Reactive forms provide a model-driven approach to handling form inputs whose values change over time. This guide shows you how to create and update a basic form control, progress to using multiple controls in a group, validate form values, and create dynamic forms where you can add or remove controls at run time.
Try this Reactive Forms live-example.
Prerequisites
Before going further into reactive forms, you should have a basic understanding of the following:
Reactive forms use an explicit and immutable approach to managing the state of a form at a given point in time. Each change to the form state returns a new state, which maintains the integrity of the model between changes. Reactive forms are built around observable streams, where form inputs and values are provided as streams of input values, which can be accessed synchronously.
Reactive forms also provide a straightforward path to testing because you are assured that your data is consistent and predictable when requested. Any consumers of the streams have access to manipulate that data safely.
Reactive forms differ from template-driven forms in distinct ways. Reactive forms provide synchronous access to the data model, immutability with observable operators, and change tracking through observable streams.
Template-driven forms let direct access modify data in your template, but are less explicit than reactive forms because they rely on directives embedded in the template, along with mutable data to track changes asynchronously. See the Forms Overview for detailed comparisons between the two paradigms.
There are three steps to using form controls.
FormControl
instance and save it in the component.FormControl
in the template.You can then display the form by adding the component to the template.
The following examples show how to add a single form control. In the example, the user enters their name into an input field, captures that input value, and displays the current value of the form control element.
Register the reactive forms module
To use reactive form controls, import ReactiveFormsModule
from the @angular/forms
package and add it to your NgModule's imports
array.
import { ReactiveFormsModule } from '@angular/forms'; @NgModule({ imports: [ // other imports ... ReactiveFormsModule ], }) export class AppModule { }
Generate a new FormControl
Use the CLI command ng generate
to generate a component in your project to host the control.
ng generate component NameEditor
To register a single form control, import the FormControl
class and create a new instance of FormControl
to save as a class property.
import { Component } from '@angular/core'; import { FormControl } from '@angular/forms'; @Component({ selector: 'app-name-editor', templateUrl: './name-editor.component.html', styleUrls: ['./name-editor.component.css'] }) export class NameEditorComponent { name = new FormControl(''); }
Use the constructor of FormControl
to set its initial value, which in this case is an empty string. By creating these controls in your component class, you get immediate access to listen for, update, and validate the state of the form input.
Register the control in the template
After you create the control in the component class, you must associate it with a form control element in the template. Update the template with the form control using the formControl
binding provided by FormControlDirective
, which is also included in the ReactiveFormsModule
.
<label for="name">Name: </label> <input id="name" type="text" [formControl]="name">
For a summary of the classes and directives provided by
ReactiveFormsModule
, see the following Reactive forms API section.For complete syntax details of these classes and directives, see the API reference documentation for the Forms package.
Using the template binding syntax, the form control is now registered to the name
input element in the template. The form control and DOM element communicate with each other: the view reflects changes in the model, and the model reflects changes in the view.
Display the component
The form control assigned to name
is displayed when the component is added to a template.
<app-name-editor></app-name-editor>
You can display the value in the following ways.
Through the valueChanges
observable where you can listen for changes in the form's value in the template using AsyncPipe
or in the component class using the subscribe()
method.
With the value
property, which gives you a snapshot of the current value.
The following example shows you how to display the current value using interpolation in the template.
<p>Value: {{ name.value }}</p>
The displayed value changes as you update the form control element.
Reactive forms provide access to information about a given control through properties and methods provided with each instance. These properties and methods of the underlying AbstractControl class are used to control form state and determine when to display messages when handling input validation.
Read about other FormControl
properties and methods in the API Reference.
Reactive forms have methods to change a control's value programmatically, which gives you the flexibility to update the value without user interaction. A form control instance provides a setValue()
method that updates the value of the form control and validates the structure of the value provided against the control's structure. For example, when retrieving form data from a backend API or service, use the setValue()
method to update the control to its new value, replacing the old value entirely.
The following example adds a method to the component class to update the value of the control to Nancy using the setValue()
method.
updateName() { this.name.setValue('Nancy'); }
Update the template with a button to simulate a name update. When you click the Update Name button, the value entered in the form control element is reflected as its current value.
<button (click)="updateName()">Update Name</button>
The form model is the source of truth for the control, so when you click the button, the value of the input is changed within the component class, overriding its current value.
Note: In this example, you're using a single control. When using the
setValue()
method with a form group or form array instance, the value needs to match the structure of the group or array.
Forms typically contain several related controls. Reactive forms provide two ways of grouping multiple related controls into a single input form.
