616 lines
20 KiB
TypeScript
616 lines
20 KiB
TypeScript
/**
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* Graph Query Tests
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*
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* Tests for graph traversal and query functionality.
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*/
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import { describe, it, expect, beforeEach, afterEach } from 'vitest';
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import * as fs from 'fs';
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import * as path from 'path';
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import * as os from 'os';
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import CodeGraph from '../src/index';
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import { Node, Edge } from '../src/types';
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import { GraphTraverser } from '../src/graph/traversal';
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describe('Graph Queries', () => {
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let testDir: string;
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let cg: CodeGraph;
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beforeEach(async () => {
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// Create temp directory
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testDir = fs.mkdtempSync(path.join(os.tmpdir(), 'codegraph-graph-test-'));
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// Create test files with relationships
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const srcDir = path.join(testDir, 'src');
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fs.mkdirSync(srcDir, { recursive: true });
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// Create base class
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fs.writeFileSync(
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path.join(srcDir, 'base.ts'),
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`
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export class BaseClass {
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protected value: number;
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constructor(value: number) {
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this.value = value;
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}
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getValue(): number {
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return this.value;
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}
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}
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export interface Printable {
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print(): void;
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}
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`
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);
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// Create derived class
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fs.writeFileSync(
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path.join(srcDir, 'derived.ts'),
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`
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import { BaseClass, Printable } from './base';
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export class DerivedClass extends BaseClass implements Printable {
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private name: string;
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constructor(value: number, name: string) {
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super(value);
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this.name = name;
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}
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print(): void {
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console.log(this.getName(), this.getValue());
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}
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getName(): string {
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return this.name;
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}
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}
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`
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);
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// Create utility functions
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fs.writeFileSync(
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path.join(srcDir, 'utils.ts'),
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`
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export function formatValue(value: number): string {
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return value.toFixed(2);
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}
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export function processValue(value: number): number {
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const formatted = formatValue(value);
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return parseFloat(formatted);
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}
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export function doubleValue(value: number): number {
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return value * 2;
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}
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// Unused function (dead code)
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function unusedHelper(): void {
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console.log('never called');
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}
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`
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);
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// Create main file that uses everything
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fs.writeFileSync(
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path.join(srcDir, 'main.ts'),
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`
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import { DerivedClass } from './derived';
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import { processValue, doubleValue } from './utils';
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function main(): void {
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const obj = new DerivedClass(10, 'test');
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obj.print();
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const result = processValue(doubleValue(obj.getValue()));
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console.log(result);
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}
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export { main };
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`
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);
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// Initialize and index
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cg = CodeGraph.initSync(testDir, {
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config: {
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include: ['src/**/*.ts'],
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exclude: [],
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},
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});
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await cg.indexAll();
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cg.resolveReferences();
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});
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afterEach(() => {
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if (cg) {
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cg.destroy();
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}
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if (fs.existsSync(testDir)) {
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fs.rmSync(testDir, { recursive: true, force: true });
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}
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});
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describe('traverse()', () => {
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it('should traverse graph from a starting node', () => {
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const nodes = cg.getNodesByKind('function');
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const mainFunc = nodes.find((n) => n.name === 'main');
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if (!mainFunc) {
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console.log('main function not found, skipping test');
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return;
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}
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const subgraph = cg.traverse(mainFunc.id, {
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maxDepth: 2,
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direction: 'outgoing',
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});
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expect(subgraph.nodes.size).toBeGreaterThan(0);
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expect(subgraph.roots).toContain(mainFunc.id);
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});
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it('should respect maxDepth option', () => {
