Let's face it, forms are really verbose in React. To make matters worse, most form helpers do wayyyy too much magic and often have a significant performance cost associated with them. Formik is a small library that helps you with the 3 most annoying parts:
- Getting values in and out of form state
- Validation and error messages
- Handling form submission
By colocating all of the above in one place, Formik will keep things organized--making testing, refactoring, and reasoning about your forms a breeze.
I (@jaredpalmer) wrote Formik while building a large internal administrative dashboard with @eonwhite. With around ~30 unique forms, it quickly became obvious that we could benefit by standardizing not just our input components but also the way in which data flowed through our forms.
By now, you might be thinking, "Why didn't you just use Redux-Form?" Good question.
- According to our prophet Dan Abramov, form state is inherently ephemeral and local, so tracking it in Redux (or any kind of Flux library) is unnecessary
- Redux-Form calls your entire top-level Redux reducer multiple times ON EVERY SINGLE KEYSTROKE. This is fine for small apps, but as your Redux app grows, input latency will continue to increase if you use Redux-Form.
- Redux-Form is 22.5 kB minified gzipped (Formik is 12.7 kB)
My goal with Formik was to create a scalable, performant, form helper with a minimal API that does the really really annoying stuff, and leaves the rest up to you.
Formik started by expanding on this little higher order component by Brent Jackson, some naming conventions from Redux-Form, and (most recently) the render props approach popularized by React-Motion and React-Router 4. Whether you have used any of the above or not, Formik only takes a few minutes to get started with.
Add Formik to your project.
npm i formik --save
You can also try before you buy with this demo of Formik on CodeSandbox.io
- Basics
- Sync Validation
- Building your own input primitives
- Working with 3rd-party inputs #1: react-select
- Working with 3rd-party inputs #2: Draft.js
- Accessing React lifecycle functions
- An Introduction to Formik by Jared Palmer @ Spotify NYC. August 15th, 2017.
- Better React Forms with Formik
- The Joy of Forms with React and Formik
- Painless React Forms with Formik
Formik keeps track of your form's state and then exposes it plus a few reusable
methods and event handlers (handleChange
, handleBlur
, and handleSubmit
) to
your form via props
. handleChange
and handleBlur
work exactly as
expected--they use a name
or id
attribute to figure out which field to
update.
There are two ways to use Formik:
withFormik()
: A Higher-order Component (HoC) that accepts a configuration object<Formik />
: A React component with arender
prop
Both do exactly the same thing and share the same internal implementation. They just differ in their respective style....
// Higher Order Component
import React from 'react';
import { withFormik } from 'formik';
// Our inner form component which receives our form's state and updater methods as props
const InnerForm = ({
values,
errors,
touched,
handleChange,
handleBlur,
handleSubmit,
isSubmitting,
}) => (
<form onSubmit={handleSubmit}>
<input
type="email"
name="email"
onChange={handleChange}
onBlur={handleBlur}
value={values.email}
/>
{touched.email && errors.email && <div>{errors.email}</div>}
<input
type="password"
name="password"
onChange={handleChange}
onBlur={handleBlur}
value={values.password}
/>
{touched.password && errors.password && <div>{errors.password}</div>}
<button type="submit" disabled={isSubmitting}>
Submit
</button>
</form>
);
// Wrap our form with the using withFormik HoC
const MyForm = withFormik({
// Transform outer props into form values
mapPropsToValues: props => ({ email: '', password: '' }),
// Add a custom validation function (this can be async too!)
validate: (values, props) => {
const errors = {};
if (!values.email) {
errors.email = 'Required';
} else if (
!/^[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}$/i.test(values.email)
) {
errors.email = 'Invalid email address';
}
return errors;
},
// Submission handler
handleSubmit: (
values,
{
props,
setSubmitting,
setErrors /* setValues, setStatus, and other goodies */,
}
) => {
LoginToMyApp(values).then(
user => {
setSubmitting(false);
// do whatevs...
// props.updateUser(user)
},
errors => {
setSubmitting(false);
// Maybe even transform your API's errors into the same shape as Formik's!
setErrors(transformMyApiErrors(errors));
}
);
},
})(InnerForm);
// Use <MyForm /> anywhere
const Basic = () => (
<div>
<h1>My Form</h1>
<p>This can be anywhere in your application</p>
<MyForm />
</div>
);
export default Basic;
// Render Prop
import React from 'react';
import { Formik } from 'formik';
const Basic = () => (
<div>
<h1>My Form</h1>
<p>This can be anywhere in your application</p>
{/*
The benefit of the render prop approach is that you have full access to React's
state, props, and composition model. Thus there is no need to map outer props
to values...you can just set the initial values, and if they depend on props / state
then--boom--you can directly access to props / state.
