Config struct{}
  3004. type Foo struct{}
  3005. func With(c Config) (*Foo, error) { return &Foo{}, nil }
  3006. func (f *Foo) Build() {}
  3007. func caller() { With(Config{}).Build() }
  3008. `
  3009. );
  3010. cg = await CodeGraph.init(tempDir, { index: true });
  3011. expect(callerNamesOf('Foo::Build')).toEqual(['caller']);
  3012. });
  3013. it('resolves a method provided by an embedded struct (via conformance)', async () => {
  3014. fs.writeFileSync(
  3015. path.join(tempDir, 'main.go'),
  3016. `package main
  3017. type Base struct{}
  3018. func (b *Base) Embedded() {}
  3019. type Decoy struct{}
  3020. func (d *Decoy) Embedded() {}
  3021. type Widget struct{ Base }
  3022. func NewWidget() *Widget { return &Widget{} }
  3023. func caller() { NewWidget().Embedded() }
  3024. `
  3025. );
  3026. cg = await CodeGraph.init(tempDir, { index: true });
  3027. expect(callerNamesOf('Base::Embedded')).toEqual(['caller']);
  3028. expect(callerNamesOf('Decoy::Embedded')).toEqual([]);
  3029. });
  3030. it('creates NO edge when neither the type nor an embedded type has the method (silent miss)', async () => {
  3031. fs.writeFileSync(
  3032. path.join(tempDir, 'main.go'),
  3033. `package main
  3034. type Foo struct{}
  3035. func New() *Foo { return &Foo{} }
  3036. type Other struct{}
  3037. func (o *Other) OnlyOther() {}
  3038. func caller() { New().OnlyOther() }
  3039. `
  3040. );
  3041. cg = await CodeGraph.init(tempDir, { index: true });
  3042. // Foo has no OnlyOther() — must not mis-attach to the same-named Other::OnlyOther.
  3043. expect(callerNamesOf('Other::OnlyOther')).toEqual([]);
  3044. });
  3045. it('falls back to bare-name resolution for a VARIABLE-inner chain without exploding the graph', async () => {
  3046. // `engine` is a package-level VARIABLE holding a func value, not a factory
  3047. // FUNCTION — so its return type can't be recovered and the chain falls back
  3048. // to bare-name resolution of the method (restoring the pre-re-encoding edge).
  3049. // Regression for the runaway this fallback originally caused: it resolved
  3050. // with a mutated `original.referenceName` (the bare `ServeHTTP`, not the
  3051. // stored `engine().ServeHTTP`), so the batched resolver's keyed delete
  3052. // no-oped, the offset-0 batch never drained, and edges inserted forever
  3053. // (5M edges / 1.4 GB on a 99-file repo). The fallback now ties the match to
  3054. // the original ref, and a non-progress guard backstops the loop.
  3055. fs.writeFileSync(
  3056. path.join(tempDir, 'main.go'),
  3057. `package main
  3058. type Server struct{}
  3059. func (s *Server) ServeHTTP() {}
  3060. var engine = func() *Server { return &Server{} }
  3061. func caller() { engine().ServeHTTP() }
  3062. `
  3063. );
  3064. cg = await CodeGraph.init(tempDir, { index: true });
  3065. // Recall: the variable-inner chain still finds the method by bare name.
  3066. expect(callerNamesOf('Server::ServeHTTP')).toEqual(['caller']);
  3067. // No runaway: a single call site yields a single edge, not millions.