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const nodes = cg.getNodesByKind('function');
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const mainFunc = nodes.find((n) => n.name === 'main');
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if (!mainFunc) {
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return;
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}
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const shallow = cg.traverse(mainFunc.id, { maxDepth: 1 });
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const deep = cg.traverse(mainFunc.id, { maxDepth: 3 });
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expect(deep.nodes.size).toBeGreaterThanOrEqual(shallow.nodes.size);
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});
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it('should support incoming direction', () => {
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const nodes = cg.getNodesByKind('function');
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const formatValue = nodes.find((n) => n.name === 'formatValue');
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if (!formatValue) {
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return;
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}
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const subgraph = cg.traverse(formatValue.id, {
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maxDepth: 2,
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direction: 'incoming',
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});
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expect(subgraph.nodes.size).toBeGreaterThan(0);
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});
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});
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describe('getContext()', () => {
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it('should return context for a node', () => {
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const nodes = cg.getNodesByKind('class');
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const derivedClass = nodes.find((n) => n.name === 'DerivedClass');
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if (!derivedClass) {
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console.log('DerivedClass not found, skipping test');
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return;
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}
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const context = cg.getContext(derivedClass.id);
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expect(context.focal).toBeDefined();
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expect(context.focal.id).toBe(derivedClass.id);
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expect(context.ancestors).toBeDefined();
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expect(context.children).toBeDefined();
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expect(context.incomingRefs).toBeDefined();
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expect(context.outgoingRefs).toBeDefined();
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});
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it('should throw for non-existent node', () => {
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expect(() => cg.getContext('non-existent-id')).toThrow('Node not found');
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});
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});
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describe('getCallGraph()', () => {
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it('should return call graph for a function', () => {
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const nodes = cg.getNodesByKind('function');
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const processValue = nodes.find((n) => n.name === 'processValue');
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if (!processValue) {
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console.log('processValue not found, skipping test');
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return;
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}
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const callGraph = cg.getCallGraph(processValue.id, 2);
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expect(callGraph.nodes.size).toBeGreaterThan(0);
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expect(callGraph.nodes.has(processValue.id)).toBe(true);
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});
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});
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describe('getTypeHierarchy()', () => {
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it('should return type hierarchy for a class', () => {
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const nodes = cg.getNodesByKind('class');
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const derivedClass = nodes.find((n) => n.name === 'DerivedClass');
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if (!derivedClass) {
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return;
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}
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const hierarchy = cg.getTypeHierarchy(derivedClass.id);
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expect(hierarchy.nodes.size).toBeGreaterThan(0);
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expect(hierarchy.nodes.has(derivedClass.id)).toBe(true);
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});
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it('should return empty subgraph for non-existent node', () => {
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const hierarchy = cg.getTypeHierarchy('non-existent-id');
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expect(hierarchy.nodes.size).toBe(0);
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expect(hierarchy.edges.length).toBe(0);
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});
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});
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describe('findUsages()', () => {
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it('should find usages of a symbol', () => {
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const nodes = cg.getNodesByKind('class');
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const baseClass = nodes.find((n) => n.name === 'BaseClass');
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if (!baseClass) {
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return;
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}
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const usages = cg.findUsages(baseClass.id);
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// Should find at least the extends relationship
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expect(usages).toBeDefined();
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expect(Array.isArray(usages)).toBe(true);
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});
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});
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describe('getCallers() and getCallees()', () => {
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it('should get callers of a function', () => {
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const nodes = cg.getNodesByKind('function');
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const formatValue = nodes.find((n) => n.name === 'formatValue');
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if (!formatValue) {
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return;
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}
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const callers = cg.getCallers(formatValue.id);
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// processValue calls formatValue
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expect(Array.isArray(callers)).toBe(true);
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});
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it('should get callees of a function', () => {
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const nodes = cg.getNodesByKind('function');
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const processValue = nodes.find((n) => n.name === 'processValue');
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if (!processValue) {
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return;
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}
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const callees = cg.getCallees(processValue.id);
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expect(Array.isArray(callees)).toBe(true);
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});
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it('treats class instantiation as a caller/callee of the class (#774)', () => {
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// main() does `new DerivedClass(10, 'test')`. Constructing a class is
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// calling its constructor, so main is a caller of DerivedClass and
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// DerivedClass is a callee of main. Before #774 the `instantiates` edge
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// was excluded from the caller/callee traversal, so `callers <Class>`
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// returned the importing file (or nothing) and missed every
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// construction site.