The render prop accepts your inner form component, which you can define separately or inline
totally up to you:
- `<Formik render={props => <form>...</form>}>`
- `<Formik component={InnerForm}>`
- `<Formik>{props => <form>...</form>}</Formik>` (identical to as render, just written differently)
*/}
<Formik
initialValues={{
email: '',
password: '',
}}
validate={values => {
// same as above, but feel free to move this into a class method now.
let errors = {};
if (!values.email) {
errors.email = 'Required';
} else if (
!/^[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}$/i.test(values.email)
) {
errors.email = 'Invalid email address';
}
return errors;
}}
onSubmit={(
values,
{ setSubmitting, setErrors /* setValues and other goodies */ }
) => {
LoginToMyApp(values).then(
user => {
setSubmitting(false);
// do whatevs...
// props.updateUser(user)
},
errors => {
setSubmitting(false);
// Maybe transform your API's errors into the same shape as Formik's
setErrors(transformMyApiErrors(errors));
}
);
}}
render={({
values,
errors,
touched,
handleChange,
handleBlur,
handleSubmit,
isSubmitting,
}) => (
<form onSubmit={handleSubmit}>
<input
type="email"
name="email"
onChange={handleChange}
onBlur={handleBlur}
value={values.email}
/>
{touched.email && errors.email && <div>{errors.email}</div>}
<input
type="password"
name="password"
onChange={handleChange}
onBlur={handleBlur}
value={values.password}
/>
{touched.password && errors.password && <div>{errors.password}</div>}
<button type="submit" disabled={isSubmitting}>
Submit
</button>
</form>
)}
/>
</div>
);
export default Basic;
As you can see above, validation is left up to you. Feel free to write your own
validators or use a 3rd party library. Personally, I use
Yup for object schema validation. It has an
API that's pretty similar Joi /
React PropTypes but is small enough
for the browser and fast enough for runtime usage. Because I β€οΈ Yup sooo
much, Formik has a special config option / prop for Yup called
validationSchema
which will automatically transform Yup's validation errors
into a pretty object whose keys match values
and touched
. Anyways, you
can install Yup from npm...
npm install yup --save
** Table of Contents **
- Guides
- API
<Formik />
- Formik render methods
- Formik props
dirty: boolean
errors: { [field: string]: string }
handleBlur: (e: any) => void
handleChange: (e: React.ChangeEvent<any>) => void
handleReset: () => void
handleSubmit: (e: React.FormEvent<HTMLFormEvent> | undefined) => void
isSubmitting: boolean
isValid: boolean
resetForm: (nextValues?: Values) => void
setErrors: (fields: { [field: string]: string }) => void
setFieldError: (field: string, errorMsg: string) => void
setFieldTouched: (field: string, isTouched: boolean, shouldValidate?: boolean) => void
setFieldValue: (field: string, value: any, shouldValidate?: boolean) => void
setStatus: (status?: any) => void
setSubmitting: (isSubmitting: boolean) => void
setTouched: (fields: { [field: string]: boolean }) => void
setValues: (fields: { [field: string]: any }) => void
status?: any
touched: { [field: string]: boolean }
values: { [field: string]: any }
validateForm: (values?: any) => void
component
render: (props: FormikProps<Values>) => ReactNode
children: func
enableReinitialize?: boolean
isInitialValid?: boolean
initialValues?: Values
onReset?: (values: Values, formikBag: FormikBag) => void
onSubmit: (values: Values, formikBag: FormikBag) => void
validate?: (values: Values) => FormikError<Values> | Promise<any>
validateOnBlur?: boolean
validateOnChange?: boolean
validationSchema?: Schema | (() => Schema)
<Field />
<FieldArray/>
<Form />
withFormik(options)
options
displayName?: string
enableReinitialize?: boolean
handleSubmit: (values: Values, formikBag: FormikBag) => void
isInitialValid?: boolean | (props: Props) => boolean
mapPropsToValues?: (props: Props) => Values
validate?: (values: Values, props: Props) => FormikError<Values> | Promise<any>
validateOnBlur?: boolean
validateOnChange?: boolean
validationSchema?: Schema | ((props: Props) => Schema)
- Injected props and methods
- Organizations and projects using Formik
- Authors
- Contributors
Imagine you want to build a form that lets you edit user data. However, your user API has nested objects like so.
{
id: string,
email: string,
social: {
facebook: string,
twitter: string,
// ...
}
}
When we are done we want our dialog to accept just a user
, updateUser
, and
onClose
props.
