708 lines
29 KiB
Markdown
708 lines
29 KiB
Markdown
# Deployment
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When you are ready to deploy your Angular application to a remote server, you have various options for deployment.
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{@a dev-deploy}
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{@a copy-files}
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## Simple deployment options
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Before fully deploying your application, you can test the process, build configuration, and deployed behavior by using one of these interim techniques.
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### Building and serving from disk
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During development, you typically use the `ng serve` command to build, watch, and serve the application from local memory, using [webpack-dev-server](https://webpack.js.org/guides/development/#webpack-dev-server).
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When you are ready to deploy, however, you must use the `ng build` command to build the app and deploy the build artifacts elsewhere.
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Both `ng build` and `ng serve` clear the output folder before they build the project, but only the `ng build` command writes the generated build artifacts to the output folder.
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<div class="alert is-helpful">
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The output folder is `dist/project-name/` by default.
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To output to a different folder, change the `outputPath` in `angular.json`.
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</div>
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As you near the end of the development process, serving the contents of your output folder from a local web server can give you a better idea of how your application will behave when it is deployed to a remote server.
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You will need two terminals to get the live-reload experience.
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* On the first terminal, run the [`ng build` command](cli/build) in *watch* mode to compile the application to the `dist` folder.
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<code-example language="none" class="code-shell">
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ng build --watch
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</code-example>
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Like the `ng serve` command, this regenerates output files when source files change.
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* On the second terminal, install a web server (such as [lite-server](https://github.com/johnpapa/lite-server)), and run it against the output folder. For example:
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<code-example language="none" class="code-shell">
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lite-server --baseDir="dist/project-name"
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</code-example>
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The server will automatically reload your browser when new files are output.
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<div class="alert is-critical">
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This method is for development and testing only, and is not a supported or secure way of deploying an application.
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</div>
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### Automatic deployment with the CLI
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The Angular CLI command `ng deploy` (introduced in version 8.3.0) executes the `deploy` [CLI builder](https://angular.io/guide/cli-builder) associated with your project. A number of third-party builders implement deployment capabilities to different platforms. You can add any of them to your project by running `ng add [package name]`.
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When you add a package with deployment capability, it'll automatically update your workspace configuration (`angular.json` file) with a `deploy` section for the selected project. You can then use the `ng deploy` command to deploy that project.
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For example, the following command automatically deploys a project to Firebase.
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<code-example language="none" class="code-shell">
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ng add @angular/fire
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ng deploy
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</code-example>
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The command is interactive. In this case, you must have or create a Firebase account, and authenticate using that account. The command prompts you to select a Firebase project for deployment
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After the command produces an optimal build of your application (equivalent to `ng deploy --prod`), it'll upload the production assets to Firebase.
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In the table below, you can find a list of packages which implement deployment functionality to different platforms. The `deploy` command for each package may require different command line options. You can read more by following the links associated with the package names below:
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| Deployment to | Package |
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| [Firebase hosting](https://firebase.google.com/docs/hosting) | [`@angular/fire`](https://npmjs.org/package/@angular/fire) |
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| [Azure](https://azure.microsoft.com/en-us/) | [`@azure/ng-deploy`](https://npmjs.org/package/@azure/ng-deploy) |
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| [Now](https://zeit.co/now) | [`@zeit/ng-deploy`](https://npmjs.org/package/@zeit/ng-deploy) |
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| [Netlify](https://www.netlify.com/) | [`@netlify-builder/deploy`](https://npmjs.org/package/@netlify-builder/deploy) |
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| [GitHub pages](https://pages.github.com/) | [`angular-cli-ghpages`](https://npmjs.org/package/angular-cli-ghpages) |
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| [NPM](https://npmjs.com/) | [`ngx-deploy-npm`](https://npmjs.org/package/ngx-deploy-npm) |
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If you're deploying to a self-managed server or there's no builder for your favorite cloud platform, you can either create a builder that allows you to use the `ng deploy` command, or read through this guide to learn how to manually deploy your app.
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### Basic deployment to a remote server
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For the simplest deployment, create a production build and copy the output directory to a web server.
