NG Dynamic Forms is a rapid form development library based on the official Angular dynamic forms guide.
It fully automates form UI creation by introducing a set of maintainable form control models and dynamic form control components
Out of the box support is provided for all popular UI libraries including Material, ngx-bootstrap, NG Bootstrap, Foundation, Ionic and PrimeNG.
Explore the live sample and the API documentation!
- Getting Started
- Running the Sample
- Basic Usage
- UI Modules
- Form Groups
- Form Arrays
- Form Layouts
- Form Control Configuration
- Form Control Events
- Updating Form Controls
- Custom Templates
- Custom Validators
- Custom Form Controls
- Validation Messaging
- Related Form Controls
- JSON Export & Import
- JSON Form Models
- Text Masks
- Autocompletion
- FAQ
- Appendix
1. Install the core package:
npm i @ng-dynamic-forms/core -S
2. Install a UI package and its peer dependencies:
npm i @ng-dynamic-forms/ui-material -S
1. Clone the Git repository:
git clone https://github.com/udos86/ng-dynamic-forms.git
cd ng-dynamic-forms
2. Install the dependencies:
npm i
3. Build the library:
npm run build:lib
4. Run the application:
ng serve
1. Import the UI module:
import { DynamicFormsMaterialUIModule } from "@ng-dynamic-forms/ui-material";
@NgModule({
imports: [
ReactiveFormsModule,
DynamicFormsMaterialUIModule
]
})
export class AppModule {}
2. Define your form model:
import {
DynamicFormModel,
DynamicCheckboxModel,
DynamicInputModel,
DynamicRadioGroupModel
} from "@ng-dynamic-forms/core";
export const MY_FORM_MODEL: DynamicFormModel = [
new DynamicInputModel({
id: "sampleInput",
label: "Sample Input",
maxLength: 42,
placeholder: "Sample input"
}),
new DynamicRadioGroupModel<string>({
id: "sampleRadioGroup",
label: "Sample Radio Group",
options: [
{label: "Option 1", value: "option-1"},
{label: "Option 2", value: "option-2"},
{label: "Option 3", value: "option-3"}
],
value: "option-3"
}),
new DynamicCheckboxModel({
id: "sampleCheckbox",
label: "I do agree"
})
];
3. Create a FormGroup
via DynamicFormService
:
import { MY_FORM_MODEL } from "./my-dynamic-form.model";
import { DynamicFormModel, DynamicFormService } from "@ng-dynamic-forms/core";
export class MyDynamicFormComponent {
formModel: DynamicFormModel = MY_FORM_MODEL;
formGroup = this.formService.createFormGroup(this.formModel);
constructor(private formService: DynamicFormService) {}
}
4. Add a DynamicFormComponent
to your template and bind its [group]
and [model]
property:
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel"></dynamic-material-form>
</form>
NG Dynamic Forms is built to provide solid yet unobtrusive support for a variety of common UI libraries:
You can instantly plug in your favorite form controls by installing the appropriate package and its peer dependencies:
npm i @ng-dynamic-forms/ui-<library-name> -S
Now just import the UI module:
@NgModule({
imports: [
ReactiveFormsModule,
DynamicFormsMaterialUIModule
]
})
export class AppModule {}
For creating the form markup all UI modules come with a DynamicFormComponent
that can easily be added to
your component template:
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel"></dynamic-material-form>
</form>
Alternatively you can directly make use of a specific DynamicFormControlComponent
to gain more control over rendering:
<form [formGroup]="formGroup">
<dynamic-material-form-control *ngFor="let controlModel of formModel"
[group]="formGroup"
[model]="controlModel"></dynamic-material-form-control>
</form>
Due to technical restrictions or external dependencies still being in development the support of major form controls varies among UI packages. See the following compatibility table:
ui-basic | ui-ngx-bootstrap | ui-foundation | ui-ionic | ui-material | ui-ng-bootstrap | ui-primeng | |
---|---|---|---|---|---|---|---|
Checkbox | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ |
Checkbox Group | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ |
Colorpicker | **** | ✗ | **** | **** | **** | **** | ✓ |
Datepicker | * | ✓ | * | ✓ | * | ✓ | ✓ |
Editor | ✗ | ✗ | ✗ | ✗ | ✗ | ✗ | ✓ |
File Upload | ** | ** | ** | ✗ | ** | ** | ** |
Input | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ |
Radio Group | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ |
Rating | ✗ | ✓ | ✗ | ✗ | ✗ | ✗ | ✓ |
Select | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ |
Slider | *** | *** | *** | ✓ | ✓ | *** | ✓ |
Switch | ✗ | ✗ | ✓ | ✓ | ✓ | ✗ | ✓ |
Textarea | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ | ✓ |
Timepicker | * | ✓ | * | ✓ | * | ✓ | ✓ |
*) datetime controls can be achieved using a DynamicInputModel
with inputType: "date"
or inputType: "time"
**) file upload controls can be achieved using a DynamicInputModel
with inputType: "file"
***) slider controls can be achieved using a DynamicInputModel
with inputType: "range"
****) color picker controls can be achieved using a DynamicInputModel
with inputType: "color"
In order to improve clarity it's often considered good practice to group forms into several logical fieldset
sections.