// User.js
import React from 'react';
import Dialog from 'MySuperDialog';
import EditUserForm from './EditUserForm';
import { Formik } from 'formik';
const EditUserDialog = ({ user, updateUser, onClose }) => {
return (
<Dialog onClose={onClose}>
<h1>Edit User</h1>
<Formik
initialValues={user /** { email, social } */}
onSubmit={(values, actions) => {
CallMyApi(user.id, values).then(
updatedUser => {
actions.setSubmitting(false);
updateUser(updatedUser), onClose();
},
error => {
actions.setSubmitting(false);
actions.setErrors(transformMyAPIErrorToAnObject(error));
}
);
}}
render={({
values,
errors,
touched,
handleBlur,
handleChange,
handleSubmit,
isSubmitting,
}) => (
<form onSubmit={handleSubmit}>
<input
type="email"
name="email"
onChange={handleChange}
onBlur={handleBlur}
value={values.email}
/>
{errors.email && touched.email && <div>{errors.email}</div>}
<input
type="text"
name="social.facebook"
onChange={handleChange}
onBlur={handleBlur}
value={values.social.facebook}
/>
{errors.social.facebook &&
touched.facebook && <div>{errors.social.facebook}</div>}
<input
type="text"
name="social.twitter"
onChange={handleChange}
onBlur={handleBlur}
value={values.social.twitter}
/>
{errors.social.twitter &&
touched.twitter && <div>{errors.social.twitter}</div>}
<button type="submit" disabled={isSubmitting}>
Submit
</button>
</form>
)}
/>
</Dialog>
);
};
To make writing forms less verbose. Formik comes with a few helpers to save you key strokes.
<Field>
<Form/>
This is the exact same form as before, but written with <Form/>
and
<Field/>
:
// EditUserDialog.js
import React from 'react';
import Dialog from 'MySuperDialog';
import EditUserForm from './EditUserForm';
import { Formik, Field, Form } from 'formik';
const EditUserDialog = ({ user, updateUser, onClose }) => {
return (
<Dialog onClose={onClose}>
<h1>Edit User</h1>
<Formik
initialValues={user /** { email, social } */}
onSubmit={(values, actions) => {
CallMyApi(user.id, values).then(
updatedUser => {
actions.setSubmitting(false);
updateUser(updatedUser), onClose();
},
error => {
actions.setSubmitting(false);
actions.setErrors(transformMyAPIErrorToAnObject(error));
}
);
}}
render={({ errors, touched, isSubmitting }) => (
<Form>
<Field type="email" name="email" />
{errors.email && touched.social.email && <div>{errors.email}</div>}
<Field type="text" name="social.facebook" />
{errors.social.facebook &&
touched.social.facebook && <div>{errors.social.facebook}</div>}
<Field type="text" name="social.twitter" />
{errors.social.twitter &&
touched.social.twitter && <div>{errors.social.twitter}</div>}
<button type="submit" disabled={isSubmitting}>
Submit
</button>
</Form>
)}
/>
</Dialog>
);
};
Formik is 100% compatible with React Native and React Native Web. However, because of differences between ReactDOM's and React Native's handling of forms and text input, there are two differences to be aware of. This section will walk you through them and what I consider to be best practices.
Before going any further, here's a super minimal gist of how to use Formik with React Native that demonstrates the key differences:
// Formik x React Native example
import React from 'react';
import { Button, TextInput, View } from 'react-native';
import { withFormik } from 'formik';
const enhancer = withFormik({
/*...*/
});
const MyReactNativeForm = props => (
<View>
<TextInput
onChangeText={text => props.setFieldValue('email', text)}
value={props.values.email}
/>
<Button onPress={props.handleSubmit} title="Submit" /> //
</View>
);
export default enhancer(MyReactNativeForm);
As you can see above, the notable differences between using Formik with React DOM and React Native are:
- Formik's
props.handleSubmit
is passed to a<Button onPress={...}/>
instead of HTML<form onSubmit={...}/>
component (since there is no<form/>
element in React Native). <TextInput />
uses Formik'sprops.setFieldValue
instead ofprops.handleChange
. To understand why, see the discussion below.
'cuz handleChange
will not work in React Native...
import { Button, TextInput, View } from 'react-native';
import { Formik } from 'formik';
const MyReactNativeForm = props => (
<View>
<Formik
onSubmit={(values, actions) => {
setTimeout(() => {
console.log(JSON.stringify(values, null, 2));
actions.setSubmitting(false);
}, 1000);
}}
render={formikProps => (
<View>
<TextInput
name="email"
onChangeText={formikProps.handleChange} // this WILL NOT WORK IN RN
value={formikProps.values.email}
/>
<Button onPress={formikProps.handleSubmit} />
</View>
)}
/>
</View>
);
The reason is that Formik's handleChange
function expects its first argument
to be synthetic DOM event where the event.target
is the DOM input element and
event.target.id
or event.target.name
matches the field to be updated.
Without this, handleChange
will do nothing.
In React Native, neither
<TextInput />
's
onChange
nor
onChangeText
callbacks pass such an event or one like it to its callback. Instead, they do
the following (emphasis added):
onChange?: function
Callback that is called when the text input's text changes.
onChangeText?: function
Callback that is called when the text input's text changes. Changed text is passed as an argument to the callback handler.
However, Formik works just fine if you use props.setFieldValue
!
Philisophically, just treat React Native's <TextInput/>
the same way you would
any other 3rd party custom input element.
In conclusion, the following WILL work in React Native:
// ...