  3068. const target = cg
  3069. .getNodesByKind('method')
  3070. .find((n) => n.qualifiedName === 'Server::ServeHTTP')!;
  3071. const rawCalls = cg
  3072. .getIncomingEdges(target.id)
  3073. .filter((e) => e.kind === 'calls');
  3074. expect(rawCalls.length).toBeLessThan(5);
  3075. });
  3076. });
  3077. describe('Scala chained static-factory call resolution (#645/#608 mechanism)', () => {
  3078. function callerNamesOf(qualifiedName: string): string[] {
  3079. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  3080. if (!target) return [];
  3081. const names = cg
  3082. .getIncomingEdges(target.id)
  3083. .filter((e) => e.kind === 'calls')
  3084. .map((e) => cg.getNode(e.source)?.name)
  3085. .filter((n): n is string => !!n);
  3086. return [...new Set(names)].sort();
  3087. }
  3088. it('resolves a companion-factory chain Foo.create().doIt() to the return type, never a same-named decoy', async () => {
  3089. fs.writeFileSync(
  3090. path.join(tempDir, 'Main.scala'),
  3091. `object Foo {
  3092. def create(): Bar = new Bar()
  3093. }
  3094. class Bar {
  3095. def doIt(): Unit = {}
  3096. }
  3097. class Decoy {
  3098. def doIt(): Unit = {}
  3099. }
  3100. object Main {
  3101. def run(): Unit = { Foo.create().doIt() }
  3102. }
  3103. `
  3104. );
  3105. cg = await CodeGraph.init(tempDir, { index: true });
  3106. expect(callerNamesOf('Bar::doIt')).toEqual(['run']);
  3107. expect(callerNamesOf('Decoy::doIt')).toEqual([]);
  3108. });
  3109. it('resolves a case-class apply construction Point(x).dist() on the constructed class', async () => {
  3110. fs.writeFileSync(
  3111. path.join(tempDir, 'Main.scala'),
  3112. `class Point(x: Int) {
  3113. def dist(): Int = x
  3114. }
  3115. class Other {
  3116. def dist(): Int = 0
  3117. }
  3118. object Main {
  3119. def run(): Unit = { Point(3).dist() }
  3120. }
  3121. `
  3122. );
  3123. cg = await CodeGraph.init(tempDir, { index: true });
  3124. expect(callerNamesOf('Point::dist')).toEqual(['run']);
  3125. expect(callerNamesOf('Other::dist')).toEqual([]);
  3126. });
  3127. it('resolves a chained method provided by a trait the return type extends (via conformance)', async () => {
  3128. fs.writeFileSync(
  3129. path.join(tempDir, 'Main.scala'),
  3130. `trait Base {
  3131. def shared(): Unit = {}
  3132. }
  3133. class Widget extends Base
  3134. class Decoy {
  3135. def shared(): Unit = {}
  3136. }
  3137. object Factory {
  3138. def make(): Widget = new Widget()
  3139. }
  3140. object Main {
  3141. def run(): Unit = { Factory.make().shared() }
  3142. }
  3143. `
  3144. );
  3145. cg = await CodeGraph.init(tempDir, { index: true });
  3146. expect(callerNamesOf('Base::shared')).toEqual(['run']);
  3147. expect(callerNamesOf('Decoy::shared')).toEqual([]);
  3148. });
  3149. it('creates NO edge when neither the factory return type nor a supertype has the method (silent miss)', async () => {
  3150. fs.writeFileSync(
  3151. path.join(tempDir, 'Main.scala'),
  3152. `object Foo {
  3153. def create(): Bar = new Bar()
  3154. }
  3155. class Bar {
  3156. }
  3157. class Other {
  3158. def onlyOther(): Unit = {}
  3159. }
  3160. object Main {
  3161. def run(): Unit = { Foo.create().onlyOther() }
  3162. }
  3163. `
  3164. );
  3165. cg = await CodeGraph.init(tempDir, { index: true });
  3166. // Bar has no onlyOther() — must not mis-attach to the same-named Other::onlyOther.