Just as a form control instance gives you control over a single input field, a form group instance tracks the form state of a group of form control instances (for example, a form). Each control in a form group instance is tracked by name when creating the form group. The following example shows how to manage multiple form control instances in a single group.
Generate a ProfileEditor
component and import the FormGroup
and FormControl
classes from the @angular/forms
package.
ng generate component ProfileEditor
import { FormGroup, FormControl } from '@angular/forms';
To add a form group to this component, take the following steps.
Create a FormGroup instance
Create a property in the component class named profileForm
and set the property to a new form group instance. To initialize the form group, provide the constructor with an object of named keys mapped to their control.
For the profile form, add two form control instances with the names firstName
and lastName
.
import { Component } from '@angular/core'; import { FormGroup, FormControl } from '@angular/forms'; @Component({ selector: 'app-profile-editor', templateUrl: './profile-editor.component.html', styleUrls: ['./profile-editor.component.css'] }) export class ProfileEditorComponent { profileForm = new FormGroup({ firstName: new FormControl(''), lastName: new FormControl(''), }); }
The individual form controls are now collected within a group. A FormGroup
instance provides its model value as an object reduced from the values of each control in the group. A form group instance has the same properties (such as value
and untouched
) and methods (such as setValue()
) as a form control instance.
Associate the FormGroup model and view
A form group tracks the status and changes for each of its controls, so if one of the controls changes, the parent control also emits a new status or value change. The model for the group is maintained from its members. After you define the model, you must update the template to reflect the model in the view.
<form [formGroup]="profileForm"> <label for="first-name">First Name: </label> <input id="first-name" type="text" formControlName="firstName"> <label for="last-name">Last Name: </label> <input id="last-name" type="text" formControlName="lastName"> </form>
Note that just as a form group contains a group of controls, the profileForm FormGroup
is bound to the form
element with the FormGroup
directive, creating a communication layer between the model and the form containing the inputs. The formControlName
input provided by the FormControlName
directive binds each individual input to the form control defined in FormGroup
. The form controls communicate with their respective elements. They also communicate changes to the form group instance, which provides the source of truth for the model value.
Save form data
The ProfileEditor
component accepts input from the user, but in a real scenario you want to capture the form value and make available for further processing outside the component. The FormGroup
directive listens for the submit
event emitted by the form
element and emits an ngSubmit
event that you can bind to a callback function.
Add an ngSubmit
event listener to the form
tag with the onSubmit()
callback method.
<form [formGroup]="profileForm" (ngSubmit)="onSubmit()">
The onSubmit()
method in the ProfileEditor
component captures the current value of profileForm
. Use EventEmitter
to keep the form encapsulated and to provide the form value outside the component. The following example uses console.warn
to log a message to the browser console.
onSubmit() { // TODO: Use EventEmitter with form value console.warn(this.profileForm.value); }
The submit
event is emitted by the form
tag using the built-in DOM event. You trigger the event by clicking a button with submit
type. This lets the user press the Enter key to submit the completed form.
Use a button
element to add a button to the bottom of the form to trigger the form submission.
<p>Complete the form to enable button.</p> <button type="submit" [disabled]="!profileForm.valid">Submit</button>
Note: The button in the preceding snippet also has a
disabled
binding attached to it to disable the button whenprofileForm
is invalid. You aren't performing any validation yet, so the button is always enabled. Basic form validation is covered in the Validating form input section.
Display the component
To display the ProfileEditor
component that contains the form, add it to a component template.
<app-profile-editor></app-profile-editor>
ProfileEditor
lets you manage the form control instances for the firstName
and lastName
controls within the form group instance.
Form groups can accept both individual form control instances and other form group instances as children. This makes composing complex form models easier to maintain and logically group together.
When building complex forms, managing the different areas of information is easier in smaller sections. Using a nested form group instance lets you break large forms groups into smaller, more manageable ones.
To make more complex forms, use the following steps.
Some types of information naturally fall into the same group. A name and address are typical examples of such nested groups, and are used in the following examples.
Create a nested group
To create a nested group in profileForm
, add a nested address
element to the form group instance.
import { Component } from '@angular/core'; import { FormGroup, FormControl } from '@angular/forms'; @Component({ selector: 'app-profile-editor', templateUrl: './profile-editor.component.html', styleUrls: ['./profile-editor.component.css'] }) export class ProfileEditorComponent { profileForm = new FormGroup({ firstName: new FormControl(''), lastName: new FormControl(''), address: new FormGroup({ street: new FormControl(''), city: new FormControl(''), state: new FormControl(''), zip: new FormControl('') }) }); }
In this example, address group
combines the current firstName
and lastName
controls with the new street
, city
, state
, and zip
controls. Even though the address
element in the form group is a child of the overall profileForm
element in the form group, the same rules apply with value and status changes. Changes in status and value from the nested form group propagate to the parent form group, maintaining consistency with the overall model.
