A simple React component capable of building HTML forms out of a JSON schema and using Bootstrap semantics by default.
A live playground is hosted on gh-pages.
- Installation
- Usage
- Form customization
- The uiSchema object
- Alternative widgets
- Object fields ordering
- Array item options
- Custom CSS class names
- Custom labels for enum fields
- Multiple choices list
- Autogenerated widget ids
- Form action buttons
- Help texts
- Title texts
- Description texts
- Auto focus
- Textarea rows option
- Placeholders
- Field labels
- HTML5 Input Types
- Form attributes
- Advanced customization
- Form data validation
- Styling your forms
- Schema definitions and references
- JSON Schema supporting status
- Tips and tricks
- Contributing
- License
Requires React 15.0.0+.
Note: The
master
branch of the repository reflects ongoing development. Releases are published as tags.You should never blindly install from
master
, but rather check what the available stable releases are.
$ npm install react-jsonschema-form --save
Note: While the library renders Bootstrap HTML semantics, you have to build/load the Bootstrap styles on your own.
<script src="https://unpkg.com/react-jsonschema-form/dist/react-jsonschema-form.js"></script>
Source maps are available at this url.
Note: The CDN version does not embed react nor react-dom.
You'll also need to alias the default export property to use the Form component:
const Form = JSONSchemaForm.default;
// or
const {default: Form} = JSONSchemaForm;
import React, { Component } from "react";
import { render } from "react-dom";
import Form from "react-jsonschema-form";
const schema = {
title: "Todo",
type: "object",
required: ["title"],
properties: {
title: {type: "string", title: "Title", default: "A new task"},
done: {type: "boolean", title: "Done?", default: false}
}
};
const log = (type) => console.log.bind(console, type);
render((
<Form schema={schema}
onChange={log("changed")}
onSubmit={log("submitted")}
onError={log("errors")} />
), document.getElementById("app"));
That should give something like this (if you took care of loading the standard Bootstrap stylesheet):
Often you'll want to prefill a form with existing data; this is done by passing a formData
prop object matching the schema:
const formData = {
title: "First task",
done: true
};
render((
<Form schema={schema}
formData={formData} />
), document.getElementById("app"));
NOTE: If your form have a single field, pass a single value to formData
. ex: formData='Charlie'
WARNING: If you have situations where your parent component can re-render, make sure you listen to the onChange
event and update the data you pass to the formData
attribute.
You can pass a function as the onSubmit
prop of your Form
component to listen to when the form is submitted and its data are valid. It will be passed a result object having a formData
attribute, which is the valid form data you're usually after:
const onSubmit = ({formData}) => console.log("yay I'm valid!");
render((
<Form schema={schema}
onSubmit={onSubmit} />
), document.getElementById("app"));
To react to when submitted form data are invalid, pass an onError
handler, which is passed the list of encoutered errors:
const onError = (errors) => console.log("I have", errors.length, "errors to fix");
render((
<Form schema={schema}
onError={onError} />
), document.getElementById("app"));
If you plan on being notified everytime the form data are updated, you can pass an onChange
handler, which will receive the same args as onSubmit
any time a value is updated in the form.
Sometimes you may want to trigger events or modify external state when a field has been touched, so you can pass an onBlur
handler, which will receive the id of the input that was blurred and the field value.
Sometimes you may want to trigger events or modify external state when a field has been focused, so you can pass an onFocus
handler, which will receive the id of the input that is focused and the field value.
JSONSchema is limited for describing how a given data type should be rendered as a form input component, that's why this lib introduces the concept of UI schema.
A UI schema is basically an object literal providing information on how the form should be rendered, while the JSON schema tells what.