  3167. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  3168. });
  3169. });
  3170. describe('Dart chained static-factory / factory-constructor call resolution (#645/#608 mechanism)', () => {
  3171. function callerNamesOf(qualifiedName: string): string[] {
  3172. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  3173. if (!target) return [];
  3174. const names = cg
  3175. .getIncomingEdges(target.id)
  3176. .filter((e) => e.kind === 'calls')
  3177. .map((e) => cg.getNode(e.source)?.name)
  3178. .filter((n): n is string => !!n);
  3179. return [...new Set(names)].sort();
  3180. }
  3181. it('resolves a static-factory chain Foo.makeBar().doIt() to the return type, never a same-named decoy', async () => {
  3182. fs.writeFileSync(
  3183. path.join(tempDir, 'main.dart'),
  3184. `class Foo {
  3185. static Bar makeBar() => Bar();
  3186. }
  3187. class Bar {
  3188. void doIt() {}
  3189. }
  3190. class Decoy {
  3191. void doIt() {}
  3192. }
  3193. void run() {
  3194. Foo.makeBar().doIt();
  3195. }
  3196. `
  3197. );
  3198. cg = await CodeGraph.init(tempDir, { index: true });
  3199. expect(callerNamesOf('Bar::doIt')).toEqual(['run']);
  3200. expect(callerNamesOf('Decoy::doIt')).toEqual([]);
  3201. });
  3202. it('resolves a named factory-constructor chain Foo.create().ship() on the constructed class', async () => {
  3203. fs.writeFileSync(
  3204. path.join(tempDir, 'main.dart'),
  3205. `class Foo {
  3206. Foo._();
  3207. factory Foo.create() => Foo._();
  3208. void ship() {}
  3209. }
  3210. class Decoy {
  3211. void ship() {}
  3212. }
  3213. void run() {
  3214. Foo.create().ship();
  3215. }
  3216. `
  3217. );
  3218. cg = await CodeGraph.init(tempDir, { index: true });
  3219. // The factory constructor `Foo.create` is now a node whose return type is Foo,
  3220. // so `ship` resolves on Foo, not the same-named Decoy.
  3221. expect(callerNamesOf('Foo::ship')).toEqual(['run']);
  3222. expect(callerNamesOf('Decoy::ship')).toEqual([]);
  3223. });
  3224. it('resolves a constructor-receiver chain Bar().doIt() on the constructed class', async () => {
  3225. fs.writeFileSync(
  3226. path.join(tempDir, 'main.dart'),
  3227. `class Bar {
  3228. void doIt() {}
  3229. }
  3230. class Decoy {
  3231. void doIt() {}
  3232. }
  3233. void run() {
  3234. Bar().doIt();
  3235. }
  3236. `
  3237. );
  3238. cg = await CodeGraph.init(tempDir, { index: true });
  3239. expect(callerNamesOf('Bar::doIt')).toEqual(['run']);
  3240. expect(callerNamesOf('Decoy::doIt')).toEqual([]);
  3241. });
  3242. it('resolves a chained method inherited from a superclass the return type extends (via conformance)', async () => {
  3243. fs.writeFileSync(
  3244. path.join(tempDir, 'main.dart'),
  3245. `class Base {
  3246. void render() {}
  3247. }
  3248. class Widget extends Base {
  3249. static Widget make() => Widget();
  3250. }
  3251. class Decoy {
  3252. void render() {}
  3253. }
  3254. void run() {
  3255. Widget.make().render();
  3256. }
  3257. `
  3258. );
  3259. cg = await CodeGraph.init(tempDir, { index: true });
  3260. expect(callerNamesOf('Base::render')).toEqual(['run']);
  3261. expect(callerNamesOf('Decoy::render')).toEqual([]);
  3262. });
  3263. it('creates NO edge when neither the factory return type nor a supertype has the method (silent miss)', async () => {
  3264. fs.writeFileSync(
  3265. path.join(tempDir, 'main.dart'),
  3266. `class Foo {
  3267. static Bar makeBar() => Bar();
  3268. }
  3269. class Bar {
  3270. }
  3271. class Other {
  3272. void onlyOther() {}
  3273. }
  3274. void run() {
  3275. Foo.makeBar().onlyOther();
  3276. }
  3277. `
  3278. );
  3279. cg = await CodeGraph.init(tempDir, { index: true });
  3280. // Bar has no onlyOther() — must not mis-attach to the same-named Other::onlyOther.
  3281. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  3282. });
  3283. it('still extracts a method tree-sitter misparses as a constructor (@override + record return)', async () => {
  3284. // tree-sitter-dart misparses `@override (A, B) reduce()` — the annotation
  3285. // swallows the record return type, so `reduce()` looks like a single-
  3286. // identifier constructor_signature. It must NOT be skipped as an unnamed
  3287. // ctor (its name doesn't match the class); its body call must attribute to
  3288. // `reduce`, not the class.
