Form Validation
Improve overall data quality by validating user input for accuracy and completeness.
This page shows how to validate user input in the UI and display useful validation messages using both reactive and template-driven forms. It assumes some basic knowledge of the two forms modules.
If you're new to forms, start by reviewing the Forms and Reactive Forms guides.
Template-driven validation
To add validation to a template-driven form, you add the same validation attributes as you would with native HTML form validation. Angular uses directives to match these attributes with validator functions in the framework.
Every time the value of a form control changes, Angular runs validation and generates either a list of validation errors, which results in an INVALID status, or null, which results in a VALID status.
You can then inspect the control's state by exporting ngModel
to a local template variable.
The following example exports NgModel
into a variable called name
:
<input id="name" name="name" class="form-control"
required minlength="4" appForbiddenName="bob"
[(ngModel)]="hero.name" #name="ngModel" >
<div *ngIf="name.invalid && (name.dirty || name.touched)"
class="alert alert-danger">
<div *ngIf="name.errors.required">
Name is required.
</div>
<div *ngIf="name.errors.minlength">
Name must be at least 4 characters long.
</div>
<div *ngIf="name.errors.forbiddenName">
Name cannot be Bob.
</div>
</div>
Note the following:
-
The
<input>
element carries the HTML validation attributes:required
andminlength
. It also carries a custom validator directive,forbiddenName
. For more information, see Custom validators section. -
#name="ngModel"
exportsNgModel
into a local variable calledname
.NgModel
mirrors many of the properties of its underlyingFormControl
instance, so you can use this in the template to check for control states such asvalid
anddirty
. For a full list of control properties, see the AbstractControl API reference. -
The
*ngIf
on the<div>
element reveals a set of nested messagedivs
but only if thename
is invalid and the control is eitherdirty
ortouched
. -
Each nested
<div>
can present a custom message for one of the possible validation errors. There are messages forrequired
,minlength
, andforbiddenName
.
Why check dirty and touched?
You may not want your application to display errors before the user has a chance to edit the form.
The checks for dirty
and touched
prevent errors from showing until the user
does one of two things: changes the value,
turning the control dirty; or blurs the form control element, setting the control to touched.
Reactive form validation
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.
Validator functions
There are two types of validator functions: sync validators and async validators.
-
Sync validators: 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 aFormControl
. -
Async validators: functions that take a control instance and return a Promise or Observable that later emits a set of validation errors or
null
. You can pass these in as the third argument when you instantiate aFormControl
.
Note: for performance reasons, Angular only runs async validators if all sync validators pass. Each must complete before errors are set.
Built-in validators
You can choose to write your own validator functions, or you can use some of Angular's built-in validators.
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 reference.
To update the hero form to be a reactive form, you can use some of the same built-in validators—this time, in function form. See below:
ngOnInit(): void {
this.heroForm = new FormGroup({
'name': new FormControl(this.hero.name, [
Validators.required,
Validators.minLength(4),
forbiddenNameValidator(/bob/i) // <-- Here's how you pass in the custom validator.
]),
'alterEgo': new FormControl(this.hero.alterEgo),
'power': new FormControl(this.hero.power, Validators.required)
});
}
get name() { return this.heroForm.get('name'); }
get power() { return this.heroForm.get('power'); }
Note that:
- The name control sets up two built-in validators—
Validators.required
andValidators.minLength(4)
—and one custom validator,forbiddenNameValidator
. For more details see the Custom validators section in this guide. - As these validators are all sync validators, you pass them in as the second argument.
- Support multiple validators by passing the functions in as an array.
- This example 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 shorthands for the template.
If you look at the template for the name input again, it is fairly similar to the template-driven example.
<input id="name" class="form-control"
formControlName="name" required >
<div *ngIf="name.invalid && (name.dirty || name.touched)"
class="alert alert-danger">
<div *ngIf="name.errors.required">
Name is required.
</div>
<div *ngIf="name.errors.minlength">
Name must be at least 4 characters long.
</div>
<div *ngIf="name.errors.forbiddenName">
Name cannot be Bob.
</div>
</div>
Key takeaways:
- The form no longer exports any directives, and instead uses the
name
getter defined in the component class. - The
required
attribute is still present. While it's not necessary for validation purposes, you may want to keep it in your template for CSS styling or accessibility reasons.
Custom validators
Since the built-in validators won't always match the exact use case of your application, sometimes you'll want to create a custom validator.
Consider the forbiddenNameValidator
function from previous
examples in
this guide. Here's what the definition of that function looks like:
/** A hero's name can't match the given regular expression */
export function forbiddenNameValidator(nameRe: RegExp): ValidatorFn {
return (control: AbstractControl): {[key: string]: any} | null => {
const forbidden = nameRe.test(control.value);
return forbidden ? {'forbiddenName': {value: control.value}} : null;
};
}
The function is actually a factory that takes a regular expression to detect a specific forbidden name and returns a validator function.