Thus NG Dynamic Forms supports nesting of form groups out of the box!
1. Declare a DynamicFormGroupModel
within your form model and add it's models to the group
array:
export const MY_FORM_MODEL: DynamicFormModel = [
new DynamicFormGroupModel({
id: "fullName",
legend: "Name",
group: [
new DynamicInputModel({
id: "firstName",
label: "First Name"
}),
new DynamicInputModel({
id: "lastName",
label: "Last Name"
})
]
}),
new DynamicFormGroupModel({
id: "address",
legend: "Address",
group: [
new DynamicInputModel({
id: "street",
label: "street"
}),
new DynamicInputModel({
id: "zipCode",
label: "Zip Code"
})
]
})
];
2. Create a FormGroup
and add a DynamicFormComponent
:
formGroup = this.formService.createFormGroup(this.formModel);
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel"></dynamic-material-form>
</form>
3. To manipulate an existing DynamicFormGroupModel
you can simply use DynamicFormService
:
addFormGroupControl(...)
insertFormGroupControl(...)
moveFormGroupControl(...)
removeFormGroupControl(...)
Sometimes forms need to allow the user to dynamically add multiple items of the same kind to it, e.g. addresses, products and so on.
Particularly for this reason Angular provides so called Form Arrays.
Fortunately, NG Dynamic Forms is capable of managing such nested form structures!
1. Add a DynamicFormArrayModel
to your form model:
export const MY_FORM_MODEL: DynamicFormModel = [
new DynamicFormArrayModel({
id: "myFormArray"
})
];
2. Add the groupFactory
property to the DynamicFormArrayModel
and assign a function to it which returns
the structure of a single form array item:
new DynamicFormArrayModel({
id: "myFormArray",
initialCount: 5,
groupFactory: () => {
return [
new DynamicInputModel({
id: "myInput",
label: "My Input"
})
];
}
})
3. Create a FormGroup
via DynamicFormService
and bind it to your component template:
this.formGroup = this.formService.createFormGroup(this.formModel);
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel"></dynamic-material-form>
<button type="button" (click)="addItem()">Add item</button>
<button type="button" (click)="clear()">Remove all items</button>
</form>
4. You can now easily modify your form array with DynamicFormService
:
ngOnInit() {
this.formArrayModel = this.formService.findModelById<DynamicFormArrayModel>("myFormArray", this.formModel);
this.formArrayControl = this.formService.findControlByModel<FormArray>(this.formArrayModel, this.formGroup);
}
addItem() {
this.formService.addFormArrayGroup(this.formArrayControl, this.formArrayModel);
this.formService.detectChanges();
}
clear() {
this.formService.clearFormArray(this.formArrayControl, this.formArrayModel);
this.formService.detectChanges();
}
Never forget to trigger change detection via detectChanges
when updating a form at runtime!
Alright, works like a charm!
But what if we want to append an additional remove <button>
for each array group?