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const derived = cg.getNodesByKind('class').find((n) => n.name === 'DerivedClass');
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const main = cg.getNodesByKind('function').find((n) => n.name === 'main');
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expect(derived).toBeDefined();
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expect(main).toBeDefined();
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const callerNames = cg.getCallers(derived!.id).map((c) => c.node.name);
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expect(callerNames).toContain('main');
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const calleeNames = cg.getCallees(main!.id).map((c) => c.node.name);
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expect(calleeNames).toContain('DerivedClass');
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});
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});
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describe('getImpactRadius()', () => {
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it('should calculate impact radius', () => {
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const nodes = cg.getNodesByKind('function');
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const formatValue = nodes.find((n) => n.name === 'formatValue');
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if (!formatValue) {
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return;
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}
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const impact = cg.getImpactRadius(formatValue.id, 3);
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expect(impact.nodes.size).toBeGreaterThan(0);
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expect(impact.nodes.has(formatValue.id)).toBe(true);
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});
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it('does not drag in sibling members via the structural contains edge (#536)', () => {
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const getName = cg.getNodesByKind('method').find((n) => n.name === 'getName');
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const derived = cg.getNodesByKind('class').find((n) => n.name === 'DerivedClass');
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expect(getName).toBeDefined();
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expect(derived).toBeDefined();
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const impact = cg.getImpactRadius(getName!.id, 3);
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// The containing class must NOT be pulled into impact just because it
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// *contains* getName — climbing that contains edge would re-expand every
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// sibling method and explode impact for a leaf symbol. (#536)
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expect(impact.nodes.has(derived!.id)).toBe(false);
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});
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});
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describe('findPath()', () => {
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it('should find path between connected nodes', () => {
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const stats = cg.getStats();
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if (stats.nodeCount < 2) {
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return;
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}
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const functions = cg.getNodesByKind('function');
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if (functions.length < 2) {
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return;
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}
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// Try to find any path
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const processValue = functions.find((n) => n.name === 'processValue');
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const formatValue = functions.find((n) => n.name === 'formatValue');
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if (processValue && formatValue) {
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const path = cg.findPath(processValue.id, formatValue.id);
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// Path might exist or might not depending on edge direction
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expect(path === null || Array.isArray(path)).toBe(true);
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}
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});
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it('should return null for disconnected nodes', () => {
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// Create two nodes that definitely don't have a path
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const path = cg.findPath('non-existent-1', 'non-existent-2');
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expect(path).toBeNull();
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});
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});
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describe('getAncestors() and getChildren()', () => {
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it('should get ancestors of a node', () => {
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const methods = cg.getNodesByKind('method');
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const printMethod = methods.find((n) => n.name === 'print');
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if (!printMethod) {
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return;
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}
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const ancestors = cg.getAncestors(printMethod.id);
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// Should have class and file as ancestors
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expect(Array.isArray(ancestors)).toBe(true);
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});
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it('should get children of a node', () => {
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const classes = cg.getNodesByKind('class');
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const derivedClass = classes.find((n) => n.name === 'DerivedClass');
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if (!derivedClass) {
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return;
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}
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const children = cg.getChildren(derivedClass.id);
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// Should have methods as children
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expect(Array.isArray(children)).toBe(true);
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});
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});
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describe('File dependency analysis', () => {
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// Regression: getFileDependents/getFileDependencies used to follow
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// ONLY `imports` edges, which in this engine are same-file (a file → its
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// own local import declarations). That made both return [] for EVERY file,
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// so `codegraph affected` found no dependents on any language/framework.
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// They must follow the cross-file symbol graph instead (calls / references
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// / instantiates / extends / implements / ...).
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it('reports cross-file dependencies via the symbol graph, not just imports', () => {
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const deps = cg.getFileDependencies('src/main.ts');
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// main() instantiates DerivedClass (derived.ts) and calls
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// processValue/doubleValue (utils.ts) — both are real dependencies.
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expect(deps).toContain('src/utils.ts');
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expect(deps).toContain('src/derived.ts');
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});
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it('reports cross-file dependents via the symbol graph, not just imports', () => {
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// utils.ts is used by main.ts (processValue/doubleValue calls); the old
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// imports-only implementation returned [] here.
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expect(cg.getFileDependents('src/utils.ts')).toContain('src/main.ts');
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});
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it('counts extends/implements as a dependency edge', () => {
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// derived.ts extends BaseClass / implements Printable, both in base.ts.
