angular-docs-cn/aio/content/guide/ivy.md

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Angular Ivy

Ivy is the code name for Angular's next-generation compilation and rendering pipeline. With the version 9 release of Angular, the new compiler and runtime instructions are used by default instead of the older compiler and runtime, known as View Engine.

Learn more about the Compiler and Runtime in these videos from our team.

{@a aot-and-ivy}

AOT and Ivy

AOT compilation with Ivy is faster and should be used by default. In the angular.json workspace configuration file, set the default build options for your project to always use AOT compilation.

{ "projects": { "my-existing-project": { "architect": { "build": { "options": { ... "aot": true, } } } } } }

Ivy and libraries

Ivy applications can be built with libraries that were created with the View Engine compiler. This compatibility is provided by a tool known as the Angular compatibility compiler (ngcc). CLI commands run ngcc as needed performing an Angular build.

{@a speeding-up-ngcc-compilation}

Speeding up ngcc compilation

The standalone ngcc program can run in parallel over your third party modules, making it more efficient than letting Angular CLI run it as needed.

You can run ngcc after each installation of node_modules by adding a postinstall npm script:

{ "scripts": { "postinstall": "ngcc --properties es2015 browser module main --first-only --create-ivy-entry-points" } }

The postinstall script will run on every installation of node_modules, including those performed by ng update and ng add.

If you perform multiple installs in a row, this can end up being slower than letting Angular CLI run ngcc on builds.

{@a maintaining-library-compatibility}

Maintaining library compatibility

If you are a library author, you should keep using the View Engine compiler as of version 9. By having all libraries continue to use View Engine, you will maintain compatibility with default v9 applications that use Ivy, as well as with applications that have opted to continue using View Engine.

See the Creating Libraries guide for more on how to compile or bundle your Angular library. When you use the tools integrated into the Angular CLI or ng-packagr, your library will always be built the right way automatically.

{@a opting-out-of-angular-ivy}

Opting out of Ivy in version 9

In version 9, Ivy is the default. For compatibility with current workflows during the update process, you can choose to opt out of Ivy and continue using the previous compiler, View Engine.

Before disabling Ivy, check out the debugging recommendations in the Ivy Compatibility Guide.

To opt out of Ivy, change the angularCompilerOptions in your project's TypeScript configuration, most commonly located at tsconfig.app.json at the root of the workspace.

The value of the enableIvy flag is set to true by default, as of version 9.

The following example shows how to set the enableIvy option to false in order to opt out of Ivy.

{ "extends": "./tsconfig.json", "compilerOptions": { "outDir": "./out-tsc/app", "types": [] }, "files": [ "src/main.ts", "src/polyfills.ts" ], "include": [ "src/**/*.d.ts" ], "angularCompilerOptions": { "enableIvy": false } }

If you disable Ivy, you might also want to reconsider whether to make AOT compilation the default for your application development, as described above.

To revert the compiler default, set the build option aot: false in the angular.json configuration file.

{@a using-ssr-without-angular-ivy}

Using SSR without Ivy

If you opt out of Ivy and your application uses Angular Universal to render Angular applications on the server, you must also change the way the server performs bootstrapping.

The following example shows how you modify the server.ts file to provide the AppServerModuleNgFactory as the bootstrap module.

  • Import AppServerModuleNgFactory from the app.server.module.ngfactory virtual file.
  • Set bootstrap: AppServerModuleNgFactory in the ngExpressEngine call.
import 'zone.js/dist/zone-node';

import { ngExpressEngine } from '@nguniversal/express-engine'; import * as express from 'express'; import { join } from 'path';

import { APP_BASE_HREF } from '@angular/common';

import { AppServerModuleNgFactory } from './src/app/app.server.module.ngfactory';

// The Express app is exported so that it can be used by serverless Functions. export function app() { const server = express(); const distFolder = join(process.cwd(), 'dist/ivy-test/browser');

// Our Universal express-engine (found @ https://github.com/angular/universal/tree/master/modules/express-engine) server.engine('html', ngExpressEngine({ bootstrap: AppServerModuleNgFactory, }));

server.set('view engine', 'html'); server.set('views', distFolder);

// Example Express Rest API endpoints // app.get('/api/**', (req, res) => { }); // Serve static files from /browser server.get('.', express.static(distFolder, { maxAge: '1y' }));

// All regular routes use the Universal engine server.get('*', (req, res) => { res.render('index', { req, providers: [{ provide: APP_BASE_HREF, useValue: req.baseUrl }] }); });

return server; }

function run() { const port = process.env.PORT || 4000;

// Start up the Node server const server = app(); server.listen(port, () => { console.log(Node Express server listening on http://localhost:${port}); }); }

// Webpack will replace 'require' with 'webpack_require' // 'non_webpack_require' is a proxy to Node 'require' // The below code is to ensure that the server is run only when not requiring the bundle. declare const non_webpack_require: NodeRequire; const mainModule = non_webpack_require.main; if (mainModule && mainModule.filename === __filename) { run(); }

export * from './src/main.server';