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- Setup
- Supported react-native versions
- Example
- API
- Types
- Rendering options
- Unions
- Lists
- Customizations
- Tests
- License
npm install tcomb-form-native
Version | React Native Support | Android Support | iOS Support |
---|---|---|---|
0.5 - 0.6.1 | 0.25.0 - 0.35.0 | 7.1 | 10.0.2 |
0.4 | 0.20.0 - 0.24.0 | 7.1 | 10.0.2 |
0.3 | 0.1.0 - 0.13.0 | 7.1 | 10.0.2 |
Complies with react-native-version-support-table |
The tcomb library provides a concise but expressive way to define domain models in JavaScript.
The tcomb-validation library builds on tcomb, providing validation functions for tcomb domain models.
This library builds on those two and the awesome react-native.
With tcomb-form-native you simply call <Form type={Model} />
to generate a form based on that domain model. What does this get you?
- Write a lot less code
- Usability and accessibility for free (automatic labels, inline validation, etc)
- No need to update forms when domain model changes
JSON Schemas are also supported via the (tiny) tcomb-json-schema library.
Note. Please use tcomb-json-schema ^0.2.5.
The look and feel is customizable via react-native stylesheets and templates (see documentation).
http://react.rocks/example/tcomb-form-native
https://github.com/bartonhammond/snowflake React-Native, Tcomb, Redux, Parse.com, Jest - 88% coverage
// index.ios.js
'use strict';
var React = require('react-native');
var t = require('tcomb-form-native');
var { AppRegistry, StyleSheet, Text, View, TouchableHighlight } = React;
var Form = t.form.Form;
// here we are: define your domain model
var Person = t.struct({
name: t.String, // a required string
surname: t.maybe(t.String), // an optional string
age: t.Number, // a required number
rememberMe: t.Boolean // a boolean
});
var options = {}; // optional rendering options (see documentation)
var AwesomeProject = React.createClass({
onPress: function () {
// call getValue() to get the values of the form
var value = this.refs.form.getValue();
if (value) { // if validation fails, value will be null
console.log(value); // value here is an instance of Person
}
},
render: function() {
return (
<View style={styles.container}>
{/* display */}
<Form
ref="form"
type={Person}
options={options}
/>
<TouchableHighlight style={styles.button} onPress={this.onPress} underlayColor='#99d9f4'>
<Text style={styles.buttonText}>Save</Text>
</TouchableHighlight>
</View>
);
}
});
var styles = StyleSheet.create({
container: {
justifyContent: 'center',
marginTop: 50,
padding: 20,
backgroundColor: '#ffffff',
},
buttonText: {
fontSize: 18,
color: 'white',
alignSelf: 'center'
},
button: {
height: 36,
backgroundColor: '#48BBEC',
borderColor: '#48BBEC',
borderWidth: 1,
borderRadius: 8,
marginBottom: 10,
alignSelf: 'stretch',
justifyContent: 'center'
}
});
AppRegistry.registerComponent('AwesomeProject', () => AwesomeProject);
Output:
(Labels are automatically generated)
Ouput after a validation error:
Returns null
if the validation failed, an instance of your model otherwise.
Note. Calling
getValue
will cause the validation of all the fields of the form, including some side effects like highlighting the errors.
Returns a ValidationResult
(see tcomb-validation for a reference documentation).