Particularly for this case you can add a <ng-template>
and declare some custom content that is rendered equally for all form array groups:
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel">
<ng-template modelId="myFormArray">
<button type="button" (click)="onClick()">Label</button>
</ng-template>
</dynamic-material-form>
</form>
Whenever a <ng-template>
is applied to a DynamicFormArrayModel
, NgTemplateOutletContext
is internally bound to
the associated DynamicFormArrayGroupModel
.
That means you can access the group object and it's properties by either declaring a local default template variable or individual local template variables.
see chapter on Custom Templates
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel">
<ng-template modelId="myFormArray" let-group let-index="index" let-context="context">
<button type="button" (click)="removeItem(context, index)">Remove Item</button>
<button type="button" (click)="insertItem(group.context, group.index + 1)">Add Item</button>
</ng-template>
</dynamic-material-form>
</form>
This is extremely useful when you'd like to implement a remove or insert function:
removeItem(context: DynamicFormArrayModel, index: number) {
this.formService.removeFormArrayGroup(index, this.formArrayControl, context);
this.formService.detectChanges();
}
insertItem(context: DynamicFormArrayModel, index: number) {
this.formService.insertFormArrayGroup(index, this.formArrayControl, context);
this.formService.detectChanges();
}
Using DynamicFormService
again, you can even change the order of the groups in a form array dynamically:
this.formService.moveFormArrayGroup(index, -1, this.formArrayControl, context);
this.formService.detectChanges();
When using a NG Dynamic Forms UI package, e.g. ui-bootstrap
, all essential form classes of the underlying CSS library
(like form-group
or form-control
) are automatically put in place for you in the template of the corresponding DynamicFormControlComponent
.
Apart from that, NG Dynamic Forms does not make any further presumptions about optional CSS classes and leaves advanced layouting all up to you. That's solid yet unobtrusive.
So let's say we want to implement a beautifully aligned Bootstrap horizonal form...
At first we have to append the mandatory Bootstrap CSS class form-horizontal
to the <form>
element in our template:
<form class="form-horizontal" [formGroup]="formGroup">
<dynamic-bootstrap-form [group]="formGroup" [model]="formModel"></dynamic-bootstrap-form>
</form>
Now we need to position the <label>
and the form-control
using the Bootstrap grid system.
But since all the template logic for the form controls is capsuled in the component scope we cannot directly attach those necessary CSS classes to markup.
Don't worry!
Arbitrary CSS classes can be provided for any form control by binding a DynamicFormLayout
to a DynamicFormControlComponent
.
A DynamicFormLayout
is a simple object literal that associates a CSS class configuration object with a model id.
By differentiating between element
and grid
context NG Dynamic Forms can automatically apply the
CSS class strings in the component template based on position identifiers:
export const MY_FORM_LAYOUT = {
"myFormControlModelId": {
element: {
label: "control-label"
},
grid: {
control: "col-sm-9",
label: "col-sm-3"
}
},
"myOtherFormControlModelId": {
element: {
label: "control-label"
},
grid: {
control: "col-sm-9",
label: "col-sm-3"
}
}
};
To reference this DynamicFormLayout
we now just create another component class member:
import { MY_FORM_LAYOUT } from "./my-dynamic-form.layout";
export class MyDynamicFormComponent implements OnInit {
formModel: DynamicFormModel = MY_FORM_MODEL;
formLayout: DynamicFormLayout = MY_FORM_LAYOUT;
formGroup = this.formService.createFormGroup(this.formModel);
constructor(private formService: DynamicFormService) {}
}
Finally we pass the form layout to our DynamicFormComponent
via input binding:
<form [formGroup]="formGroup">
<dynamic-bootstrap-form [group]="formGroup"
[layout]="formLayout"
[model]="formModel"></dynamic-bootstrap-form>
</form>
Using this approach we are able to strictly decouple layout information from pure form models.
No matter which UI library you're using, usually there is a set of basic properties that apply universally to a certain type of form control.
So, when picking e.g. a slider component, you'll always find an @Input()
to control its minimum / maximum value and its orientation.