Group the nested form in the template
After you update the model in the component class, update the template to connect the form group instance and its input elements.
Add the address
form group containing the street
, city
, state
, and zip
fields to the ProfileEditor
template.
<div formGroupName="address"> <h2>Address</h2> <label for="street">Street: </label> <input id="street" type="text" formControlName="street"> <label for="city">City: </label> <input id="city" type="text" formControlName="city"> <label for="state">State: </label> <input id="state" type="text" formControlName="state"> <label for="zip">Zip Code: </label> <input id="zip" type="text" formControlName="zip"> </div>
The ProfileEditor
form is displayed as one group, but the model is broken down further to represent the logical grouping areas.
Tip Display the value for the form group instance in the component template using the
value
property andJsonPipe
.
When updating the value for a form group instance that contains multiple controls, you might only want to update parts of the model. This section covers how to update specific parts of a form control data model.
There are two ways to update the model value:
Use the setValue()
method to set a new value for an individual control. The setValue()
method strictly adheres to the structure of the form group and replaces the entire value for the control.
Use the patchValue()
method to replace any properties defined in the object that have changed in the form model.
The strict checks of the setValue()
method help catch nesting errors in complex forms, while patchValue()
fails silently on those errors.
In ProfileEditorComponent
, use the updateProfile
method with the following example to update the first name and street address for the user.
updateProfile() { this.profileForm.patchValue({ firstName: 'Nancy', address: { street: '123 Drew Street' } }); }
Simulate an update by adding a button to the template to update the user profile on demand.
<button (click)="updateProfile()">Update Profile</button>
When a user clicks the button, the profileForm
model is updated with new values for firstName
and street
. Notice that street
is provided in an object inside the address
property. This is necessary because the patchValue()
method applies the update against the model structure. PatchValue()
only updates properties that the form model defines.
Creating form control instances manually can become repetitive when dealing with multiple forms. The FormBuilder
service provides convenient methods for generating controls.
Use the following steps to take advantage of this service.
FormBuilder
class.FormBuilder
service.The following examples show how to refactor the ProfileEditor
component to use the form builder service to create form control and form group instances.
Import the FormBuilder class
Import the FormBuilder
class from the @angular/forms
package.
import { FormBuilder } from '@angular/forms';
Inject the FormBuilder service
The FormBuilder
service is an injectable provider that is provided with the reactive forms module. Inject this dependency by adding it to the component constructor.
constructor(private fb: FormBuilder) { }
Generate form controls
The FormBuilder
service has three methods: control()
, group()
, and array()
. These are factory methods for generating instances in your component classes including form controls, form groups, and form arrays.
Use the group
method to create the profileForm
controls.
import { Component } from '@angular/core'; import { FormBuilder } from '@angular/forms'; @Component({ selector: 'app-profile-editor', templateUrl: './profile-editor.component.html', styleUrls: ['./profile-editor.component.css'] }) export class ProfileEditorComponent { profileForm = this.fb.group({ firstName: [''], lastName: [''], address: this.fb.group({ street: [''], city: [''], state: [''], zip: [''] }), }); constructor(private fb: FormBuilder) { } }
In the preceding example, you use the group()
method with the same object to define the properties in the model. The value for each control name is an array containing the initial value as the first item in the array.
Tip You can define the control with just the initial value, but if your controls need sync or async validation, add sync and async validators as the second and third items in the array.
Compare using the form builder to creating the instances manually.
profileForm = new FormGroup({ firstName: new FormControl(''), lastName: new FormControl(''), address: new FormGroup({ street: new FormControl(''), city: new FormControl(''), state: new FormControl(''), zip: new FormControl('') }) });
profileForm = this.fb.group({ firstName: [''], lastName: [''], address: this.fb.group({ street: [''], city: [''], state: [''], zip: [''] }), });
Form validation is used to ensure that user input is complete and correct. This section covers adding a single validator to a form control and displaying the overall form status. Form validation is covered more extensively in the Form Validation guide.
Use the following steps to add form validation.
The most common validation is making a field required. The following example shows how to add a required validation to the firstName
control and display the result of validation.
Import a validator function
Reactive forms include a set of validator functions for common use cases. These functions receive a control to validate against and return an error object or a null value based on the validation check.