The Form
component behaves like a controlled component:
var Person = t.struct({
name: t.String,
surname: t.maybe(t.String)
});
var AwesomeProject = React.createClass({
getInitialState() {
return {
value: {
name: 'Giulio',
surname: 'Canti'
}
};
},
onChange(value) {
this.setState({value});
},
onPress: function () {
var value = this.refs.form.getValue();
if (value) {
console.log(value);
}
},
render: function() {
return (
<View style={styles.container}>
<Form
ref="form"
type={Person}
value={this.state.value}
onChange={this.onChange}
/>
<TouchableHighlight style={styles.button} onPress={this.onPress} underlayColor='#99d9f4'>
<Text style={styles.buttonText}>Save</Text>
</TouchableHighlight>
</View>
);
}
});
The onChange
handler has the following signature:
(raw: any, path: Array<string | number>) => void
where
-
raw
contains the current raw value of the form (can be an invalid value for your model) -
path
is the path to the field triggering the change
Warning. tcomb-form-native uses
shouldComponentUpdate
aggressively. In order to ensure that tcomb-form-native detect any change totype
,options
orvalue
props you have to change references:
var Type = t.struct({
disable: t.Boolean, // if true, name field will be disabled
name: t.String
});
// see the "Rendering options" section in this guide
var options = {
fields: {
name: {}
}
};
var AwesomeProject = React.createClass({
getInitialState() {
return {
options: options,
value: null
};
},
onChange(value) {
// tcomb immutability helpers
// https://github.com/gcanti/tcomb/blob/master/docs/API.md#updating-immutable-instances
var options = t.update(this.state.options, {
fields: {
name: {
editable: {'$set': !value.disable}
}
}
});
this.setState({options: options, value: value});
},
onPress: function () {
var value = this.refs.form.getValue();
if (value) {
console.log(value);
}
},
render: function() {
return (
<View style={styles.container}>
<Form
ref="form"
type={Type}
options={this.state.options}
value={this.state.value}
onChange={this.onChange}
/>
<TouchableHighlight style={styles.button} onPress={this.onPress} underlayColor='#99d9f4'>
<Text style={styles.buttonText}>Save</Text>
</TouchableHighlight>
</View>
);
}
});
You can get access to a field with the getComponent(path)
API:
var Person = t.struct({
name: t.String,
surname: t.maybe(t.String),
age: t.Number,
rememberMe: t.Boolean
});
var AwesomeProject = React.createClass({
componentDidMount() {
// give focus to the name textbox
this.refs.form.getComponent('name').refs.input.focus();
},
onPress: function () {
var value = this.refs.form.getValue();
if (value) {
console.log(value);
}
},
render: function() {
return (
<View style={styles.container}>
<Form
ref="form"
type={Person}
/>
<TouchableHighlight style={styles.button} onPress={this.onPress} underlayColor='#99d9f4'>
<Text style={styles.buttonText}>Save</Text>
</TouchableHighlight>
</View>
);
}
});
var Person = t.struct({
name: t.String,
surname: t.maybe(t.String),
age: t.Number,
rememberMe: t.Boolean
});
var AwesomeProject = React.createClass({
getInitialState() {
return { value: null };
},
onChange(value) {
this.setState({ value });
},
clearForm() {
// clear content from all textbox
this.setState({ value: null });
},
onPress: function () {
var value = this.refs.form.getValue();
if (value) {
console.log(value);
// clear all fields after submit
this.clearForm();
}
},
render: function() {
return (
<View style={styles.container}>
<Form
ref="form"
type={Person}
value={this.state.value}
onChange={this.onChange.bind(this)}
/>
<TouchableHighlight style={styles.button} onPress={this.onPress} underlayColor='#99d9f4'>
<Text style={styles.buttonText}>Save</Text>
</TouchableHighlight>
</View>
);
}
});
Say I have an iOS Picker, depending on which option is selected in this picker I want the next component to either be a checkbox or a textbox:
const Country = t.enums({
'IT': 'Italy',
'US': 'United States'
}, 'Country');
var AwesomeProject = React.createClass({
// returns the suitable type based on the form value
getType(value) {
if (value.country === 'IT') {
return t.struct({
country: Country,
rememberMe: t.Boolean
});
} else if (value.country === 'US') {
return t.struct({
country: Country,
name: t.String
});
} else {
return t.struct({
country: Country
});
}
},
getInitialState() {
const value = {};
return { value, type: this.getType(value) };
},
onChange(value) {
// recalculate the type only if strictly necessary
const type = value.country !== this.state.value.country ?
