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

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@title Forms

@intro A form creates a cohesive, effective, and compelling data entry experience. An Angular form coordinates a set of data-bound user controls, tracks changes, validates input, and presents errors.

@description

Forms are the mainstay of business applications. You use forms to log in, submit a help request, place an order, book a flight, schedule a meeting, and perform countless other data-entry tasks.

In developing a form, it's important to create a data-entry experience that guides the user efficiently and effectively through the workflow.

Developing forms requires design skills (which are out of scope for this page), as well as framework support for two-way data binding, change tracking, validation, and error handling, which you'll learn about on this page.

This page shows you how to build a simple form from scratch. Along the way you'll learn how to:

  • Build an Angular form with a component and template.
  • Use ngModel to create two-way data bindings for reading and writing input-control values.
  • Track state changes and the validity of form controls.
  • Provide visual feedback using special CSS classes that track the state of the controls.
  • Display validation errors to users and enable/disable form controls.
  • Share information across HTML elements using template reference variables.

You can run the in Plunker and download the code from there.

Template-driven forms

You can build forms by writing templates in the Angular template syntax with the form-specific directives and techniques described in this page.

You can also use a reactive (or model-driven) approach to build forms. However, this page focuses on template-driven forms.

You can build almost any form with an Angular template—login forms, contact forms, and pretty much any business form. You can lay out the controls creatively, bind them to data, specify validation rules and display validation errors, conditionally enable or disable specific controls, trigger built-in visual feedback, and much more.

Angular makes the process easy by handling many of the repetitive, boilerplate tasks you'd otherwise wrestle with yourself.

You'll learn to build a template-driven form that looks like this:

Clean Form

The Hero Employment Agency uses this form to maintain personal information about heroes. Every hero needs a job. It's the company mission to match the right hero with the right crisis.

Two of the three fields on this form are required. Required fields have a green bar on the left to make them easy to spot.

If you delete the hero name, the form displays a validation error in an attention-grabbing style:

Invalid, Name Required

Note that the Submit button is disabled, and the "required" bar to the left of the input control changes from green to red.

You can customize the colors and location of the "required" bar with standard CSS.

You'll build this form in small steps:

  1. Create the Hero model class.
  2. Create the component that controls the form.
  3. Create a template with the initial form layout.
  4. Bind data properties to each form control using the ngModel two-way data-binding syntax.
  5. Add a name attribute to each form-input control.
  6. Add custom CSS to provide visual feedback.
  7. Show and hide validation-error messages.
  8. Handle form submission with ngSubmit.
  9. Disable the forms Submit button until the form is valid.

Setup

Follow the setup instructions for creating a new project named angular-forms.

Create the Hero model class

As users enter form data, you'll capture their changes and update an instance of a model. You can't lay out the form until you know what the model looks like.

A model can be as simple as a "property bag" that holds facts about a thing of application importance. That describes well the Hero class with its three required fields (id, name, power) and one optional field (alterEgo).

In the app directory, create the following file with the given content:

It's an anemic model with few requirements and no behavior. Perfect for the demo.

The TypeScript compiler generates a public field for each public constructor parameter and automatically assigns the parameters value to that field when you create heroes.

The alterEgo is optional, so the constructor lets you omit it; note the question mark (?) in alterEgo?.

You can create a new hero like this:

Create a form component

An Angular form has two parts: an HTML-based template and a component class to handle data and user interactions programmatically. Begin with the class because it states, in brief, what the hero editor can do.

Create the following file with the given content:

Theres nothing special about this component, nothing form-specific, nothing to distinguish it from any component you've written before.

Understanding this component requires only the Angular concepts covered in previous pages.

  • The code imports the Angular core library and the Hero model you just created.
  • The @Component selector value of "hero-form" means you can drop this form in a parent template with a <hero-form> tag.
  • The templateUrl property points to a separate file for the template HTML.
  • You defined dummy data for model and powers, as befits a demo.

Down the road, you can inject a data service to get and save real data or perhaps expose these properties as inputs and outputs (see Input and output properties on the Template Syntax page) for binding to a parent component. This is not a concern now and these future changes won't affect the form.

  • You added a diagnostic property to return a JSON representation of the model. It'll help you see what you're doing during development; you've left yourself a cleanup note to discard it later.

Why the separate template file?

Why don't you write the template inline in the component file as you often do elsewhere?

