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Meteor-Community-Packages logometeor-autoform

AutoForm is a Meteor package that adds UI components and helpers to easily create basic forms with automatic insert and update events, and automatic reactive validation.

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A Meteor package that extends Mongo.Collection to provide support for specifying a schema and then validating against that schema when inserting and updating.

AutoForm is a Meteor package that adds UI components and helpers to easily create basic forms with automatic insert and update events, and automatic reactive validation.

JavaScript powered Forms with JSON Form Builder

📋 React Hooks for form state management and validation (Web + React Native)

Quick Overview

Meteor-Community-Packages/meteor-autoform is a popular Meteor package that provides automatic form generation and processing for Meteor applications. It allows developers to create forms quickly based on SimpleSchema definitions, handling both client-side and server-side validation with minimal code.

Pros

  • Rapid form development with automatic generation based on schema definitions
  • Seamless integration with Meteor and SimpleSchema for validation
  • Highly customizable with various input types and layouts
  • Extensive plugin ecosystem for additional functionality

Cons

  • Learning curve for complex form scenarios
  • Dependency on SimpleSchema may limit flexibility in some cases
  • Performance can be impacted for very large or complex forms
  • Some users report occasional issues with reactivity in certain scenarios

Code Examples

  1. Basic form generation:
import SimpleSchema from 'simpl-schema';

const BookSchema = new SimpleSchema({
  title: String,
  author: String,
  publishedDate: Date
});

<AutoForm schema={BookSchema} onSubmit={handleSubmit}>
  <AutoField name="title" />
  <AutoField name="author" />
  <AutoField name="publishedDate" />
  <button type="submit">Submit</button>
</AutoForm>
  1. Custom field types:
<AutoForm schema={ProfileSchema}>
  <AutoField name="name" />
  <AutoField name="bio" type="textarea" rows={4} />
  <AutoField name="birthDate" type="date" />
  <button type="submit">Update Profile</button>
</AutoForm>
  1. Form with custom layout:
<AutoForm schema={AddressSchema}>
  <div className="form-row">
    <AutoField name="street" className="col-md-6" />
    <AutoField name="city" className="col-md-6" />
  </div>
  <div className="form-row">
    <AutoField name="state" className="col-md-4" />
    <AutoField name="zip" className="col-md-4" />
    <AutoField name="country" className="col-md-4" />
  </div>
  <button type="submit">Save Address</button>
</AutoForm>

Getting Started

  1. Install the package:

    meteor add aldeed:autoform
    
  2. Define a SimpleSchema:

    import SimpleSchema from 'simpl-schema';
    
    const ContactSchema = new SimpleSchema({
      name: String,
      email: String,
      message: String
    });
    
  3. Create an AutoForm in your template:

    <AutoForm schema={ContactSchema} onSubmit={handleSubmit}>
      <AutoField name="name" />
      <AutoField name="email" />
      <AutoField name="message" type="textarea" />
      <button type="submit">Send Message</button>
    </AutoForm>
    
  4. Handle form submission:

    function handleSubmit(doc) {
      // Process the submitted form data
      console.log(doc);
    }
    

Competitor Comparisons

A Meteor package that extends Mongo.Collection to provide support for specifying a schema and then validating against that schema when inserting and updating.

Pros of collection2

  • Focuses on schema validation and data integrity at the database level
  • Provides automatic type coercion and cleaning of data
  • Lightweight and can be used independently of forms

Cons of collection2

  • Lacks built-in form generation capabilities
  • Requires additional setup for client-side validation
  • May need integration with other packages for complete form handling

Code Comparison

collection2:

const Books = new Mongo.Collection('books');

Books.attachSchema(new SimpleSchema({
  title: String,
  author: String,
  copiesAvailable: {
    type: Number,
    min: 0
  }
}));

autoform:

Template.bookForm.helpers({
  bookSchema: function() {
    return new SimpleSchema({
      title: String,
      author: String,
      copiesAvailable: {
        type: Number,
        min: 0
      }
    });
  }
});

collection2 focuses on defining schemas for collections, while autoform uses schemas to generate forms automatically. collection2 is more about data validation and integrity, whereas autoform streamlines form creation and handling in Meteor applications. While collection2 can be used independently, autoform often relies on collection2 for schema definitions, creating a synergy between the two packages.

AutoForm is a Meteor package that adds UI components and helpers to easily create basic forms with automatic insert and update events, and automatic reactive validation.

Pros of meteor-autoform

  • Provides a robust and flexible form generation system for Meteor applications
  • Offers extensive customization options for form fields and layouts
  • Integrates seamlessly with SimpleSchema for automatic form generation

Cons of meteor-autoform

  • May have a steeper learning curve for beginners due to its extensive features
  • Could potentially add unnecessary complexity for simple form requirements
  • Might require additional configuration for advanced use cases

Code Comparison

meteor-autoform:

AutoForm.addHooks('myForm', {
  onSubmit: function (insertDoc, updateDoc, currentDoc) {
    this.done();
    return false;
  }
});

Both repositories appear to be the same project, as Meteor-Community-Packages/meteor-autoform is the main repository for the AutoForm package in Meteor. Therefore, a code comparison between the two is not applicable in this case.

Summary

meteor-autoform is a powerful form generation and handling package for Meteor applications. It offers extensive customization options and integrates well with SimpleSchema. However, it may have a steeper learning curve and could be overly complex for simple form needs. The package is widely used in the Meteor community and is actively maintained by the Meteor Community Packages organization.

JavaScript powered Forms with JSON Form Builder

Pros of formio.js

  • Framework-agnostic: Can be used with various JavaScript frameworks or vanilla JS
  • Extensive form builder UI for drag-and-drop form creation
  • Supports complex form layouts and nested form components

Cons of formio.js

  • Steeper learning curve due to more complex API and configuration options
  • Requires additional setup for backend integration compared to AutoForm's tight Meteor integration
  • Larger file size and potential performance overhead for simpler form use cases

Code Comparison

AutoForm (Meteor-specific):

AutoForm.addHooks('myForm', {
  onSubmit: function (insertDoc, updateDoc, currentDoc) {
    this.done();
    return false;
  }
});

formio.js (Framework-agnostic):

Formio.createForm(document.getElementById('formio'), {
  components: [
    { type: 'textfield', key: 'firstName', label: 'First Name' },
    { type: 'textfield', key: 'lastName', label: 'Last Name' },
    { type: 'button', action: 'submit', label: 'Submit' }
  ]
}).then(function(form) {
  form.on('submit', function(submission) {
    console.log(submission);
  });
});

The code comparison highlights the different approaches: AutoForm is tightly integrated with Meteor and uses a declarative syntax, while formio.js offers a more programmatic API that can be used in various environments. formio.js provides more flexibility but requires more setup code for basic forms.

📋 React Hooks for form state management and validation (Web + React Native)

Pros of react-hook-form

  • Lightweight and performant, with minimal re-renders
  • Flexible and easy to integrate with various UI libraries
  • Extensive validation options and error handling capabilities

Cons of react-hook-form

  • Steeper learning curve for developers new to React hooks
  • Less opinionated, requiring more manual setup for complex forms
  • Limited built-in UI components compared to AutoForm

Code Comparison

react-hook-form:

import { useForm } from "react-hook-form";

function MyForm() {
  const { register, handleSubmit } = useForm();
  const onSubmit = (data) => console.log(data);

  return (
    <form onSubmit={handleSubmit(onSubmit)}>
      <input {...register("firstName")} />
      <input {...register("lastName")} />
      <button type="submit">Submit</button>
    </form>
  );
}

meteor-autoform:

import { AutoForm } from 'meteor/aldeed:autoform';

const schema = new SimpleSchema({
  firstName: String,
  lastName: String
});

<AutoForm schema={schema} onSubmit={doc => console.log(doc)}>
  <AutoField name="firstName" />
  <AutoField name="lastName" />
  <button type="submit">Submit</button>
</AutoForm>

react-hook-form offers more granular control over form elements and their behavior, while meteor-autoform provides a more declarative approach with built-in schema support. The choice between the two depends on the specific project requirements, developer preferences, and the overall tech stack being used.

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README

AutoForm

AutoForm is a Meteor package that adds UI components and helpers to easily create basic forms with automatic insert and update events, and automatic reactive validation. Versions 6+ of this package require that you separately install the simpl-schema NPM package. Prior versions require and automatically install the simple-schema Meteor package. You can optionally use it with the collection2 package, which you have to add to your app yourself.