The uiSchema object follows the tree structure of the form field hierarchy, and for each allows to define how it should be rendered:
const schema = {
type: "object",
properties: {
foo: {
type: "object",
properties: {
bar: {type: "string"}
}
},
baz: {
type: "array",
items: {
type: "object",
properties: {
description: {
"type": "string"
}
}
}
}
}
}
const uiSchema = {
foo: {
bar: {
"ui:widget": "textarea"
},
},
baz: {
// note the "items" for an array
items: {
description: {
"ui:widget": "textarea"
}
}
}
}
render((
<Form schema={schema}
uiSchema={uiSchema} />
), document.getElementById("app"));
The uiSchema ui:widget
property tells the form which UI widget should be used to render a certain field:
Example:
const uiSchema = {
done: {
"ui:widget": "radio" // could also be "select"
}
};
render((
<Form schema={schema}
uiSchema={uiSchema}
formData={formData} />
), document.getElementById("app"));
Here's a list of supported alternative widgets for different JSONSchema data types:
radio
: a radio button group withtrue
andfalse
as selectable values;select
: a select box withtrue
andfalse
as options;- by default, a checkbox is used
Note: To set the labels for a boolean field, instead of using
true
andfalse
you can setenumNames
in your schema. Note thatenumNames
belongs in yourschema
, not theuiSchema
, and the order is always[true, false]
.
textarea
: atextarea
element is used;password
: aninput[type=password]
element is used;color
: aninput[type=color]
element is used;- by default, a regular
input[type=text]
element is used.
The built-in string field also supports the JSONSchema format
property, and will render an appropriate widget by default for the following string formats:
email
: Aninput[type=email]
element is used;uri
: Aninput[type=url]
element is used;data-url
: By default, aninput[type=file]
element is used; in case the string is part of an array, multiple files will be handled automatically (see File widgets).date
: By default, aninput[type=date]
element is used;date-time
: By default, aninput[type=datetime-local]
element is used.
Please note that while standardized, datetime-local
and date
input elements are not yet supported by Firefox and IE. If you plan on targetting these platforms, two alternative widgets are available:
alt-datetime
: Sixselect
elements are used to select the year, the month, the day, the hour, the minute and the second;alt-date
: Threeselect
elements are used to select the year, month and the day.
updown
: aninput[type=number]
updown selector;range
: aninput[type=range]
slider;radio
: a radio button group with enum values. can only be used whenenum
values are specified for this input- by default, a regular
input[type=text]
element is used.
Note: for numbers,
min
,max
andstep
input attributes values will be handled according to JSONSchema'sminimum
,maximum
andmultipleOf
values when they're defined.
The ui:disabled
uiSchema directive will disable all child widgets from a given field.
The ui:readonly
uiSchema directive will mark all child widgets from a given field as read-only.
Note: if you're about the difference between a disabled field and a readonly one: marking a field as read-only will render it greyed but its text value will be selectable; disabling it will prevent its value to be selected at all.
Hidden widgets
It's possible to use an hidden widget for a given field by setting the ui:widget
uiSchema directive to hidden
for this field:
const schema = {
type: "object",
properties: {
foo: {type: "boolean"}
}
};
const uiSchema = {
foo: {"ui:widget": "hidden"}
};
Notes
- Hiding widgets is only supported for
boolean
,string
,number
andinteger
schema types;- An hidden widget takes its value from the
formData
prop.
This library supports a limited form of input[type=file]
widgets, in the sense that it will propagate file contents to form data state as data-urls.
There are two ways to use file widgets:
By declaring a string
json schema type along a data-url
format:
const schema = {
type: "string",
format: "data-url",
};
By specifying a ui:widget
field uiSchema directive as file
:
const schema = {
type: "string",
};
const uiSchema = {
"ui:widget": "file",
};
Multiple files selectors are supported by defining an array of strings having data-url
as a format:
const schema = {
type: "array",
items: {
type: "string",
format: "data-url",
}
};
Note that storing large dataURIs into form state might slow rendering.
The included FileWidget
exposes a reference to the <input type="file" />
element node as an inputRef
component property.
This allows you to programmatically trigger the browser's file selector which can be used in a custom file widget.