// this works.
export const MyReactNativeForm = props => (
<View>
<TextInput
onChangeText={text => props.setFieldValue('email', text)}
value={props.values.email}
/>
<Button onPress={props.handleSubmit} />
</View>
);
// ...
If for any reason you wish to avoid creating new functions on each render, I
suggest treating React Native's <TextInput/>
as if it were another 3rd party
custom input element:
- Write your own class wrapper around the custom input element
- Pass the custom component
props.setFieldValue
instead ofprops.handleChange
- Use a custom change handler callback that calls whatever you passed-in
setFieldValue
as (in this case we'll match the React Native TextInput API and call itthis.props.onChangeText
for parity).
// FormikReactNativeTextInput.js
import * as React from 'react';
import { TextInput } from 'react-native';
export default class FormikReactNativeTextInput extends React.Component {
handleChange = (value: string) => {
// remember that onChangeText will be Formik's setFieldValue
this.props.onChangeText(this.props.name, value);
};
render() {
// we want to pass through all the props except for onChangeText
const { onChangeText, ...otherProps } = this.props;
return (
<TextInput
onChangeText={this.handleChange}
{...otherProps} // IRL, you should be more explicit when using TS
/>
);
}
}
Then you could just use this custom input as follows:
// MyReactNativeForm.js
import { View, Button } from 'react-native';
import TextInput from './FormikReactNativeTextInput';
import { Formik } from 'formik';
const MyReactNativeForm = props => (
<View>
<Formik
onSubmit={(values, actions) => {
setTimeout(() => {
console.log(JSON.stringify(values, null, 2));
actions.setSubmitting(false);
}, 1000);
}}
render={props => (
<View>
<TextInput
name="email"
onChangeText={props.setFieldValue}
value={props.values.email}
/>
<Button title="submit" onPress={props.handleSubmit} />
</View>
)}
/>
</View>
);
export default MyReactNativeForm;
The Formik source code is written in TypeScript, so you can rest assured that
types will always be up to date. As a mental model, Formik's types are very
similar to React Router 4's <Route>
.
import * as React from 'react';
import { Formik, FormikProps, Form, Field, FieldProps } from 'formik';
interface MyFormValues {
firstName: string;
}
export const MyApp: React.SFC<{} /* whatever */> = () => {
return (
<div>
<h1>My Example</h1>
<Formik
initialValues={{ firstName: '' }}
onSubmit={(values: MyFormValues) => alert(JSON.stringify(values))}
render={(formikBag: FormikProps<MyFormValues>) => (
<Form>
<Field
name="firstName"
render={({ field, form }: FieldProps<MyFormValues>) => (
<div>
<input type="text" {...field} placeholder="First Name" />
{form.touched.firstName &&
form.errors.firstName &&
form.errors.firstName}
</div>
)}
/>
</Form>
)}
/>
</div>
);
};
import React from 'react';
import Yup from 'yup';
import { withFormik, FormikProps, FormikErrors, Form, Field } from 'formik';
// Shape of form values
interface FormValues {
email: string;
password: string;
}
interface OtherProps {
message: string;
}
// You may see / user InjectedFormikProps<OtherProps, FormValues> instead of what comes below. They are the same--InjectedFormikProps was artifact of when Formik only exported an HOC. It is also less flexible as it MUST wrap all props (it passes them through).
const InnerForm = (props: OtherProps & FormikProps<FormValues>) => {
const { touched, errors, isSubmitting, message } = props;
return (
<Form>
<h1>{message}</h1>
<Field type="email" name="email" />
{touched.email && errors.email && <div>{errors.email}</div>}
<Field type="password" name="password" />
{touched.password && errors.password && <div>{errors.password}</div>}
<button type="submit" disabled={isSubmitting}>
Submit
</button>
</Form>
);
};
// The type of props MyForm receives
interface MyFormProps {
initialEmail?: string;
message: string; // if this passed all the way through you might do this or make a union type
}
// Wrap our form with the using withFormik HoC
const MyForm = withFormik<MyFormProps, FormValues>({
// Transform outer props into form values
mapPropsToValues: props => {
return {
email: props.initialEmail || '',
password: '',
};
},
// Add a custom validation function (this can be async too!)
validate: (values: FormValues) => {
let errors: FormikErrors = {};
if (!values.email) {
errors.email = 'Required';
} else if (!isValidEmail(values.email)) {
errors.email = 'Invalid email address';
}
return errors;
},
handleSubmit: values => {
// do submitting things
},
})(InnerForm);
// Use <MyForm /> anywhere
const Basic = () => (
<div>
<h1>My App</h1>
<p>This can be anywhere in your application</p>
<MyForm message="Sign up" />
</div>
);
export default Basic;
<Formik>
is a component that helps you with building forms. It uses a render
props pattern made popular by libraries like React Motion and React Router.