In this sample, the forbidden name is "bob", so the validator will reject any hero name containing "bob". Elsewhere it could reject "alice" or any name that the configuring regular expression matches.
The forbiddenNameValidator
factory returns the configured validator function.
That function takes an Angular control object and returns either
null if the control value is valid or a validation error object.
The validation error object typically has a property whose name is the validation key, 'forbiddenName'
,
and whose value is an arbitrary dictionary of values that you could insert into an error message, {name}
.
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.
Adding to reactive forms
In reactive forms, custom validators are fairly simple to add. All you have to do is pass the function directly
to the FormControl
.
this.heroForm = new FormGroup({
'name': new FormControl(this.hero.name, [
Validators.required,
Validators.minLength(4),
forbiddenNameValidator(/bob/i) // <-- Here's how you pass in the custom validator.
]),
'alterEgo': new FormControl(this.hero.alterEgo),
'power': new FormControl(this.hero.power, Validators.required)
});
Adding to template-driven forms
In template-driven forms, you don't have direct access to the FormControl
instance, so you can't pass the
validator in like you can for reactive forms. Instead, you need to add a directive to the template.
The corresponding ForbiddenValidatorDirective
serves as a wrapper around the forbiddenNameValidator
.
Angular recognizes the directive's role in the validation process because the directive registers itself
with the NG_VALIDATORS
provider, a provider with an extensible collection of validators.
providers: [{provide: NG_VALIDATORS, useExisting: ForbiddenValidatorDirective, multi: true}]
The directive class then implements the Validator
interface, so that it can easily integrate
with Angular forms. Here is the rest of the directive to help you get an idea of how it all
comes together:
- @Directive({
- selector: '[appForbiddenName]',
- providers: [{provide: NG_VALIDATORS, useExisting: ForbiddenValidatorDirective, multi: true}]
- })
- export class ForbiddenValidatorDirective implements Validator {
- @Input('appForbiddenName') forbiddenName: string;
-
- validate(control: AbstractControl): {[key: string]: any} | null {
- return this.forbiddenName ? forbiddenNameValidator(new RegExp(this.forbiddenName, 'i'))(control)
- : null;
- }
- }
Once the ForbiddenValidatorDirective
is ready, you can simply add its selector, appForbiddenName
, to any input element to activate it. For example:
<input id="name" name="name" class="form-control"
required minlength="4" appForbiddenName="bob"
[(ngModel)]="hero.name" #name="ngModel" >
You may have noticed that the custom validation directive is instantiated with useExisting
rather than useClass
. The registered validator must be this instance of
the ForbiddenValidatorDirective
—the instance in the form with
its forbiddenName
property bound to “bob". If you were to replace
useExisting
with useClass
, then you’d be registering a new class instance, one that
doesn’t have a forbiddenName
.
Control status CSS classes
Like in AngularJS, 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. The following classes are currently supported:
.ng-valid
.ng-invalid
.ng-pending
.ng-pristine
.ng-dirty
.ng-untouched
.ng-touched
The hero form uses the .ng-valid
and .ng-invalid
classes to
set the color of each form control's border.
.ng-valid[required], .ng-valid.required {
border-left: 5px solid #42A948; /* green */
}
.ng-invalid:not(form) {
border-left: 5px solid #a94442; /* red */
}
Cross field validation
This section shows how to perform cross field validation. It assumes some basic knowledge of creating custom validators.
If you haven't created custom validators before, start by reviewing the custom validators section.
In the following section, we will make sure that our heroes do not reveal their true identities by filling out the Hero Form. We will do that by validating that the hero names and alter egos do not match.
Adding to reactive forms
The form has the following structure:
const heroForm = new FormGroup({
'name': new FormControl(),
'alterEgo': new FormControl(),
'power': new FormControl()
});
Notice that the name and alterEgo are sibling controls. To evaluate both controls in a single custom validator, we should perform the validation in a common ancestor control: the FormGroup
. That way, we can query the FormGroup
for the child controls which will allow us to compare their values.
To add a validator to the FormGroup
, pass the new validator in as the second argument on creation.
const heroForm = new FormGroup({
'name': new FormControl(),
'alterEgo': new FormControl(),
'power': new FormControl()
}, { validators: identityRevealedValidator });
The validator code is as follows:
/** A hero's name can't match the hero's alter ego */
export const identityRevealedValidator: ValidatorFn = (control: FormGroup): ValidationErrors | null => {
const name = control.get('name');
const alterEgo = control.get('alterEgo');
return name && alterEgo && name.value === alterEgo.value ? { 'identityRevealed': true } : null;
};
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.
First we retrieve the child controls by calling the FormGroup
's get method. Then we simply compare the values of the name
and alterEgo
controls.
If the values do not match, the hero's identity remains secret, and we can safely return null. Otherwise, the hero's identity is revealed and we must mark the form as invalid by returning an error object.