Since the order of object properties in Javascript and JSON is not guaranteed, the uiSchema
object spec allows you to define the order in which properties are rendered using the ui:order
property:
const schema = {
type: "object",
properties: {
foo: {type: "string"},
bar: {type: "string"}
}
};
const uiSchema = {
"ui:order": ["bar", "foo"]
};
render((
<Form schema={schema}
uiSchema={uiSchema} />
), document.getElementById("app"));
If a guarenteed fixed order is only important for some fields, you can insert a wildcard "*"
item in your ui:order
definition. All fields that are not referenced explicitly anywhere in the list will be rendered at that point:
const uiSchema = {
"ui:order": ["bar", "*"]
};
Array items are orderable by default, and react-jsonschema-form renders move up/down buttons alongside them. The uiSchema
object spec allows you to disable ordering:
const schema = {
type: "array",
items: {
type: "string"
}
};
const uiSchema = {
"ui:options": {
orderable: false
}
};
If either items
or additionalItems
contains a schema object, an add button for new items is shown by default. You can turn this off with the addable
option in uiSchema
:
const uiSchema = {
"ui:options": {
addable: false
}
};
A remove button is shown by default for an item if items
contains a schema object, or the item is an additionalItems
instance. You can turn this off with the removable
option in uiSchema
:
const uiSchema = {
"ui:options": {
removable: false
}
};
The uiSchema object accepts a classNames
property for each field of the schema:
const uiSchema = {
title: {
classNames: "task-title foo-bar"
}
};
Will result in:
<div class="field field-string task-title foo-bar" >
<label>
<span>Title*</span>
<input value="My task" required="" type="text">
</label>
</div>
This library supports the enumNames
property for enum
fields, which allows defining custom labels for each option of an enum
:
const schema = {
type: "number",
enum: [1, 2, 3],
enumNames: ["one", "two", "three"]
};
This will be rendered using a select box that way:
<select>
<option value="1">one</option>
<option value="2">two</option>
<option value="3">three</option>
</select>
Note that string representations of numbers will be cast back and reflected as actual numbers into form state.
The default behavior for array fields is a list of text inputs with add/remove buttons. Though there are two alternative simpler widgets for common situations like picking elements against a list of choices; typically this maps to a schema having:
- an
enum
list for theitems
property of anarray
field - with the
uniqueItems
property set totrue
Example:
const schema = {
type: "array",
title: "A multiple choices list",
items: {
type: "string",
enum: ["foo", "bar", "fuzz", "qux"],
},
uniqueItems: true
};
By default, this will automatically render a multiple select box. If you prefer a list of checkboxes, just set the uiSchema ui:widget
directive to "checkboxes"
for that field:
const uiSchema = {
"ui:widget": "checkboxes"
};
Care should be taken when using the required
property with arrays. An empty array is sufficient to pass that validation check. If you wish to ensure the user populates the array, you can specify the minimum number of items the user must select with the minItems
property.
Example:
const schema = {
type: "array",
minItems: 2,
title: "A multiple choices list",
items: {
type: "string",
enum: ["foo", "bar", "fuzz", "qux"],
},
uniqueItems: true
};
By default, checkboxes are stacked but if you prefer them inline:
const uiSchema = {
"ui:widget": "checkboxes",
"ui:options": {
inline: true
}
};
See the "Arrays" section of the playground for cool demos.
By default, the lib will generate ids unique to the form for all rendered widgets. But if you plan on using multiple instances of the Form
component in a same page, it's wise to declare a root prefix for these, using the ui:rootFieldId
uiSchema directive:
const uiSchema = {
"ui:rootFieldId": "myform"
};
So all widgets will have an id prefixed with myform
.
You can provide custom buttons to your form via the Form
component's children
. A default submit button will be rendered if you don't provide children to the Form
component.
render((
<Form schema={schema}>
<div>
<button type="submit">Submit</button>
<button type="button">Cancel</button>
</div>
</Form>
), document.getElementById("app"));
Warning: there should be a button or an input with type="submit"
to trigger the form submission (and then the form validation).
Sometimes it's convenient to add some text next to a field to guide the end user filling it; this is the purpose of the ui:help
uiSchema directive:
const schema = {type: "string"};
const uiSchema = {
"ui:widget": "password",
"ui:help": "Hint: Make it strong!"
};
Help texts work for any kind of field at any level, and will always be rendered immediately below the field component widget(s), but after contextualized errors, if any.