There is no "right" answer for all occasions. Inline templates are useful when they are short. Most form templates aren't short. TypeScript and JavaScript files generally aren't the best place to write (or read) large stretches of HTML, and few editors help with files that have a mix of HTML and code.

Form templates tend to be large, even when displaying a small number of fields, so it's usually best to put the HTML template in a separate file. You'll write that template file in a moment. First, revise the app.module.ts and app.component.ts to make use of the new HeroFormComponent.

Revise app.module.ts

app.module.ts defines the application's root module. In it you identify the external modules you'll use in the application and declare the components that belong to this module, such as the HeroFormComponent.

Because template-driven forms are in their own module, you need to add the FormsModule to the array of imports for the application module before you can use forms.

Replace the contents of the "QuickStart" version with the following:

There are three changes:

  1. You import FormsModule and the new HeroFormComponent.

  2. You add the FormsModule to the list of imports defined in the ngModule decorator. This gives the application access to all of the template-driven forms features, including ngModel.

  3. You add the HeroFormComponent to the list of declarations defined in the ngModule decorator. This makes the HeroFormComponent component visible throughout this module.

If a component, directive, or pipe belongs to a module in the imports array, _don't_ re-declare it in the declarations array. If you wrote it and it should belong to this module, _do_ declare it in the declarations array.

Revise app.component.ts

AppComponent is the application's root component. It will host the new HeroFormComponent.

Replace the contents of the "QuickStart" version with the following:

There are only two changes. The template is simply the new element tag identified by the component's selector property. This displays the hero form when the application component is loaded. You've also dropped the name field from the class body.

Create an initial HTML form template

Create the template file with the following contents:

The language is simply HTML5. You're presenting two of the Hero fields, name and alterEgo, and opening them up for user input in input boxes.

The Name <input> control has the HTML5 required attribute; the Alter Ego <input> control does not because alterEgo is optional.

You added a Submit button at the bottom with some classes on it for styling.

You're not using Angular yet. There are no bindings or extra directives, just layout.

In template driven forms, if you've imported FormsModule, you don't have to do anything to the <form> tag in order to make use of FormsModule. Continue on to see how this works.

The container, form-group, form-control, and btn classes come from Twitter Bootstrap. These classes are purely cosmetic. Bootstrap gives the form a little style.

Angular forms don't require a style library

Angular makes no use of the container, form-group, form-control, and btn classes or the styles of any external library. Angular apps can use any CSS library or none at all.

To add the stylesheet, open index.html and add the following link to the <head>:

Add powers with *ngFor

The hero must choose one superpower from a fixed list of agency-approved powers. You maintain that list internally (in HeroFormComponent).

You'll add a select to the form and bind the options to the powers list using ngFor, a technique seen previously in the Displaying Data page.

Add the following HTML immediately below the Alter Ego group:

This code repeats the <option> tag for each power in the list of powers. The pow template input variable is a different power in each iteration; you display its name using the interpolation syntax.

Two-way data binding with ngModel

Running the app right now would be disappointing.

Early form with no binding

You don't see hero data because you're not binding to the Hero yet. You know how to do that from earlier pages. Displaying Data teaches property binding. User Input shows how to listen for DOM events with an event binding and how to update a component property with the displayed value.

Now you need to display, listen, and extract at the same time.

You could use the techniques you already know, but instead you'll use the new [(ngModel)] syntax, which makes binding the form to the model easy.

Find the <input> tag for Name and update it like this:

You added a diagnostic interpolation after the input tag so you can see what you're doing. You left yourself a note to throw it away when you're done.

Focus on the binding syntax: [(ngModel)]="...".

You need one more addition to display the data. Declare a template variable for the form. Update the <form> tag with #heroForm="ngForm" as follows:

The variable heroForm is now a reference to the NgForm directive that governs the form as a whole.

The NgForm directive

What NgForm directive? You didn't add an NgForm directive.

Angular did. Angular automatically creates and attaches an NgForm directive to the <form> tag.

The NgForm directive supplements the form element with additional features. It holds the controls you created for the elements with an ngModel directive and name attribute, and monitors their properties, including their validity. It also has its own valid property which is true only if every contained control is valid.

If you ran the app now and started typing in the Name input box, adding and deleting characters, you'd see them appear and disappear from the interpolated text. At some point it might look like this:

ngModel in action

The diagnostic is evidence that values really are flowing from the input box to the model and back again.