Next, to provide better user experience, we show an appropriate error message when the form is invalid.
<div *ngIf="heroForm.errors?.identityRevealed && (heroForm.touched || heroForm.dirty)" class="cross-validation-error-message alert alert-danger">
Name cannot match alter ego.
</div>
Note that we check if:
- the
FormGroup
has the cross validation error returned by theidentityRevealed
validator, - the user is yet to interact with the form.
Adding to template driven forms
First we must create a directive that will wrap the validator function. We provide it as the validator using the NG_VALIDATORS
token. If you are not sure why, or you do not fully understand the syntax, revisit the previous section.
@Directive({
selector: '[appIdentityRevealed]',
providers: [{ provide: NG_VALIDATORS, useExisting: IdentityRevealedValidatorDirective, multi: true }]
})
export class IdentityRevealedValidatorDirective implements Validator {
validate(control: AbstractControl): ValidationErrors {
return identityRevealedValidator(control)
}
}
Next, we have to add the directive to the html template. Since the validator must be registered at the highest level in the form, we put the directive on the form
tag.
<form #heroForm="ngForm" appIdentityRevealed>
To provide better user experience, we show an appropriate error message when the form is invalid.
<div *ngIf="heroForm.errors?.identityRevealed && (heroForm.touched || heroForm.dirty)" class="cross-validation-error-message alert alert-danger">
Name cannot match alter ego.
</div>
Note that we check if:
- the form has the cross validation error returned by the
identityRevealed
validator, - the user is yet to interact with the form.
This completes the cross validation example. We managed to:
- validate the form based on the values of two sibling controls,
- show a descriptive error message after the user interacted with the form and the validation failed.
Async Validation
This section shows how to create asynchronous validators. It assumes some basic knowledge of creating custom validators.
The Basics
Just like synchronous validators have the ValidatorFn
and Validator
interfaces, asynchronous validators have their own counterparts: AsyncValidatorFn
and AsyncValidator
.
They are very similar with the only difference being:
- They must return a Promise or an Observable,
- The observable returned must be finite, meaning it must complete at some point. To convert an infinite observable into a finite one, pipe the observable through a filtering operator such as
first
,last
,take
, ortakeUntil
.
It is important to note that the 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 more basic validation methods fail.
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.
A common UI pattern is to show a spinner while the async validation is being performed. The following example presents how to achieve this with template-driven forms:
<input [(ngModel)]="name" #model="ngModel" appSomeAsyncValidator>
<app-spinner *ngIf="model.pending"></app-spinner>
Implementing Custom Async Validator
In the following section, validation is performed asynchronously to ensure that our heroes pick an alter ego that is not already taken. New heroes are constantly enlisting and old heroes are leaving the service. That means that we do not have the list of available alter egos ahead of time.
To validate the potential alter ego, we need to consult a central database of all currently enlisted heroes. The process is asynchronous, so we need a special validator for that.
Let's start by creating the validator class.
@Injectable({ providedIn: 'root' })
export class UniqueAlterEgoValidator implements AsyncValidator {
constructor(private heroesService: HeroesService) {}
validate(
ctrl: AbstractControl
): Promise<ValidationErrors | null> | Observable<ValidationErrors | null> {
return this.heroesService.isAlterEgoTaken(ctrl.value).pipe(
map(isTaken => (isTaken ? { uniqueAlterEgo: true } : null)),
catchError(() => null)
);
}
}
As you can see, the UniqueAlterEgoValidator
class implements the AsyncValidator
interface. In the constructor, we inject the HeroesService
that has the following interface:
interface HeroesService {
isAlterEgoTaken: (alterEgo: string) => Observable<boolean>;
}
In a real world application, the HeroesService
is 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 we can just code against the HeroesService
interface.
As the validation begins, the UniqueAlterEgoValidator
delegates to the HeroesService
isAlterEgoTaken()
method with the current control value. At this point the control is marked as pending
and remains in this state until the observable chain returned from the validate()
method completes.
The isAlterEgoTaken()
method dispatches an HTTP request that checks if the alter ego is available, and returns Observable<boolean>
as the result. We pipe the response through the map
operator and transform it into a validation result. As always, we return null
if the form is valid, and ValidationErrors
if it is not. We make sure to handle any potential errors with the catchError
operator.
Here we decided that isAlterEgoTaken()
error is treated 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.
After some time passes, the observable chain completes and the async validation is done. The pending
flag is set to false
, and the form validity is updated.
Note on performance
By default, all validators are run after every form value change. With synchronous validators, this will not likely have a noticeable impact on application performance. However, it's common for async validators to 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.
We can delay updating the form validity by changing the updateOn
property from change
(default) to submit
or blur
.
With template-driven forms:
<input [(ngModel)]="name" [ngModelOptions]="{updateOn: 'blur'}">
With reactive forms:
new FormControl('', {updateOn: 'blur'});
You can run the