Sometimes it's convenient to change title a field; this is the purpose of the ui:title
uiSchema directive:
const schema = {type: "string"};
const uiSchema = {
"ui:widget": "password",
"ui:title": "Your password"
};
Sometimes it's convenient to change description a field; this is the purpose of the ui:description
uiSchema directive:
const schema = {type: "string"};
const uiSchema = {
"ui:widget": "password",
"ui:description": "The best password"
};
If you want to focus on a text input or textarea input/on a widget automatically, just set ui:autofocus
uiSchema directive to true
.
const schema = {type: "string"};
const uiSchema = {
"ui:widget": "textarea",
"ui:autofocus": true
}
You can set initial height of a textarea widget by specifying rows
option.
const schema = {type: "string"};
const uiSchema = {
"ui:widget": "textarea",
"ui:options": {
rows: 15
}
}
Text fields can benefit from placeholders by using the ui:placeholder
uiSchema directive:
const schema = {type: "string", format: "uri"};
const uiSchema = {
"ui:placeholder": "http://"
};
Fields using enum
can also use ui:placeholder
. The value will be used as the text for the empty option in the select widget.
const schema = {type: "string", enum: ["First", "Second"]};
const uiSchema = {
"ui:placeholder": "Choose an option"
};
Field labels are rendered by default. Labels may be omitted by setting the label
option to false
from ui:options
uiSchema directive.
const schema = {type: "string"};
const uiSchema = {
"ui:options": {
label: false
}
};
If all you need to do is change the input type (for using things like input type="tel") you can specify the inputType
from ui:options
uiSchema directive.
const schema = {type: "string"};
const uiSchema = {
"ui:options": {
inputType: 'tel'
}
};
Form component supports the following html attributes:
<Form
id="edit-form"
className="form form-wide"
name="awesomeForm"
method="post"
target="_blank"
action="/users/list"
autocomplete="off"
enctype="multipart/form-data"
acceptcharset="ISO-8859-1"
schema={} />
To take control over the inner organization of each field (each form row), you can define a field template for your form.
A field template is basically a React stateless component being passed field-related props so you can structure your form row as you like:
function CustomFieldTemplate(props) {
const {id, classNames, label, help, required, description, errors, children} = props;
return (
<div className={classNames}>
<label htmlFor={id}>{label}{required ? "*" : null}</label>
{description}
{children}
{errors}
{help}
</div>
);
}
render((
<Form schema={schema}
FieldTemplate={CustomFieldTemplate} />,
), document.getElementById("app"));
If you want to handle the rendering of each element yourself, you can use the props rawHelp
, rawDescription
and rawErrors
.
The following props are passed to a custom field template component:
id
: The id of the field in the hierarchy. You can use it to render a label targetting the wrapped widget.classNames
: A string containing the base bootstrap CSS classes merged with any custom ones defined in your uiSchema.label
: The computed label for this field, as a string.description
: A component instance rendering the field description, if any defined (this will use any customDescriptionField
defined).rawDescription
: A string containing anyui:description
uiSchema directive defined.children
: The field or widget component instance for this field row.errors
: A component instance listing any encountered errors for this field.rawErrors
: An array of strings listing all generated error messages from encountered errors for this field.help
: A component instance rendering anyui:help
uiSchema directive defined.rawHelp
: A string containing anyui:help
uiSchema directive defined. NOTE:rawHelp
will beundefined
if passedui:help
is a React component instead of a string.hidden
: A boolean value stating if the field should be hidden.required
: A boolean value stating if the field is required.readonly
: A boolean value stating if the field is read-only.displayLabel
: A boolean value stating if the label should be rendered or not. This is useful for nested fields in arrays where you don't want to clutter the UI.fields
: An array containing all Form's fields including your custom fields and the built-in fields.schema
: The schema object for this field.uiSchema
: The uiSchema object for this field.formContext
: TheformContext
object that you passed to Form.
Note: you can only define a single field template for a form. If you need many, it's probably time to look at custom fields instead.
Similarly to the FieldTemplate
you can use an ArrayFieldTemplate
to customize how your
arrays are rendered. This allows you to customize your array, and each element in the array.
function ArrayFieldTemplate(props) {
return (
<div>
{props.items.map(element => element.children)}
{props.canAdd && <button type="button" onClick={props.onAddClick}></button>}
</div>
);
}
render((
<Form schema={schema}
ArrayFieldTemplate={ArrayFieldTemplate} />,
), document.getElementById("app"));
Please see customArray.js for a better example.