  3289. fs.writeFileSync(
  3290. path.join(tempDir, 'main.dart'),
  3291. `class Base {}
  3292. class Action extends Base {
  3293. Action({required int x});
  3294. @override
  3295. (int, String) reduce() {
  3296. return (compute(), "y");
  3297. }
  3298. int compute() => 1;
  3299. }
  3300. `
  3301. );
  3302. cg = await CodeGraph.init(tempDir, { index: true });
  3303. // reduce must be a node and its body call must resolve to Action::compute.
  3304. expect(callerNamesOf('Action::compute')).toEqual(['reduce']);
  3305. });
  3306. it('keeps plain construction Foo() as instantiation, not a Foo::Foo method call', async () => {
  3307. // The unnamed constructor is intentionally NOT extracted as a `Foo::Foo`
  3308. // method, so `Foo(...)` resolves to the class (an `instantiates` edge),
  3309. // never hijacked into a call to a phantom constructor method.
  3310. fs.writeFileSync(
  3311. path.join(tempDir, 'main.dart'),
  3312. `class Widget {
  3313. final int x;
  3314. Widget(this.x);
  3315. }
  3316. void run() {
  3317. Widget(3);
  3318. }
  3319. `
  3320. );
  3321. cg = await CodeGraph.init(tempDir, { index: true });
  3322. // No Foo::Foo phantom method node.
  3323. expect(cg.getNodesByKind('method').some((n) => n.qualifiedName === 'Widget::Widget')).toBe(false);
  3324. // The construction resolves to the class as an `instantiates` edge.
  3325. const widget = cg.getNodesByKind('class').find((n) => n.name === 'Widget')!;
  3326. const incoming = cg.getIncomingEdges(widget.id);
  3327. expect(incoming.some((e) => e.kind === 'instantiates')).toBe(true);
  3328. });
  3329. });
  3330. describe('Objective-C chained message-send call resolution (#645/#608 mechanism)', () => {
  3331. function callerNamesOf(qualifiedName: string): string[] {
  3332. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  3333. if (!target) return [];
  3334. const names = cg
  3335. .getIncomingEdges(target.id)
  3336. .filter((e) => e.kind === 'calls')
  3337. .map((e) => cg.getNode(e.source)?.name)
  3338. .filter((n): n is string => !!n);
  3339. return [...new Set(names)].sort();
  3340. }
  3341. it('resolves a chained message send [[Foo create] doIt] via the return type, never a same-named decoy', async () => {
  3342. fs.writeFileSync(
  3343. path.join(tempDir, 'main.m'),
  3344. `@interface Bar : NSObject
  3345. - (void)doIt;
  3346. @end
  3347. @implementation Bar
  3348. - (void)doIt {}
  3349. @end
  3350. @interface Decoy : NSObject
  3351. - (void)doIt;
  3352. @end
  3353. @implementation Decoy
  3354. - (void)doIt {}
  3355. @end
  3356. @interface Foo : NSObject
  3357. + (Bar *)create;
  3358. @end
  3359. @implementation Foo
  3360. + (Bar *)create { return nil; }
  3361. - (void)run { [[Foo create] doIt]; }
  3362. @end
  3363. `
  3364. );
  3365. cg = await CodeGraph.init(tempDir, { index: true });
  3366. expect(callerNamesOf('Bar::doIt')).toEqual(['run']);
  3367. expect(callerNamesOf('Decoy::doIt')).toEqual([]);
  3368. });
  3369. it('resolves a chained message whose method is inherited from a superclass (via conformance)', async () => {
  3370. fs.writeFileSync(
  3371. path.join(tempDir, 'main.m'),
  3372. `@interface Base : NSObject
  3373. - (void)render;
  3374. @end
  3375. @implementation Base
  3376. - (void)render {}
  3377. @end
  3378. @interface Widget : Base
  3379. @end
  3380. @implementation Widget
  3381. @end
  3382. @interface Decoy : NSObject
  3383. - (void)render;
  3384. @end
  3385. @implementation Decoy
  3386. - (void)render {}
  3387. @end
  3388. @interface Factory : NSObject
  3389. + (Widget *)make;
  3390. @end
  3391. @implementation Factory
  3392. + (Widget *)make { return nil; }
  3393. - (void)run { [[Factory make] render]; }
  3394. @end
  3395. `
  3396. );
  3397. cg = await CodeGraph.init(tempDir, { index: true });