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1. Start with the production build:
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<code-example language="none" class="code-shell">
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ng build --prod
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</code-example>
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2. Copy _everything_ within the output folder (`dist/` by default) to a folder on the server.
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3. Configure the server to redirect requests for missing files to `index.html`.
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Learn more about server-side redirects [below](#fallback).
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This is the simplest production-ready deployment of your application.
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{@a deploy-to-github}
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### Deploy to GitHub pages
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Another simple way to deploy your Angular app is to use [GitHub Pages](https://help.github.com/articles/what-is-github-pages/).
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1. You need to [create a GitHub account](https://github.com/join) if you don't have one, and then [create a repository](https://help.github.com/articles/create-a-repo/) for your project.
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Make a note of the user name and project name in GitHub.
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1. Build your project using Github project name, with the Angular CLI command [`ng build`](cli/build) and the options shown here:
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<code-example language="none" class="code-shell">
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ng build --prod --output-path docs --base-href /<project_name>/
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</code-example>
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1. When the build is complete, make a copy of `docs/index.html` and name it `docs/404.html`.
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1. Commit your changes and push.
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1. On the GitHub project page, configure it to [publish from the docs folder](https://help.github.com/articles/configuring-a-publishing-source-for-github-pages/#publishing-your-github-pages-site-from-a-docs-folder-on-your-master-branch).
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You can see your deployed page at `https://<user_name>.github.io/<project_name>/`.
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<div class="alert is-helpful">
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Check out [angular-cli-ghpages](https://github.com/angular-buch/angular-cli-ghpages), a full featured package that does all this for you and has extra functionality.
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</div>
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<hr>
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{@a server-configuration}
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## Server configuration
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This section covers changes you may have make to the server or to files deployed to the server.
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{@a fallback}
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### Routed apps must fallback to `index.html`
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Angular apps are perfect candidates for serving with a simple static HTML server.
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You don't need a server-side engine to dynamically compose application pages because
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Angular does that on the client-side.
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If the app uses the Angular router, you must configure the server
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to return the application's host page (`index.html`) when asked for a file that it does not have.
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{@a deep-link}
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A routed application should support "deep links".
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A _deep link_ is a URL that specifies a path to a component inside the app.
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For example, `http://www.mysite.com/heroes/42` is a _deep link_ to the hero detail page
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that displays the hero with `id: 42`.
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There is no issue when the user navigates to that URL from within a running client.
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The Angular router interprets the URL and routes to that page and hero.
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But clicking a link in an email, entering it in the browser address bar,
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or merely refreshing the browser while on the hero detail page —
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all of these actions are handled by the browser itself, _outside_ the running application.
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The browser makes a direct request to the server for that URL, bypassing the router.
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A static server routinely returns `index.html` when it receives a request for `http://www.mysite.com/`.
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But it rejects `http://www.mysite.com/heroes/42` and returns a `404 - Not Found` error *unless* it is
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configured to return `index.html` instead.
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#### Fallback configuration examples
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There is no single configuration that works for every server.
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The following sections describe configurations for some of the most popular servers.
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The list is by no means exhaustive, but should provide you with a good starting point.