this.getType(value) :
this.state.type;
this.setState({ value, type });
},
onPress() {
var value = this.refs.form.getValue();
if (value) {
console.log(value);
}
},
render() {
return (
<View style={styles.container}>
<t.form.Form
ref="form"
type={this.state.type}
value={this.state.value}
onChange={this.onChange}
/>
<TouchableHighlight style={styles.button} onPress={this.onPress} underlayColor='#99d9f4'>
<Text style={styles.buttonText}>Save</Text>
</TouchableHighlight>
</View>
);
}
});
By default fields are required:
var Person = t.struct({
name: t.String, // a required string
surname: t.String // a required string
});
In order to create an optional field, wrap the field type with the t.maybe
combinator:
var Person = t.struct({
name: t.String,
surname: t.String,
email: t.maybe(t.String) // an optional string
});
The postfix " (optional)"
is automatically added to optional fields.
You can customise the postfix value or setting a postfix for required fields:
t.form.Form.i18n = {
optional: '',
required: ' (required)' // inverting the behaviour: adding a postfix to the required fields
};
In order to create a numeric field, use the t.Number
type:
var Person = t.struct({
name: t.String,
surname: t.String,
email: t.maybe(t.String),
age: t.Number // a numeric field
});
tcomb-form-native will convert automatically numbers to / from strings.
In order to create a boolean field, use the t.Boolean
type:
var Person = t.struct({
name: t.String,
surname: t.String,
email: t.maybe(t.String),
age: t.Number,
rememberMe: t.Boolean // a boolean field
});
Booleans are displayed as SwitchIOS
s.
In order to create a date field, use the t.Date
type:
var Person = t.struct({
name: t.String,
surname: t.String,
email: t.maybe(t.String),
age: t.Number,
birthDate: t.Date // a date field
});
Dates are displayed as DatePickerIOS
s under iOS and DatePickerAndroid
or TimePickerAndroid
under Android, depending on the mode
selected (date
or time
).
Under Android, use the fields
option to configure which mode
to display the Picker:
// see the "Rendering options" section in this guide
var options = {
fields: {
birthDate: {
mode: 'date' // display the Date field as a DatePickerAndroid
}
}
};
The bundled template will render an iOS UIDatePicker
component, but collapsed into a touchable component in order to improve usability. A config
object can be passed to customize it with the following parameters:
Key | Value |
---|---|
animation |
The animation to collapse the date picker. Defaults to Animated.timing . |
animationConfig |
The animation configuration object. Defaults to {duration: 200} for the default animation. |
format |
A (date) => String(date) kind of function to provide a custom date format parsing to display the value. Optional, defaults to (date) => String(date) . |
defaultValueText |
An string to customize the default value of the null date value text. |
For the collapsible customization, look at the dateTouchable
and dateValue
keys in the stylesheet file.
When using a t.Date
type in Android, it can be configured through a config
option that take the following parameters:
Key | Value |
---|---|
background |
Determines the type of background drawable that's going to be used to display feedback. Optional, defaults to TouchableNativeFeedback.SelectableBackground . |
format |
A (date) => String(date) kind of function to provide a custom date format parsing to display the value. Optional, defaults to (date) => String(date) . |
dialogMode |
Determines the type of datepicker mode for Android (default , spinner or calendar ). |
defaultValueText |
An string to customize the default value of the null date value text. |
In order to create an enum field, use the t.enums
combinator:
var Gender = t.enums({
M: 'Male',
F: 'Female'
});
var Person = t.struct({
name: t.String,
surname: t.String,
email: t.maybe(t.String),
age: t.Number,
rememberMe: t.Boolean,
gender: Gender // enum
});
Enums are displayed as Picker
s.
The bundled template will render an iOS UIPickerView
component, but collapsed into a touchable component in order to improve usability. A config
object can be passed to customize it with the following parameters:
Key | Value |
---|---|
animation |
The animation to collapse the date picker. Defaults to Animated.timing . |
animationConfig |
The animation configuration object. Defaults to {duration: 200} for the default animation. |
For the collapsible customization, look at the pickerContainer
, pickerTouchable
and pickerValue
keys in the stylesheet file.