Whenever that's the case NG Dynamic Forms directly provides an abstract configuration property on the corresponding DynamicFormControlModel
:
new DynamicSliderModel({
id: "mySlider",
min: 0,
max: 10,
vertical: true
})
Furthermore, very often there are additional component features that are totally library-specific.
So, when using e.g. Material there is a unique @Input()
for inverting a slider component.
NG Dynamic Forms gives you the freedom to utilize such an individual parameter, as well.
All you need to do is to put it in the additional
configuration object of your DynamicFormValueControlModel
:
new DynamicSliderModel({
id: "mySlider",
min: 0,
max: 10,
vertical: true
additional: {
invert: true
}
})
When developing forms it's often useful to keep track of certain events that occur on a specific form control.
With NG Dynamic Forms you can directly listen to the three most common events,
blur
, change
and focus
, both on DynamicFormControlComponent
and DynamicFormComponent
:
<dynamic-material-form [group]="formGroup"
[model]="formModel"
(blur)="onBlur($event)"
(change)="onChange($event)"
(focus)="onFocus($event)"></dynamic-material-form>
<form [formGroup]="myFormGroup">
<dynamic-material-form-control *ngFor="let controlModel of myFormModel"
[group]="myFormGroup"
[model]="controlModel"
(blur)="onBlur($event)"
(change)="onChange($event)"
(focus)="onFocus($event)"></dynamic-material-form-control>
</form>
The object passed to your handler function gives you any control and model information needed for further processing.
The $event
property even grants access to the original event:
interface DynamicFormControlEvent {
$event: Event | FocusEvent | DynamicFormControlEvent | any;
context: DynamicFormArrayGroupModel | null;
control: FormControl;
group: FormGroup;
model: DynamicFormControlModel;
type: string;
}
But when using a UI library usually there are a bunch of additional events provided for certain form control components.
Of course, NG Dynamic Forms won't let you down here.
All custom UI events are pooled by an individual @Output()
utilizing the respective library prefix.
<dynamic-material-form [group]="formGroup"
[model]="formModel"
(matEvent)="onMatEvent($event)"></dynamic-material-form>
NG Dynamic Forms entirely relies on the Angular ReactiveFormsModule
.
Therefore the value
property of a DynamicFormValueControlModel
cannot be two-way-bound via [(ngModel)]
.
Also, dating back to RC.6, Angular does not allow property bindings of the disabled
attribute in reactive forms.
Yet updating either the value or status of a form control at runtime can easily be achieved.
At first we need to get a reference to its DynamicFormControlModel
representation:
const inputModel = this.formService.findModelById<DynamicInputModel>("myInput", this.formModel);
After that we just bring the convenient value
and disabled
setters of DynamicFormValueControlModel
into play and we're fine:
inputModel.value = "New Value";
inputModel.disabled = true;
The modifications immediately are reflected in the user interface. So far so good.
But what about other data? Since a DynamicFormControlModel
is bound directly to a DOM
element via Angular core mechanisms,
changing one of its properties should automatically trigger an update of the user interface as well, right?
Now BEWARE!
Due to performance reasons NG Dynamic Forms makes use of ChangeDetectionStrategy.OnPush
under the hood.
Therefore changing any property on a DynamicFormControl
except for value
and disabled
will not cause an automatic DOM update to occur.
Instead you always have to call detectChanges()
on DynamicFormService
after updating the model to signal that the library should manually trigger a change detection.
inputModel.label = "New Label";
this.formService.detectChanges();
To optimize this you can optionally pass a DynamicFormComponent
to detectChanges()
to narrow the number of elements that are affected by the forthcoming change detection:
@ViewChild(DynamicMaterialFormComponent, {static: true}) formComponent°!: DynamicMaterialFormComponent;
//...
this.formService.detectChanges(this.formComponent);
As already mentioned, NG Dynamic Forms gives you a lot of freedom in adjusting your form layout via CSS classes.
However there are situations where you would like to add custom markup for some of your form controls, as well.
In order to do so, just put a <ng-template>
inside your dynamic form control element and set a modelId
property to assign it to a certain control.
