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* eng: add cyclic dependency check script and update workflow * refactor: export classes and functions in checkCyclicDependencies for better accessibility; add comprehensive tests for cycle detection and file processing * Update build/lib/checkCyclicDependencies.ts Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com> --------- Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
182 lines
6.1 KiB
TypeScript
182 lines
6.1 KiB
TypeScript
/*---------------------------------------------------------------------------------------------
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* Copyright (c) Microsoft Corporation. All rights reserved.
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* Licensed under the MIT License. See License.txt in the project root for license information.
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*--------------------------------------------------------------------------------------------*/
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import assert from 'assert';
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import fs from 'fs';
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import path from 'path';
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import os from 'os';
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import { Graph, collectJsFiles, processFile, normalize } from '../checkCyclicDependencies.ts';
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suite('checkCyclicDependencies', () => {
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suite('Graph', () => {
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test('no cycles in linear chain', () => {
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const graph = new Graph();
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graph.inertEdge('a', 'b');
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graph.inertEdge('b', 'c');
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const cycles = graph.findCycles(['a', 'b', 'c']);
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for (const [, cycle] of cycles) {
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assert.strictEqual(cycle, undefined);
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}
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});
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test('detects simple cycle', () => {
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const graph = new Graph();
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graph.inertEdge('a', 'b');
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graph.inertEdge('b', 'a');
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const cycles = graph.findCycles(['a', 'b']);
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const hasCycle = Array.from(cycles.values()).some(c => c !== undefined);
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assert.ok(hasCycle);
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});
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test('detects 3-node cycle', () => {
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const graph = new Graph();
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graph.inertEdge('a', 'b');
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graph.inertEdge('b', 'c');
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graph.inertEdge('c', 'a');
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const cycles = graph.findCycles(['a', 'b', 'c']);
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const hasCycle = Array.from(cycles.values()).some(c => c !== undefined);
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assert.ok(hasCycle);
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});
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test('no false positives with shared dependencies', () => {
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const graph = new Graph();
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// diamond: a -> b, a -> c, b -> d, c -> d
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graph.inertEdge('a', 'b');
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graph.inertEdge('a', 'c');
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graph.inertEdge('b', 'd');
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graph.inertEdge('c', 'd');
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const cycles = graph.findCycles(['a', 'b', 'c', 'd']);
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for (const [, cycle] of cycles) {
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assert.strictEqual(cycle, undefined);
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}
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});
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test('lookupOrInsertNode returns same node for same data', () => {
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const graph = new Graph();
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const node1 = graph.lookupOrInsertNode('x');
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const node2 = graph.lookupOrInsertNode('x');
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assert.strictEqual(node1, node2);
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});
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test('lookup returns undefined for unknown node', () => {
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const graph = new Graph();
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assert.strictEqual(graph.lookup('unknown'), undefined);
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});
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test('findCycles skips unknown data', () => {
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const graph = new Graph();
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graph.inertEdge('a', 'b');
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const cycles = graph.findCycles(['nonexistent']);
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assert.strictEqual(cycles.get('nonexistent'), undefined);
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});
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test('cycle path contains the cycle nodes', () => {
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const graph = new Graph();
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graph.inertEdge('a', 'b');
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graph.inertEdge('b', 'c');
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graph.inertEdge('c', 'b');
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const cycles = graph.findCycles(['a', 'b', 'c']);
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const cyclePath = Array.from(cycles.values()).find(c => c !== undefined);
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assert.ok(cyclePath);
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assert.ok(cyclePath.includes('b'));
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assert.ok(cyclePath.includes('c'));
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// cycle should start and end with same node
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assert.strictEqual(cyclePath[0], cyclePath[cyclePath.length - 1]);
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});
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});
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suite('normalize', () => {
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test('replaces backslashes with forward slashes', () => {
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assert.strictEqual(normalize('a\\b\\c'), 'a/b/c');
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});
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test('leaves forward slashes unchanged', () => {
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assert.strictEqual(normalize('a/b/c'), 'a/b/c');
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});
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});
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suite('collectJsFiles and processFile', () => {
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let tmpDir: string;
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setup(() => {
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tmpDir = fs.mkdtempSync(path.join(os.tmpdir(), 'cyclic-test-'));
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});
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teardown(() => {
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fs.rmSync(tmpDir, { recursive: true, force: true });
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});
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test('collectJsFiles finds .js files recursively', () => {
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fs.writeFileSync(path.join(tmpDir, 'a.js'), '');
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fs.writeFileSync(path.join(tmpDir, 'b.ts'), '');
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fs.mkdirSync(path.join(tmpDir, 'sub'));
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fs.writeFileSync(path.join(tmpDir, 'sub', 'c.js'), '');
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const files = collectJsFiles(tmpDir);
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assert.strictEqual(files.length, 2);
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assert.ok(files.some(f => f.endsWith('a.js')));
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assert.ok(files.some(f => f.endsWith('c.js')));
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});
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test('processFile adds edges for relative imports', () => {
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fs.writeFileSync(path.join(tmpDir, 'a.js'), 'import { x } from "./b";');
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fs.writeFileSync(path.join(tmpDir, 'b.js'), '');
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const graph = new Graph();
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processFile(path.join(tmpDir, 'a.js'), graph);
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const aNode = graph.lookup(normalize(path.join(tmpDir, 'a.js')));
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assert.ok(aNode);
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assert.strictEqual(aNode.outgoing.size, 1);
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});
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test('processFile skips non-relative imports', () => {
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fs.writeFileSync(path.join(tmpDir, 'a.js'), 'import fs from "fs";');
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const graph = new Graph();
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processFile(path.join(tmpDir, 'a.js'), graph);
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// no relative imports, so no edges and no node created
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assert.strictEqual(graph.lookup(normalize(path.join(tmpDir, 'a.js'))), undefined);
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});
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test('processFile skips CSS imports', () => {
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fs.writeFileSync(path.join(tmpDir, 'a.js'), 'import "./styles.css";');
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const graph = new Graph();
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processFile(path.join(tmpDir, 'a.js'), graph);
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// CSS imports are ignored, so no edges and no node created
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assert.strictEqual(graph.lookup(normalize(path.join(tmpDir, 'a.js'))), undefined);
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});
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test('end-to-end: detects cycle in JS files', () => {
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fs.writeFileSync(path.join(tmpDir, 'a.js'), 'import { x } from "./b";');
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fs.writeFileSync(path.join(tmpDir, 'b.js'), 'import { y } from "./a";');
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const files = collectJsFiles(tmpDir);
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const graph = new Graph();
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for (const file of files) {
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processFile(file, graph);
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}
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const allNormalized = files.map(normalize);
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const cycles = graph.findCycles(allNormalized);
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const hasCycle = Array.from(cycles.values()).some(c => c !== undefined);
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assert.ok(hasCycle);
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});
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test('end-to-end: no cycle in acyclic JS files', () => {
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fs.writeFileSync(path.join(tmpDir, 'a.js'), 'import { x } from "./b";');
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fs.writeFileSync(path.join(tmpDir, 'b.js'), '');
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const files = collectJsFiles(tmpDir);
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const graph = new Graph();
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for (const file of files) {
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processFile(file, graph);
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}
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const allNormalized = files.map(normalize);
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const cycles = graph.findCycles(allNormalized);
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for (const [, cycle] of cycles) {
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assert.strictEqual(cycle, undefined);
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}
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});
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});
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});
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