A predicate is a function with the following signature:
(x: any) => boolean
You can refine a type with the t.refinement(type, predicate)
combinator:
// a type representing positive numbers
var Positive = t.refinement(t.Number, function (n) {
return n >= 0;
});
var Person = t.struct({
name: t.String,
surname: t.String,
email: t.maybe(t.String),
age: Positive, // refinement
rememberMe: t.Boolean,
gender: Gender
});
Subtypes allow you to express any custom validation with a simple predicate.
In order to customize the look and feel, use an options
prop:
<Form type={Model} options={options} />
By default labels are automatically generated. You can turn off this behaviour or override the default labels on field basis.
var options = {
label: 'My struct label' // <= form legend, displayed before the fields
};
var options = {
fields: {
name: {
label: 'My name label' // <= label for the name field
}
}
};
In order to automatically generate default placeholders, use the option auto: 'placeholders'
:
var options = {
auto: 'placeholders'
};
<Form type={Person} options={options} />
Set auto: 'none'
if you don't want neither labels nor placeholders.
var options = {
auto: 'none'
};
You can sort the fields with the order
option:
var options = {
order: ['name', 'surname', 'rememberMe', 'gender', 'age', 'email']
};
You can set the default values passing a value
prop to the Form
component:
var value = {
name: 'Giulio',
surname: 'Canti',
age: 41,
gender: 'M'
};
<Form type={Model} value={value} />
You can configure each field with the fields
option:
var options = {
fields: {
name: {
// name field configuration here..
},
surname: {
// surname field configuration here..
}
}
};
Implementation: TextInput
Tech note. Values containing only white spaces are converted to null
.
You can set the placeholder with the placeholder
option:
var options = {
fields: {
name: {
placeholder: 'Your placeholder here'
}
}
};
You can set the label with the label
option:
var options = {
fields: {
name: {
label: 'Insert your name'
}
}
};
You can set a help message with the help
option:
var options = {
fields: {
name: {
help: 'Your help message here'
}
}
};
You can add a custom error message with the error
option:
var options = {
fields: {
email: {
// you can use strings or JSX
error: 'Insert a valid email'
}
}
};
tcomb-form-native will display the error message when the field validation fails.
error
can also be a function with the following signature:
(value, path, context) => ?(string | ReactElement)
where
-
value
is an object containing the current form value. -
path
is the path of the value being validated -
context
is the value of thecontext
prop. Also it contains a reference to the component options.
The value returned by the function will be used as error message.
If you want to show the error message onload, add the hasError
option:
var options = {
hasError: true,
error: <i>A custom error message</i>
};
Another way is to add a:
getValidationErrorMessage(value, path, context)
static function to a type, where:
-
value
is the (parsed) current value of the component. -
path
is the path of the value being validated -
context
is the value of thecontext
prop. Also it contains a reference to the component options.
var Age = t.refinement(t.Number, function (n) { return n >= 18; });
// if you define a getValidationErrorMessage function, it will be called on validation errors
Age.getValidationErrorMessage = function (value, path, context) {
return 'bad age, locale: ' + context.locale;
};
var Schema = t.struct({
age: Age
});
...
<t.form.Form
ref="form"
type={Schema}
context={{locale: 'it-IT'}}
/>
You can even define getValidationErrorMessage
on the supertype in order to be DRY:
t.Number.getValidationErrorMessage = function (value, path, context) {
return 'bad number';
};
Age.getValidationErrorMessage = function (value, path, context) {
return 'bad age, locale: ' + context.locale;
};
The following standard options are available (see http://facebook.github.io/react-native/docs/textinput.html):
allowFontScaling
autoCapitalize
autoCorrect
autoFocus
bufferDelay
clearButtonMode
editable
enablesReturnKeyAutomatically
keyboardType
maxLength
multiline
numberOfLines
onBlur
onEndEditing
onFocus
onSubmitEditing
onContentSizeChange
password
placeholderTextColor
returnKeyType
selectTextOnFocus
secureTextEntry
selectionState
textAlign
textAlignVertical
textContentType
underlineColorAndroid
underlineColorAndroid
is not supported now on tcomb-form-native
due to random crashes on Android, especially on ScrollView. See more on:
facebook/react-native#17530 (comment)
Implementation: SwitchIOS
The following options are similar to the Textbox
component's ones:
label
help
error
The following standard options are available (see http://facebook.github.io/react-native/docs/switchios.html):
disabled
onTintColor
thumbTintColor
tintColor
Implementation: PickerIOS
The following options are similar to the Textbox
component's ones:
label
help
error
You can customize the null option with the nullOption
option:
var options = {
fields: {
gender: {
nullOption: {value: '', text: 'Choose your gender'}
}
}
};
You can remove the null option setting the nullOption
option to false
.