That's two-way data binding. For more information, see Two-way binding with NgModel on the the Template Syntax page.

Notice that you also added a name attribute to the <input> tag and set it to "name", which makes sense for the hero's name. Any unique value will do, but using a descriptive name is helpful. Defining a name attribute is a requirement when using [(ngModel)] in combination with a form.

Internally, Angular creates FormControl instances and registers them with an NgForm directive that Angular attached to the <form> tag. Each FormControl is registered under the name you assigned to the name attribute. Read more in the previous section, The NgForm directive.

Add similar [(ngModel)] bindings and name attributes to Alter Ego and Hero Power. You'll ditch the input box binding message and add a new binding (at the top) to the component's diagnostic property. Then you can confirm that two-way data binding works for the entire hero model.

After revision, the core of the form should look like this:

  • Each input element has an id property that is used by the label element's for attribute to match the label to its input control.
  • Each input element has a name property that is required by Angular forms to register the control with the form.

If you run the app now and change every hero model property, the form might display like this:

ngModel in action

The diagnostic near the top of the form confirms that all of your changes are reflected in the model.

Delete the {{diagnostic}} binding at the top as it has served its purpose.

Track control state and validity with ngModel

Using ngModel in a form gives you more than just two-way data binding. It also tells you if the user touched the control, if the value changed, or if the value became invalid.

The NgModel directive doesn't just track state; it updates the control with special Angular CSS classes that reflect the state. You can leverage those class names to change the appearance of the control.

<th>
  State
</th>

<th>
  Class if true
</th>

<th>
  Class if false
</th>
<td>
  The control has been visited.
</td>

<td>
  <code>ng-touched</code>
</td>

<td>
  <code>ng-untouched</code>
</td>
<td>
  The control's value has changed.
</td>

<td>
  <code>ng-dirty</code>
</td>

<td>
  <code>ng-pristine</code>
</td>
<td>
  The control's value is valid.
</td>

<td>
  <code>ng-valid</code>
</td>

<td>
  <code>ng-invalid</code>
</td>

Temporarily add a template reference variable named spy to the Name <input> tag and use it to display the input's CSS classes.

Now run the app and look at the Name input box. Follow these steps precisely:

  1. Look but don't touch.
  2. Click inside the name box, then click outside it.
  3. Add slashes to the end of the name.
  4. Erase the name.

The actions and effects are as follows:

Control State Transition

You should see the following transitions and class names:

Control state transitions

The ng-valid/ng-invalid pair is the most interesting, because you want to send a strong visual signal when the values are invalid. You also want to mark required fields. To create such visual feedback, add definitions for the ng-* CSS classes.

Delete the #spy template reference variable and the TODO as they have served their purpose.

Add custom CSS for visual feedback

You can mark required fields and invalid data at the same time with a colored bar on the left of the input box:

Invalid Form

You achieve this effect by adding these class definitions to a new forms.css file that you add to the project as a sibling to index.html:

Update the <head> of index.html to include this style sheet:

Show and hide validation error messages

You can improve the form. The Name input box is required and clearing it turns the bar red. That says something is wrong but the user doesn't know what is wrong or what to do about it. Leverage the control's state to reveal a helpful message.

When the user deletes the name, the form should look like this:

Name required

To achieve this effect, extend the <input> tag with the following:

Here's an example of an error message added to the name input box:

You need a template reference variable to access the input box's Angular control from within the template. Here you created a variable called name and gave it the value "ngModel".

Why "ngModel"? A directive's exportAs property tells Angular how to link the reference variable to the directive. You set name to ngModel because the ngModel directive's exportAs property happens to be "ngModel".

You control visibility of the name error message by binding properties of the name control to the message <div> element's hidden property.

In this example, you hide the message when the control is valid or pristine; "pristine" means the user hasn't changed the value since it was displayed in this form.

This user experience is the developer's choice. Some developers want the message to display at all times. If you ignore the pristine state, you would hide the message only when the value is valid. If you arrive in this component with a new (blank) hero or an invalid hero, you'll see the error message immediately, before you've done anything.

Some developers want the message to display only when the user makes an invalid change. Hiding the message while the control is "pristine" achieves that goal. You'll see the significance of this choice when you add a new hero to the form.

The hero Alter Ego is optional so you can leave that be.