The following props are passed to each ArrayFieldTemplate
:
DescriptionField
: The generatedDescriptionField
(if you wanted to utilize it)TitleField
: The generatedTitleField
(if you wanted to utilize it).canAdd
: A boolean value stating whether new elements can be added to the array.className
: The className string.disabled
: A boolean value stating if the array is disabled.idSchema
: Objectitems
: An array of objects representing the items in the array. Each of the items represent a child with properties described below.onAddClick: (event) => (event) => void
: Returns a function that adds a new item to the array.readonly
: A boolean value stating if the array is readonly.required
: A boolean value stating if the array is required.schema
: The schema object for this array.uiSchema
: The uiSchema object for this array field.title
: A string value containing the title for the array.formContext
: TheformContext
object that you passed to Form.formData
: The formData for this array.
The following props are part of each element in items
:
children
: The html for the item's content.className
: The className string.disabled
: A boolean value stating if the array item is disabled.hasMoveDown
: A boolean value stating whether the array item can be moved down.hasMoveUp
: A boolean value stating whether the array item can be moved up.hasRemove
: A boolean value stating whether the array item can be removed.hasToolbar
: A boolean value stating whether the array item has a toolbar.index
: A number stating the index the array item occurs initems
.onDropIndexClick: (index) => (event) => void
: Returns a function that removes the item atindex
.onReorderClick: (index, newIndex) => (event) => void
: Returns a function that swaps the items atindex
withnewIndex
.readonly
: A boolean value stating if the array item is readonly.
To take control over how the form errors are displayed, you can define an error list template for your form. This list is the form global error list that appears at the top of your forms.
An error list template is basically a React stateless component being passed errors as props so you can render them as you like:
function ErrorListTemplate(props) {
const {errors} = props;
return (
<div>
{errors.map((error, i) => {
return (
<li key={i}>
{error.stack}
</li>
);
})}
</div>
);
}
render((
<Form schema={schema}
showErrorList={true}
ErrorList={ErrorListTemplate} />,
), document.getElementById("app"));
Note: Your custom
ErrorList
template will only render whenshowErrorList
istrue
.
The following props are passed to ErrorList
errors
: An array of the errors.errorSchema
: The errorSchema constructed byForm
.schema
: The schema that was passed toForm
.uiSchema
: The uiSchema that was passed toForm
.formContext
: TheformContext
object that you passed to Form.
The API allows to specify your own custom widget and field components:
- A widget represents a HTML tag for the user to enter data, eg.
input
,select
, etc. - A field usually wraps one or more widgets and most often handles internal field state; think of a field as a form row, including the labels.
You can provide your own custom widgets to a uiSchema for the following json data types:
string
number
integer
boolean
const schema = {
type: "string"
};
const uiSchema = {
"ui:widget": (props) => {
return (
<input type="text"
className="custom"
value={props.value}
required={props.required}
onChange={(event) => props.onChange(event.target.value)} />
);
}
};
render((
<Form schema={schema}
uiSchema={uiSchema} />,
), document.getElementById("app"));
The following props are passed to custom widget components:
id
: The generated id for this field;schema
: The JSONSchema subschema object for this field;value
: The current value for this field;required
: The required status of this field;disabled
:true
if the widget is disabled;readonly
:true
if the widget is read-only;onChange
: The value change event handler; call it with the new value everytime it changes;onBlur
: The input blur event handler; call it with the the widget id and value;onFocus
: The input focus event handler; call it with the the widget id and value;options
: A map of options passed as a prop to the component (see Custom widget options).formContext
: TheformContext
object that you passed to Form.
Note: Prior to v0.35.0, the
options
prop contained the list of options (label
andvalue
) forenum
fields. Since v0.35.0, it now exposes this list as theenumOptions
property within theoptions
object.
Alternatively, you can register them all at once by passing the widgets
prop to the Form
component, and reference their identifier from the uiSchema
:
const MyCustomWidget = (props) => {
return (
<input type="text"
className="custom"
value={props.value}
required={props.required}
onChange={(event) => props.onChange(event.target.value)} />
);
};
const widgets = {
myCustomWidget: MyCustomWidget
};
const uiSchema = {
"ui:widget": "myCustomWidget"
}
render((
<Form
schema={schema}
uiSchema={uiSchema}
widgets={widgets} />
), document.getElementById("app"));
This is useful if you expose the uiSchema
as pure JSON, which can't carry functions.