Warning: when you set nullOption = false
you must also set the Form's value
prop for the select field.
Tech note. A value equal to nullOption.value
(default ''
) is converted to null
.
You can sort the options with the order
option:
var options = {
fields: {
gender: {
order: 'asc' // or 'desc'
}
}
};
You can determinate if Select is collapsed:
var options = {
fields: {
gender: {
isCollapsed: false // default: true
}
}
};
If option not set, default is true
You can set a callback, triggered, when collapse change:
var options = {
fields: {
gender: {
onCollapseChange: () => { console.log('collapse changed'); }
}
}
};
Implementation: DatePickerIOS
var Person = t.struct({
name: t.String,
birthDate: t.Date
});
The following options are similar to the Textbox
component's ones:
label
help
error
The following standard options are available (see http://facebook.github.io/react-native/docs/datepickerios.html):
-
maximumDate
, -
minimumDate
, -
minuteInterval
, -
mode
, timeZoneOffsetInMinutes
Hidden Component
For any component, you can set the field with the hidden
option:
var options = {
fields: {
name: {
hidden: true
}
}
};
This will completely skip the rendering of the component, while the default value will be available for validation purposes.
Code Example
const AccountType = t.enums.of([
'type 1',
'type 2',
'other'
], 'AccountType')
const KnownAccount = t.struct({
type: AccountType
}, 'KnownAccount')
// UnknownAccount extends KnownAccount so it owns also the type field
const UnknownAccount = KnownAccount.extend({
label: t.String,
}, 'UnknownAccount')
// the union
const Account = t.union([KnownAccount, UnknownAccount], 'Account')
// the final form type
const Type = t.list(Account)
const options = {
item: [ // one options object for each concrete type of the union
{
label: 'KnownAccount'
},
{
label: 'UnknownAccount'
}
]
}
Generally tcomb
's unions require a dispatch
implementation in order to select the suitable type constructor for a given value and this would be the key in this use case:
// if account type is 'other' return the UnknownAccount type
Account.dispatch = value => value && value.type === 'other' ? UnknownAccount : KnownAccount
You can handle a list with the t.list
combinator:
const Person = t.struct({
name: t.String,
tags: t.list(t.String) // a list of strings
});
To configure all the items in a list, set the item
option:
const Person = t.struct({
name: t.String,
tags: t.list(t.String) // a list of strings
});
const options = {
fields: { // <= Person options
tags: {
item: { // <= options applied to each item in the list
label: 'My tag'
}
}
}
});
You can nest lists and structs at an arbitrary level:
const Person = t.struct({
name: t.String,
surname: t.String
});
const Persons = t.list(Person);
If you want to provide options for your nested structures they must be nested following the type structure. Here is an example:
const Person = t.struct({
name: t.Struct,
position: t.Struct({
latitude: t.Number,
longitude: t.Number
});
});
const options = {
fields: { // <= Person options
name: {
label: 'name label'
}
position: {
fields: {
// Note that latitude is not directly nested in position,
// but in the fields property
latitude: {
label: 'My position label'
}
}
}
}
});
When dealing with t.list
, make sure to declare the fields
property inside the item
property, as such:
const Documents = t.struct({
type: t.Number,
value: t.String
})
const Person = t.struct({
name: t.Struct,
documents: t.list(Documents)
});
const options = {
fields: {
name: { /*...*/ },
documents: {
item: {
fields: {
type: {
// Documents t.struct 'type' options
},
value: {
// Documents t.struct 'value' options
}
}
}
}
}
}
You can override the default language (english) with the i18n
option:
const options = {
i18n: {
optional: ' (optional)',
required: '',
add: 'Add', // add button
remove: '✘', // remove button
up: '↑', // move up button
down: '↓' // move down button
}
};
You can prevent operations on lists with the following options:
-