Hero Power selection is required. You can add the same kind of error handling to the <select> if you want, but it's not imperative because the selection box already constrains the power to valid values.

Now you'll add a new hero in this form. Place a New Hero button at the bottom of the form and bind its click event to a newHero component method.

Run the application again, click the New Hero button, and the form clears. The required bars to the left of the input box are red, indicating invalid name and power properties. That's understandable as these are required fields. The error messages are hidden because the form is pristine; you haven't changed anything yet.

Enter a name and click New Hero again. The app displays a Name is required error message. You don't want error messages when you create a new (empty) hero. Why are you getting one now?

Inspecting the element in the browser tools reveals that the name input box is no longer pristine. The form remembers that you entered a name before clicking New Hero. Replacing the hero object did not restore the pristine state of the form controls.

You have to clear all of the flags imperatively, which you can do by calling the form's reset() method after calling the newHero() method.

Now clicking "New Hero" resets both the form and its control flags.

Submit the form with ngSubmit

The user should be able to submit this form after filling it in. The Submit button at the bottom of the form does nothing on its own, but it will trigger a form submit because of its type (type="submit").

A "form submit" is useless at the moment. To make it useful, bind the form's ngSubmit event property to the hero form component's onSubmit() method:

You'd already defined a template reference variable, #heroForm, and initialized it with the value "ngForm". Now, use that variable to access the form with the Submit button.

You'll bind the form's overall validity via the heroForm variable to the button's disabled property using an event binding. Here's the code:

If you run the application now, you find that the button is enabled—although it doesn't do anything useful yet.

Now if you delete the Name, you violate the "required" rule, which is duly noted in the error message. The Submit button is also disabled.

Not impressed? Think about it for a moment. What would you have to do to wire the button's enable/disabled state to the form's validity without Angular's help?

For you, it was as simple as this:

  1. Define a template reference variable on the (enhanced) form element.
  2. Refer to that variable in a button many lines away.

Toggle two form regions (extra credit)

Submitting the form isn't terribly dramatic at the moment.

An unsurprising observation for a demo. To be honest, jazzing it up won't teach you anything new about forms. But this is an opportunity to exercise some of your newly won binding skills. If you aren't interested, skip to this page's conclusion.

For a more strikingly visual effect, hide the data entry area and display something else.

Wrap the form in a <div> and bind its hidden property to the HeroFormComponent.submitted property.

The main form is visible from the start because the submitted property is false until you submit the form, as this fragment from the HeroFormComponent shows:

When you click the Submit button, the submitted flag becomes true and the form disappears as planned.

Now the app needs to show something else while the form is in the submitted state. Add the following HTML below the <div> wrapper you just wrote:

There's the hero again, displayed read-only with interpolation bindings. This <div> appears only while the component is in the submitted state.

The HTML includes an Edit button whose click event is bound to an expression that clears the submitted flag.

When you click the Edit button, this block disappears and the editable form reappears.

Conclusion

The Angular form discussed in this page takes advantage of the following framework features to provide support for data modification, validation, and more:

  • An Angular HTML form template.
  • A form component class with a @Component decorator.
  • Handling form submission by binding to the NgForm.ngSubmit event property.
  • Template-reference variables such as #heroForm and #name.
  • [(ngModel)] syntax for two-way data binding.
  • The use of name attributes for validation and form-element change tracking.
  • The reference variables valid property on input controls to check if a control is valid and show/hide error messages.
  • Controlling the Submit button's enabled state by binding to NgForm validity.
  • Custom CSS classes that provide visual feedback to users about invalid controls.

The final project folder structure should look like this:

angular-forms
<div class='file'>
  src
</div>

<div class='children'>

  <div class='file'>
    app
  </div>

  <div class='children'>

    <div class='file'>
      app.component.ts
    </div>

    <div class='file'>
      app.module.ts
    </div>

    <div class='file'>
      hero.ts
    </div>

    <div class='file'>
      hero-form.component.html
    </div>

    <div class='file'>
      hero-form.component.ts
    </div>

  </div>

  <div class='file'>
    main.ts
  </div>

  <div class='file'>
    tsconfig.json
  </div>

  <div class='file'>
    index.html
  </div>

</div>

<div class='file'>
  node_modules ...
</div>

<div class='file'>
  package.json
</div>

Heres the code for the final version of the application: