723 lines
24 KiB
Markdown
723 lines
24 KiB
Markdown
# Form Validation
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{@a top}
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Improve overall data quality by validating user input for accuracy and completeness.
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This cookbook shows how to validate user input in the UI and display useful validation messages
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using first the template-driven forms and then the reactive forms approach.
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<div class="l-sub-section">
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Read more about these choices in the [Forms](guide/forms)
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and the [Reactive Forms](guide/reactive-forms) guides.
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</div>
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{@a toc}
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{@a live-example}
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**Try the live example to see and download the full cookbook source code.**
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<live-example name="form-validation" embedded=true img="guide/form-validation/plunker.png">
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</live-example>
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{@a template1}
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## Simple template-driven forms
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In the template-driven approach, you arrange
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[form elements](https://developer.mozilla.org/en-US/docs/Web/Guide/HTML/Forms_in_HTML) in the component's template.
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You add Angular form directives (mostly directives beginning `ng...`) to help
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Angular construct a corresponding internal control model that implements form functionality.
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In template-drive forms, the control model is _implicit_ in the template.
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To validate user input, you add [HTML validation attributes](https://developer.mozilla.org/en-US/docs/Web/Guide/HTML/HTML5/Constraint_validation)
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to the elements. Angular interprets those as well, adding validator functions to the control model.
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Angular exposes information about the state of the controls including
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whether the user has "touched" the control or made changes and if the control values are valid.
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In this first template validation example,
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notice the HTML that reads the control state and updates the display appropriately.
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Here's an excerpt from the template HTML for a single input control bound to the hero name:
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<code-example path="form-validation/src/app/template/hero-form-template1.component.html" region="name-with-error-msg" title="template/hero-form-template1.component.html (Hero name)" linenums="false">
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</code-example>
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Note the following:
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* The `<input>` element carries the HTML validation attributes: `required`, `minlength`, and `maxlength`.
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* The `name` attribute of the input is set to `"name"` so Angular can track this input element and associate it
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with an Angular form control called `name` in its internal control model.
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* The `[(ngModel)]` directive allows two-way data binding between the input box to the `hero.name` property.
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* The template variable (`#name`) has the value `"ngModel"` (always `ngModel`).
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This gives you a reference to the Angular `NgModel` directive
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associated with this control that you can use _in the template_
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to check for control states such as `valid` and `dirty`.
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* The `*ngIf` on the `<div>` element reveals a set of nested message `divs` but only if there are "name" errors and
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the control is either `dirty` or `touched`.
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* Each nested `<div>` can present a custom message for one of the possible validation errors.
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There are messages for `required`, `minlength`, and `maxlength`.
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The full template repeats this kind of layout for each data entry control on the form.
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{@a why-check}
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<div class="l-sub-section">
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#### Why check _dirty_ and _touched_?
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The app shouldn't show errors for a new hero before the user has had a chance to edit the value.
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The checks for `dirty` and `touched` prevent premature display of errors.
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Learn about `dirty` and `touched` in the [Forms](guide/forms) guide.
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</div>
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The component class manages the hero model used in the data binding
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as well as other code to support the view.
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<code-example path="form-validation/src/app/template/hero-form-template1.component.ts" region="class" title="template/hero-form-template1.component.ts (class)">
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</code-example>
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Use this template-driven validation technique when working with static forms with simple, standard validation rules.
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Here are the complete files for the first version of `HeroFormTemplateCompononent` in the template-driven approach:
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<code-tabs>
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<code-pane title="template/hero-form-template1.component.html" path="form-validation/src/app/template/hero-form-template1.component.html">
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</code-pane>
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<code-pane title="template/hero-form-template1.component.ts" path="form-validation/src/app/template/hero-form-template1.component.ts">
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</code-pane>
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</code-tabs>
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{@a template2}
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## Template-driven forms with validation messages in code
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While the layout is straightforward,
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there are obvious shortcomings with the way it's handling validation messages:
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* It takes a lot of HTML to represent all possible error conditions.
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This gets out of hand when there are many controls and many validation rules.
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* There's a lot of JavaScript logic in the HTML.
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* The messages are static strings, hard-coded into the template.
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It's easier to maintain _dynamic_ messages in the component class.
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In this example, you can move the logic and the messages into the component with a few changes to
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the template and component.