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel">
<ng-template modelId="myInput">
<p>Some custom markup</p>
</ng-template>
</dynamic-material-form>
</form>
Alternatively you can also apply modelType
instead of modelId
to reuse a template for several form controls of the same type:
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel">
<ng-template modelType="ARRAY">
<p>Just some custom markup</p>
</ng-template>
</dynamic-material-form>
</form>
And it's getting better!
Since for every template NgTemplateOutletContext
is internally bound to the corresponding DynamicFormControlModel
you
can use local template variables to reference your models' properties:
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel">
<ng-template modelId="myInput" let-id="id">
<p>Some custom markup for {{ id }}</p>
</ng-template>
</dynamic-material-form>
</form>
Finally you can determine whether the template is rendered before or after the actual form control by using the align
property:
<form [formGroup]="formGroup">
<dynamic-material-form [group]="formGroup" [model]="formModel">
<ng-template modelId="myInput" align="START">
<p>Some custom markup</p>
</ng-template>
</dynamic-material-form>
</form>
Adding built-in Angular validators to any DynamicFormControlModel
is plain and simple!
Just reference a function from Validators
class by it's name in the validators
or asyncValidators
configuration object:
new DynamicInputModel({
id: "myInput",
label: "My Input",
validators: {
required: null,
minLength: 3
}
})
So far so good!
But what if you'd like to introduce some custom validator as well?
export function myCustomValidator(control: AbstractControl): ValidationErrors | null {
const hasError = control.value ? (control.value as string).startsWith("abc") : false;
return hasError ? {myCustomValidator: true} : null;
}
Just provide your validator functions via default NG_VALIDATORS
or NG_ASYNC_VALIDATORS
token:
@NgModule({
// ...
providers: [
{provide: NG_VALIDATORS, useValue: myCustomValidator, multi: true}
]
})
Note: thoughtram.io - Custom Validators in Angular 2
You're now ready to apply your custom validator to your model:
new DynamicInputModel({
id: "myInput",
label: "My Input",
validators: {
myCustomValidator: null
}
})
But beware! There's a catch!
Internally NG Dynamic Forms resolves a provided validator by it's function name.
Though when uglifying code for production this information is irretrievably lost.
To save you from this issue NG Dynamic Forms comes up with a special InjectionToken<Map<string, Validator | ValidatorFactory>>
named DYNAMIC_VALIDATORS
to which you should additionally provide any custom validator function:
providers: [
{
provide: NG_VALIDATORS,
useValue: myCustomValidator,
multi: true
},
{
provide: DYNAMIC_VALIDATORS,
useValue: new Map<string, Validator | ValidatorFactory>([
["myCustomValidator", myCustomValidator]
])
}
]
You can also have multiple validators on the same input bu providing multiple key|value pairs in the useValue:
providers: [
{
provide: NG_VALIDATORS,
useValue: myCustomValidator,
multi: true
},
{
provide: NG_VALIDATORS,
useValue: myOtherCustomValidator,
multi: true
},
{
provide: DYNAMIC_VALIDATORS,
useValue: new Map<string, Validator | ValidatorFactory>([
["myCustomValidator", myCustomValidator],
["myOtherCustomValidator", myOtherCustomValidator]
])
}
]
Another suitable solution for most situations would be to make use of the alternate validator notation:
new DynamicInputModel({
id: "myInput",
label: "My Input",
validators: {
myCustomValidator: {
name: myCustomValidator.name,
args: null
}
}
})
Starting with version 6 NG Dynamic Forms allows you to easily plugin in your own custom form controls.
Beforehand follow the standard procedure to build your custom Angular form control:
import { Component, forwardRef } from '@angular/core';
import { ControlValueAccessor, NG_VALUE_ACCESSOR } from "@angular/forms";
@Component({
selector: 'my-custom-form-control',
templateUrl: './my-custom-form-control.component.html',
providers: [
{
provide: NG_VALUE_ACCESSOR,
useExisting: forwardRef(() => MyCustomFormControlComponent),
multi: true
}
]
})
export class MyCustomFormControlComponent implements ControlValueAccessor {
//...
}
Now create a new DynamicFormControlComponent
:
import { ChangeDetectionStrategy, Component, EventEmitter, Input, Output, ViewChild } from "@angular/core";
import { FormGroup } from "@angular/forms";
import {
DynamicFormControlComponent,
DynamicFormControlCustomEvent,
DynamicFormLayout,
DynamicFormLayoutService,
DynamicFormValidationService,
} from "@ng-dynamic-forms/core";
import { MyCustomFormControlComponent } from "...";
@Component({
selector: "my-dynamic-custom-form-control",
templateUrl: "./my-dynamic-custom-form-control.component.html",
changeDetection: ChangeDetectionStrategy.OnPush
})
export class MyDynamicCustomFormControlComponent extends DynamicFormControlComponent {
@Input() group!: FormGroup;
@Input() layout?: DynamicFormLayout;
@Input() model!: /* corresponding DynamicFormControlModel */;
@Output() blur: EventEmitter<any> = new EventEmitter();
@Output() change: EventEmitter<any> = new EventEmitter();
@Output() customEvent: EventEmitter<DynamicFormControlCustomEvent> = new EventEmitter();
@Output() focus: EventEmitter<any> = new EventEmitter();
@ViewChild(MyCustomFormControlComponent) myCustomFormControlComponent!: MyCustomFormControlComponent;
constructor(protected layoutService: DynamicFormLayoutService,
protected validationService: DynamicFormValidationService) {
super(layoutService, validationService);
}
}
Next embed your custom form control into the component template:
<ng-container [formGroup]="group">
<my-custom-form-control [formControlName]="model.id"
[name]="model.name"
[ngClass]="[getClass('element', 'control'), getClass('grid', 'control')]"
(blur)="onBlur($event)"
(change)="onChange($event)"
(focus)="onFocus($event)"></my-custom-form-control>
</ng-container>
Then add your newly implemented DynamicFormControl
to entryComponents
in your app module:
entryComponents: [MyDynamicCustomFormControlComponent]
Finally provide DYNAMIC_FORM_CONTROL_MAP_FN
to overwrite the default mapping of a concrete DynamicFormControlModel
to its corresponding DynamicFormControlComponent
;
providers: [
{
provide: DYNAMIC_FORM_CONTROL_MAP_FN,
useValue: (model: DynamicFormControlModel): Type<DynamicFormControl> | null => {
switch (model.type) {
case /* corresponding DynamicFormControlModel */:
return MyDynamicCustomFormControlComponent;
}
}
}
]
Delivering meaningful validation information to the user is an essential part of good form design.
Yet HTML5 already comes up with some native functionality you very likely want to use Angular mechanisms to gain much more control over validation logic and it's corresponding message output.
Avoiding a library too opinionated in the beginning, NG Dynamic Forms has originally been developed without any kind of obtrusive validation message system in mind.
However, due to its very common use case, model-based error messaging has eventually become an optional built-in feature.
Just add an errorMessages
object to any DynamicFormControlModel
and assign error message templates based on Validators
names:
new DynamicInputModel({
id: "myInput",
label: "My Input",
validators: {
required: null
},
errorMessages: {
required: "{{ label }} is required."
}
})
Note: Error message templates allow the following placeholders:
-
{{ propertyName }}
wherepropertyName
is a property of the model, for example{{ label }}
. -
{{ validator.propertyName }}
wherepropertyName
is a property of the object returned by validation function, for example{{ validator.requiredPattern }}
in case of pattern validator.
Error messaging is automatically enabled whenever errorMessages
are declared on a DynamicFormControlModel
.
By default error messages are shown whenever the corresponding form control is invalid and blurred at the same time and has already been touched.
Since the condition for displaying error messages often is a subject to individual user experience preferences you can customize this by
providing a so called DynamicErrorMessagesMatcher
via the DYNAMIC_ERROR_MESSAGES_MATCHER
injection token:
export const MY_CUSTOM_ERROR_MESSAGES_MATCHER =
(control: AbstractControl, model: DynamicFormControlModel, hasFocus: boolean) => {
return //...
};
// ...
providers: [
{
provide: DYNAMIC_ERROR_MESSAGES_MATCHER,
useValue: myCustomErrorMessagesMatcher
},
]
By default the DEFAULT_ERROR_STATE_MATCHER
is active:
export const DEFAULT_ERROR_STATE_MATCHER: DynamicErrorMessagesMatcher =
(control: AbstractControl, model: DynamicFormControlModel, hasFocus: boolean) => {
return control.touched && !hasFocus;
};
Please note here that NG Dynamic Forms always assumes both the control being invalid and error messages being defined on the model as a fixed precondition.
In many forms the state of a certain form control directly depends on the value
or status
of some other form control.
Implementing such a connection manually would be time-consuming and only lead to undesired boilerplate code.
NG Dynamic Forms enables you to declaratively add form control relations by using so called DynamicFormControlMatcher
s.
A matcher defines the action that should take place for a predefined match
when a value
or state
change has occured on the related form control.
export interface DynamicFormControlMatcher {
match: string;
opposingMatch: string | null;
onChange(hasMatch: boolean, model: DynamicFormControlModel, control: FormControl, injector: Injector): void;
}
At the moment there are the following default matchers available:
DisabledMatcher
HiddenMatcher
RequiredMatcher
NOTE: Always make sure that you're providing every DynamicFormControlMatcher
in your app.module
:
providers: [
// ...
DISABLED_MATCHER,
REQUIRED_MATCHER
]
That way you're also totally free to implement your own custom matcher:
export const MyCustomMatcher: DynamicFormControlMatcher = {
match: MATCH_CUSTOM,
opposingMatch: MATCH_CUSTOM_OPPOSITE,
onChange(hasMatch: boolean, model: DynamicFormControlModel): void {
if (hasMatch) {
console.log("It's a match");
}
}
};
export const MY_CUSTOM_MATCHER: ValueProvider = {
provide: DYNAMIC_MATCHERS,
useValue: MyCustomMatcher,
multi: true
};
So let's pretend we need to have our textarea myTextArea
disabled as soon as the third option of our select menu mySelect
is chosen.
Just add a relations
property to your DynamicFormControlModel
, then declare a DynamicFormControlRelation
by setting a match
for a certain DynamicFormControlCondition
:
new DynamicTextAreaModel(
{
id: "myTextArea",
label: "My Textarea",
relations: [
{
match: MATCH_DISABLED,
when: [{ id: "mySelect", value: "option-3" }]
}
]
}
That's it - the library will automatically add all the pieces together under the hood.
But what if myTextArea
should depend on another control myRadioGroup
as well?
Luckily there's support for multi-related form controls, too.
Just add a second DynamicFormControlCondition
entry and (optionally) define how all conditions should logically be connected via operator
:
new DynamicTextAreaModel(
{
id: "myTextArea",
label: "My Textarea",
relations: [
{
match: MATCH_DISABLED,
operator: AND_OPERATOR,
when: [
{ id: "mySelect", value: "option-3" },
{ id: "myRadioGroup", value: "option-4" }
]
}
]
}
)
Sooner or later you likely want to persist your dynamic form model in order to restore it at some point in the future.
That's why all DynamicFormControlModel
s have been prepared to properly export to JSON:
storeForm() {
const json = JSON.stringify(this.formModel);
// ...store JSON in localStorage or transfer to server
}
In order to recreate a form from JSON just make use of the corresponding function provided by DynamicFormService
:
restoreForm() {
let json: string;
// ...load JSON from localStorage or server
this.formModel = this.formService.fromJSON(json);
}
By default NG Dynamic Forms embraces prototypical inheritance and forces you to use constructor functions when modelling a form.
Depending on your general set-up or individual preferences sometimes it's more suitable to provide a form model in plain JSON, though.
Fortunately, this is perfectly fine and supported, as well.