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* [Apache](https://httpd.apache.org/): add a
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[rewrite rule](http://httpd.apache.org/docs/current/mod/mod_rewrite.html) to the `.htaccess` file as shown
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(https://ngmilk.rocks/2015/03/09/angularjs-html5-mode-or-pretty-urls-on-apache-using-htaccess/):
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<code-example>
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RewriteEngine On
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# If an existing asset or directory is requested go to it as it is
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RewriteCond %{DOCUMENT_ROOT}%{REQUEST_URI} -f [OR]
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RewriteCond %{DOCUMENT_ROOT}%{REQUEST_URI} -d
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RewriteRule ^ - [L]<br>
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# If the requested resource doesn't exist, use index.html
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RewriteRule ^ /index.html
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</code-example>
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* [Nginx](http://nginx.org/): use `try_files`, as described in
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[Front Controller Pattern Web Apps](https://www.nginx.com/resources/wiki/start/topics/tutorials/config_pitfalls/#front-controller-pattern-web-apps),
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modified to serve `index.html`:
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```
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try_files $uri $uri/ /index.html;
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```
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* [IIS](https://www.iis.net/): add a rewrite rule to `web.config`, similar to the one shown
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[here](http://stackoverflow.com/a/26152011/2116927):
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<code-example format='.' language="xml">
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<system.webServer>
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<rewrite>
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<rules>
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<rule name="Angular Routes" stopProcessing="true">
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<match url=".*" />
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<conditions logicalGrouping="MatchAll">
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<add input="{REQUEST_FILENAME}" matchType="IsFile" negate="true" />
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<add input="{REQUEST_FILENAME}" matchType="IsDirectory" negate="true" />
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</conditions>
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<action type="Rewrite" url="/index.html" />
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</rule>
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</rules>
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</rewrite>
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</system.webServer>
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</code-example>
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* [GitHub Pages](https://pages.github.com/): you can't
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[directly configure](https://github.com/isaacs/github/issues/408)
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the GitHub Pages server, but you can add a 404 page.
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Copy `index.html` into `404.html`.
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It will still be served as the 404 response, but the browser will process that page and load the app properly.
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It's also a good idea to
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[serve from `docs/` on master](https://help.github.com/articles/configuring-a-publishing-source-for-github-pages/#publishing-your-github-pages-site-from-a-docs-folder-on-your-master-branch)
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and to
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[create a `.nojekyll` file](https://www.bennadel.com/blog/3181-including-node-modules-and-vendors-folders-in-your-github-pages-site.htm)
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* [Firebase hosting](https://firebase.google.com/docs/hosting/): add a
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[rewrite rule](https://firebase.google.com/docs/hosting/url-redirects-rewrites#section-rewrites).
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<code-example language="json">
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"rewrites": [ {
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"source": "**",
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"destination": "/index.html"
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} ]
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</code-example>
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{@a cors}
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### Requesting services from a different server (CORS)
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Angular developers may encounter a
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<a href="https://en.wikipedia.org/wiki/Cross-origin_resource_sharing" title="Cross-origin resource sharing">
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<i>cross-origin resource sharing</i></a> error when making a service request (typically a data service request)
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to a server other than the application's own host server.
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Browsers forbid such requests unless the server permits them explicitly.
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There isn't anything the client application can do about these errors.
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The server must be configured to accept the application's requests.
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Read about how to enable CORS for specific servers at
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<a href="http://enable-cors.org/server.html" title="Enabling CORS server">enable-cors.org</a>.
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<hr>
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{@a optimize}
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## Production optimizations
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The `--prod` _meta-flag_ engages the following build optimization features.
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* [Ahead-of-Time (AOT) Compilation](guide/aot-compiler): pre-compiles Angular component templates.
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* [Production mode](#enable-prod-mode): deploys the production environment which enables _production mode_.
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* Bundling: concatenates your many application and library files into a few bundles.
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* Minification: removes excess whitespace, comments, and optional tokens.
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* Uglification: rewrites code to use short, cryptic variable and function names.
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* Dead code elimination: removes unreferenced modules and much unused code.
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See [`ng build`](cli/build) for more about CLI build options and what they do.
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{@a enable-prod-mode}
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### Enable runtime production mode
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In addition to build optimizations, Angular also has a runtime production mode. Angular apps run in development mode by default, as you can see by the following message on the browser console:
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<code-example format="nocode">
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Angular is running in the development mode. Call enableProdMode() to enable the production mode.
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</code-example>
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Switching to _production mode_ makes it run faster by disabling development specific checks such as the dual change detection cycles.
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When you enable production builds via `--prod` command line flag, the runtime production mode is enabled as well.
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{@a lazy-loading}
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### Lazy loading
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You can dramatically reduce launch time by only loading the application modules that
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absolutely must be present when the app starts.
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Configure the Angular Router to defer loading of all other modules (and their associated code), either by
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[waiting until the app has launched](guide/router#preloading "Preloading")
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or by [_lazy loading_](guide/router#asynchronous-routing "Lazy loading")
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them on demand.