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Here's the hero name again, excerpted from the revised template
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(Template 2), next to the original version:
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<code-tabs>
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<code-pane title="hero-form-template2.component.html (name #2)" path="form-validation/src/app/template/hero-form-template2.component.html" region="name-with-error-msg">
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</code-pane>
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<code-pane title="hero-form-template1.component.html (name #1)" path="form-validation/src/app/template/hero-form-template1.component.html" region="name-with-error-msg">
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</code-pane>
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</code-tabs>
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The `<input>` element HTML is almost the same. There are noteworthy differences:
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* The hard-code error message `<divs>` are gone.
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* There's a new attribute, `forbiddenName`, that is actually a custom validation directive.
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It invalidates the control if the user enters "bob" in the name `<input>`([try it](guide/form-validation#live-example)).
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See the [custom validation](guide/form-validation#custom-validation) section later in this cookbook for more information
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on custom validation directives.
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* The `#name` template variable is gone because the app no longer refers to the Angular control for this element.
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* Binding to the new `formErrors.name` property is sufficent to display all name validation error messages.
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{@a component-class}
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### Component class
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The original component code for Template 1 stayed the same; however,
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Template 2 requires some changes in the component. This section covers the code
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necessary in Template 2's component class to acquire the Angular
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form control and compose error messages.
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The first step is to acquire the form control that Angular created from the template by querying for it.
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Look back at the top of the component template at the
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`#heroForm` template variable in the `<form>` element:
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<code-example path="form-validation/src/app/template/hero-form-template1.component.html" region="form-tag" title="template/hero-form-template1.component.html (form tag)" linenums="false">
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</code-example>
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The `heroForm` variable is a reference to the control model that Angular derived from the template.
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Tell Angular to inject that model into the component class's `currentForm` property using a `@ViewChild` query:
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<code-example path="form-validation/src/app/template/hero-form-template2.component.ts" region="view-child" title="template/hero-form-template2.component.ts (heroForm)" linenums="false">
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</code-example>
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Some observations:
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* Angular `@ViewChild` queries for a template variable when you pass it
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the name of that variable as a string (`'heroForm'` in this case).
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* The `heroForm` object changes several times during the life of the component, most notably when you add a new hero.
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Periodically inspecting it reveals these changes.
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* Angular calls the `ngAfterViewChecked` [lifecycle hook method](guide/lifecycle-hooks#afterview)
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when anything changes in the view.
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That's the right time to see if there's a new `heroForm` object.
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* When there _is_ a new `heroForm` model, `formChanged()` subscribes to its `valueChanges` _Observable_ property.
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The `onValueChanged` handler looks for validation errors after every keystroke.
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<code-example path="form-validation/src/app/template/hero-form-template2.component.ts" region="handler" title="template/hero-form-template2.component.ts (handler)" linenums="false">
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</code-example>
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The `onValueChanged` handler interprets user data entry.
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The `data` object passed into the handler contains the current element values.
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The handler ignores them. Instead, it iterates over the fields of the component's `formErrors` object.
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The `formErrors` is a dictionary of the hero fields that have validation rules and their current error messages.
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Only two hero properties have validation rules, `name` and `power`.
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The messages are empty strings when the hero data are valid.
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For each field, the `onValueChanged` handler does the following:
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* Clears the prior error message, if any.
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* Acquires the field's corresponding Angular form control.
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* If such a control exists _and_ it's been changed ("dirty")
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_and_ it's invalid, the handler composes a consolidated error message for all of the control's errors.
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Next, the component needs some error messages of course—a set for each validated property with
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one message per validation rule:
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<code-example path="form-validation/src/app/template/hero-form-template2.component.ts" region="messages" title="template/hero-form-template2.component.ts (messages)" linenums="false">
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</code-example>
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Now every time the user makes a change, the `onValueChanged` handler checks for validation errors and produces messages accordingly.
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{@a improvement}
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### The benefits of messages in code
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Clearly the template got substantially smaller while the component code got substantially larger.
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It's not easy to see the benefit when there are just three fields and only two of them have validation rules.
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Consider what happens as the number of validated
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fields and rules increases.
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In general, HTML is harder to read and maintain than code.
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The initial template was already large and threatening to get rapidly worse
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with the addition of more validation message `<div>` elements.
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After moving the validation messaging to the component,
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the template grows more slowly and proportionally.
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Each field has approximately the same number of lines no matter its number of validation rules.
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The component also grows proportionally, at the rate of one line per validated field
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and one line per validation message.