import React from 'react';
import { Formik } from 'formik';
const BasicExample = () => (
<div>
<h1>My Form</h1>
<Formik
initialValues={{ name: 'jared' }}
onSubmit={(values, actions) => {
setTimeout(() => {
alert(JSON.stringify(values, null, 2));
actions.setSubmitting(false);
}, 1000);
}}
render={props => (
<form onSubmit={props.handleSubmit}>
<input
type="text"
onChange={props.handleChange}
onBlur={props.handleBlur}
value={props.values.name}
name="name"
/>
{props.errors.name && <div id="feedback">{props.errors.name}</div>}
<button type="submit">Submit</button>
</form>
)}
/>
</div>
);
There are three ways to render things with <Formik/>
<Formik component>
<Formik render>
<Formik children>
All three render methods will be passed the same props:
Returns true
if values are not deeply equal from initial values, false
otherwise.
dirty
is a readonly computed property and should not be mutated directly.
Form validation errors. Should match the shape of your form's values
defined
in initialValues
. If you are using validationSchema
(which you should be),
keys and shape will match your schema exactly. Internally, Formik transforms raw
Yup validation errors
on your behalf. If you are using validate
, then that function will determine
the errors
objects shape.
onBlur
event handler. Useful for when you need to track whether an input has
been touched
or not. This should be passed to <input onBlur={handleBlur} ... />
DOM-only. Use setFieldTouched
in React Native.
General input change event handler. This will update the values[key]
where
key
is the event-emitting input's name
attribute. If the name
attribute is
not present, handleChange
will look for an input's id
attribute. Note:
"input" here means all HTML inputs.
DOM-only. Use setFieldValue
in React Native.
Reset handler. Will reset the form to its initial state. This should be passed
to <button onClick={handleReset}>...</button>
Submit handler. This should be passed to <form onSubmit={props.handleSubmit}>...</form>
Submitting state. Either true
or false
. Formik will set this to true
on
your behalf before calling handleSubmit
to reduce boilerplate.
Returns true
if the there are no errors
, or the result of
isInitialValid
the form if is in "pristine" condition (i.e. not dirty
)).
Imperatively reset the form. This will clear errors
and touched
, set
isSubmitting
to false
and rerun mapPropsToValues
with the current
WrappedComponent
's props
or what's passed as an argument. The latter is
useful for calling resetForm
within componentWillReceiveProps
.
Set errors
imperatively.
Set the error message of a field imperatively. field
should match the key of
errors
you wish to update. Useful for creating custom input error handlers.
Set the touched state of a field imperatively. field
should match the key of
touched
you wish to update. Useful for creating custom input blur handlers. Calling this method will trigger validation to run if validateOnBlur
is set to true
(which it is by default). You can also explicitly prevent/skip validation by passing a third argument as false
.
Set the value of a field imperatively. field
should match the key of
values
you wish to update. Useful for creating custom input change handlers. Calling this will trigger validation to run if validateOnChange
is set to true
(which it is by default). You can also explicitly prevent/skip validation by passing a third argument as false
.
Set a top-level status
to anything you want imperatively. Useful for
controlling arbitrary top-level state related to your form. For example, you can
use it to pass API responses back into your component in handleSubmit
.
Set isSubmitting
imperatively.
Set touched
imperatively.
Set values
imperatively.
A top-level status object that you can use to represent form state that can't otherwise be expressed/stored with other methods. This is useful for capturing and passing through API responses to your inner component.
status
should only be modifed by calling
setStatus: (status?: any) => void
Touched fields. Each key corresponds to a field that has been touched/visited.
Your form's values. Will have the shape of the result of mapPropsToValues
(if specified) or all props that are not functions passed to your wrapped
component.
Imperatively call your validate
or [validateSchema
] depending on what was specified. You can optionally pass values to validate against and this modify Formik state accordingly, otherwise this will use the current values
of the form.
<Formik component={ContactForm} />;
const ContactForm = ({
handleSubmit,
handleChange,
handleBlur,
values,
errors,
}) => (
<form onSubmit={handleSubmit}>
<input
type="text"
onChange={handleChange}
onBlur={handleBlur}
value={values.name}
name="name"
/>
{errors.name && <div>{errors.name}</div>}
<button type="submit">Submit</button>
</form>
};
Warning: <Formik component>
takes precendence over <Formik render>
so
donβt use both in the same <Formik>
.
<Formik render={props => <ContactForm {...props} />}/>
<Formik
render={({ handleSubmit, handleChange, handleBlur, values, errors }) => (
<form onSubmit={handleSubmit}>
<input
type="text"
onChange={handleChange}
onBlur={handleBlur}
value={values.name}
name="name"
/>
{errors.name &&
<div>
{errors.name}
</div>}
<button type="submit">Submit</button>
</form>
)}
/>
<Formik children={props => <ContactForm {...props} />}/>
// or...