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<div class="callout is-helpful">
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<header>Don't eagerly import something from a lazy-loaded module</header>
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If you mean to lazy-load a module, be careful not import it
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in a file that's eagerly loaded when the app starts (such as the root `AppModule`).
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If you do that, the module will be loaded immediately.
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The bundling configuration must take lazy loading into consideration.
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Because lazy-loaded modules aren't imported in JavaScript, bundlers exclude them by default.
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Bundlers don't know about the router configuration and can't create separate bundles for lazy-loaded modules.
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You would have to create these bundles manually.
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The CLI runs the
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[Angular Ahead-of-Time Webpack Plugin](https://github.com/angular/angular-cli/tree/master/packages/%40ngtools/webpack)
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which automatically recognizes lazy-loaded `NgModules` and creates separate bundles for them.
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</div>
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{@a measure}
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### Measure performance
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You can make better decisions about what to optimize and how when you have a clear and accurate understanding of
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what's making the application slow.
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The cause may not be what you think it is.
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You can waste a lot of time and money optimizing something that has no tangible benefit or even makes the app slower.
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You should measure the app's actual behavior when running in the environments that are important to you.
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The
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<a href="https://developers.google.com/web/tools/chrome-devtools/network-performance/understanding-resource-timing" title="Chrome DevTools Network Performance">
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Chrome DevTools Network Performance page</a> is a good place to start learning about measuring performance.
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The [WebPageTest](https://www.webpagetest.org/) tool is another good choice
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that can also help verify that your deployment was successful.
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{@a inspect-bundle}
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### Inspect the bundles
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The <a href="https://github.com/danvk/source-map-explorer/blob/master/README.md">source-map-explorer</a>
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tool is a great way to inspect the generated JavaScript bundles after a production build.
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Install `source-map-explorer`:
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<code-example language="none" class="code-shell">
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npm install source-map-explorer --save-dev
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</code-example>
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Build your app for production _including the source maps_
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<code-example language="none" class="code-shell">
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ng build --prod --source-map
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</code-example>
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List the generated bundles in the `dist/` folder.
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<code-example language="none" class="code-shell">
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ls dist/*.bundle.js
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</code-example>
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Run the explorer to generate a graphical representation of one of the bundles.
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The following example displays the graph for the _main_ bundle.
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<code-example language="none" class="code-shell">
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node_modules/.bin/source-map-explorer dist/main.*.bundle.js
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</code-example>
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The `source-map-explorer` analyzes the source map generated with the bundle and draws a map of all dependencies,
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showing exactly which classes are included in the bundle.
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Here's the output for the _main_ bundle of an example app called `cli-quickstart`.
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<figure>
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<img src="generated/images/guide/deployment/quickstart-sourcemap-explorer.png" alt="quickstart sourcemap explorer">
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</figure>
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{@a base-tag}
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## The `base` tag
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The HTML [_<base href="..."/>_](/guide/router)
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specifies a base path for resolving relative URLs to assets such as images, scripts, and style sheets.
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For example, given the `<base href="/my/app/">`, the browser resolves a URL such as `some/place/foo.jpg`
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into a server request for `my/app/some/place/foo.jpg`.
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During navigation, the Angular router uses the _base href_ as the base path to component, template, and module files.
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<div class="alert is-helpful">
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See also the [*APP_BASE_HREF*](api/common/APP_BASE_HREF "API: APP_BASE_HREF") alternative.
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</div>
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In development, you typically start the server in the folder that holds `index.html`.
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That's the root folder and you'd add `<base href="/">` near the top of `index.html` because `/` is the root of the app.
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But on the shared or production server, you might serve the app from a subfolder.
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For example, when the URL to load the app is something like `http://www.mysite.com/my/app/`,
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the subfolder is `my/app/` and you should add `<base href="/my/app/">` to the server version of the `index.html`.
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When the `base` tag is mis-configured, the app fails to load and the browser console displays `404 - Not Found` errors
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for the missing files. Look at where it _tried_ to find those files and adjust the base tag appropriately.
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{@a differential-loading}
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## Differential Loading
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When building web applications, making sure your application is compatible with the majority of browsers is a goal.