To specify a single JSON form control model just assign the mandatory type
property:
[
{
"type": "INPUT",
"id": "sampleInput",
"label": "Sample Input",
"maxLength": 42,
"placeholder": "Sample input"
},
{
"type": "RADIO_GROUP",
"id": "sampleRadioGroup",
"label": "Sample Radio Group",
"options": [
{"label": "Option 1", "value": "option-1"},
{"label": "Option 2", "value": "option-2"},
{"label": "Option 3", "value": "option-3"}
],
"value": "option-3"
},
{
"type": "CHECKBOX",
"id": "sampleCheckbox",
"label": "I do agree"
}
]
After having asynchronously loaded the JSON form model into your application don't forget to transform it via fromJSON()
before creating a FormGroup
.
ngOnInit() {
this.http.get<object[]>('./app/my-dynamic-form.model.json').subscribe(formModelJson => {
this.formModel = this.formService.fromJSON(formModelJson);
this.formGroup = this.formService.createFormGroup(this.formModel);
});
}
Whenever an <input>
element needs to be filled in a predefined format, text masks can make a nice form enhancement.
Since Angular does not deliver an appropriate feature by default, NG Dynamic Forms integrates ngx-mask.
That's why some UI packages demand one additional peer dependency to be installed:
npm install ngx-mask --save
You're now capable of adding a mask
property to any DynamicInputModel
according to Text Mask docs:
new DynamicInputModel({
id: "maskedInput",
label: "Masked Input",
mask: "00/00/0000",
})
Furthermore, you can add additional configuration via maskConfig
according to the ngx-mask
new DynamicInputModel({
id: "maskedInput",
label: "Masked Input",
mask: "00/00/0000",
maskConfig: {
showMaskTyped: true
},
})
Note: Angular does not support adding multiple custom value accessors to the same input element. Thus, this feature is not available to libraries like Material that already do apply a custom value accessor by default. In cases like Prime NG where a component library natively provides some text mask mechanism, NG Dynamic Forms maps the mask configuration to the built-in api.
Adding automatic input completion can be key factor to good user experience (especially on mobile devices) and should always be considered when designing forms.
That's why NG Dynamic Forms keeps you covered here, as well!
Following HTML5 standard behavior, the autocomplete
attribute is always bound to on
for any DynamicFormTextInputControl
form element by default.
Nevertheless you can completely disable this feature by explicitly setting the corresponding model property to off
:
import { AUTOCOMPLETE_OFF } from "@ng-dynamic-forms/core";
const model = new DynamicInputModel({
id: "myInput",
label: "My Input",
autoComplete: AUTOCOMPLETE_OFF
});
Further on NG Dynamic Forms embraces the brand new HTML5
autofill detail tokens by providing
AUTOFILL_<TOKEN_NAME|FIELD_NAME>
string constants and AutoFillUtils
to help you putting together a valid expression:
Note: Jason Grigsby - Autofill: What web devs should know, but don’t
import {
AutoFillUtils,
AUTOFILL_TOKEN_BILLING,
AUTOFILL_FIELD_NAME,
AUTOCOMPLETE_ON
} from "@ng-dynamic-forms/core";
export class MySample {
constructor() {
const expression = `${AUTOFILL_TOKEN_BILLING} ${AUTOFILL_FIELD_NAME}`;
const model = new DynamicInputModel({
id: "myInput",
label: "My Input",
autoComplete: AutoFillUtils.validate(expression) ? expression : AUTOCOMPLETE_ON
});
}
}
Besides you can make user input more comfortable, providing HTML5 datalists
by setting the list
property of DynamicInputControlModel
:
new DynamicInputModel({
id: "myInput",
label: "My Input",
list: ["Alabama", "Alaska", "Arizona", "Arkansas"]
})
Why should I use NG Dynamic Forms?
Your Angular forms will become highly maintainable as you don't have to care about keeping template markup and program code in sync ever again.
When should I use NG Dynamic Forms?
Whenever your Angular application is driven by multiple complex forms.
When should I not use NG Dynamic Forms?
Whenever your Angular application has to display very simple forms only or extremely individual form UI.
Are there any downsides to using NG Dynamic Forms?
Certain limitations exist regarding extremely individual form layouts.
Does NG Dynamic Forms support custom form controls?
Yes, it does.
Are there any other dynamic forms libraries for Angular?
Yes, namely ng-formly, ngx-forms and angular-formio.
How can I support this project besides contributing issues or code?
Star the repository.
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