  3398. expect(callerNamesOf('Base::render')).toEqual(['run']);
  3399. expect(callerNamesOf('Decoy::render')).toEqual([]);
  3400. });
  3401. it('creates NO edge when the factory return type lacks the method (silent miss)', async () => {
  3402. fs.writeFileSync(
  3403. path.join(tempDir, 'main.m'),
  3404. `@interface Bar : NSObject
  3405. @end
  3406. @implementation Bar
  3407. @end
  3408. @interface Other : NSObject
  3409. - (void)onlyOther;
  3410. @end
  3411. @implementation Other
  3412. - (void)onlyOther {}
  3413. @end
  3414. @interface Foo : NSObject
  3415. + (Bar *)create;
  3416. @end
  3417. @implementation Foo
  3418. + (Bar *)create { return nil; }
  3419. - (void)run { [[Foo create] onlyOther]; }
  3420. @end
  3421. `
  3422. );
  3423. cg = await CodeGraph.init(tempDir, { index: true });
  3424. // Bar has no onlyOther — must not mis-attach to the same-named Other::onlyOther.
  3425. expect(callerNamesOf('Other::onlyOther')).toEqual([]);
  3426. });
  3427. it('resolves a singleton chain [[Cache shared] clearAll] whose factory returns nonnull instancetype', async () => {
  3428. // The factory returns `nonnull instancetype` — the nullability qualifier must
  3429. // be skipped (not captured AS the type), and an instancetype class-message
  3430. // factory returns the receiver class, so clearAll resolves on Cache, never a
  3431. // same-named decoy. (Regression for both: the captured-`nonnull` bug and the
  3432. // ubiquitous `[[X alloc] init]` / singleton pattern.)
  3433. fs.writeFileSync(
  3434. path.join(tempDir, 'main.m'),
  3435. `@interface Cache : NSObject
  3436. + (nonnull instancetype)shared;
  3437. - (void)clearAll;
  3438. @end
  3439. @implementation Cache
  3440. + (nonnull instancetype)shared { return nil; }
  3441. - (void)clearAll {}
  3442. @end
  3443. @interface Decoy : NSObject
  3444. - (void)clearAll;
  3445. @end
  3446. @implementation Decoy
  3447. - (void)clearAll {}
  3448. @end
  3449. @interface Caller : NSObject
  3450. - (void)run;
  3451. @end
  3452. @implementation Caller
  3453. - (void)run { [[Cache shared] clearAll]; }
  3454. @end
  3455. `
  3456. );
  3457. cg = await CodeGraph.init(tempDir, { index: true });
  3458. expect(callerNamesOf('Cache::clearAll')).toEqual(['run']);
  3459. expect(callerNamesOf('Decoy::clearAll')).toEqual([]);
  3460. });
  3461. });
  3462. describe('Pascal/Delphi chained static-factory call resolution (#645/#608 mechanism)', () => {
  3463. function callerNamesOf(qualifiedName: string): string[] {
  3464. const target = cg.getNodesByKind('method').find((n) => n.qualifiedName === qualifiedName);
  3465. if (!target) return [];
  3466. const names = cg
  3467. .getIncomingEdges(target.id)
  3468. .filter((e) => e.kind === 'calls')
  3469. .map((e) => cg.getNode(e.source)?.name)
  3470. .filter((n): n is string => !!n);
  3471. return [...new Set(names)].sort();
  3472. }
  3473. function isCalled(qn: string): boolean {
  3474. const t = cg.getNodesByKind('method').find((n) => n.qualifiedName === qn);
  3475. return !!t && cg.getIncomingEdges(t.id).some((e) => e.kind === 'calls');
  3476. }
  3477. it('resolves a chained factory call TFoo.GetInstance().DoIt() via the return type, never a same-named decoy', async () => {
  3478. fs.writeFileSync(
  3479. path.join(tempDir, 'main.pas'),
  3480. `unit Main;
  3481. interface
  3482. type
  3483. TBar = class
  3484. procedure DoIt;
  3485. end;
  3486. TDecoy = class
  3487. procedure DoIt;
  3488. end;
  3489. TFoo = class
  3490. class function GetInstance: TBar;
  3491. end;
  3492. implementation
  3493. procedure TBar.DoIt; begin end;
  3494. procedure TDecoy.DoIt; begin end;
  3495. class function TFoo.GetInstance: TBar; begin Result := nil; end;
  3496. procedure Run;
  3497. begin
  3498. TFoo.GetInstance().DoIt();
  3499. end;
  3500. end.