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Even as JavaScript continues to evolve, with new features being introduced, not all browsers are updated with support for these new features at the same pace.
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The code you write in development using TypeScript is compiled and bundled into ES2015, the JavaScript syntax that is compatible with most browsers.
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All modern browsers support ES2015 and beyond, but in most cases, you still have to account for users accessing your application from a browser that doesn't.
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When targeting older browsers, [polyfills](guide/browser-support#polyfills) can bridge the gap by providing functionality that doesn't exist in the older versions of JavaScript supported by those browsers.
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To maximize compatibility, you could ship a single bundle that includes all your compiled code, plus any polyfills that may be needed.
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Users with modern browsers, however, shouldn't have to pay the price of increased bundle size that comes with polyfills they don't need.
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Differential loading, which is supported by default in Angular CLI version 8 and higher, solves this problem.
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Differential loading is a strategy where the CLI builds two separate bundles as part of your deployed application.
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* The first bundle contains modern ES2015 syntax, takes advantage of built-in support in modern browsers, ships less polyfills, and results in a smaller bundle size.
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* The second bundle contains code in the old ES5 syntax, along with all necessary polyfills. This results in a larger bundle size, but supports older browsers.
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This strategy allows you to continue to build your web application to support multiple browsers, but only load the necessary code that the browser needs.
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### Differential builds
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The Angular CLI handles differential loading for you as part of the _build_ process for deployment.
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The `ng build` command produces the necessary bundles used for differential loading, based on your browser support requirements and compilation target.
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The Angular CLI uses two configurations for differential loading:
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* Browsers list
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The `browserslist` configuration file is included in your application [project structure](guide/file-structure#application-configuration-files) and provides the minimum browsers your application supports. See the [Browserslist spec](https://github.com/browserslist/browserslist) for complete configuration options.
|
|
|
|
* TypeScript configuration
|
|
In the TypeScript configuration file, `tsconfig.json`, the `target` in the `compilerOptions` section determines the ECMAScript target version that the code is compiled to.
|
|
Modern browsers support ES2015 natively, while ES5 is more commonly used to support legacy browsers.
|
|
|
|
<div class="alert is-helpful">
|
|
|
|
Differential loading is currently only supported when using `es2015` as a compilation `target`. When used with targets higher than `es2015`, a warning is emitted during build time.
|
|
|
|
</div>
|
|
|
|
The CLI queries the Browserslist configuration, and checks the `target` to determine if support for legacy browsers is required.
|
|
The combination of these two configurations determines whether multiple bundles are produced when you create a _build_.
|
|
When you create a development build using [`ng build`](cli/build) and differential loading is enabled, the output produced is simpler and easier to debug, allowing you to rely less on sourcemaps of compiled code.
|
|
When you create a production build using [`ng build --prod`](cli/build), the CLI uses the defined configurations above to determine the bundles to build for deployment of your application.
|
|
|
|
The `index.html` file is also modified during the build process to include script tags that enable differential loading. See the sample output below from the `index.html` file produced during a build using `ng build`.
|
|
|
|
<code-example language="html">
|
|
<body>
|
|
<app-root></app-root>
|
|
<script src="runtime-es2015.js" type="module"></script>
|
|
<script src="runtime-es5.js" nomodule></script>
|
|
<script src="polyfills-es2015.js" type="module"></script>
|
|
<script src="polyfills-es5.js" nomodule></script>
|
|
<script src="styles-es2015.js" type="module"></script>
|
|
<script src="styles-es5.js" nomodule></script>
|
|
<script src="vendor-es2015.js" type="module"></script>
|
|
<script src="vendor-es5.js" nomodule></script>
|
|
<script src="main-es2015.js" type="module"></script>
|
|
<script src="main-es5.js" nomodule></script>
|
|
</body>
|
|
</code-example>
|
|
|
|
Each script tag has a `type="module"` or `nomodule` attribute. Browsers with native support for ES modules only load the scripts with the `module` type attribute and ignore scripts with the `nomodule` attribute. Legacy browsers only load the scripts with the `nomodule` attribute, and ignore the script tags with the `module` type that load ES modules.
