/// /// let mockfs = require('mock-fs'); import fs = require('fs'); import {TreeDiffer} from './tree-differ'; import {MergeTrees} from './broccoli-merge-trees'; describe('MergeTrees', () => { afterEach(() => mockfs.restore()); function mergeTrees(inputPaths, cachePath, options) { return new MergeTrees(inputPaths, cachePath, options); } function MakeTreeDiffers(rootDirs) { let treeDiffers = rootDirs.map((rootDir) => new TreeDiffer('MergeTrees', rootDir)); treeDiffers.diffTrees = () => { return treeDiffers.map(tree => tree.diffTree()); }; return treeDiffers; } function read(path) { return fs.readFileSync(path, "utf-8"); } it('should copy the file from the right-most inputTree with overwrite=true', () => { let testDir: any = { 'tree1': {'foo.js': mockfs.file({content: 'tree1/foo.js content', mtime: new Date(1000)})}, 'tree2': {'foo.js': mockfs.file({content: 'tree2/foo.js content', mtime: new Date(1000)})}, 'tree3': {'foo.js': mockfs.file({content: 'tree3/foo.js content', mtime: new Date(1000)})} }; mockfs(testDir); let treeDiffer = MakeTreeDiffers(['tree1', 'tree2', 'tree3']); let treeMerger = mergeTrees(['tree1', 'tree2', 'tree3'], 'dest', {overwrite: true}); treeMerger.rebuild(treeDiffer.diffTrees()); expect(read('dest/foo.js')).toBe('tree3/foo.js content'); delete testDir.tree2['foo.js']; delete testDir.tree3['foo.js']; mockfs(testDir); treeMerger.rebuild(treeDiffer.diffTrees()); expect(read('dest/foo.js')).toBe('tree1/foo.js content'); testDir.tree2['foo.js'] = mockfs.file({content: 'tree2/foo.js content', mtime: new Date(1000)}); mockfs(testDir); treeMerger.rebuild(treeDiffer.diffTrees()); expect(read('dest/foo.js')).toBe('tree2/foo.js content'); }); it('should throw if duplicates are found during the initial build', () => { let testDir: any = { 'tree1': {'foo.js': mockfs.file({content: 'tree1/foo.js content', mtime: new Date(1000)})}, 'tree2': {'foo.js': mockfs.file({content: 'tree2/foo.js content', mtime: new Date(1000)})}, 'tree3': {'foo.js': mockfs.file({content: 'tree3/foo.js content', mtime: new Date(1000)})} }; mockfs(testDir); let treeDiffer = MakeTreeDiffers(['tree1', 'tree2', 'tree3']); let treeMerger = mergeTrees(['tree1', 'tree2', 'tree3'], 'dest', {}); expect(() => treeMerger.rebuild(treeDiffer.diffTrees())) .toThrowError("`overwrite` option is required for handling duplicates."); testDir = { 'tree1': {'foo.js': mockfs.file({content: 'tree1/foo.js content', mtime: new Date(1000)})}, 'tree2': {}, 'tree3': {} }; mockfs(testDir); }); it('should throw if duplicates are found during rebuild', () => { let testDir = { 'tree1': {'foo.js': mockfs.file({content: 'tree1/foo.js content', mtime: new Date(1000)})}, 'tree2': {}, 'tree3': {} }; mockfs(testDir); let treeDiffer = MakeTreeDiffers(['tree1', 'tree2', 'tree3']); let treeMerger = mergeTrees(['tree1', 'tree2', 'tree3'], 'dest', {}); expect(() => treeMerger.rebuild(treeDiffer.diffTrees())).not.toThrow(); testDir.tree2['foo.js'] = mockfs.file({content: 'tree2/foo.js content', mtime: new Date(1000)}); mockfs(testDir); expect(() => treeMerger.rebuild(treeDiffer.diffTrees())) .toThrowError("`overwrite` option is required for handling duplicates."); }); });