<Formik>
{({ handleSubmit, handleChange, handleBlur, values, errors }) => (
<form onSubmit={handleSubmit}>
<input
type="text"
onChange={handleChange}
onBlur={handleBlur}
value={values.name}
name="name"
/>
{errors.name &&
<div>
{errors.name}
</div>}
<button type="submit">Submit</button>
</form>
)}
</Formik>
Default is false
. Control whether Formik should reset the form if
[initialValues
] changes (using deep equality).
Default is false
. Control the initial value of isValid
prop prior to
mount. You can also pass a function. Useful for situations when you want to
enable/disable a submit and reset buttons on initial mount.
Initial field values of the form, Formik will make these values available to
render methods component as props.values
.
Even if your form is empty by default, you must initialize all fields with initial values otherwise React will throw an error saying that you have changed an input from uncontrolled to controlled.
Note: initialValues
not available to the higher-order component, use
mapPropsToValues
instead.
Your optional form reset handler. It is passed your forms values
and the
"FormikBag".
Your form submission handler. It is passed your forms values
and the
"FormikBag", which includes an object containing a subset of the
injected props and methods (i.e. all the methods
with names that start with set<Thing>
+ resetForm
) and any props that were
passed to the the wrapped component.
Note: errors
, touched
, status
and all event handlers are NOT
included in the FormikBag
.
Note: I suggest using validationSchema
and Yup for validation. However,
validate
is a dependency-free, straightforward way to validate your forms.
Validate the form's values
with function. This function can either be:
- Synchronous and return an
errors
object.
// Synchronous validation
const validate = (values, props) => {
let errors = {};
if (!values.email) {
errors.email = 'Required';
} else if (!/^[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}$/i.test(values.email)) {
errors.email = 'Invalid email address';
}
//...
return errors;
};
- Asynchronous and return a Promise that's error in an
errors
object
// Async Validation
const sleep = ms => new Promise(resolve => setTimeout(resolve, ms))
const validate = (values, props) => {
return sleep(2000).then(() => {
let errors = {}
if (['admin', 'null', 'god']).includes(values.username) {
errors.username = 'Nice try'
}
// ...
if (Object.keys(errors).length) {
throw errors
}
})
}
Default is true
. Use this option to run validations on blur
events. More
specifically, when either handleBlur
, setFieldTouched
, or setTouched
are called.
Default is true
. Use this option to tell Formik to run validations on change
events and change
-related methods. More specifically, when either
handleChange
, setFieldValue
, or setValues
are called.
A Yup schema or a function that returns a Yup
schema. This is used for validation. Errors are mapped by key to the inner
component's errors
. Its keys should match those of values
.
<Field />
will automagically hook up inputs to Formik. It uses the name
attribute to match up with Formik state. <Field/>
will default to an
<input/>
element. To change the underlying element of <Field/>
, specify a
component
prop. It can either be a string like select
or another React
component. <Field/>
can also take a render
prop.
import React from 'react';
import { Formik, Field } from 'formik';
const Example = () => (
<div>
<h1>My Form</h1>
<Formik
initialValues={{ email: '', color: 'red', firstName: '' }}
onSubmit={(values, actions) => {
setTimeout(() => {
alert(JSON.stringify(values, null, 2));
actions.setSubmitting(false);
}, 1000);
}}
render={(props: FormikProps<Values>) => (
<form onSubmit={props.handleSubmit}>
<Field type="email" name="email" placeholder="Email" />
<Field component="select" name="color">
<option value="red">Red</option>
<option value="green">Green</option>
<option value="blue">Blue</option>
</Field>
<Field name="firstName" component={CustomInputComponent} />
<Field
name="lastName"
render={({ field /* _form */ }) => (
<input {...field} placeholder="firstName" />
)}
/>
<button type="submit">Submit</button>
</form>
)}
/>
</div>
);
const CustomInputComponent: React.SFC<
FieldProps<Values> & CustomInputProps
> = ({
field, // { name, value, onChange, onBlur }
form: { touched, errors }, // also values, setXXXX, handleXXXX, dirty, isValid, status, etc.
...props
}) => (
<div>
<input type="text" {...field} {...props} />
{touched[field.name] &&
errors[field.name] && <div className="error">{errors[field.name]}</div>}
</div>
);
You can run independent field-level validations by passing a function to the
validate>
prop. The function will respect the validateOnBlur
and
validateOnChange
config/props specified in the <Field>'s
parent <Formik>
/ withFormik
. This function can be either be:
- Synchronous and if invalid, return a
string
containing the error message or returnundefined
.
// Synchronous validation for Field
const validate = value => {
let errorMessage;
if (!/^[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}$/i.test(value)) {
errorMessage = 'Invalid email address';
}
return errorMessage;
};
-
async: Return a Promise that throws a
string
containing the error message. This works like Formik'svalidate
, but instead of returning anerrors
object, it's just astring
. -
Asynchronous and return a Promise that's error is an string with the error message
// Async validation for Field
const sleep = ms => new Promise(resolve => setTimeout(resolve, ms));
const validate = value => {
return sleep(2000).then(() => {
if (['admin', 'null', 'god'].includes(value)) {
throw 'Nice try';
}
});
};
Note: To allow for i18n libraries, the TypeScript typings for validate
are
slightly relaxed and allow you to return a Function
(e.g. i18n('invalid')
).
