/** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import {dirname} from 'canonical-path'; import MagicString from 'magic-string'; import * as ts from 'typescript'; import {AbsoluteFsPath} from '../../../ngtsc/path'; import {DecorationAnalyzer} from '../../src/analysis/decoration_analyzer'; import {NgccReferencesRegistry} from '../../src/analysis/ngcc_references_registry'; import {SwitchMarkerAnalyzer} from '../../src/analysis/switch_marker_analyzer'; import {Esm5ReflectionHost} from '../../src/host/esm5_host'; import {Esm5Renderer} from '../../src/rendering/esm5_renderer'; import {makeTestEntryPointBundle, getDeclaration} from '../helpers/utils'; function setup(file: {name: string, contents: string}) { const dir = dirname(file.name); const bundle = makeTestEntryPointBundle('esm5', [file]); const typeChecker = bundle.src.program.getTypeChecker(); const host = new Esm5ReflectionHost(false, typeChecker); const referencesRegistry = new NgccReferencesRegistry(host); const decorationAnalyses = new DecorationAnalyzer( bundle.src.program, bundle.src.options, bundle.src.host, typeChecker, host, referencesRegistry, [AbsoluteFsPath.fromUnchecked('/')], false) .analyzeProgram(); const switchMarkerAnalyses = new SwitchMarkerAnalyzer(host).analyzeProgram(bundle.src.program); const renderer = new Esm5Renderer(host, false, bundle, dir, dir); return { host, program: bundle.src.program, sourceFile: bundle.src.file, renderer, decorationAnalyses, switchMarkerAnalyses }; } const PROGRAM = { name: '/some/file.js', contents: ` /* A copyright notice */ import {Directive} from '@angular/core'; var A = (function() { function A() {} A.decorators = [ { type: Directive, args: [{ selector: '[a]' }] }, { type: OtherA } ]; A.prototype.ngDoCheck = function() { // }; return A; }()); var B = (function() { function B() {} B.decorators = [ { type: OtherB }, { type: Directive, args: [{ selector: '[b]' }] } ]; return B; }()); var C = (function() { function C() {} C.decorators = [ { type: Directive, args: [{ selector: '[c]' }] }, ]; return C; }()); function NoIife() {} var BadIife = (function() { function BadIife() {} BadIife.decorators = [ { type: Directive, args: [{ selector: '[c]' }] }, ]; }()); var compileNgModuleFactory = compileNgModuleFactory__PRE_R3__; var badlyFormattedVariable = __PRE_R3__badlyFormattedVariable; function compileNgModuleFactory__PRE_R3__(injector, options, moduleType) { const compilerFactory = injector.get(CompilerFactory); const compiler = compilerFactory.createCompiler([options]); return compiler.compileModuleAsync(moduleType); } function compileNgModuleFactory__POST_R3__(injector, options, moduleType) { ngDevMode && assertNgModuleType(moduleType); return Promise.resolve(new R3NgModuleFactory(moduleType)); } // Some other content export {A, B, C, NoIife, BadIife};` }; const PROGRAM_DECORATE_HELPER = { name: '/some/file.js', contents: ` import * as tslib_1 from "tslib"; /* A copyright notice */ import { Directive } from '@angular/core'; var OtherA = function () { return function (node) { }; }; var OtherB = function () { return function (node) { }; }; var A = /** @class */ (function () { function A() { } A = tslib_1.__decorate([ Directive({ selector: '[a]' }), OtherA() ], A); return A; }()); export { A }; var B = /** @class */ (function () { function B() { } B = tslib_1.__decorate([ OtherB(), Directive({ selector: '[b]' }) ], B); return B; }()); export { B }; var C = /** @class */ (function () { function C() { } C = tslib_1.__decorate([ Directive({ selector: '[c]' }) ], C); return C; }()); export { C }; var D = /** @class */ (function () { function D() { } D_1 = D; var D_1; D = D_1 = tslib_1.__decorate([ Directive({ selector: '[d]', providers: [D_1] }) ], D); return D; }()); export { D }; // Some other content` }; describe('Esm5Renderer', () => { describe('addImports', () => { it('should insert the given imports at the start of the source file', () => { const {renderer} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); renderer.addImports(output, [ {specifier: '@angular/core', qualifier: 'i0'}, {specifier: '@angular/common', qualifier: 'i1'} ]); expect(output.toString()).toContain(`import * as i0 from '@angular/core'; import * as i1 from '@angular/common'; /* A copyright notice */`); }); }); describe('addExports', () => { it('should insert the given exports at the end of the source file', () => { const {renderer} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); renderer.addExports(output, PROGRAM.name.replace(/\.js$/, ''), [ {from: '/some/a.js', dtsFrom: '/some/a.d.ts', identifier: 'ComponentA1'}, {from: '/some/a.js', dtsFrom: '/some/a.d.ts', identifier: 'ComponentA2'}, {from: '/some/foo/b.js', dtsFrom: '/some/foo/b.d.ts', identifier: 'ComponentB'}, {from: PROGRAM.name, dtsFrom: PROGRAM.name, identifier: 'TopLevelComponent'}, ]); expect(output.toString()).toContain(` export {A, B, C, NoIife, BadIife}; export {ComponentA1} from './a'; export {ComponentA2} from './a'; export {ComponentB} from './foo/b'; export {TopLevelComponent};`); }); it('should not insert alias exports in js output', () => { const {renderer} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); renderer.addExports(output, PROGRAM.name.replace(/\.js$/, ''), [ {from: '/some/a.js', alias: 'eComponentA1', identifier: 'ComponentA1'}, {from: '/some/a.js', alias: 'eComponentA2', identifier: 'ComponentA2'}, {from: '/some/foo/b.js', alias: 'eComponentB', identifier: 'ComponentB'}, {from: PROGRAM.name, alias: 'eTopLevelComponent', identifier: 'TopLevelComponent'}, ]); const outputString = output.toString(); expect(outputString).not.toContain(`{eComponentA1 as ComponentA1}`); expect(outputString).not.toContain(`{eComponentB as ComponentB}`); expect(outputString).not.toContain(`{eTopLevelComponent as TopLevelComponent}`); }); }); describe('addConstants', () => { it('should insert the given constants after imports in the source file', () => { const {renderer, program} = setup(PROGRAM); const file = program.getSourceFile('some/file.js'); if (file === undefined) { throw new Error(`Could not find source file`); } const output = new MagicString(PROGRAM.contents); renderer.addConstants(output, 'const x = 3;', file); expect(output.toString()).toContain(` import {Directive} from '@angular/core'; const x = 3; var A = (function() {`); }); }); describe('rewriteSwitchableDeclarations', () => { it('should switch marked declaration initializers', () => { const {renderer, program, sourceFile, switchMarkerAnalyses} = setup(PROGRAM); const file = program.getSourceFile('some/file.js'); if (file === undefined) { throw new Error(`Could not find source file`); } const output = new MagicString(PROGRAM.contents); renderer.rewriteSwitchableDeclarations( output, file, switchMarkerAnalyses.get(sourceFile) !.declarations); expect(output.toString()) .not.toContain(`var compileNgModuleFactory = compileNgModuleFactory__PRE_R3__;`); expect(output.toString()) .toContain(`var badlyFormattedVariable = __PRE_R3__badlyFormattedVariable;`); expect(output.toString()) .toContain(`var compileNgModuleFactory = compileNgModuleFactory__POST_R3__;`); expect(output.toString()) .toContain(`function compileNgModuleFactory__PRE_R3__(injector, options, moduleType) {`); expect(output.toString()) .toContain(`function compileNgModuleFactory__POST_R3__(injector, options, moduleType) {`); }); }); describe('addDefinitions', () => { it('should insert the definitions directly before the return statement of the class IIFE', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'A') !; renderer.addDefinitions(output, compiledClass, 'SOME DEFINITION TEXT'); expect(output.toString()).toContain(` A.prototype.ngDoCheck = function() { // }; SOME DEFINITION TEXT return A; `); }); it('should error if the compiledClass is not valid', () => { const {renderer, host, sourceFile, program} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); const badSymbolDeclaration = getDeclaration(program, sourceFile.fileName, 'A', ts.isVariableDeclaration); const badSymbol: any = {name: 'BadSymbol', declaration: badSymbolDeclaration}; const hostSpy = spyOn(host, 'getClassSymbol').and.returnValue(null); expect(() => renderer.addDefinitions(output, badSymbol, 'SOME DEFINITION TEXT')) .toThrowError('Compiled class does not have a valid symbol: BadSymbol in /some/file.js'); const noIifeDeclaration = getDeclaration(program, sourceFile.fileName, 'NoIife', ts.isFunctionDeclaration); const mockNoIifeClass: any = {declaration: noIifeDeclaration, name: 'NoIife'}; hostSpy.and.returnValue({valueDeclaration: noIifeDeclaration}); expect(() => renderer.addDefinitions(output, mockNoIifeClass, 'SOME DEFINITION TEXT')) .toThrowError( 'Compiled class declaration is not inside an IIFE: NoIife in /some/file.js'); const badIifeWrapper: any = getDeclaration(program, sourceFile.fileName, 'BadIife', ts.isVariableDeclaration); const badIifeDeclaration = badIifeWrapper.initializer.expression.expression.body.statements[0]; const mockBadIifeClass: any = {declaration: badIifeDeclaration, name: 'BadIife'}; hostSpy.and.returnValue({valueDeclaration: badIifeDeclaration}); expect(() => renderer.addDefinitions(output, mockBadIifeClass, 'SOME DEFINITION TEXT')) .toThrowError( 'Compiled class wrapper IIFE does not have a return statement: BadIife in /some/file.js'); }); }); describe('removeDecorators', () => { it('should delete the decorator (and following comma) that was matched in the analysis', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'A') !; const decorator = compiledClass.decorators[0]; const decoratorsToRemove = new Map(); decoratorsToRemove.set(decorator.node.parent !, [decorator.node]); renderer.removeDecorators(output, decoratorsToRemove); expect(output.toString()).not.toContain(`{ type: Directive, args: [{ selector: '[a]' }] },`); expect(output.toString()).toContain(`{ type: OtherA }`); expect(output.toString()).toContain(`{ type: Directive, args: [{ selector: '[b]' }] }`); expect(output.toString()).toContain(`{ type: OtherB }`); expect(output.toString()).toContain(`{ type: Directive, args: [{ selector: '[c]' }] }`); }); it('should delete the decorator (but cope with no trailing comma) that was matched in the analysis', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'B') !; const decorator = compiledClass.decorators[0]; const decoratorsToRemove = new Map(); decoratorsToRemove.set(decorator.node.parent !, [decorator.node]); renderer.removeDecorators(output, decoratorsToRemove); expect(output.toString()).toContain(`{ type: Directive, args: [{ selector: '[a]' }] },`); expect(output.toString()).toContain(`{ type: OtherA }`); expect(output.toString()) .not.toContain(`{ type: Directive, args: [{ selector: '[b]' }] }`); expect(output.toString()).toContain(`{ type: OtherB }`); expect(output.toString()).toContain(`{ type: Directive, args: [{ selector: '[c]' }] }`); }); it('should delete the decorator (and its container if there are not other decorators left) that was matched in the analysis', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM); const output = new MagicString(PROGRAM.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'C') !; const decorator = compiledClass.decorators[0]; const decoratorsToRemove = new Map(); decoratorsToRemove.set(decorator.node.parent !, [decorator.node]); renderer.removeDecorators(output, decoratorsToRemove); renderer.addDefinitions(output, compiledClass, 'SOME DEFINITION TEXT'); expect(output.toString()).toContain(`{ type: Directive, args: [{ selector: '[a]' }] },`); expect(output.toString()).toContain(`{ type: OtherA }`); expect(output.toString()).toContain(`{ type: Directive, args: [{ selector: '[b]' }] }`); expect(output.toString()).toContain(`{ type: OtherB }`); expect(output.toString()).toContain(`function C() {}\nSOME DEFINITION TEXT\n return C;`); expect(output.toString()).not.toContain(`C.decorators = [ { type: Directive, args: [{ selector: '[c]' }] }, ];`); }); }); describe('[__decorate declarations]', () => { it('should delete the decorator (and following comma) that was matched in the analysis', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM_DECORATE_HELPER); const output = new MagicString(PROGRAM_DECORATE_HELPER.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'A') !; const decorator = compiledClass.decorators.find(d => d.name === 'Directive') !; const decoratorsToRemove = new Map(); decoratorsToRemove.set(decorator.node.parent !, [decorator.node]); renderer.removeDecorators(output, decoratorsToRemove); expect(output.toString()).not.toContain(`Directive({ selector: '[a]' }),`); expect(output.toString()).toContain(`OtherA()`); expect(output.toString()).toContain(`Directive({ selector: '[b]' })`); expect(output.toString()).toContain(`OtherB()`); expect(output.toString()).toContain(`Directive({ selector: '[c]' })`); }); it('should delete the decorator (but cope with no trailing comma) that was matched in the analysis', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM_DECORATE_HELPER); const output = new MagicString(PROGRAM_DECORATE_HELPER.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'B') !; const decorator = compiledClass.decorators.find(d => d.name === 'Directive') !; const decoratorsToRemove = new Map(); decoratorsToRemove.set(decorator.node.parent !, [decorator.node]); renderer.removeDecorators(output, decoratorsToRemove); expect(output.toString()).toContain(`Directive({ selector: '[a]' }),`); expect(output.toString()).toContain(`OtherA()`); expect(output.toString()).not.toContain(`Directive({ selector: '[b]' })`); expect(output.toString()).toContain(`OtherB()`); expect(output.toString()).toContain(`Directive({ selector: '[c]' })`); }); it('should delete the decorator (and its container if there are no other decorators left) that was matched in the analysis', () => { const {renderer, decorationAnalyses, sourceFile} = setup(PROGRAM_DECORATE_HELPER); const output = new MagicString(PROGRAM_DECORATE_HELPER.contents); const compiledClass = decorationAnalyses.get(sourceFile) !.compiledClasses.find(c => c.name === 'C') !; const decorator = compiledClass.decorators.find(d => d.name === 'Directive') !; const decoratorsToRemove = new Map(); decoratorsToRemove.set(decorator.node.parent !, [decorator.node]); renderer.removeDecorators(output, decoratorsToRemove); expect(output.toString()).toContain(`Directive({ selector: '[a]' }),`); expect(output.toString()).toContain(`OtherA()`); expect(output.toString()).toContain(`Directive({ selector: '[b]' })`); expect(output.toString()).toContain(`OtherB()`); expect(output.toString()).not.toContain(`Directive({ selector: '[c]' })`); expect(output.toString()).not.toContain(`C = tslib_1.__decorate([`); expect(output.toString()).toContain(`function C() {\n }\n return C;`); }); }); });