Test suite Project Status: Active – The project has reached a stable, usable state and is being actively developed. JavaScript Style Guide LGTM Grade GitHub

NOTE: AutoForm 7.0

AutoForm 7.0 is now available and decouples from the default themes. You will have to install themes manually!

Be sure to check out the change log for full details, first. Note that if you use add-on packages that haven't been updated yet, you will not yet be able to update to version 6.

Add-on Package Authors: Please test your package against AutoForm 7.0, and then release a major version update in which you change your api.use to api.use('aldeed:autoform@7.0.0');. We do NOT recommend using something like api.use('aldeed:autoform@6.0.0 || 7.0.0'); to try to support multiple major versions of AutoForm because there is currently a known Meteor issue where trying to support too many dependency paths leads to running out of memory when trying to resolve dependencies.

Table of Contents

Table of Contents generated with DocToc

Installation

In a Meteor app directory, enter:

$ meteor add aldeed:autoform

Also install SimpleSchema NPM package separately (AutoForm 6+):

$ npm i --save simpl-schema

And then also extend SimpleSchema to allow the autoform option in your schemas, if you plan to use it:

import SimpleSchema from 'simpl-schema';
SimpleSchema.extendOptions(['autoform']);

By default there is no theme included, so you will have to install a theme, too. The following themes are available and tested to work with v7:

Please also consider, that twbs:bootstrap is depending on an outdated (and potential insecure!) Bootstrap version. Better: Use the latest Bootstrap 3.x or 4.x from NPM in favour.

Migration from 6.x

If you update to 7.0.0 you will likely encounter errors from your extension packages like

While selecting package versions:
error: Conflict: Constraint aldeed:autoform@6.3.0 is not satisfied by aldeed:autoform 7.0.0.
Constraints on package "aldeed:autoform":
* aldeed:autoform@=7.0.0 <- top level
* aldeed:autoform@6.3.0 <- someone:packagename x.y.z

You can easily circumvent this issue by editing the package entry in .meteor/packages from aldeed:autoform to aldeed:autoform@7.0.0! (note the exclamation mark).

This is because many extensions will not have the 7.0.0 reference in their package.js file, yet. However, this major version is intended to not break compatibility with extensions, that worked with 6.x. If you encounter any runtime issues with extensions, please open an issue.

Import using static imports

If you come from a previous version and want to "keep things as they were" then this is the option you should choose.

AutoForm now comes only with the core functionality added to the initial package code. In order to make the Templates available, too, you only need to put the following line into your top-level client startup code (for example imports/startup/client/autoform.js):

import 'meteor/aldeed:autoform/static'

That's it. The Templates are now available.

Import using dynamic imports

This package supports dynamic-import, which helps to reduce initial bundle size of the package from ~110 KB to ~60 KB (estimated via bundle-visualizer).

The following example shows how to import the packages dynamically:

import 'meteor/aldeed:autoform/dynamic'

AutoForm.load()
  .then(() => {
    // ... on init success code, for example set a ReactiveVar to true
  ))
  .catch(e => {
    // ... on error code
  })

You can even combine this with one of the themes (if they support dynamic imports) like in the following example:

import { AutoFormThemeBootstrap4 } from 'meteor/communitypackages:autoform-bootstrap4/dynamic'
import 'meteor/aldeed:autoform/dynamic'

async function init () {
  await AutoForm.load()
  await AutoFormThemeBootstrap4.load()
  // theme is imported, you can now make the form available
  // you could use a reactive var that resolves to true here
  // or any other mechanism you like to use to reactively activate the form
  AutoForm.setDefaultTemplate('bootstrap4')
}

(function () {
  init()
    .catch(e => console.error('[autoForm]: init failed - ', e))
    .then(() => console.info('[autoForm]: initialized'))
})()

Note, that you can't use the #autoForm or >quickForm Templates before the import has not completed. You can however use a ReactiveVar in your Temlate to "wait" with rendering the form:

import { ReactiveVar } from 'meteor/reactive-var'
import { initAutoForm } from 'meteor/aldeed:autoform/dynamic'

const autoFormLoaded = new ReactiveVar()

initAutoForm()
  .then(() => autoFormLoaded.set(true))
  .catch(e => {
    // ... on error code
  })

// ... other Template code

Template.myCoolForm.helpers({
  loadComplete() {
    return autoFormLoaded.get()
  }
})

Community Add-On Packages

Submit a pull request to add your package to this list!

Custom Input Types

Dates and times:

Selects:

WYSIWYGs:

Markdowns:

Autocompletes:

Files:

Maps:

Ranges/Sliders:

Payments

Other:

Themes

Admin Panels

Content Management Systems

Components

Other

Demo

Live

Source

Example

Let's say you have the following Mongo.Collection instance, with schema support provided by the collection2 package. (Adding autoform to your app does not add collection2 by default so you need to run meteor add aldeed:collection2@3.0.0 for this example to work.)

Books = new Mongo.Collection("books");
Books.attachSchema(new SimpleSchema({
  title: {
    type: String,
    label: "Title",
    max: 200
  },
  author: {
    type: String,
    label: "Author"
  },
  copies: {
    type: Number,
    label: "Number of copies",
    min: 0
  },
  lastCheckedOut: {
    type: Date,
    label: "Last date this book was checked out",
    optional: true
  },
  summary: {
    type: String,
    label: "Brief summary",
    optional: true,
    max: 1000
  }
}, { tracker: Tracker }));

Be sure to define proper insert security for untrusted code if you've removed the insecure package. Call allow/deny or use ongoworks:security.

A Basic Insert Form

<template name="insertBookForm">
  {{> quickForm collection="Books" id="insertBookForm" type="insert"}}
</template>

That's it! This gives you:

  • An autogenerated form that uses the appropriate classes, depending on your theme.
  • Appropriate HTML5 fields for all keys in the "Books" collection schema.
  • A submit button that gathers the entered values and inserts them into the "Books" collection.
  • Form validation based on the schema attached to the "Books" collection. By default the form is validated when the user submits. If anything is invalid, the form is continually re-validated on keyup (throttled) as the user fixes the issues.
  • Default validation error messages that appear under the fields, and can be customized and translated.

A Basic Update Form

An update form is similar to an insert form, except you need to provide the document with the original values to be updated:

<template name="updateBookForm">
  {{> quickForm collection="Books" doc=this id="updateBookForm" type="update"}}
</template>

This example uses doc=this, assuming that you use something like iron:router's data function to set the template's data context to the book document. This is a common way to do it, but you could also use a helper function that returns the document.

Be sure to define proper update security for untrusted code if you've removed the insecure package. Call allow/deny or use ongoworks:security.

A Custom Insert Form

If you want to customize autogenerated forms for all forms, you can easily do so by writing your own templates. Refer to the templates section. However, sometimes a certain form has a complex schema or unique UI requirements, in which case you can use autoForm rather than quickForm, allowing you to define fields individually.

Here's an example:

<template name="insertBookForm">
  {{#autoForm collection="Books" id="insertBookForm" type="insert"}}
    <fieldset>
      <legend>Add a Book</legend>
      {{> afQuickField name='title'}}
      {{> afQuickField name='author'}}
      {{> afQuickField name='summary' rows=6}}
      {{> afQuickField name='copies'}}
      {{> afQuickField name='lastCheckedOut'}}
    </fieldset>
    <button type="submit" class="btn btn-primary">Insert</button>
  {{/autoForm}}
</template>

In this example, we added rows=6 to the "summary" field, which will cause it to be rendered as a textarea instead of a normal text input field.

Another Custom Insert Form

In the previous example of a custom insert form, we saw how afQuickField can be used to render a field with simple customizations. Now let's say we need to fully customize one of the fields. To do this, you can use the following more specific templates and helpers:

  • afFieldIsInvalid
  • afFieldInput
  • afFieldMessage

Here's an example:

<template name="insertBookForm">
  {{#autoForm collection="Books" id="insertBookForm" type="insert"}}
  <fieldset>
    <legend>Add a Book</legend>
    {{> afQuickField name='title'}}
    {{> afQuickField name='author'}}
    {{> afQuickField name='summary' rows=6}}
    {{> afQuickField name='copies'}}
    {{> afQuickField name='lastCheckedOut'}}
    <div class="form-group{{#if afFieldIsInvalid name='cost'}} has-error{{/if}}">
      <div class="input-group">
        <span class="input-group-addon">$</span>
        {{> afFieldInput name='cost'}}
        <span class="input-group-addon">/each</span>
      </div>
      {{#if afFieldIsInvalid name='cost'}}
      <span class="help-block">{{afFieldMessage name='cost'}}</span>
      {{/if}}
    </div>
  </fieldset>
  <button type="submit" class="btn btn-primary">Insert</button>
  {{/autoForm}}
</template>

We added a cost field to our form and customized it to display as an input group with add-ons.