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Both trends are manageable.
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Now that the messages are in code, you have more flexibility and can compose messages more efficiently.
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You can refactor the messages out of the component, perhaps to a service class that retrieves them from the server.
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In short, there are more opportunities to improve message handling now that text and logic have moved from template to code.
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{@a formmodule}
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### _FormModule_ and template-driven forms
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Angular has two different forms modules—`FormsModule` and
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`ReactiveFormsModule`—that correspond with the
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two approaches to form development. Both modules come
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from the same `@angular/forms` library package.
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You've been reviewing the "Template-driven" approach which requires the `FormsModule`.
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Here's how you imported it in the `HeroFormTemplateModule`.
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<code-example path="form-validation/src/app/template/hero-form-template.module.ts" title="template/hero-form-template.module.ts" linenums="false">
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</code-example>
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<div class="l-sub-section">
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This guide hasn't talked about the `SharedModule` or its `SubmittedComponent` which appears at the bottom of every
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form template in this cookbook.
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They're not germane to the validation story. Look at the [live example](guide/form-validation#live-example) if you're interested.
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</div>
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{@a reactive}
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## Reactive forms with validation in code
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In the template-driven approach, you markup the template with form elements, validation attributes,
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and `ng...` directives from the Angular `FormsModule`.
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At runtime, Angular interprets the template and derives its _form control model_.
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**Reactive Forms** takes a different approach.
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You create the form control model in code. You write the template with form elements
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and `form...` directives from the Angular `ReactiveFormsModule`.
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At runtime, Angular binds the template elements to your control model based on your instructions.
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This approach requires a bit more effort. *You have to write the control model and manage it*.
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This allows you to do the following:
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* Add, change, and remove validation functions on the fly.
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* Manipulate the control model dynamically from within the component.
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* [Test](guide/form-validation#testing) validation and control logic with isolated unit tests.
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The following cookbook sample re-writes the hero form in _reactive forms_ style.
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{@a reactive-forms-module}
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### Switch to the _ReactiveFormsModule_
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The reactive forms classes and directives come from the Angular `ReactiveFormsModule`, not the `FormsModule`.
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The application module for the reactive forms feature in this sample looks like this:
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<code-example path="form-validation/src/app/reactive/hero-form-reactive.module.ts" title="src/app/reactive/hero-form-reactive.module.ts" linenums="false">
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</code-example>
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The reactive forms feature module and component are in the `src/app/reactive` folder.
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Focus on the `HeroFormReactiveComponent` there, starting with its template.
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{@a reactive-component-template}
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### Component template
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Begin by changing the `<form>` tag so that it binds the Angular `formGroup` directive in the template
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to the `heroForm` property in the component class.
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The `heroForm` is the control model that the component class builds and maintains.
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<code-example path="form-validation/src/app/reactive/hero-form-reactive.component.html" region="form-tag" title="form-validation/src/app/reactive/hero-form-reactive.component.html" linenums="false">
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</code-example>
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Next, modify the template HTML elements to match the _reactive forms_ style.
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Here is the "name" portion of the template again, revised for reactive forms and compared with the template-driven version:
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<code-tabs>
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<code-pane title="hero-form-reactive.component.html (name #3)" path="form-validation/src/app/reactive/hero-form-reactive.component.html" region="name-with-error-msg">
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</code-pane>
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<code-pane title="hero-form-template1.component.html (name #2)" path="form-validation/src/app/template/hero-form-template2.component.html" region="name-with-error-msg">
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</code-pane>
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</code-tabs>
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Key changes are:
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* The validation attributes are gone (except `required`) because
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validating happens in code.
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* `required` remains, not for validation purposes (that's in the code),
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but rather for css styling and accessibility.
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<div class="l-sub-section">
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A future version of reactive forms will add the `required` HTML validation attribute to the DOM element
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(and perhaps the `aria-required` attribute) when the control has the `required` validator function.
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Until then, apply the `required` attribute _and_ add the `Validator.required` function
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to the control model, as you'll see below.
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</div>
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* The `formControlName` replaces the `name` attribute; it serves the same
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purpose of correlating the input with the Angular form control.
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* The two-way `[(ngModel)]` binding is gone.
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The reactive approach does not use data binding to move data into and out of the form controls.
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That's all in code.
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<div class="l-sub-section">
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The retreat from data binding is a principle of the reactive paradigm rather than a technical limitation.