|
|
|
|
<div class="alert is-helpful">
|
|
|
|
Some legacy browsers still download both bundles, but only execute the appropriate scripts based on the attributes mentioned above. You can read more on the issue [here](https://github.com/philipwalton/webpack-esnext-boilerplate/issues/1).
|
|
|
|
</div>
|
|
|
|
See the [configuration table](#configuration-table) below for the configurations for enabling differential loading.
|
|
|
|
### Configuring differential loading
|
|
|
|
Differential loading is supported by default with version 8 and later of the Angular CLI.
|
|
For each application project in your workspace, you can configure how builds are produced based on the `browserslist` and `tsconfig.json` files in your application project.
|
|
|
|
For a newly created Angular application, the default `browserslist` looks like this:
|
|
|
|
```
|
|
> 0.5%
|
|
last 2 versions
|
|
Firefox ESR
|
|
not dead
|
|
not IE 9-11 # For IE 9-11 support, remove 'not'.
|
|
```
|
|
|
|
The `tsconfig.json` looks like this:
|
|
|
|
<code-example language="json">
|
|
|
|
{
|
|
"compileOnSave": false,
|
|
"compilerOptions": {
|
|
"baseUrl": "./",
|
|
"outDir": "./dist/out-tsc",
|
|
"sourceMap": true,
|
|
"declaration": false,
|
|
"module": "esnext",
|
|
"moduleResolution": "node",
|
|
"emitDecoratorMetadata": true,
|
|
"experimentalDecorators": true,
|
|
"importHelpers": true,
|
|
"target": "es2015",
|
|
"typeRoots": [
|
|
"node_modules/@types"
|
|
],
|
|
"lib": [
|
|
"es2018",
|
|
"dom"
|
|
]
|
|
}
|
|
}
|
|
|
|
</code-example>
|
|
|
|
By default, legacy browsers such as IE 9-11 are ignored, and the compilation target is ES2015. As a result, this produces two builds, and differential loading is enabled. If you ignore browsers without ES2015 support, a single build is produced. To see the build result for differential loading based on different configurations, refer to the table below.
|
|
|
|
<div class="alert is-important">
|
|
|
|
To see which browsers are supported with the above configuration, see which settings meet to your browser support requirements, see the [Browserslist compatibility page](https://browserl.ist/?q=%3E+0.5%25%2C+last+2+versions%2C+Firefox+ESR%2C+not+dead%2C+not+IE+9-11).
|
|
|
|
</div>
|
|
|
|
{@a configuration-table }
|
|
|
|
| ES5 Browserslist Result | ES Target | Build Result |
|
|
| -------- | -------- | -------- |
|
|
| disabled | es5 | Single build |
|
|
| enabled | es5 | Single build w/Conditional Polyfills |
|
|
| disabled | es2015 | Single build |
|
|
| enabled | es2015 | Differential Loading (Two builds w/Conditional Polyfills |
|
|
|
|
When the ES5 Browserslist result is `disabled`, then ES5 browser support is not required. Otherwise, ES5 browser support is required.
|
|
|
|
### Opting out of differential loading
|
|
|
|
Differential loading can be explicitly disabled if it causes unexpected issues or you need to target ES5 specifically for legacy browser support.
|
|
|
|
To explicitly disable differential loading:
|
|
|
|
- Enable the `dead` or `IE` browsers in the `browserslist` config file by removing the `not` keyword in front of them.
|
|
- Set the `target` in the `compilerOptions` to `es5`.
|
|
|
|
{@a test-and-serve}
|
|
|
|
## Local development in older browsers
|
|
|
|
In Angular CLI version 8 and higher, differential loading is enabled by default for the `ng build` command.
|
|
The `ng serve`, `ng test`, and `ng e2e` commands, however, generate a single ES2015 build which cannot run in older browsers that don't support the modules, such as IE 11.
|
|
|
|
If you want to run ES5 code during development, you could disable differential loading completely.
|
|
To maintain the benefits of differential loading, however, a better option is to define multiple configurations for `ng serve`, `ng e2e`, and `ng test`.