disableAdd
: (defaultfalse
) prevents adding new items -
disableRemove
: (defaultfalse
) prevents removing existing items -
disableOrder
: (defaultfalse
) prevents sorting existing items
const options = {
disableOrder: true
};
Lists of different types are not supported. This is because a tcomb
's list, by definition, contains only values of the same type. You can define a union though:
const AccountType = t.enums.of([
'type 1',
'type 2',
'other'
], 'AccountType')
const KnownAccount = t.struct({
type: AccountType
}, 'KnownAccount')
// UnknownAccount extends KnownAccount so it owns also the type field
const UnknownAccount = KnownAccount.extend({
label: t.String,
}, 'UnknownAccount')
// the union
const Account = t.union([KnownAccount, UnknownAccount], 'Account')
// the final form type
const Type = t.list(Account)
Generally tcomb
's unions require a dispatch
implementation in order to select the suitable type constructor for a given value and this would be the key in this use case:
// if account type is 'other' return the UnknownAccount type
Account.dispatch = value => value && value.type === 'other' ? UnknownAccount : KnownAccount
See also Stylesheet guide.
tcomb-form-native comes with a default style. You can customize the look and feel by setting another stylesheet:
var t = require('tcomb-form-native/lib');
var i18n = require('tcomb-form-native/lib/i18n/en');
var templates = require('tcomb-form-native/lib/templates/bootstrap');
// define a stylesheet (see lib/stylesheets/bootstrap for an example)
var stylesheet = {...};
// override globally the default stylesheet
t.form.Form.stylesheet = stylesheet;
// set defaults
t.form.Form.templates = templates;
t.form.Form.i18n = i18n;
You can also override the stylesheet locally for selected fields:
var Person = t.struct({
name: t.String
});
var options = {
fields: {
name: {
stylesheet: myCustomStylesheet
}
}
};
Or per form:
var Person = t.struct({
name: t.String
});
var options = {
stylesheet: myCustomStylesheet
};
For a complete example see the default stylesheet https://github.com/gcanti/tcomb-form-native/blob/master/lib/stylesheets/bootstrap.js.
tcomb-form-native comes with a default layout, i.e. a bunch of templates, one for each component. When changing the stylesheet is not enough, you can customize the layout by setting custom templates:
var t = require('tcomb-form-native/lib');
var i18n = require('tcomb-form-native/lib/i18n/en');
var stylesheet = require('tcomb-form-native/lib/stylesheets/bootstrap');
// define the templates (see lib/templates/bootstrap for an example)
var templates = {...};
// override globally the default layout
t.form.Form.templates = templates;
// set defaults
t.form.Form.stylesheet = stylesheet;
t.form.Form.i18n = i18n;
You can also override the template locally:
var Person = t.struct({
name: t.String
});
function myCustomTemplate(locals) {
var containerStyle = {...};
var labelStyle = {...};
var textboxStyle = {...};
return (
<View style={containerStyle}>
<Text style={labelStyle}>{locals.label}</Text>
<TextInput style={textboxStyle} />
</View>
);
}
var options = {
fields: {
name: {
template: myCustomTemplate
}
}
};
A template is a function with the following signature:
(locals: Object) => ReactElement
where locals
is an object contaning the "recipe" for rendering the input and it's built for you by tcomb-form-native.
Let's see an example: the locals
object passed in the checkbox
template:
type Message = string | ReactElement
{
stylesheet: Object, // the styles to be applied
hasError: boolean, // true if there is a validation error
error: ?Message, // the optional error message to be displayed
label: Message, // the label to be displayed
help: ?Message, // the optional help message to be displayed
value: boolean, // the current value of the checkbox
onChange: Function, // the event handler to be called when the value changes
config: Object, // an optional object to pass configuration options to the new template
...other input options here...