Import the Validators
class from the @angular/forms
package.
import { Validators } from '@angular/forms';
Make a field required
In the ProfileEditor
component, add the Validators.required
static method as the second item in the array for the firstName
control.
profileForm = this.fb.group({ firstName: ['', Validators.required], lastName: [''], address: this.fb.group({ street: [''], city: [''], state: [''], zip: [''] }), });
Display form status
When you add a required field to the form control, its initial status is invalid. This invalid status propagates to the parent form group element, making its status invalid. Access the current status of the form group instance through its status
property.
Display the current status of profileForm
using interpolation.
<p>Form Status: {{ profileForm.status }}</p>
The Submit button is disabled because profileForm
is invalid due to the required firstName
form control. After you fill out the firstName
input, the form becomes valid and the Submit button is enabled.
For more on form validation, visit the Form Validation guide.
FormArray
is an alternative to FormGroup
for managing any number of unnamed controls. As with form group instances, you can dynamically insert and remove controls from form array instances, and the form array instance value and validation status is calculated from its child controls. However, you don't need to define a key for each control by name, so this is a great option if you don't know the number of child values in advance.
To define a dynamic form, take the following steps.
FormArray
class.FormArray
control.FormArray
control with a getter method.The following example shows you how to manage an array of aliases in ProfileEditor
.
Import the FormArray class
Import the FormArray
class from @angular/forms
to use for type information. The FormBuilder
service is ready to create a FormArray
instance.
import { FormArray } from '@angular/forms';
Define a FormArray control
You can initialize a form array with any number of controls, from zero to many, by defining them in an array. Add an aliases
property to the form group instance for profileForm
to define the form array.
Use the FormBuilder.array()
method to define the array, and the FormBuilder.control()
method to populate the array with an initial control.
profileForm = this.fb.group({ firstName: ['', Validators.required], lastName: [''], address: this.fb.group({ street: [''], city: [''], state: [''], zip: [''] }), aliases: this.fb.array([ this.fb.control('') ]) });
The aliases control in the form group instance is now populated with a single control until more controls are added dynamically.
Access the FormArray control
A getter provides access to the aliases in the form array instance compared to repeating the profileForm.get()
method to get each instance. The form array instance represents an undefined number of controls in an array. It's convenient to access a control through a getter, and this approach is straightforward to repeat for additional controls.
Use the getter syntax to create an aliases
class property to retrieve the alias's form array control from the parent form group.
get aliases() { return this.profileForm.get('aliases') as FormArray; }
Note: Because the returned control is of the type
AbstractControl
, you need to provide an explicit type to access the method syntax for the form array instance.
Define a method to dynamically insert an alias control into the alias's form array. The FormArray.push()
method inserts the control as a new item in the array.
addAlias() { this.aliases.push(this.fb.control('')); }
In the template, each control is displayed as a separate input field.
Display the form array in the template
To attach the aliases from your form model, you must add it to the template. Similar to the formGroupName
input provided by FormGroupNameDirective
, formArrayName
binds communication from the form array instance to the template with FormArrayNameDirective
.
Add the following template HTML after the <div>
closing the formGroupName
element.
<div formArrayName="aliases"> <h2>Aliases</h2> <button (click)="addAlias()" type="button">+ Add another alias</button> <div *ngFor="let alias of aliases.controls; let i=index"> <!-- The repeated alias template --> <label for="alias-{{ i }}">Alias:</label> <input id="alias-{{ i }}" type="text" [formControlName]="i"> </div> </div>
The *ngFor
directive iterates over each form control instance provided by the aliases form array instance. Because form array elements are unnamed, you assign the index to the i
variable and pass it to each control to bind it to the formControlName
input.
Each time a new alias instance is added, the new form array instance is provided its control based on the index. This lets you track each individual control when calculating the status and value of the root control.
Add an alias
Initially, the form contains one Alias
field. To add another field, click the Add Alias button. You can also validate the array of aliases reported by the form model displayed by Form Value
at the bottom of the template.
Note: Instead of a form control instance for each alias, you can compose another form group instance with additional fields. The process of defining a control for each item is the same.
The following table lists the base classes and services used to create and manage reactive form controls. For complete syntax details, see the API reference documentation for the Forms package.
Class | Description |
---|---|
AbstractControl | The abstract base class for the concrete form control classes |
FormControl | Manages the value and validity status of an individual form control. It corresponds to an HTML form control such as |
FormGroup | Manages the value and validity state of a group of |
FormArray | Manages the value and validity state of a numerically indexed array of |
FormBuilder | An injectable service that provides factory methods for creating control instances. |
Directive | Description |
---|---|
FormControlDirective | Syncs a standalone |
FormControlName | Syncs |
FormGroupDirective | Syncs an existing |
FormGroupName | Syncs a nested |
FormArrayName | Syncs a nested |
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https://v12.angular.io/guide/reactive-forms