Component and Helper Reference

NOTE: The afDeleteButton component that used to be part of autoform is now available as a separate package.

autoForm

Use this component as a block instead of <form> elements to wrap your form and gain all the advantages of the autoform package.

The following attributes are recognized:

  • collection: Required if schema is not set. Set to one of the following:
    • The name of a helper function (no quotation marks) that returns an instance of Mongo.Collection that has a schema defined.
    • The name (in quotation marks) of a Mongo.Collection instance that has a schema defined and is in the window namespace.
  • schema: Required if collection is not set. This schema will be used to generate and validate the form prior to submission, so you can specify this along with a collection if you want to use a schema that is slightly different from the one your collection uses. However, the final object will still have to pass validation against the collection schema. Set to one of the following:
    • The name of a helper function (no quotation marks) that returns an instance of SimpleSchema.
    • The name (in quotation marks) of a SimpleSchema instance that is in the window namespace.
  • id: Required. This is used as the id attribute on the rendered form element, so it must be unique within your entire application. It's required because we use it to set up a form-specific validation context and to preserve input values when a "hot code push" happens.
  • doc: Required for an update form, and must have at least an _id property. Pass the current document object, retrieved with a call to findOne() for example. For an insert form, you can also use this attribute to pass an object that has default form values set (the same effect as setting a value attribute on each field within the form).
  • validation: Optional. See the "Fine Tuning Validation" section.
  • template: Optional. See the "Templates" section.
  • type: Optional. The form type. Default if not provided is "normal". See Form Types.
  • meteormethod: Optional. When type is "method" or "method-update", indicate the name of the Meteor method in this attribute.
  • ddp: Optional. When type is "method" or "method-update", provide an alternative DDP Connection that should be used to call the Meteor method in this attribute.
  • resetOnSuccess: Optional. The form is automatically reset for you after a successful submission action. You can skip this by setting this attribute to false.
  • autosave: Optional. Set to true to enable automatic form submission. Whenever the form change event is emitted, the change will be automatically saved to the database.
  • autosaveOnKeyup: Optional. Set to true to enable automatic form submission for a type="update form on keyup event. Whenever a keyup event is emitted on a form field, the change will be automatically saved to the database (throttled to 500ms). It's best to set trimStrings=false when using this option. If you don't, spaces may be deleted while typing.
  • filter: Optional. Set to false for an insert or update form to skip filtering out unknown properties when cleaning the form document.
  • autoConvert: Optional. Set to false for an insert or update form to skip autoconverting property values when cleaning the form document.
  • removeEmptyStrings: Optional. Set to false for an insert or update form to keep empty string values when cleaning the form document.
  • trimStrings: Optional. Set to false for an insert or update form to keep leading and trailing spaces for string values when cleaning the form document.
  • setArrayItems: Optional. Set to true for an update form that is updating specific array items. Note that there is a quirk of MongoDB that will create objects instead of arrays when this is set to true, if there is not already an array in the database. So if you set this to true, be sure that the corresponding array property is never null or missing in the database. It must always be an array with 0 or more items.
  • preserveForm: Optional. Set to false to disable preserving of form values across hot refreshes. This can sometimes help resolve issues with sticky form values.
  • Any additional attributes are passed along to the <form> element, meaning that you can add classes, etc. When providing a boolean attribute, set it to true (no quotation marks) or a helper that returns true.

quickForm

Use this component to generate an entire form in one line. It takes and requires all the same attributes as autoForm. In addition, it recognizes the following attributes:

  • type: Two additional type values are supported: "readonly" and "disabled".
  • buttonClasses: Set the class attribute for the rendered submit button. Some templates may provide a default class if you don't set this.
  • buttonContent: The submit button content. If you don't set this, "Submit" is used. If you set this to false, no submit button is rendered.
  • fields: Optional. Bind an array or specify a comma-delimited string of field names to include. Only the listed fields (and their subfields, if any) will be included, and they'll appear in the order you specify.
  • omitFields: Optional. Bind an array or specify a comma-delimited string of field names to omit from the generated form. All first-level schema fields except the fields listed here (and their subfields, if any) will be included.

Any other attributes you specify will be output as attributes of the <form> element, just like when using the autoForm component. When providing a boolean attribute, set it to true (no quotation marks) or a helper that returns true.

See this demo for examples of what happens when you specify various types of fields in the fields or omitFields attributes.

afFieldInput

Renders an input control for the field. The type of control depends on what you set the type attribute to. All of the HTML5 input types plus a few more are built in. Here is the full list of included input types:

  • boolean-checkbox
  • boolean-radios
  • boolean-select
  • button
  • color
  • contenteditable
  • date
  • datetime
  • datetime-local
  • email
  • file
  • hidden
  • image
  • month
  • number
  • password
  • radio
  • range
  • reset
  • search
  • select
  • select-checkbox
  • select-checkbox-inline
  • select-multiple
  • select-radio
  • select-radio-inline
  • submit
  • tel
  • text
  • textarea
  • time
  • url
  • week

There are add-on packages that provide additional input types (widgets, UI controls).

If you don't include a type attribute, the following logic is used to automatically select an appropriate type:

  • If you supply the options attribute, a select input is used. If your schema expects an array for the field, then it is a select-multiple input. If you prefer radios or checkboxes (for example, if it is a short list of options), then add noselect=true attribute or simply set the type to select-checkbox, select-checkbox-inline, select-radio, or select-radio-inline.
  • Otherwise if the schema type is String and you include the rows attribute, a textarea is used.
  • Otherwise if the schema type is Number, a number type is used.
  • Otherwise if the schema type is Date, a date type is used.
  • Otherwise if the schema type is Boolean, the boolean-checkbox type is used. You may want to specify a type of boolean-radios or boolean-select instead. If you do so, use the trueLabel, falseLabel, and nullLabel attributes to set the labels used in the radio or select control.
  • Otherwise a text type is used.

The following attributes are recognized:

  • name: Required. The name of the schema key this field is for.
  • template (default="bootstrap3"): Specify the name of a different built-in or custom theme template to use.
  • options: An array of options objects (see below). By specifying options, you cause the generated DOM element to be a select element with these options, unless you also use noselect. To use the allowedValues from the schema as the options, set options="allowed". To specify a label to be displayed when there is no option selected, set firstOption="(My Select One Label)".
  • firstOption: Use with the options attribute to specify a string to use for the first option of a select input, which shows when nothing has been selected yet. For example, firstOption="(You Should Really Pick Something From This List)". There is a default first option "(Select One)". If you don't want any default option, then do firstOption=false, but make sure your select input has a default value or this will result in a confusing UX where it looks like the first option is selected but it isn't.
  • capitalize: Used only when you've set options="allowed". Set this to true to capitalize the labels generated from allowedValues.
  • noselect: Use in conjunction with options attribute. Set this attribute to true to render radios or checkboxes for the options instead of select.
  • trueLabel: Set to the string that should be used as the label for the true option for an input with type boolean-select or boolean-radios.
  • falseLabel: Set to the string that should be used as the label for the false option for an input with type boolean-select or boolean-radios.
  • nullLabel: Set to the string that should be used as the label for the empty value option for an input with type boolean-select or boolean-radios.
  • value: Set a specific, potentially reactive, value for the input. If you have also provided a doc attribute on the autoForm or quickForm, this value will override the value from the doc object.
  • defaultValue: Set a reactive default value for the input. If you have also provided a doc attribute on the autoForm or quickForm, this value will be used only when the doc object has no value for this field. This takes precedence over the defaultValue property of the field's schema. (Also, defaultValue from the schema is slightly different in that it is never used if you provide a doc attribute.)
  • Any additional attributes are passed along to the generated DOM element, meaning that you can add class, etc. When providing a boolean attribute, set it to true (no quotation marks) or a helper that returns true.
  • placeholder: As with other attributes, this will be passed along to the generated DOM element, but you can also optionally do placeholder="schemaLabel" to use the field label defined in the schema as the input's placeholder value.
  • Each individual input type might accept and use additional attributes.