Note: Until 0.40.0 it was possible to register a widget as object with shape
{ component: MyCustomWidget, options: {...} }
. This undocumented API has been removed. Instead, you can register a custom widget with a ReactdefaultProps
property.defaultProps.options
can be an object containing your custom options.
If you need to pass options to your custom widget, you can add a ui:options
object containing those properties. If the widget has defaultProps
, the options will be merged with the (optional) options object from defaultProps
:
const schema = {
type: "string"
};
function MyCustomWidget(props) {
const {options} = props;
const {color, backgroundColor} = options;
return <input style={{color, backgroundColor}} />;
}
MyCustomWidget.defaultProps = {
options: {
color: "red"
}
};
const uiSchema = {
"ui:widget": MyCustomWidget,
"ui:options": {
backgroundColor: "yellow"
}
};
// renders red on yellow input
render((
<Form schema={schema}
uiSchema={uiSchema} />
), document.getElementById("app"));
Note: This also applies to registered custom components.
Note: Since v0.41.0, the
ui:widget
object API, where a widget and options were specified with"ui:widget": {component, options}
shape, is deprecated. It will be removed in a future release.
You can provide your own field components to a uiSchema for basically any json schema data type, by specifying a ui:field
property.
For example, let's create and register a dumb geo
component handling a latitude and a longitude:
const schema = {
type: "object",
required: ["lat", "lon"],
properties: {
lat: {type: "number"},
lon: {type: "number"}
}
};
// Define a custom component for handling the root position object
class GeoPosition extends React.Component {
constructor(props) {
super(props);
this.state = {...props.formData};
}
onChange(name) {
return (event) => {
this.setState({
[name]: parseFloat(event.target.value)
}, () => this.props.onChange(this.state));
};
}
render() {
const {lat, lon} = this.state;
return (
<div>
<input type="number" value={lat} onChange={this.onChange("lat")} />
<input type="number" value={lon} onChange={this.onChange("lon")} />
</div>
);
}
}
// Define the custom field component to use for the root object
const uiSchema = {"ui:field": "geo"};
// Define the custom field components to register; here our "geo"
// custom field component
const fields = {geo: GeoPosition};
// Render the form with all the properties we just defined passed
// as props
render((
<Form
schema={schema}
uiSchema={uiSchema}
fields={fields} />
), document.getElementById("app"));
Note: Registered fields can be reused across the entire schema.
A field component will always be passed the following props:
schema
: The JSON schema for this field;uiSchema
: The uiSchema for this field;idSchema
: The tree of unique ids for every child field;formData
: The data for this field;errorSchema
: The tree of errors for this field and its children;registry
: A registry object (read next).formContext
: A formContext object (read next next).
The registry
is an object containing the registered custom fields and widgets as well as root schema definitions.
fields
: The custom registered fields. By default this object contains the standardSchemaField
,TitleField
andDescriptionField
components;widgets
: The custom registered widgets, if any;definitions
: The root schema definitions, if any.formContext
: The formContext object.
The registry is passed down the component tree, so you can access it from your custom field and SchemaField
components.
You can provide a formContext
object to the Form, which is passed down to all fields and widgets (including TitleField and DescriptionField). Useful for implementing context aware fields and widgets.
The ArrayField
component provides a UI to add, remove and reorder array items, and these buttons use Bootstrap glyphicons. If you don't use glyphicons but still want to provide your own icons or texts for these buttons, you can easily do so using CSS:
i.glyphicon { display: none; }
.btn-add::after { content: 'Add'; }
.array-item-move-up::after { content: 'Move Up'; }
.array-item-move-down::after { content: 'Move Down'; }
.array-item-remove::after { content: 'Remove'; }
}
Warning: This is a powerful feature as you can override the whole form behavior and easily mess it up. Handle with care.
You can provide your own implementation of the SchemaField
base React component for rendering any JSONSchema field type, including objects and arrays. This is useful when you want to augment a given field type with supplementary powers.