}
For a complete example see the default template https://github.com/gcanti/tcomb-form-native/blob/master/lib/templates/bootstrap.
tcomb-form-native comes with a default internationalization (English). You can change it by setting another i18n object:
var t = require('tcomb-form-native/lib');
var templates = require('tcomb-form-native/lib/templates/bootstrap');
// define an object containing your translations (see tcomb-form-native/lib/i18n/en for an example)
var i18n = {...};
// override globally the default i18n
t.form.Form.i18n = i18n;
// set defaults
t.form.Form.templates = templates;
t.form.Form.stylesheet = stylesheet;
Say you want a search textbox which accepts a list of keywords separated by spaces:
var Search = t.struct({
search: t.list(t.String)
});
tcomb-form by default will render the search
field as a list. In order to render a textbox you have to override the default behaviour with the factory option:
var options = {
fields: {
search: {
factory: t.form.Textbox
}
}
};
There is a problem though: a textbox handle only strings so we need a way to transform a list in a string and a string in a list: a Transformer
deals with serialization / deserialization of data and has the following interface:
var Transformer = t.struct({
format: t.Function, // from value to string, it must be idempotent
parse: t.Function // from string to value
});
A basic transformer implementation for the search textbox:
var listTransformer = {
format: function (value) {
return Array.isArray(value) ? value.join(' ') : value;
},
parse: function (str) {
return str ? str.split(' ') : [];
}
};
Now you can handle lists using the transformer option:
// example of initial value
var value = {
search: ['climbing', 'yosemite']
};
var options = {
fields: {
search: {
factory: t.form.Textbox, // tell tcomb-react-native to use the same component for textboxes
transformer: listTransformer,
help: 'Keywords are separated by spaces'
}
}
};
You can pack together style, template (and transformers) in a custom component and then you can use it with the factory
option:
var Component = t.form.Component;
// extend the base Component
class MyComponent extends Component {
// this is the only required method to implement
getTemplate() {
// define here your custom template
return function (locals) {
//return ... jsx ...
};
}
// you can optionally override the default getLocals method
// it will provide the locals param to your template
getLocals() {
// in locals you'll find the default locals:
// - path
// - error
// - hasError
// - label
// - onChange
// - stylesheet
var locals = super.getLocals();
// add here your custom locals
return locals;
}
}
// as example of transformer: this is the default transformer for textboxes
MyComponent.transformer = {
format: value => Nil.is(value) ? null : value,
parse: value => (t.String.is(value) && value.trim() === '') || Nil.is(value) ? null : value
};
var Person = t.struct({
name: t.String
});
var options = {
fields: {
name: {
factory: MyComponent
}
}
};
npm test
Note: If you are using Jest, you will encounter an error which can
be fixed w/ a small change to the package.json
.
The error will look similiar to the following:
Error: Cannot find module './datepicker' from 'index.js' at
Resolver.resolveModule
A completely working example jest
setup is shown below w/ the
http://facebook.github.io/jest/docs/api.html#modulefileextensions-array-string
fix added:
"jest": {
"setupEnvScriptFile": "./node_modules/react-native/jestSupport/env.js",
"haste": {
"defaultPlatform": "ios",
"platforms": [
"ios",
"android"
],
"providesModuleNodeModules": [
"react-native"
]
},
"testPathIgnorePatterns": [
"/node_modules/"
],
"testFileExtensions": [
"es6",
"js"
],
"moduleFileExtensions": [
"js",
"json",
"es6",
"ios.js" <<<<<<<<<<<< this needs to be defined!
],
"unmockedModulePathPatterns": [
"react",
"react-addons-test-utils",
"react-native-router-flux",
"promise",
"source-map",
"key-mirror",
"immutable",
"fetch",
"redux",
"redux-thunk",
"fbjs"
],
"collectCoverage": false,
"verbose": true
},