<FieldArray />
is a component that helps with common array/list manipulations. You pass it a name
property with the path to the key within values
that holds the relevant array. <FieldArray />
will then give you access to array helper methods via render props. For convenience, calling these methods will trigger validation and also manage touched
for you.
import React from 'react';
import { Formik, Form, Field, FieldArray } from 'formik'
// Here is an example of a form with an editable list.
// Next to each input are buttons for insert and remove.
// If the list is empty, there is a button to add an item.
export const FriendList = () => (
<div>
<h1>Friend List</h1>
<Formik
initialValues={{ friends: ['jared', 'ian', 'brent'] }}
onSubmit={values =>
setTimeout(() => {
alert(JSON.stringify(values, null, 2));
}, 500)
}
render={formikProps => (
<FieldArray
name="friends"
render={arrayHelpers => (
<Form>
{values.friends && values.friends.length > 0 ? (
values.friends.map((friend, index) => (
<div>
<Field name={`friends.${index}`} />
<button
type="button"
onClick={() => arrayHelpers.remove(index)} // remove a friend from the list
>
-
</button>
<button
type="button"
onClick={() => arrayHelpers.insert(index, '')} // insert an empty string at a position
>
+
</button>
</div>
))
) : (
<button
type="button"
onClick={() => arrayHelpers.push('')}
>
{/* show this when user has removed all friends from the list */}
Add a friend
</button>
)}
<div>
<button type="submit">Submit</button>
</div>
</Form>
)}
/>
)}
/>
</div>
);
The name or path to the relevant key in values
.
Default is true
. Determines if form validation should or should not be run after any array manipulations.
Validation can be tricky with <FieldArray>
.
If you use validationSchema
and your form has array validation requirements (like a min length) as well as nested array field requirements, displaying errors can be tricky. Formik/Yup will show validation errors inside out. For example,
const schema = Yup.object().shape({
friends: Yup.array()
.of(
Yup.object().shape({
name: Yup.string()
.min(4, 'too short')
.required('Required'), // these constraints take precedence
salary: Yup.string()
.min(3, 'cmon')
.required('Required'), // these constraints take precedence
})
)
.required('Must have friends') // these constraints are shown if and only if inner constraints are satisfied
.min(3, 'Minimum of 3 friends'),
});
Since Yup and your custom validation function should always output error messages as strings, you'll need to sniff whether your nested error is an array or a string when you go to display it.
So...to display 'Must have friends'
and 'Minimum of 3 friends'
(our example's array validation contstraints)...
Bad
// within a `FieldArray`'s render
const FriendArrayErrors = errors =>
errors.friends ? <div>{errors.friends}</div> : null; // app will crash
Good
// within a `FieldArray`'s render
const FriendArrayErrors = errors =>
typeof friends === 'string' ? <div>{errors.friends}</div> : null;
For the nested field errors, you should assume that no part of the object is defined unless you've checked for it. Thus, you may want to do yourself a favor and make a custom <ErrorMessage />
component that looks like this:
import { Field, getIn } from 'formik';
const ErrorMessage = ({ name }) => (
<Field
name={name}
render={({ form }) => {
const error = getIn(form.errors, name);
const touch = getIn(form.touched, name);
return touch && error ? error : null;
}}
/>
);
// Usage
<ErrorMessage name="friends[0].name" />; // => null, 'too short', or 'required'
NOTE: In Formik v0.12 / 1.0, a new meta
prop may be be added to Field
and FieldArray
that will give you relevant metadata such as error
& touch
, which will save you from having to use Formik or lodash's getIn or checking if the path is defined on your own.
The following methods are made available via render props.
push: (obj: any) => void
: Add a value to the end of an arrayswap: (indexA: number, indexB: number) => void
: Swap two values in an arraymove: (from: number, to: number) => void
: Move an element in an array to another indexinsert: (index: number, value: any) => void
: Insert an element at a given index into the arrayunshift: (value: any) => number
: Add an element to the beginning of an array and return its lengthremove<T>(index: number): T | undefined
: Remove an element at an index of an array and return itpop<T>(): T | undefined
: Remove and return value from the end of the array
There are three ways to render things with <FieldArray/>
<FieldArray name="..." component>
<FieldArray name="..." render>
import React from 'react';
import { Formik, Form, Field, FieldArray } from 'formik'
export const FriendList = () => (
<div>
<h1>Friend List</h1>
<Formik
initialValues={{ friends: ['jared', 'ian', 'brent'] }}
onSubmit={...}
render={formikProps => (
<FieldArray
name="friends"
render={({ move, swap, push, insert, unshift, pop }) => (
<Form>
{/*... use these however you want */}
</Form>
)}
/>
/>
</div>
);
import React from 'react';
import { Formik, Form, Field, FieldArray } from 'formik'
export const FriendList = () => (
<div>
<h1>Friend List</h1>
<Formik
initialValues={{ friends: ['jared', 'ian', 'brent'] }}
onSubmit={...}
render={formikProps => (
<FieldArray
name="friends"
component={MyDynamicForm}
/>
/>
</div>
);
// In addition to the array helpers, Formik state and helpers
// (values, touched, setXXX, etc) are provided through a `form`
// prop
export const MyDynamicForm = ({
move, swap, push, insert, unshift, pop, form
}) => (
<Form>
{/** whatever you need to do */}
</Form>
);
Like <Field/>
, <Form/>
is a helper component you can use to save time. It is
tiny wrapper around <form onSubmit={context.formik.handleSubmit} />
. This
means you don't need to explictly type out <form onSubmit={props.handleSubmit}/>
if you don't want to.