To proceed so, pass a fields
object having a SchemaField
property to your Form
component; here's a rather silly example wrapping the standard SchemaField
lib component:
import SchemaField from "react-jsonschema-form/lib/components/fields/SchemaField";
const CustomSchemaField = function(props) {
return (
<div id="custom">
<p>Yeah, I'm pretty dumb.</p>
<SchemaField {...props} />
</div>
);
};
const fields = {
SchemaField: CustomSchemaField
};
render((
<Form schema={schema}
uiSchema={uiSchema}
formData={formData}
fields={fields} />
), document.getElementById("app"));
If you're curious how this could ever be useful, have a look at the Kinto formbuilder repository to see how it's used to provide editing capabilities to any form field.
Props passed to a custom SchemaField are the same as the ones passed to a custom field.
You can override any default field and widget, including the internal widgets like the CheckboxWidget
that ObjectField
renders for boolean values. You can override any field and widget just by providing the customized fields/widgets in the fields
and widgets
props:
const CustomCheckbox = function(props) {
return (
<button id="custom" className={props.value ? "checked" : "unchecked"} onClick={() => props.onChange(!props.value)}>
{props.value}
</button>
);
};
const widgets = {
CheckboxWidget: CustomCheckbox
};
render((
<Form schema={schema}
uiSchema={uiSchema}
formData={formData}
widgets={widgets} />
), document.getElementById("app"));
This allows you to create a reusable customized form class with your custom fields and widgets:
const customFields = {StringField: CustomString};
const customWidgets = {CheckboxWidget: CustomCheckbox};
function MyForm(props) {
return <Form fields={customFields} widgets={customWidgets} {...props} />;
}
render((
<MyForm schema={schema}
uiSchema={uiSchema}
formData={formData} />
), document.getElementById("app"));
You can provide your own implementation of the TitleField
base React component for rendering any title. This is useful when you want to augment how titles are handled.
Simply pass a fields
object having a TitleField
property to your Form
component:
const CustomTitleField = ({title, required}) => {
const legend = required ? title + '*' : title;
return <div id="custom">{legend}</div>;
};
const fields = {
TitleField: CustomTitleField
};
render((
<Form schema={schema}
uiSchema={uiSchema}
formData={formData}
fields={fields} />
), document.getElementById("app"));
You can provide your own implementation of the DescriptionField
base React component for rendering any description.
Simply pass a fields
object having a DescriptionField
property to your Form
component:
const CustomDescriptionField = ({id, description}) => {
return <div id={id}>{description}</div>;
};
const fields = {
DescriptionField: CustomDescriptionField
};
render((
<Form schema={schema}
uiSchema={uiSchema}
formData={formData}
fields={fields} />
), document.getElementById("app"));
By default, form data are only validated when the form is submitted or when a new formData
prop is passed to the Form
component.
You can enable live form data validation by passing a liveValidate
prop to the Form
component, and set it to true
. Then, everytime a value changes within the form data tree (eg. the user entering a character in a field), a validation operation is performed, and the validation results are reflected into the form state.
Be warned that this is an expensive strategy, with possibly strong impact on performances.
To disable validation entirely, you can set Form's noValidate
prop to true
.
By default, required field errors will cause the browser to display its standard HTML5 required
attribute error messages and prevent form submission. If you would like to turn this off, you can set Form's noHtml5Validate
prop to true
, which will set noValidate
on the form
element.
Form data is always validated against the JSON schema.
But it is possible to define your own custom validation rules. This is especially useful when the validation depends on several interdependent fields.
function validate(formData, errors) {
if (formData.pass1 !== formData.pass2) {
errors.pass2.addError("Passwords don't match");
}
return errors;
}
const schema = {
type: "object",
properties: {
pass1: {type: "string", minLength: 3},
pass2: {type: "string", minLength: 3},
}
};
render((
<Form schema={schema}
validate={validate} />
), document.getElementById("app"));
Notes:
- The
validate()
function must always return theerrors
object received as second argument.- The
validate()
function is called after the JSON schema validation.