Here's an example of passing options to generate a select field:

html:

{{> afFieldInput name="year" options=yearOptions}}

client.js:

Template.registerHelper("yearOptions", function() {
    return [
        {label: "2013", value: 2013},
        {label: "2014", value: 2014},
        {label: "2015", value: 2015}
    ];
});

Alternatively, you can specify options as an object with {value: label} format. Values are coerced into the expected type.

Template.registerHelper("yearOptions", function() {
    return {
      2013: "2013",
      2014: "2014",
      2015: "2015"
    };
});

You can also mix in optgroups. See the demo.

afFieldMessage

Accepts and requires just one attribute, name, which is the name of the schema key.

Outputs the user-friendly invalid reason message for the specified property, or an empty string if the property is valid. This value updates reactively whenever validation is performed. Refer to the SimpleSchema documentation for information on customizing the messages.

afFieldIsInvalid

Accepts and requires just one attribute, name, which is the name of the schema key.

Returns true if the specified key is currently invalid. This value updates reactively whenever validation is performed.

afFormGroup

Just as quickForm renders a form in one line, afFormGroup renders a form group, that is, everything related to a single field -- the label, the input, and the error message -- in one line.

This component accepts the same attributes as afFieldInput. Attributes that are prefixed with formgroup- become attributes on the div element, which contains the label and the field. Attributes that are prefixed with label- become attributes on the rendered label element while any remaining attributes are forwarded to the afFieldInput component. You can also set label=false to omit the label element or set label to a string to use that text as the label text.

afQuickField

The afQuickField component is a helper component that decides whether a particular key should be rendered using afArrayField, afObjectField, or afFormGroup, and then forwards all your attributes to the chosen component.

  • When you use the afQuickField component for a field that is an Object, it is rendered using the afObjectField component unless you override the type or supply options.
  • When you use the afQuickField component for a field that is an Array, it is rendered using the afArrayField component unless you override the type or supply options.
  • All other keys are rendered using the afFormGroup component.

Refer to the "Objects and Arrays" section for additional information.

afQuickField Examples

{{> afQuickField name='firstField' autofocus=''}}
{{> afQuickField name='weirdColors' style="color: orange" label-style="color: green"}}
{{> afQuickField name="longString" rows=5}}
{{> afQuickField name="radioBoolean" type="boolean-radios" trueLabel="Yes" falseLabel="No"}}
{{> afQuickField name="selectBoolean" type="boolean-select" trueLabel="Yes" falseLabel="No"}}
{{> afQuickField name="optionsButNoSelect" options=numSelectOptions noselect="true"}}
{{> afQuickField name="firstOptionSelect" firstOption="(Select Something)" options=numSelectOptions}}
{{> afQuickField name="decimal" step="0.01"}}

afFieldValue

Displays the current value of a field

{{afFieldValue name='someField'}}

afFieldValueIs and afFieldValueContains

Use this helper with #if to dynamically show and hide sections of a form based on the current value of any non-array field on the form.

See the demo

afFieldNames

Use with #each to loop through all the field names for the form's schema or for an object field.

The following is roughly equivalent to a quickForm:

{{#autoForm}}
  {{#each afFieldNames}}
    {{> afQuickField name=this.name options=afOptionsFromSchema}}
  {{/each}}
{{/autoForm}}

Or you can provide a name attribute for an object field:

{{#autoForm}}
  {{#each afFieldNames name="profile"}}
    {{> afQuickField name=this.name options=afOptionsFromSchema}}
  {{/each}}
{{/autoForm}}

You can optionally pass fields or omitFields attributes to afFieldNames.

afQuickFields

Render an afQuickField for each field in the form schema or an object field.

{{#autoForm}}
  {{! These do the same thing}}
  {{#each afFieldNames name="profile"}}
    {{> afQuickField name=this.name options=afOptionsFromSchema}}
  {{/each}}
  {{> afQuickFields name="profile"}}
{{/autoForm}}

You can optionally pass fields or omitFields attributes to afQuickFields.

Objects and Arrays

Fields with type Object or Array are treated specially.

afObjectField

When you use the afQuickField component for a field that is an Object, it is rendered using the afObjectField component unless you override the type or specify options. This happens by default when you use a quickForm for a schema that has a field of type Object.

The afObjectField component renders all of an object field's subfields together as one group. The group is labeled with the name of the object field. The actual visual representation of the group will vary based on which theme template you use. For the "bootstrap3" default template, the group appears in a panel with a heading.

afArrayField

When you use the afQuickField component for a field that is an Array, it is rendered using the afArrayField component unless you override the type or specify options. This happens by default when you use a quickForm for a schema that has a field of type Array.

The afArrayField component renders all of an array field's array items together as one group. The group is labeled with the name of the array field. The actual visual representation of the group will vary based on which theme template you use. For the "bootstrap3" default template, the group appears in a panel with a heading.

Additionally, buttons for adding and removing array items are automatically added to the UI. This is also done by the template, which means that you can easily make your own "afArrayField" template if you don't like the default appearance of the add/remove buttons.

An afArrayField (or an afQuickField for an array) supports the additional attributes minCount and maxCount. Normally, by default, you cannot remove items below the schema-defined minCount and you cannot add items above the schema-defined maxCount. However, sometimes you don't want a minimum or maximum count defined in the schema, but you do want to limit the number of items on a certain form. To do this, use the minCount and maxCount attributes. Note, however, that you may not override the minCount to be less than the schema-defined minCount, and you may not override the maxCount to be more than the schema-defined maxCount.

An afArrayField (or an afQuickField for an array) also supports the initialCount attribute. Use it to override the default initial count to be something other than 1, including 0. Note that minCount will still always take precedence. That is, if the minCount is 1 and you specify initialCount=0, the initial count will be 1.

To specify options for each item in the array you can set

'arrayFieldName.$': {
  ...
  autoform: {
    afFieldInput: {
      options: function () {
        //return options object
      }
    }
  }
}

At the moment, the add and remove buttons disappear when you can't use them. This could be changed to make them disabled. You can do this yourself with a custom template, but if you have thoughts about how it should work out of the box, submit an issue to discuss.

afEachArrayItem

This is a block helper that can be used to render specific content for each item in an array. It tracks the addition and removal of array item fields (or groups of fields) reactively for you. This allows you to customize the repeated array fields, removal buttons, etc. It's generally most useful within a custom afArrayField template. See the built-in afArrayField templates for example usage.

afEachArrayItem supports the same attributes as afArrayField.

afArrayFieldIsFirstVisible and afArrayFieldIsLastVisible

These helpers must be used within an afEachArrayItem block and will return true or false depending on whether the current item/field in the array is the first or last visible item, respectively.

Form Types

Depending on the type attribute you specify on your quickForm or autoForm, your form will have different behavior when rendering, validating, and submitting. The following form types are built in to the package, but you may also define your own.

insert

Generates a document and inserts it on the client. You must provide a collection attribute referencing the Mongo.Collection instance. If the collection has an attached schema, it will be used for validation. If you provide a schema attribute, that schema will be used for validation, but the document must validate against the collection's schema, too.

update

Updates a document on the client. You must provide a collection attribute referencing the Mongo.Collection instance. If the collection has an attached schema, it will be used for validation. If you provide a schema attribute, that schema will be used for validation, but the document must validate against the collection's schema, too.

The form will generate and validate an update modifier. You must specify a doc attribute referencing the current document, which must have an _id property. Any properties present in doc will be used as the default values in the form fields.

update-pushArray

Updates a document on the client by adding the form document to an array within the larger document. You must provide a collection attribute referencing the Mongo.Collection instance. If the collection has an attached schema, it will be modified to be scoped appropriately and that new schema will be used for validation. If you provide a schema attribute, that schema will be used for validation, but the document must validate against the collection's schema, too.

You can think of this as an insert form for subdocuments. It generates and validates a document instead of a modifier, pretending that the array item schema is the full schema. Then it performs an update operation that does a $push of that document into the array.