|
|
|
|
{@a differential-serve}
|
|
|
|
### Configuring serve for ES5
|
|
|
|
To do this for `ng serve`, create a new file, `tsconfig-es5.app.json` next to `tsconfig.app.json` with the following content.
|
|
|
|
<code-example language="json">
|
|
|
|
{
|
|
"extends": "./tsconfig.app.json",
|
|
"compilerOptions": {
|
|
"target": "es5"
|
|
}
|
|
}
|
|
|
|
</code-example>
|
|
|
|
In `angular.json` add two new configuration sections under the `build` and `serve` targets to point to the new TypeScript configuration.
|
|
|
|
<code-example language="json">
|
|
|
|
"build": {
|
|
"builder": "@angular-devkit/build-angular:browser",
|
|
"options": {
|
|
...
|
|
},
|
|
"configurations": {
|
|
"production": {
|
|
...
|
|
},
|
|
"es5": {
|
|
"tsConfig": "./tsconfig-es5.app.json"
|
|
}
|
|
}
|
|
},
|
|
"serve": {
|
|
"builder": "@angular-devkit/build-angular:dev-server",
|
|
"options": {
|
|
...
|
|
},
|
|
"configurations": {
|
|
"production": {
|
|
...
|
|
},
|
|
"es5": {
|
|
"browserTarget": "<app-name>:build:es5"
|
|
}
|
|
}
|
|
},
|
|
|
|
</code-example>
|
|
|
|
You can then run the `ng serve` command with this configuration. Make sure to replace `<app-name>` (in `"<app-name>:build:es5"`) with the actual name of the app, as it appears under `projects` in `angular.json`. For example, if your app name is `myAngularApp` the config will become `"browserTarget": "myAngularApp:build:es5"`.
|
|
|
|
<code-example language="none" class="code-shell">
|
|
|
|
ng serve --configuration es5
|
|
|
|
</code-example>
|
|
|
|
{@a differential-test}
|
|
|
|
### Configuring the test command
|
|
|
|
Create a new file, `tsconfig-es5.spec.json` next to `tsconfig.spec.json` with the following content.
|
|
|
|
<code-example language="json">
|
|
|
|
{
|
|
"extends": "./tsconfig.spec.json",
|
|
"compilerOptions": {
|
|
"target": "es5"
|
|
}
|
|
}
|
|
|
|
</code-example>
|
|
|
|
<code-example language="json">
|
|
|
|
"test": {
|
|
"builder": "@angular-devkit/build-angular:karma",
|
|
"options": {
|
|
...
|
|
},
|
|
"configurations": {
|
|
"es5": {
|
|
"tsConfig": "./tsconfig-es5.spec.json"
|
|
}
|
|
}
|
|
},
|
|
|
|
</code-example>
|
|
|
|
You can then run the tests with this configuration
|
|
|
|
<code-example language="none" class="code-shell">
|
|
|
|
ng test --configuration es5
|
|
|
|
</code-example>
|
|
|
|
### Configuring the e2e command
|
|
|
|
Create an [ES5 serve configuration](guide/deployment#configuring-serve-for-es5) as explained above, and configuration an ES5 configuration for the E2E target.
|
|
|
|
<code-example language="json">
|
|
|
|
"e2e": {
|
|
"builder": "@angular-devkit/build-angular:protractor",
|
|
"options": {
|
|
...
|
|
},
|
|
"configurations": {
|
|
"production": {
|
|
...
|
|
},
|
|
"es5": {
|
|
"devServerTarget": "<app-name>:serve:es5"
|
|
}
|
|
}
|
|
},
|
|
|
|
</code-example>
|
|
|
|
You can then run the `ng e2e` command with this configuration. Make sure to replace `<app-name>` (in `"<app-name>:serve:es5"`) with the actual name of the app, as it appears under `projects` in `angular.json`. For example, if your app name is `myAngularApp` the config will become `"devServerTarget": "myAngularApp:serve:es5"`.
|
|
|
|
<code-example language="none" class="code-shell">
|
|
|
|
ng e2e --configuration es5
|
|
|
|
</code-example>
|