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</div>
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{@a reactive-component-class}
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### Component class
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The component class is now responsible for defining and managing the form control model.
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Angular no longer derives the control model from the template so you can no longer query for it.
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You can create the Angular form control model explicitly with
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the help of the `FormBuilder` class.
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Here's the section of code devoted to that process, paired with the template-driven code it replaces:
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<code-tabs>
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<code-pane title="reactive/hero-form-reactive.component.ts (FormBuilder)" path="form-validation/src/app/reactive/hero-form-reactive.component.ts" region="form-builder">
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</code-pane>
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<code-pane title="template/hero-form-template2.component.ts (ViewChild)" path="form-validation/src/app/template/hero-form-template2.component.ts" region="view-child">
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</code-pane>
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</code-tabs>
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* Inject `FormBuilder` in a constructor.
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* Call a `buildForm` method in the `ngOnInit` [lifecycle hook method](guide/lifecycle-hooks#hooks-overview)
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because that's when you'll have the hero data. Call it again in the `addHero` method.
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<div class="l-sub-section">
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A real app would retrieve the hero asynchronously from a data service, a task best performed in the `ngOnInit` hook.
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</div>
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* The `buildForm` method uses the `FormBuilder`, `fb`, to declare the form control model.
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Then it attaches the same `onValueChanged` handler (there's a one line difference)
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to the form's `valueChanges` event and calls it immediately
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to set error messages for the new control model.
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{@a formbuilder}
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#### _FormBuilder_ declaration
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The `FormBuilder` declaration object specifies the three controls of the sample's hero form.
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Each control spec is a control name with an array value.
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The first array element is the current value of the corresponding hero field.
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The optional second value is a validator function or an array of validator functions.
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Most of the validator functions are stock validators provided by Angular as static methods of the `Validators` class.
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Angular has stock validators that correspond to the standard HTML validation attributes.
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The `forbiddenName` validator on the `"name"` control is a custom validator,
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discussed in a separate [section below](guide/form-validation#custom-validation).
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<div class="l-sub-section">
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Learn more about `FormBuilder` in the [Introduction to FormBuilder](guide/reactive-forms#formbuilder) section of Reactive Forms guide.
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</div>
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{@a committing-changes}
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#### Committing hero value changes
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In two-way data binding, the user's changes flow automatically from the controls back to the data model properties.
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Reactive forms do not use data binding to update data model properties.
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The developer decides _when and how_ to update the data model from control values.
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This sample updates the model twice:
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1. When the user submits the form.
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1. When the user adds a new hero.
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The `onSubmit()` method simply replaces the `hero` object with the combined values of the form:
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<code-example path="form-validation/src/app/reactive/hero-form-reactive.component.ts" region="on-submit" title="form-validation/src/app/reactive/hero-form-reactive.component.ts" linenums="false">
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</code-example>
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<div class="l-sub-section">
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||
|
||
This example is lucky in that the `heroForm.value` properties _just happen_ to
|
||
correspond _exactly_ to the hero data object properties.
|
||
|
||
</div>
|
||
|
||
|
||
|
||
The `addHero()` method discards pending changes and creates a brand new `hero` model object.
|
||
|
||
<code-example path="form-validation/src/app/reactive/hero-form-reactive.component.ts" region="add-hero" title="form-validation/src/app/reactive/hero-form-reactive.component.ts" linenums="false">
|
||
|
||
</code-example>
|
||
|
||
|
||
|
||
Then it calls `buildForm()` again which replaces the previous `heroForm` control model with a new one.
|
||
The `<form>` tag's `[formGroup]` binding refreshes the page with the new control model.
|
||
|
||
Here's the complete reactive component file, compared to the two template-driven component files.
|
||
|
||
<code-tabs>
|
||
|
||
<code-pane title="reactive/hero-form-reactive.component.ts (#3)" path="form-validation/src/app/reactive/hero-form-reactive.component.ts">
|
||
|
||
</code-pane>
|
||
|
||
<code-pane title="template/hero-form-template2.component.ts (#2)" path="form-validation/src/app/template/hero-form-template2.component.ts">
|
||
|
||
</code-pane>
|
||
|
||
<code-pane title="template/hero-form-template1.component.ts (#1)" path="form-validation/src/app/template/hero-form-template1.component.ts">
|
||
|
||
</code-pane>
|
||
|
||
</code-tabs>
|
||
|
||
|
||
|
||
<div class="l-sub-section">
|
||
|
||
|
||
|
||
Run the [live example](guide/form-validation#live-example) to see how the reactive form behaves,
|
||
and to compare all of the files in this cookbook sample.