  3501. `
  3502. );
  3503. cg = await CodeGraph.init(tempDir, { index: true });
  3504. expect(isCalled('TBar::DoIt')).toBe(true);
  3505. expect(isCalled('TDecoy::DoIt')).toBe(false);
  3506. });
  3507. it('resolves a constructor chain TFoo.Create().Configure() on the constructed class', async () => {
  3508. fs.writeFileSync(
  3509. path.join(tempDir, 'main.pas'),
  3510. `unit Main;
  3511. interface
  3512. type
  3513. TFoo = class
  3514. constructor Create;
  3515. procedure Configure;
  3516. end;
  3517. TDecoy = class
  3518. procedure Configure;
  3519. end;
  3520. implementation
  3521. constructor TFoo.Create; begin end;
  3522. procedure TFoo.Configure; begin end;
  3523. procedure TDecoy.Configure; begin end;
  3524. procedure Run;
  3525. begin
  3526. TFoo.Create().Configure();
  3527. end;
  3528. end.
  3529. `
  3530. );
  3531. cg = await CodeGraph.init(tempDir, { index: true });
  3532. // A constructor returns its own class (no `: TBar` annotation), so Configure
  3533. // resolves on TFoo, not the same-named decoy.
  3534. expect(isCalled('TFoo::Configure')).toBe(true);
  3535. expect(isCalled('TDecoy::Configure')).toBe(false);
  3536. });
  3537. it('resolves a typecast chain TFoo(x).DoIt() on the cast type', async () => {
  3538. fs.writeFileSync(
  3539. path.join(tempDir, 'main.pas'),
  3540. `unit Main;
  3541. interface
  3542. type
  3543. TFoo = class
  3544. procedure DoIt;
  3545. end;
  3546. TDecoy = class
  3547. procedure DoIt;
  3548. end;
  3549. implementation
  3550. procedure TFoo.DoIt; begin end;
  3551. procedure TDecoy.DoIt; begin end;
  3552. procedure Run(obj: TObject);
  3553. begin
  3554. TFoo(obj).DoIt();
  3555. end;
  3556. end.
  3557. `
  3558. );
  3559. cg = await CodeGraph.init(tempDir, { index: true });
  3560. expect(isCalled('TFoo::DoIt')).toBe(true);
  3561. expect(isCalled('TDecoy::DoIt')).toBe(false);
  3562. });
  3563. it('creates NO edge when the factory return type lacks the method (silent miss)', async () => {
  3564. fs.writeFileSync(
  3565. path.join(tempDir, 'main.pas'),
  3566. `unit Main;
  3567. interface
  3568. type
  3569. TBar = class
  3570. end;
  3571. TOther = class
  3572. procedure OnlyOther;
  3573. end;
  3574. TFoo = class
  3575. class function GetInstance: TBar;
  3576. end;
  3577. implementation
  3578. procedure TOther.OnlyOther; begin end;
  3579. class function TFoo.GetInstance: TBar; begin Result := nil; end;
  3580. procedure Run;
  3581. begin
  3582. TFoo.GetInstance().OnlyOther();
  3583. end;
  3584. end.
  3585. `
  3586. );
  3587. cg = await CodeGraph.init(tempDir, { index: true });
  3588. // TBar has no OnlyOther — must not mis-attach to the same-named TOther::OnlyOther.
