* The [two types of forms that Angular supports](guide/forms-overview "Introduction to Angular forms").
* Basics of either [Template-driven Forms](guide/forms "Template-driven forms guide") or [Reactive Forms](guide/reactive-forms "Reactive forms guide").
*`#name="ngModel"` exports `NgModel` into a local variable called `name`. `NgModel` mirrors many of the properties of its underlying
`FormControl` instance, so you can use this in the template to check for control states such as `valid` and `dirty`. For a full list of control properties, see the [AbstractControl](api/forms/AbstractControl)
To prevent the validator from displaying errors before the user has a chance to edit the form, you should check for either the `dirty` or `touched` states in a control.
In a reactive form, the source of truth is the component class.
Instead of adding validators through attributes in the template, you add validator functions directly to the form control model in the component class.
Angular then calls these functions whenever the value of the control changes.
* **Sync validators**: Synchronous functions that take a control instance and immediately return either a set of validation errors or `null`. You can pass these in as the second argument when you instantiate a `FormControl`.
The same built-in validators that are available as attributes in template-driven forms, such as `required` and `minlength`, are all available to use as functions from the `Validators` class.
For a full list of built-in validators, see the [Validators](api/forms/Validators) API reference.
In this example, the `name` control sets up two built-in validators—`Validators.required` and `Validators.minLength(4)`—and one custom validator, `forbiddenNameValidator`. (For more details see [custom validators](#custom-validators) below.)
All of these validators are synchronous, so they are passed as the second argument. Notice that you can support multiple validators by passing the functions in as an array.
This example also adds a few getter methods. In a reactive form, you can always access any form control through the `get` method on its parent group, but sometimes it's useful to define getters as shorthand for the template.
<code-examplepath="form-validation/src/app/reactive/hero-form-reactive.component.html"region="name-with-error-msg"header="reactive/hero-form-reactive.component.html (name with error msg)"></code-example>
This form differs from the template-driven version in that it no longer exports any directives. Instead, it uses the `name` getter defined in the component class.
Notice that the `required` attribute is still present in the template. Although it's not necessary for validation, it should be retained to for accessibility purposes.
Custom async validators are similar to sync validators, but they must instead return a Promise or observable that later emits null or a validation error object.
In the case of an observable, the observable must complete, at which point the form uses the last value emitted for validation.
Angular recognizes the directive's role in the validation process because the directive registers itself with the `NG_VALIDATORS` provider, as shown in the following example.
`NG_VALIDATORS` is a predefined provider with an extensible collection of validators.
Notice that the custom validation directive is instantiated with `useExisting` rather than `useClass`. The registered validator must be _this instance_ of
Angular automatically mirrors many control properties onto the form control element as CSS classes. You can use these classes to style form control elements according to the state of the form.
A cross-field validator is a [custom validator](#custom-validators "Read about custom validators") that compares the values of different fields in a form and accepts or rejects them in combination.
For example, you might have a form that offers mutually incompatible options, so that if the user can choose A or B, but not both.
Some field values might also depend on others; a user might be allowed to choose B only if A is also chosen.
The examples use cross-validation to ensure that heroes do not reveal their true identities by filling out the Hero Form. The validators do this by checking that the hero names and alter egos do not match.
The `identity` validator implements the `ValidatorFn` interface. It takes an Angular control object as an argument and returns either null if the form is valid, or `ValidationErrors` otherwise.
The validator retrieves the child controls by calling the `FormGroup`'s [get](api/forms/AbstractControl#get) method, then compares the values of the `name` and `alterEgo` controls.
This `*ngIf` displays the error if the `FormGroup` has the cross validation error returned by the `identityRevealed` validator, but only if the user has finished [interacting with the form](#dirty-or-touched).
### Adding cross-validation to template-driven forms
For a template-driven form, you must create a directive to wrap the validator function.
You provide that directive as the validator using the [`NG_VALIDATORS` token](#adding-to-template-driven-forms "Read about providing validators"), as shown in the following example.
Asynchronous validation happens after the synchronous validation, and is performed only if the synchronous validation is successful.
This check allows forms to avoid potentially expensive async validation processes (such as an HTTP request) if the more basic validation methods have already found invalid input.
After asynchronous validation begins, the form control enters a `pending` state. You can inspect the control's `pending` property and use it to give visual feedback about the ongoing validation operation.
A common UI pattern is to show a spinner while the async validation is being performed. The following example shows how to achieve this in a template-driven form.
In the following example, an async validator ensures that heroes pick an alter ego that is not already taken.
New heroes are constantly enlisting and old heroes are leaving the service, so the list of available alter egos cannot be retrieved ahead of time.
To validate the potential alter ego entry, the validator must initiate an asynchronous operation to consult a central database of all currently enlisted heroes.
In a real world application, the `HeroesService` would be responsible for making an HTTP request to the hero database to check if the alter ego is available.
From the validator's point of view, the actual implementation of the service is not important, so the example can just code against the `HeroesService` interface.
The method then, like any validator, returns `null` if the form is valid, and `ValidationErrors` if it is not.
This validator handles any potential errors with the `catchError` operator.
In this case, the validator treats the `isAlterEgoTaken()` error as a successful validation, because failure to make a validation request does not necessarily mean that the alter ego is invalid.
You could handle the error differently and return the `ValidationError` object instead.
By default, all validators run after every form value change. With synchronous validators, this does not normally have a noticeable impact on application performance.
Async validators, however, commonly perform some kind of HTTP request to validate the control. Dispatching an HTTP request after every keystroke could put a strain on the backend API, and should be avoided if possible.