Use the scope attribute on your form to define the array field into which the resulting document should be pushed. For example, scope="employees" or scope="employees.0.addresses".

method

Will call the server method with the name you specify in the meteormethod attribute. Passes a single argument, doc, which is the document resulting from the form submission.

You may optionally specify a DDP Connection in the ddp attribute. If you do, the method will be called using the DDP connection provided.

The method is not called until doc is valid on the client.

You must call check() in the method or perform your own validation since a user could bypass the client side validation.

method-update

Will call the server method with the name you specify in the meteormethod attribute. Your method will be called with a single object argument with _id and modifier properties.

You may optionally specify a DDP Connection in the ddp attribute. If you do, the method will be called using the DDP connection provided.

The method is not called until modifier is valid on the client.

You must call check() in the method or perform your own validation since a user could bypass the client side validation. Using the mdg:validated-method package is recommended.

normal

Will call any onSubmit hooks you define, where you can do custom submission logic. If onSubmit does not return false or call this.event.preventDefault(), the browser will also submit the form. This means that you can use AutoForm to generate and validate a form but still have it POST normally to an HTTP endpoint.

Example:

AutoForm.hooks({
  contactForm: {
    onSubmit: function (insertDoc, updateDoc, currentDoc) {
      if (customHandler(insertDoc)) {
        this.done();
      } else {
        this.done(new Error("Submission failed"));
      }
      return false;
    }
  }
});

The arguments passed to your onSubmit hook are as follows:

  • insertDoc: The form input values in a document, suitable for use with insert(). This object has been cleaned and validated, but auto values and default values have not been added to it.
  • updateDoc: The form input values in a modifier, suitable for use with update(). This object has not been validated.
  • currentDoc: The object that's currently bound to the form through the doc attribute

In addition to the normal this hook context, there is a this.done() method, which you must call when you are done with your custom client submission logic. This allows you to do asynchronous tasks if necessary. You may optionally pass arguments. If you pass an Error object, then any onError hooks will be called; otherwise, any onSuccess hooks will be called. The onSuccess hook has formType and result parameters, so calling this.done(null, "foo") will set the result to "foo".

If you return false, no further submission will happen, and it is equivalent to calling this.event.preventDefault() and this.event.stopPropagation(). If you return anything other than false, the browser will submit the form.

If you use autoValue or defaultValue options, be aware that insertDoc and updateDoc will not yet have auto or default values added to them. If you're passing them to insert or update on a Mongo.Collection with a schema, then there's nothing to worry about. But if you're doing something else with the object on the client, then you might want to call clean to add the auto and default values:

AutoForm.hooks({
  peopleForm: {
    onSubmit: function (doc) {
      PeopleSchema.clean(doc);
      console.log("People doc with auto values", doc);
      this.done();
      return false;
    }
  }
});

If you're sending the objects to the server in any way, it's always best to wait to call clean until you're on the server so that the auto values can be trusted.

disabled

All inputs will be disabled. Nothing happens when submitting.

readonly

All inputs will be read-only. Nothing happens when submitting.

Public API

For the full public API available on the AutoForm object, refer to the API documentation.

Non-Collection Forms

If you want to use an AutoForm for a form that does not relate to a collection (like a simple contact form that sends an e-mail), or for a form that relates to a collection that is schemaless (for example, Meteor.users()), you can do that.

  1. In client+server code, create a SimpleSchema instance to define the form's schema.
  2. Use the SimpleSchema instance as the schema attribute of autoForm or quickForm.
  3. Set up the form to be submitted properly. There are three ways to handle this:
    • Define an onSubmit hook for the form. Put your logic in that function and have it return false to prevent normal form submission.
    • Add normal form attributes like action and let the form do a normal browser POST after being validated.
    • Define a server method that does something with the form data. On your autoForm or quickForm set type="method" and meteormethod="yourServerMethodName".

When you use the third option, a server method, the form data will be gathered into a single object when the user clicks the submit button. Then that object will be cleaned and validated against the schema on the client and passed along to your method on the server. You must validate it again in your method on the server, using check() in combination with myAutoFormSchema. This is why we create the SimpleSchema instance in client+server code.

It's also generally best to call myAutoFormSchema.clean for the object again in the server method. In particular, you will definitely want to do this if the object's schema has auto or default values so that they can be added securely and accurately on the server.

An Example Contact Form

common.js:

Schema = {};
Schema.contact = new SimpleSchema({
    name: {
        type: String,
        label: "Your name",
        max: 50
    },
    email: {
        type: String,
        regEx: SimpleSchema.RegEx.Email,
        label: "E-mail address"
    },
    message: {
        type: String,
        label: "Message",
        max: 1000
    }
}, { tracker: Tracker });

Note that we've created an object Schema in which to store all of our app's schemas.

html:

<template name="contactForm">
  {{#autoForm schema=contactFormSchema id="contactForm" type="method" meteormethod="sendEmail"}}
  <fieldset>
    <legend>Contact Us</legend>
    {{> afQuickField name="name"}}
    {{> afQuickField name="email"}}
    {{> afQuickField name="message" rows=10}}
    <div>
      <button type="submit" class="btn btn-primary">Submit</button>
      <button type="reset" class="btn btn-default">Reset</button>
    </div>
  </fieldset>
  {{/autoForm}}
</template>

client.js

Template.contactForm.helpers({
  contactFormSchema: function() {
    return Schema.contact;
  }
});

server.js

Meteor.methods({
  sendEmail: function(doc) {
    // Important server-side check for security and data integrity
    check(doc, Schema.contact);

    // Build the e-mail text
    var text = "Name: " + doc.name + "\n\n"
            + "Email: " + doc.email + "\n\n\n\n"
            + doc.message;

    this.unblock();

    // Send the e-mail
    Email.send({
        to: "test@example.com",
        from: doc.email,
        subject: "Website Contact Form - Message From " + doc.name,
        text: text
    });
  }
});

Note the call to check(), which will throw an error if doc doesn't match the schema. To reiterate, you must call check() in the method or perform your own validation since a user could bypass the client side validation. You do not have to do any of your own validation with collection inserts or updates, but you do have to call check() on the server when submitting to a Meteor method.

Fine Tuning Validation

To control when and how fields should be validated, use the validation attribute on autoform or quickForm. Supported values are:

  • none: Do not validate any form fields at any time.
  • submit: Validate all form fields only when the form is submitted.
  • keyup: Validate each form field on every key press and when the user moves the cursor off it (throttled to run at most once every 300 milliseconds). Also validate all fields again when the form is submitted.
  • blur: Validate each form field when the user moves the cursor off it (throttled to run at most once every 300 milliseconds). Also validate all fields again when the form is submitted.
  • submitThenKeyup: (Default) At first acts like the submit option, but after the user attempts to submit the form and it fails validation, subsequently acts like keyup.
  • submitThenBlur: At first acts like the submit option, but after the user attempts to submit the form and it fails validation, subsequently acts like blur.
  • browser: Let the browser handle validation, if supported.

Notes:

  • For all values except "browser", the novalidate="novalidate" attribute is automatically added to the rendered form.
  • If you choose keyup validation, there is sometimes a bug in Safari where the autofill mechanism will cause the text in the input to be selected after each keypress. This has the effect of making it near impossible to actually type anything because you keep "overwriting" your input. To fix this, simply add the autocomplete="off" attribute to your input fields.

Manual Validation

In addition to telling your form to validate on certain events, sometimes you need to manually validate.

  • To validate a particular field, call AutoForm.validateField(formId, fieldName, skipEmpty). It returns true or false depending on the validity of the field's current value, and it also causes reactive display of any errors for that field in the UI.
  • To validate a form, call AutoForm.validateForm(formId). It returns true or false depending on the validity of the current values in the entire form, and it also causes reactive display of any errors for that form in the UI.

Resetting Validation

After a successful submission, validation is reset, ensuring that any error messages disappear and form input values are correct. However, you may need to reset validation for other reasons, such as when you reuse an edit form to edit a different document. To do this, call AutoForm.resetForm(formId).

The Form Document

When the user submits an autoForm, an object that contains all of the form data is automatically generated. If the submission action is insert or a method call, this is a normal document object. If the submission action is update, this is a mongo modifier with $set and potentially $unset objects. In most cases, the object will be perfect for your needs. However, you might find that you want to modify the object in some way. For example, you might want to add the current user's ID to a document before it is inserted. You can use "before", "formToDoc", or "formToModifier" hooks to do this.

Getting Current Field Values

You can get the current values of all fields on a form at any time by passing the form id to AutoForm.getFormValues. This method is not reactive. The form must be currently rendered for this to work.

You can get the current value of a specific field on a specific form by passing the field name to AutoForm.getFieldValue. This method is reactive so it can be used in place of the built-in afFieldValueIs helper to show pieces of a form based on custom criteria about the values of other fields on the form. If using outside of the autoForm, pass the formId as the second argument.

Callbacks/Hooks

To add client-side hooks and callbacks for a form, use the AutoForm.hooks or AutoForm.addHooks method. The syntax for AutoForm.hooks is

AutoForm.hooks({
  myFormId: hooksObject
});

If you want to add the same hook for multiple forms or for all forms, use the AutoForm.addHooks method instead:

// Pass an array of form IDs for multiple forms
AutoForm.addHooks(['form1', 'form2', 'form3', 'form4'], hooksObject);

// Or pass `null` to run the hook for all forms in the app (global hook)
AutoForm.addHooks(null, hooksObject);

// Pass `true` as optional third argument to replace all existing hooks of the same type
AutoForm.addHooks('form1', hooksObject, true);

These calls should be anywhere in top-level client code and do not need to be within Meteor.startup. You should not put them in an autorun, template rendered function, or anywhere else where they will be called multiple times since that will cause the hooks to run multiple times for a single submission.

In all of the above examples, the hooks object should look like the following. This shows all possible hooks, but your object would have only the hooks that you need:

var hooksObject = {
  before: {
    // Replace `formType` with the form `type` attribute to which this hook applies
    formType: function(doc) {
      // Potentially alter the doc
      doc.foo = 'bar';

      // Then return it or pass it to this.result()
      //return doc; (synchronous)
      //return false; (synchronous, cancel)
      //this.result(doc); (asynchronous)
      //this.result(false); (asynchronous, cancel)
    }
  },

  // The same as the callbacks you would normally provide when calling
  // collection.insert, collection.update, or Meteor.call
  after: {
    // Replace `formType` with the form `type` attribute to which this hook applies
    formType: function(error, result) {}
  },

  // Called when form does not have a `type` attribute
  onSubmit: function(insertDoc, updateDoc, currentDoc) {
    // You must call this.done()!
    //this.done(); // submitted successfully, call onSuccess
    //this.done(new Error('foo')); // failed to submit, call onError with the provided error
    //this.done(null, "foo"); // submitted successfully, call onSuccess with `result` arg set to "foo"
  },

  // Called when any submit operation succeeds
  onSuccess: function(formType, result) {},

  // Called when any submit operation fails
  onError: function(formType, error) {},

  // Called every time an insert or typeless form
  // is revalidated, which can be often if keyup
  // validation is used.
  formToDoc: function(doc) {
    // alter doc
    // return doc;
  },

  // Called every time an update or typeless form
  // is revalidated, which can be often if keyup
  // validation is used.
  formToModifier: function(modifier) {
    // alter modifier
    // return modifier;
  },

  // Called whenever `doc` attribute reactively changes, before values
  // are set in the form fields.
  docToForm: function(doc, ss) {},

  // Called at the beginning and end of submission, respectively.
  // This is the place to disable/enable buttons or the form,
  // show/hide a "Please wait" message, etc. If these hooks are
  // not defined, then by default the submit button is disabled
  // during submission.
  beginSubmit: function() {},
  endSubmit: function() {}
};

The following properties and functions are available in all submission hooks when they are called. This does not include formToDoc, formToModifier, or docToForm.

  • this.addStickyValidationError(key, type, [value]): Calls AutoForm.addStickyValidationError for the form
  • this.autoSaveChangedElement: The input element that was changed to cause this form submission (if the submission was due to autosave)
  • this.collection: The collection attached to the form (from collection attribute)
  • this.currentDoc: The current document attached to the form (from doc attribute)
  • this.docId: The _id attribute of the doc attached to the form, if there is one, or for an type='insert' form, the _id of the newly inserted doc, if one has been inserted.
  • this.event: The browser submit event
  • this.formAttributes: The object containing all the form attributes from the autoForm or quickForm
  • this.formId: The form's id attribute (useful in a global hook)
  • this.insertDoc: The gathered current form values, as a normal object
  • this.removeStickyValidationError(key): Calls AutoForm.removeStickyValidationError for the form
  • this.resetForm(): Call this if you need to reset the form
  • this.ss: The SimpleSchema instance used for validating the form
  • this.ssIsOverride: This is true if this.ss is an override schema, meaning it's coming from a schema attribute on the autoForm or quickForm, but there is also a collection attribute pointing to a collection that has its own schema attached.
  • this.template: The autoForm template instance
  • this.updateDoc: The gathered current form values, as a mongo modifier object suitable for passing to a collection update call
  • this.validationContext: The validation context used for the form. You can use this to check or add (non-sticky) invalid keys.

Notes:

  • You can call hooks or addHooks multiple times. The list of hooks is extended each time you call it, which means that multiple hooks of the same type can run for the same form.
  • Hooks will run in the order in which they are added, but all form-specific hooks run before all global hooks.
  • The before hooks are called after the form is deemed valid but before the submission operation happens. (The submission operation depends on the form type.) These hooks are passed the document or modifier as gathered from the form fields. If necessary they can modify the document or modifier. These functions can perform asynchronous tasks if necessary. If asynchronicity is not needed, simply return the document or modifier, or return false to cancel submission. If you don't return anything, then you must call this.result() eventually and pass it either the document or modifier, or false to cancel submission. This is run only on the client. Therefore, you should not assume that this will always run since a devious user could skip it.
  • The after hooks are similar to the callbacks for insert and update and method calls. They are passed two arguments: error and result
  • Refer to the next sections for details about the formToDoc, formToModifier, and docToForm hooks.

formToDoc, formToModifier, and docToForm

Specify formToDoc/formToModifier and docToForm hooks if you need form values in a different format in your form versus in the mongo document. They are mainly useful if you decide to override an input type.

Unlike document modifications made in "before hooks", modifications made in the formToDoc hooks are made every time the form is validated, which could happen a couple times per second on the client, depending on validation mode. The other hooks are run only right before the corresponding submission actions, as their names imply.

Here is an example where this feature is used to allow comma-delimited entry in a text field but store (and validate) the values as an array:

First specify type: [String] in the schema. The schema should reflect what you are actually storing.

Add a type attribute to your afFieldInput component:

{{> afFieldInput name="tags" type="text"}}

Then in client code, add the hooks:

AutoForm.hooks({
  postsForm: {
    docToForm: function(doc) {
      if (Array.isArray(doc.tags)) {
        doc.tags = doc.tags.join(", ");
      }
      return doc;
    },
    formToDoc: function(doc) {
      if (typeof doc.tags === "string") {
        doc.tags = doc.tags.split(",");
      }
      return doc;
    }
  }
});

Note that the update and method-update forms call formToModifier instead of formToDoc, and forms without a type attribute call both formToModifier and formToDoc. formToModifier is passed a Mongo modifier instead of a document.

Putting Field Attribute Defaults in the Schema

If you are using the quickForm, afQuickField, afFormGroup, afObjectField, or afArrayField components, you may find that you want to set an attribute on something generated within those templates. In most cases, you can do this by setting attribute defaults in the corresponding schema definition. Add an autoform property to the schema defininition, and set it to an object specifying attribute defaults. For example, to ensure a field is always rendered as a textarea, you could do this:

summary: {
  type: String,
  optional: true,
  max: 2000,
  autoform: {
    rows: 10
  }
}

You can also set autoform.omit to true in the schema definition for a field to prevent it from ever being included in quickForms, afObjectFields, afArrayFields, etc. This is useful for autoValue properties such as createdAt that you know you will not want on a form.

You can set the type for the field in the autoform object in the schema, too.

You can (and in most cases, should) target your attributes to a particular component by nesting them under the component name:

summary: {
  type: String,
  optional: true,
  max: 2000,
  autoform: {
    afFieldInput: {
      type: "textarea",
      rows: 10,
      class: "foo"
    }
  }
}

Tip: Any attribute can instead be provided as a function that returns the attribute's value.