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expect(cg.getFileDependencies('src/derived.ts')).toContain('src/base.ts');
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expect(cg.getFileDependents('src/base.ts')).toContain('src/derived.ts');
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});
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it('never lists a file as its own dependent or dependency', () => {
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for (const f of ['src/main.ts', 'src/utils.ts', 'src/base.ts', 'src/derived.ts']) {
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expect(cg.getFileDependents(f)).not.toContain(f);
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expect(cg.getFileDependencies(f)).not.toContain(f);
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}
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});
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});
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describe('findCircularDependencies()', () => {
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it('should detect circular dependencies', () => {
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const cycles = cg.findCircularDependencies();
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// Our test files don't have circular deps
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expect(Array.isArray(cycles)).toBe(true);
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});
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});
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describe('findDeadCode()', () => {
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it('should find dead code', () => {
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const deadCode = cg.findDeadCode(['function']);
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expect(Array.isArray(deadCode)).toBe(true);
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// unusedHelper should be detected
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const hasUnused = deadCode.some((n) => n.name === 'unusedHelper');
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// Note: This depends on extraction properly detecting function scope
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expect(deadCode.length).toBeGreaterThanOrEqual(0);
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});
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});
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describe('getNodeMetrics()', () => {
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it('should return metrics for a node', () => {
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const functions = cg.getNodesByKind('function');
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const func = functions[0];
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if (!func) {
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return;
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}
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const metrics = cg.getNodeMetrics(func.id);
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expect(metrics).toHaveProperty('incomingEdgeCount');
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expect(metrics).toHaveProperty('outgoingEdgeCount');
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expect(metrics).toHaveProperty('callCount');
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expect(metrics).toHaveProperty('callerCount');
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expect(metrics).toHaveProperty('childCount');
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expect(metrics).toHaveProperty('depth');
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expect(typeof metrics.incomingEdgeCount).toBe('number');
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expect(typeof metrics.outgoingEdgeCount).toBe('number');
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});
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});
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});
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// =============================================================================
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// Traversal edge-completeness & node-limit regressions (#1086–#1090)
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//
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// These drive GraphTraverser directly against an in-memory graph (the same
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// approach the reporter used), so the exact parallel-edge / high-degree
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// topologies can be constructed deterministically without round-tripping
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// through extraction.
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// =============================================================================
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/** Minimal Node stub — the traversal code only reads id/kind/name. */
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function tNode(id: string, kind: Node['kind'] = 'function'): Node {
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return {
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id,
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kind,
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name: id,
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qualifiedName: id,
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filePath: `src/${id}.ts`,
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language: 'typescript',
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startLine: 1,
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endLine: 10,
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startColumn: 0,
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endColumn: 0,
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} as unknown as Node;
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}
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/** Build a GraphTraverser over a fixed node/edge set, honoring the `kinds` filter. */
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function tGraph(nodes: Node[], edges: Edge[]): GraphTraverser {
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const byId = new Map(nodes.map((n) => [n.id, n]));
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const q = {
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getNodeById: (id: string) => byId.get(id) ?? null,
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getNodesByIds: (ids: readonly string[]) => {
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const m = new Map<string, Node>();
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for (const id of ids) {
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const n = byId.get(id);
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if (n) m.set(id, n);
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}
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return m;
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},
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getOutgoingEdges: (source: string, kinds?: string[]) =>
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edges.filter((e) => e.source === source && (!kinds || kinds.includes(e.kind))),
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getIncomingEdges: (target: string, kinds?: string[]) =>
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edges.filter((e) => e.target === target && (!kinds || kinds.includes(e.kind))),
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};
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return new GraphTraverser(q as never);
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}
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describe('Traversal edge-completeness & limits (#1086–#1090)', () => {
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it('traverseBFS keeps every parallel edge to the same target (#1090)', () => {
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// A reaches B via both `calls` and `references` — two distinct edges.
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const edges: Edge[] = [
|
||
{ source: 'A', target: 'B', kind: 'calls', line: 1 },
|
||
{ source: 'A', target: 'B', kind: 'references', line: 2 },
|
||
];
|
||
const sub = tGraph([tNode('A'), tNode('B')], edges).traverseBFS('A', { direction: 'outgoing' });
|
||
|
||
const ab = sub.edges.filter((e) => e.source === 'A' && e.target === 'B');
|
||
// Pre-fix: only the higher-priority `calls` edge survived; `references` was dropped.
|
||
expect(ab.map((e) => e.kind).sort()).toEqual(['calls', 'references']);
|
||
expect(sub.nodes.has('B')).toBe(true);
|
||
});
|
||
|
||
it('traverseBFS keeps two same-kind edges on different lines (#1090)', () => {
|
||
const edges: Edge[] = [
|
||
{ source: 'A', target: 'B', kind: 'calls', line: 3 },
|
||
{ source: 'A', target: 'B', kind: 'calls', line: 7 },
|
||
];
|
||
const sub = tGraph([tNode('A'), tNode('B')], edges).traverseBFS('A', { direction: 'outgoing' });
|
||
expect(sub.edges.filter((e) => e.source === 'A' && e.target === 'B')).toHaveLength(2);
|
||
});
|
||
|
||
it('traverseBFS does not overshoot opts.limit on a high-degree node (#1087)', () => {
|
||
const neighbors = ['B', 'C', 'D', 'E', 'F'];
|
||
const nodes = [tNode('A'), ...neighbors.map((n) => tNode(n))];
|
||
const edges: Edge[] = neighbors.map((n) => ({ source: 'A', target: n, kind: 'calls' as const }));
|
||
const sub = tGraph(nodes, edges).traverseBFS('A', { limit: 3, direction: 'outgoing' });
|
||
// Pre-fix: all 5 neighbors were added in one pass → 6 nodes despite limit 3.
|
||
expect(sub.nodes.size).toBeLessThanOrEqual(3);
|
||
});
|
||
|
||
it('traverseDFS does not overshoot opts.limit on a high-degree node (#1088)', () => {
|
||
const neighbors = ['B', 'C', 'D', 'E', 'F'];
|
||
const nodes = [tNode('A'), ...neighbors.map((n) => tNode(n))];
|
||
const edges: Edge[] = neighbors.map((n) => ({ source: 'A', target: n, kind: 'calls' as const }));
|
||
const sub = tGraph(nodes, edges).traverseDFS('A', { limit: 2, direction: 'outgoing' });
|
||
expect(sub.nodes.size).toBeLessThanOrEqual(2);
|
||
});
|
||
|
||
it('getCallers returns each caller once when reached via multiple edges (#1086)', () => {
|
||
// Y calls X at two sites and also references it — three incoming edges.
|
||
const edges: Edge[] = [
|
||
{ source: 'Y', target: 'X', kind: 'calls', line: 1 },
|
||
{ source: 'Y', target: 'X', kind: 'calls', line: 2 },
|
||
{ source: 'Y', target: 'X', kind: 'references', line: 3 },
|
||
];
|
||
const callers = tGraph([tNode('X'), tNode('Y')], edges).getCallers('X'); // default maxDepth = 1
|
||
// Pre-fix: Y appeared three times (depth guard returned before visited.add).
|
||
expect(callers.map((c) => c.node.id)).toEqual(['Y']);
|
||
});
|
||
|
||
it('getCallees returns each callee once when reached via multiple edges (#1086)', () => {
|
||
const edges: Edge[] = [
|
||
{ source: 'X', target: 'Y', kind: 'calls', line: 1 },
|
||
{ source: 'X', target: 'Y', kind: 'calls', line: 2 },
|
||
];
|
||
const callees = tGraph([tNode('X'), tNode('Y')], edges).getCallees('X');
|
||
expect(callees.map((c) => c.node.id)).toEqual(['Y']);
|
||
});
|
||
|
||
it('getImpactRadius keeps a direct edge into a node already collected via another path (#1089)', () => {
|
||
// Class P contains method M. Q calls both M and P. Reaching M first collects
|
||
// Q; the pre-fix `!nodes.has()` gate then dropped the direct Q→P edge.
|
||
const nodes = [tNode('P', 'class'), tNode('M', 'method'), tNode('Q')];
|
||
const edges: Edge[] = [
|
||
{ source: 'P', target: 'M', kind: 'contains' },
|
||
{ source: 'Q', target: 'M', kind: 'calls', line: 1 },
|
||
{ source: 'Q', target: 'P', kind: 'calls', line: 2 },
|
||
];
|
||
const sub = tGraph(nodes, edges).getImpactRadius('P', 2);
|
||
|
||
expect(sub.nodes.has('Q')).toBe(true);
|
||
expect(sub.edges.some((e) => e.source === 'Q' && e.target === 'M' && e.kind === 'calls')).toBe(true);
|
||
// The regression: this direct dependency edge used to vanish.
|
||
expect(sub.edges.some((e) => e.source === 'Q' && e.target === 'P' && e.kind === 'calls')).toBe(true);
|
||
});
|
||
});
|