Validation error messages are provided by the JSON Schema validation by default. If you need to change these messages or make any other modifications to the errors from the JSON Schema validation, you can define a transform function that receives the list of JSON Schema errors and returns a new list.
function transformErrors(errors) {
return errors.map(error => {
if (error.name === "pattern") {
error.message = "Only digits are allowed"
}
return error;
});
}
const schema = {
type: "object",
properties: {
onlyNumbersString: {type: "string", pattern: "^\\d*$"},
}
};
render((
<Form schema={schema}
transformErrors={transformErrors} />
), document.getElementById("app"));
Notes:
- The
transformErrors()
function must return the list of errors. Modifying the list in place without returning it will result in an error.
To disable rendering of the error list at the top of the form, you can set the showErrorList
prop to false
. Doing so will still validate the form, but only the inline display will show.
render((
<Form schema={schema}
showErrorList={false} />
), document.getElementById("app"));
Note: you can also use your own ErrorList
When a text input is empty, the field in form data is set to undefined
. String fields that use enum
and a select
widget will have an empty option at the top of the options list that when selected will result in the field being undefined
.
One consequence of this is that if you have an empty string in your enum
array, selecting that option in the select
input will cause the field to be set to undefined
, not an empty string.
If you want to have the field set to a default value when empty you can provide a ui:emptyValue
field in the uiSchema
object.
This library renders form fields and widgets leveraging the Bootstrap semantics. That means your forms will be beautiful by default if you're loading its stylesheet in your page.
You're not necessarily forced to use Bootstrap; while it uses its semantics, it also provides a bunch of other class names so you can bring new styles or override default ones quite easily in your own personalized stylesheet. That's just HTML after all :)
If you're okay with using styles from the Bootstrap ecosystem though, then the good news is that you have access to many themes for it, which are compatible with our generated forms!
Here are some examples from the playground, using some of the Bootswatch free themes:
Last, if you really really want to override the semantics generated by the lib, you can always create and use your own custom widget, field and/or schema field components.
This library partially supports inline schema definition dereferencing, which is Barbarian for avoiding to copy and paste commonly used field schemas:
{
"definitions": {
"address": {
"type": "object",
"properties": {
"street_address": { "type": "string" },
"city": { "type": "string" },
"state": { "type": "string" }
},
"required": ["street_address", "city", "state"]
}
},
"type": "object",
"properties": {
"billing_address": { "$ref": "#/definitions/address" },
"shipping_address": { "$ref": "#/definitions/address" }
}
}
(Sample schema courtesy of the Space Telescope Science Institute)
Note that it only supports local definition referencing, we do not plan on fetching foreign schemas over HTTP anytime soon. Basically, you can only reference a definition from the very schema object defining it.
This component follows JSON Schema specs. Due to the limitation of form widgets, there are some exceptions as follows:
additionalItems
keyword for arrays This keyword works whenitems
is an array.additionalItems: true
is not supported because there's no widget to represent an item of any type. In this case it will be treated as no additional items allowed.additionalItems
being a valid schema is supported.
- Custom field template: https://jsfiddle.net/hdp1kgn6/1/
- Multi-step wizard: https://jsfiddle.net/sn4bnw9h/1/
- Using classNames with uiSchema: https://jsfiddle.net/gfwp25we/1/
- Conditional fields: https://jsfiddle.net/69z2wepo/83018/
- Advanced conditional fields: https://jsfiddle.net/cowbellerina/zbfh96b1/
- Use radio list for enums: https://jsfiddle.net/f2y3fq7L/2/
- Reading file input data: https://jsfiddle.net/f9vcb6pL/1/
- Custom errors messages with transformErrors : https://jsfiddle.net/revolunet/5r3swnr4/
- 2 columns form with CSS and FieldTemplate : https://jsfiddle.net/n1k0/bw0ffnz4/1/
- Validate and submit form from external control : https://jsfiddle.net/spacebaboon/g5a1re63/
All the JavaScript code in this project conforms to the prettier coding style. A command is provided to ensure your code is always formatted accordingly:
$ npm run cs-format
The cs-check
command ensures all files conform to that style:
$ npm run cs-check
$ npm start
A live development server showcasing components with hot reload enabled is available at localhost:8080.
If you want the development server to listen on another host or port, you can use the RJSF_DEV_SERVER env variable:
$ RJSF_DEV_SERVER=0.0.0.0:8000 npm start
$ npm test
$ npm run tdd
Apache 2