|
||
|
||
|
||
</div>
|
||
|
||
|
||
|
||
|
||
{@a custom-validation}
|
||
|
||
|
||
## Custom validation
|
||
This cookbook sample has a custom `forbiddenNameValidator()` function that's applied to both the
|
||
template-driven and the reactive form controls. It's in the `src/app/shared` folder
|
||
and declared in the `SharedModule`.
|
||
|
||
Here's the `forbiddenNameValidator()` function:
|
||
|
||
<code-example path="form-validation/src/app/shared/forbidden-name.directive.ts" region="custom-validator" title="shared/forbidden-name.directive.ts (forbiddenNameValidator)" linenums="false">
|
||
|
||
</code-example>
|
||
|
||
|
||
|
||
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";
|
||
the validator rejects 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}`).
|
||
|
||
|
||
{@a custom-validation-directive}
|
||
|
||
|
||
### Custom validation directive
|
||
In the reactive forms component, the `'name'` control's validator function list
|
||
has a `forbiddenNameValidator` at the bottom.
|
||
|
||
<code-example path="form-validation/src/app/reactive/hero-form-reactive.component.ts" region="name-validators" title="reactive/hero-form-reactive.component.ts (name validators)" linenums="false">
|
||
|
||
</code-example>
|
||
|
||
|
||
|
||
In the _template-driven_ example, the `<input>` has the selector (`forbiddenName`)
|
||
of a custom _attribute directive_, which rejects "bob".
|
||
|
||
<code-example path="form-validation/src/app/template/hero-form-template2.component.html" region="name-input" title="template/hero-form-template2.component.html (name input)" linenums="false">
|
||
|
||
</code-example>
|
||
|
||
|
||
|
||
The corresponding `ForbiddenValidatorDirective` is a wrapper around the `forbiddenNameValidator`.
|
||
|
||
Angular `forms` 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 validation directives.
|
||
|
||
<code-example path="form-validation/src/app/shared/forbidden-name.directive.ts" region="directive-providers" title="shared/forbidden-name.directive.ts (providers)" linenums="false">
|
||
|
||
</code-example>
|
||
|
||
|
||
|
||
Here is the rest of the directive to help you get an idea of how it all comes together:
|
||
|
||
<code-example path="form-validation/src/app/shared/forbidden-name.directive.ts" region="directive" title="shared/forbidden-name.directive.ts (directive)">
|
||
|
||
</code-example>
|
||
|
||
|
||
|
||
|
||
|
||
<div class="l-sub-section">
|
||
|
||
|
||
|
||
If you are familiar with Angular validations, 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`.
|
||
|
||
To see this in action, run the example and then type “bob” in the name of Hero Form 2.
|
||
Notice that you get a validation error. Now change from `useExisting` to `useClass` and try again.
|
||
This time, when you type “bob”, there's no "bob" error message.
|
||
|
||
|
||
</div>
|
||
|
||
|
||
|
||
|
||
|
||
<div class="l-sub-section">
|
||
|
||
|
||
|
||
For more information on attaching behavior to elements,
|
||
see [Attribute Directives](guide/attribute-directives).
|
||
|
||
|
||
</div>
|
||
|
||
|
||
|
||
|
||
{@a testing}
|
||
|
||
|
||
## Testing Considerations
|
||
|
||
You can write _isolated unit tests_ of validation and control logic in _Reactive Forms_.
|
||
|
||
_Isolated unit tests_ probe the component class directly, independent of its
|
||
interactions with its template, the DOM, other dependencies, or Angular itself.
|
||
|
||
Such tests have minimal setup, are quick to write, and easy to maintain.
|
||
They do not require the `Angular TestBed` or asynchronous testing practices.
|
||
|
||
That's not possible with _template-driven_ forms.
|
||
The template-driven approach relies on Angular to produce the control model and
|
||
to derive validation rules from the HTML validation attributes.
|
||
You must use the `Angular TestBed` to create component test instances,
|
||
write asynchronous tests, and interact with the DOM.
|
||
|
||
While not difficult, this takes more time, work and
|
||
skill—factors that tend to diminish test code
|
||
coverage and quality.
|