  3589. expect(isCalled('TOther::OnlyOther')).toBe(false);
  3590. });
  3591. it('extracts paren-less method calls (Pascal lets a no-arg method drop its parens)', async () => {
  3592. fs.writeFileSync(
  3593. path.join(tempDir, 'main.pas'),
  3594. `unit Main;
  3595. interface
  3596. type
  3597. TFoo = class
  3598. procedure DoThing;
  3599. procedure Reset;
  3600. end;
  3601. implementation
  3602. procedure TFoo.DoThing; begin end;
  3603. procedure TFoo.Reset; begin end;
  3604. procedure Run(f: TFoo);
  3605. begin
  3606. f.DoThing;
  3607. f.Reset;
  3608. end;
  3609. end.
  3610. `
  3611. );
  3612. cg = await CodeGraph.init(tempDir, { index: true });
  3613. expect(isCalled('TFoo::DoThing')).toBe(true);
  3614. expect(isCalled('TFoo::Reset')).toBe(true);
  3615. });
  3616. it('resolves a PAREN-LESS chained factory call TFoo.GetInstance.DoIt via the return type', async () => {
  3617. fs.writeFileSync(
  3618. path.join(tempDir, 'main.pas'),
  3619. `unit Main;
  3620. interface
  3621. type
  3622. TBar = class
  3623. procedure DoIt;
  3624. end;
  3625. TDecoy = class
  3626. procedure DoIt;
  3627. end;
  3628. TFoo = class
  3629. class function GetInstance: TBar;
  3630. end;
  3631. implementation
  3632. procedure TBar.DoIt; begin end;
  3633. procedure TDecoy.DoIt; begin end;
  3634. class function TFoo.GetInstance: TBar; begin Result := nil; end;
  3635. procedure Run;
  3636. begin
  3637. TFoo.GetInstance.DoIt;
  3638. end;
  3639. end.
  3640. `
  3641. );
  3642. cg = await CodeGraph.init(tempDir, { index: true });
  3643. expect(isCalled('TBar::DoIt')).toBe(true);
  3644. expect(isCalled('TDecoy::DoIt')).toBe(false);
  3645. });
  3646. it('does NOT turn a property write/read into a call edge (only statement-level dots are calls)', async () => {
  3647. fs.writeFileSync(
  3648. path.join(tempDir, 'main.pas'),
  3649. `unit Main;
  3650. interface
  3651. type
  3652. TFoo = class
  3653. function GetValue: Integer;
  3654. procedure SetValue(v: Integer);
  3655. property Value: Integer read GetValue write SetValue;
  3656. end;
  3657. implementation
  3658. function TFoo.GetValue: Integer; begin Result := 0; end;
  3659. procedure TFoo.SetValue(v: Integer); begin end;
  3660. procedure Run(f: TFoo);
  3661. var x: Integer;
  3662. begin
  3663. f.Value := 5;
  3664. x := f.Value;
  3665. end;
  3666. end.
  3667. `
  3668. );
  3669. cg = await CodeGraph.init(tempDir, { index: true });
  3670. // A property read/write is a bare dot in assignment position, not a statement,
  3671. // so it must not be mis-extracted as a call to the property's getter/setter.
  3672. expect(isCalled('TFoo::GetValue')).toBe(false);
  3673. expect(isCalled('TFoo::SetValue')).toBe(false);
  3674. });
  3675. it('attributes an implementation-only free procedure\'s calls to the procedure, not the file', async () => {
  3676. fs.writeFileSync(
  3677. path.join(tempDir, 'main.pas'),
  3678. `unit Main;
  3679. interface
  3680. type
  3681. TTgt = class
  3682. procedure Hit;
  3683. end;
  3684. TFoo = class
  3685. procedure DoStuff;
  3686. end;
  3687. implementation
  3688. procedure TTgt.Hit; begin end;
  3689. procedure TFoo.DoStuff; var t: TTgt; begin t.Hit; end;
  3690. procedure Helper; var t: TTgt; begin t.Hit; end;
  3691. `
  3692. );
  3693. cg = await CodeGraph.init(tempDir, { index: true });
  3694. // `Helper` is implementation-only (no interface decl, not a method), but its
  3695. // body's call must attribute to `Helper`, not the file/module — alongside the
  3696. // method `DoStuff`.
  3697. expect(callerNamesOf('TTgt::Hit')).toEqual(['DoStuff', 'Helper']);
  3698. });
  3699. });
  3700. });