ReactDOM only
import React from 'react';
import { Formik, Field, Form } from 'formik';
const Example = () => (
<div>
<h1>My Form</h1>
<Formik
initialValues={{ email: '', color: 'red' }}
onSubmit={(values, actions) => {
setTimeout(() => {
alert(JSON.stringify(values, null, 2));
actions.setSubmitting(false);
}, 1000);
}}
component={MyForm}
/>
</div>
);
const MyForm = () => (
<Form>
<Field type="email" name="email" placeholder="Email" />
<Field component="select" name="color">
<option value="red">Red</option>
<option value="green">Green</option>
<option value="blue">Blue</option>
</Field>
<button type="submit">Submit</button>
</Form>
);
Create a higher-order React component class that passes props and form handlers
(the "FormikBag
") into your component derived from supplied options.
When your inner form component is a stateless functional component, you can use
the displayName
option to give the component a proper name so you can more
easily find it in
React DevTools.
If specified, your wrapped form will show up as Formik(displayName)
. If
omitted, it will show up as Formik(Component)
. This option is not required for
class components (e.g. class XXXXX extends React.Component {..}
).
Default is false
. Control whether Formik should reset the form if the wrapped
component props change (using deep equality).
Your form submission handler. It is passed your forms values
and the
"FormikBag", which includes an object containing a subset of the
injected props and methods (i.e. all the methods
with names that start with set<Thing>
+ resetForm
) and any props that were
passed to the the wrapped component.
props
(props passed to the wrapped component)resetForm
setErrors
setFieldError
setFieldTouched
setFieldValue
setStatus
setSubmitting
setTouched
setValues
Note: errors
, touched
, status
and all event handlers are NOT
included in the FormikBag
.
Default is false
. Control the initial value of isValid
prop prior to
mount. You can also pass a function. Useful for situations when you want to
enable/disable a submit and reset buttons on initial mount.
If this option is specified, then Formik will transfer its results into
updatable form state and make these values available to the new component as
props.values
. If mapPropsToValues
is not specified, then Formik
will map all props that are not functions to the inner component's
props.values
. That is, if you omit it, Formik will only pass
props
where typeof props[k] !== 'function'
, where k
is some key.
Even if your form is not receiving any props from its parent, use
mapPropsToValues
to initialize your forms empty state.
Note: I suggest using validationSchema
and Yup for validation. However,
validate
is a dependency-free, straightforward way to validate your forms.
Validate the form's values
with function. This function can either be:
- Synchronous and return an
errors
object.
// Synchronous validation
const validate = (values, props) => {
let errors = {};
if (!values.email) {
errors.email = 'Required';
} else if (!/^[A-Z0-9._%+-]+@[A-Z0-9.-]+\.[A-Z]{2,4}$/i.test(values.email)) {
errors.email = 'Invalid email address';
}
//...
return errors;
};
- Asynchronous and return a Promise that's error is an
errors
object
// Async Validation
const sleep = ms => new Promise(resolve => setTimeout(resolve, ms));
const validate = (values, props) => {
return sleep(2000).then(() => {
let errors = {};
if (['admin', 'null', 'god'].includes(values.username)) {
errors.username = 'Nice try';
}
// ...
if (Object.keys(errors).length) {
throw errors;
}
});
};
Default is true
. Use this option to run validations on blur
events. More
specifically, when either handleBlur
, setFieldTouched
, or setTouched
are called.
Default is true
. Use this option to tell Formik to run validations on change
events and change
-related methods. More specifically, when either
handleChange
, setFieldValue
, or setValues
are called.
A Yup schema or a function that returns a Yup
schema. This is used for validation. Errors are mapped by key to the inner
component's errors
. Its keys should match those of values
.
These are identical to the props of <Formik render={props => ...} />
List of organizations and projects using Formik
- Jared Palmer @jaredpalmer
- Ian White @eonwhite
Formik is made with <3 thanks to these wonderful people (emoji key):
This project follows the all-contributors specification. Contributions of any kind welcome!
MIT License.