You can pass data structures using the data property. They will not be used as attributes, instead they will be available in the field's context. For example:

summary: {
  type: String,
  autoform: {
    afFieldInput: {
      data: {
        someArray: ['apple', 'orange', 'banana'],
        someObj: {
          complex: {
            data: 'structure'
          }
        }
      }
    }
  }
}

Complex Schemas

You can use mongo dot notation to map an input to a subdocument. For example:

  • If you use {{> afFieldInput 'address.street'}}, whatever is entered in the field will be assigned to doc.address.street.
  • If you use {{> afFieldInput 'addresses.1.street'}}, whatever is entered in the field will be assigned to the street property of the object at index 1 in the doc.addresses array.

Dates

By default, a schema field with type: Date will generate an input element with type=date. You can override the type on each afFieldInput or afQuickField helper if you want to use a datetime or datetime-local input instead. Here are some tips for using each input type.

Consider using the moment and moment-timezone libraries to make this easy.

type=date

  • Saving: The user-entered value must be of the format YYYY-MM-DD, and it will be saved as a Date object representing that exact datetime in the UTC time zone. (Chrome and some mobile browsers provide date pickers that set the input value to a string in this format automatically, but users of other browsers will have to manually enter the date in the correct format.)
  • Loading: If you are binding an object containing Date objects to an update autoform and using them in an input with type="date", the date that will be used as the value of the input is the date represented by the Date object in the UTC time zone, with the time portion ignored.
  • Displaying: To make sure that the date format you use matches what the user expects, you should construct your display strings based on the Date object in the UTC time zone. Using the moment library, you might do something like this: moment.utc(myDate).format("LL")
  • Min/Max: When specifying min or max values in your schema, use a Date object that represents midnight on the morning of the minimum or maximum date in the UTC time zone.

type=datetime

Note: Using this type of input requires that the user do all the work to convert from the applicable time zone to the UTC time zone since the entered time is assumed to be UTC. It's generally better to use datetime-local.

  • Saving: The user-entered value must be of the format date string + "T" + time string + "Z", and it will be saved as a Date object representing that exact datetime in the UTC time zone.
  • Loading: If you are binding an object containing Date objects to an update autoform and using them in an input with type="datetime", the date that will be used as the value of the input is the date and time represented by the Date object in the UTC time zone.
  • Displaying: To make sure that the date format you use matches what the user expects, you should construct your display strings based on the Date object in the UTC time zone, or indicate on screen which time zone you are displaying. Using the moment library, you might do something like this: moment.utc(myDate).format("LLLL")
  • Min/Max: When specifying min or max values in your schema, use a Date object that represents the exact minimum or maximum date and time in the UTC time zone.

type=datetime-local

  • Saving: If you use an input with type="datetime-local", the datetime string that is entered will be assumed to be in the client's local timezone. To use a different specific timezone, add a moment-timezone package to your app and specify a timezoneId attribute on the afFieldInput or afFormGroup helper. Set this attribute to a timezone ID that moment-timezone understands, such as "America/Los_Angeles". For example, if you use an input with type="datetime-local" in a form in which a user is setting up a meeting, you would need to previously determine the time zone in which the meeting will take place. When generating the autoform field, set the timezoneId attribute to the ID for this time zone. (Chrome and some mobile browsers provide datetime pickers that set the input value to a string in the expected format automatically, but users of other browsers will have to manually enter the datetime in the correct format, which is date string + "T" + time string.)
  • Loading: If you are binding an object containing Date objects to an update autoform and using them in an input with type="datetime-local", be sure to set the timezoneId attribute on the component to the time zone ID that applies. This will ensure that the date and time you expect are shown in the input element.
  • Displaying: Before displaying the saved date, determine the equivalent date and time in the corresponding time zone. The easiest way to do this is using moment(myDate).tz(timezoneId).format() from the moment and moment-timezone packages/libraries.
  • Min/Max: When specifying min or max values in your schema, use a Date object that represents the exact minimum or maximum date and time in the corresponding time zone. This may mean returning the min or max value from a function based on a time zone ID you are storing elsewhere.

Theme Templates

AutoForm has a robust and extendable template system. The following templates are built in:

  • bootstrap3: Default. UI elements will be generated using Bootstrap 3 structure and classes.
  • bootstrap3-horizontal: Can be used with afFormGroup or afQuickField or quickForm only. Generates markup and classes necessary to make the form appear with labels aligned horizontally with the fields. In additional to setting template="bootstrap3-horizontal" on your afQuickField, you must also define the column classes to use, for example, {{> afQuickField name="name" template="bootstrap3-horizontal" label-class="col-sm-3" input-col-class="col-sm-9"}} or {{> quickForm schema=Schemas.ContactForm id="contactForm" type="method" meteormethod="sendEmail" template="bootstrap3-horizontal" label-class="col-sm-3" input-col-class="col-sm-9" id-prefix="my-prefix"}}.
  • plain: UI elements will be generated with no particular UI framework in mind. (You can of course add your own classes to customize.)
  • plain-fieldset: Can be used with quickForm only. Wraps the form in a fieldset. Additionally allows a label attribute that determines what the fieldset label should be.

Using a Different Template

The AutoForm components can be generated using a specific template by providing a template name as the template option. In addition, you can change the default template for all components or for a particular component type at any time:

AutoForm.setDefaultTemplate('plain');

//OR

AutoForm.setDefaultTemplateForType('quickForm', 'plain-fieldset');

These methods are reactive, meaning that as soon as you call them, you'll instantly see all visible forms change, if they're using the defaults.

Here's the list of possible types you can use for the first argument of setDefaultTemplateForType:

  • quickForm
  • afFormGroup
  • afObjectField
  • afArrayField
  • Any custom or built-in input type template name

Creating a Custom Template

To define a custom template that is recognized by the AutoForm templates system, simply create a template with the name afType + "_" + templateName. For example, if I want to define a template named "nothing" that can be used by a quickForm to generate nothing:

<template name="quickForm_nothing">
</template>

And then use it like this:

{{> quickForm schema=mySchema id="nothingForm" template="nothing"}}

Or tell all quickForms to use it:

AutoForm.setDefaultTemplateForType('quickForm', 'nothing');

Obviously a real example would be a bit more complex. Your template will have access to certain built-in helpers and properties in the data context, and you can use those to generate what you need in the format you need it. In practice, it is easiest to start by duplicating one of the built-in templates and then modify your copy as necessary.

If you create a good set of templates for a commonly used framework or a common purpose, consider releasing it as a separate add-on package. The goal is to keep the built-in templates minimal but to provide many others through separate packages.

Grouping Fields

The "plain", "bootstrap", and "bootstrap-horizontal" quickForm templates allow you to group fields into fieldsets in the schema if you want.

For example if you add this to several of the fields in your form schema:

{
  autoform: {
    group: 'Contact Information'
  }
}

Then all of those fields will be grouped into a fieldset with a legend that says "Contact Information". The fieldsets appear below any fields that do no list a group.

This only affects quickForms.

The fieldset has class "af-fieldGroup" and the legend has class "af-fieldGroup-heading" to help with styling.

The Telescope app makes use of this feature. Thanks to @SachaG for contributing it.

Sticky Validation Errors

Every time AutoForm revalidates your form, it overwrites the list of invalid fields for that form. This means that adding your own errors to the form validation context (using the SimpleSchema API) will not always work because your custom errors will disappear upon first revalidation. To solve this, you can add sticky errors for a form. Sticky errors do not go away unless you reset the form, the form instance is destroyed, or you manually remove them.

  • AutoForm.addStickyValidationError(formId, key, type, [value])
  • AutoForm.removeStickyValidationError(formId, key)

Defining Custom Input Types

Making a custom input type (form widget) is easy.

  1. Create a template and any necessary helpers for it.
  2. Call AutoForm.addInputType to give your new type a name and provide a few other necessary details.

AutoForm.addInputType accepts two arguments: name and options. The name argument defines the string that will need to be used as the value of the type attribute for afFieldInput. The options argument is an object with some of the following properties:

  • template: Required. The name of the template to use, which you've defined in a .html file.
  • valueIn: Optional. A function that adjusts the initial value of the field, which is then available in your template as this.value. You could use this, for example, to change a Date object to a string representing the date. You could also use a helper in your template to achieve the same result.
  • valueOut: Required. A function that AutoForm calls when it wants to know what the current value stored in your widget is. In this function, this is the jQuery object representing the element that has the data-schema-key attribute in your custom template. So, for example, in a simple case your valueOut function might just do return this.val().
  • valueConverters: Optional. An object that defines converters for one or more schema types. Generally you will use valueOut to return a value for the most common or logical schema type, and then define one or more converter functions here. The converters receive the valueOut value as an argument and should then return either the same value or a type converted/adjusted variation of it. The possible converter keys are: "string", "stringArray", "number", "numberArray", "boolean", "booleanArray", "date", and "dateArray". Refer to the built-in type definitions for examples.
  • contextAdjust: Optional. A function that adjusts the context object that your custom template receives. That is, this function accepts an object argument, potentially modifies it, and then returns it. That returned object then becomes this in your custom template. If you need access to attributes of the parent autoForm in this function, use AutoForm.getCurrentDataForForm() to get them.

It's possible to use template helpers instead of valueIn and contextAdjust, but by keeping template helpers to a minimum, you make it easier for someone to override the theme template and still use your custom input type. For example, the bootstrap3 template overrides some of the default input types to add classes and adjust markup a bit, but it does not need to redefine template helpers to make context adjustments since valueIn and contextAdjust do that.

There is nothing overly special about the HTML template you define. Check out the properties of this within the template to get all of the information you need to render your control. Primarily you need to use this.value to set the control's value and the provided attributes in this.atts should be passed along to one or more of the elements you generate. In particular, you must make sure that the data-schema-key attribute in this.atts is added to one of the generated elements, the one that you want to be provided as this in your valueOut function.

For more examples, see the built-in input types here.

Common Questions

Should the value of schema and collection have quotation marks around it?

It depends. If you use quotation marks, then you are telling the autoform to "look for an object in the window scope with this name". So if you define your collections at the top level of your client files and without the var keyword, then you can use this trick to avoid writing helpers.

If you don't use quotation marks, then you must define a helper function with that name and have it return the SimpleSchema or Mongo.Collection instance.

Probably the best technique for organizing your form schemas and making them available as helpers is to add all SimpleSchema instances to a Schemas object and register that object as a helper:

common.js:

Schemas = {};

Schemas.ContactForm = new SimpleSchema({
  name: {
    type: String,
    label: "Your name",
    max: 50
  },
  email: {
    type: String,
    regEx: SimpleSchema.RegEx.Email,
    label: "E-mail address"
  },
  message: {
    type: String,
    label: "Message",
    max: 1000
  }
}, { tracker: Tracker });

//... define all schemas

client.js:

Template.registerHelper("Schemas", Schemas);

html:

<template name="contactForm">
  {{#autoForm schema=Schemas.ContactForm id="contactForm" type="method" meteormethod="sendEmail"}}
  <!-- etc. -->
  {{/autoForm}}
</template>

Which components should I use?

Generally you should start by using a quickForm for every form your app needs. Then, if the generated form does not look correct, try the following in this order:

  1. If there is something you can change or fix about the form's schema that will cause the quickForm to render correctly, change it. If the form is for a collection, you can also try using a different schema (a subset, perhaps with stricter rules) to render the form by supplying the schema attribute in addition to the collection.
  2. If many of your forms need the same change, try writing and using a custom template for those forms if possible.
  3. Switch to using an autoForm with afQuickFields. You can then set attributes for both inputs and labels (using label- prefix), omit labels if necessary (label=false), and specify field-specific template overrides. These features are typically enough to get the appearance you want.
  4. If you really need something truly custom for just one field in just one form, you can then switch to using the afFieldInput component directly.

Can I reuse the same quickForm or autoForm for both inserts and updates?

Yes. Your code that flips between states should do the following in this order:

  1. Change the type attribute's value to "insert" or "update" as appropriate, probably by updating a reactive variable.
  2. Change the doc attribute's value to the correct document for an update or to null (or a document containing default values) for an insert, probably by updating a reactive variable.
  3. Call AutoForm.resetForm(formId). This will clear any existing validation errors for the form.

How can I show an asterisk after the label for required fields?

Beginning with AutoForm 5.0, a data-required attribute is now present on the form group div element for all built-in afFormGroup templates if the field is required. This allows you to use css like the following to display an asterisk after required fields: [data-required] label:after {content: '*'}

What are the various ways I can specify options for a select, radio group, or checkbox group?

To specify options for any field, use the options attribute and provide an array of objects, where each object has a label property and a value property. There are several different ways you can do this.

Alternatively, you can specify options as an object with {value: label} format. Values are coerced into the expected type.

Use allowed values array from the schema as both the label and the value

{
  favoriteColor: {
    type: String,
    allowedValues: ['red', 'green', 'blue']
  }
}
{{> afQuickField name="favoriteColor" options="allowed"}}

Fields generated by quickForm or afObjectField or afArrayField use allowedValues by default.

Set options in the schema

{
  favoriteColor: {
    type: String,
    allowedValues: ['red', 'green', 'blue'],
    autoform: {
      options: [
        {label: "Red", value: "red"},
        {label: "Green", value: "green"},
        {label: "Blue", value: "blue"}
      ]
    }
  }
}

Alternative syntax:

{
  favoriteColor: {
    type: String,
    allowedValues: ['red', 'green', 'blue'],
    autoform: {
      options: {
        red: "Red",
        green: "Green",
        blue: "Blue"
      }
    }
  }
}
{{> afQuickField name="favoriteColor"}}

Since autoform.options is in the schema, that will be used instead of allowedValues.

Calculate options in the schema

{
  favoriteColor: {
    type: String,
    allowedValues: ['red', 'green', 'blue'],
    autoform: {
      options: function () {
        return ['red', 'green', 'blue'].map(function (c, i) {
          return {label: "Color " + i + ": " + c, value: c};
        });
      }
    }
  }
}
{{> afQuickField name="favoriteColor"}}

autoform.options can be an array or a function that returns an array.

Use a helper

{
  favoriteColor: {
    type: String
  }
}

Template.myFormTemplate.helpers({
  colorOptions: function () {
    return Colors.find().map(function (c) {
      return {label: c.name, value: c._id};
    });
  }
});
{{> afQuickField name="favoriteColor" options=colorOptions}}

This example provides a reactive list of colors options read from the Colors collection. This assumes that you've created and populated the Colors collection and published the necessary colors (documents) to the client. Although using a UI helper is ideal because it is reactive, it can't be done with a quickForm or afObjectField or afArrayField, unless you make a custom template.

Can I put HTML in my error messages?

Yes. Define your messages using one of the SimpleSchema methods, including HTML elements such as <strong>. Then be sure to wrap your afFieldMessage tags in triple stashes.

Examples

I would like to link to examples of public sites using this in production. If you have one, please add a link here. You can include a brief description of how you're using autoforms on the site, too. If the code is publicly available, link to that, too.

Troubleshooting

  • A warning is raised, containing AutoForm: no theme found, please consult the README.. In such case you may want to install a theme.
  • While developing, be sure to call AutoForm.debug() in your client code to enable extra logging.
  • If nothing happens when you click the submit button for your form and there are no errors, make sure the button's type is submit.
  • If your before hook is called but the form is never submitted, make sure you are returning the doc or modifier from the hook or eventually calling this.result(doc) if you're doing something asynchronous.

Contributing

MCP welcomes any form on contribution. If you are interested, please read more about it in the contributing guide and also consider the MCP Code of Conduct.

Testing

In order to improve development we have replaced TinyTest with meteortesting:mocha in combination with chai and puppeteer.

This makes local tests much easier and also allows us to run tests in the CI. We have added a minimal test project in this repo, that serves as our proxy environment for running the tests.

In order to run the tests you there need to do the following:

$ cd testapp
$ meteor npm install
$ meteor npm run lint
$ meteor npm run test

Test commands

The following test commands are available:

  • lint - runs the JavaScript standard linter
  • lint:fix - runs the JavaScript standard linter and autofixes issues
  • test - runs the tests once; CLI-only
  • test:watch - runs the tests in watch mode; CLI-only

Publishing note

If you publish the package to atmosphere, make sure you remove the test project or move it outside of the package root.

Testing with coverage

Credits

Many thanks to Eric Dobbertin (aldeed) for creating this package and many years of improvement and for the trust in Meteor Community Packages.

Also many thanks to all the contributors.

License

This package is released under the MIT License. See the LICENSE file for more information.