Form helpers are designed to make working with resources much easier compared to using vanilla HTML.
Typically, a form designed to create or update a resource reflects the
identity of the resource in several ways: (i) the url that the form is sent
to (the form element's action
attribute) should result in
a request being routed to the appropriate controller action (with the
appropriate :id
parameter in the case of an existing
resource), (ii) input fields should be named in such a way that in the
controller their values appear in the appropriate places within the
params
hash, and (iii) for an existing record, when the form
is initially displayed, input fields corresponding to attributes of the
resource should show the current values of those attributes.
In Rails, this is usually achieved by creating the form using
form_for
and a number of related helper methods.
form_for
generates an appropriate form
tag and
yields a form builder object that knows the model the form is about. Input
fields are created by calling methods defined on the form builder, which
means they are able to generate the appropriate names and default values
corresponding to the model attributes, as well as convenient IDs, etc.
Conventions in the generated field names allow controllers to receive form
data nicely structured in params
with no effort on your side.
For example, to create a new person you typically set up a new instance of
Person
in the PeopleController#new
action,
@person
, and in the view template pass that object to
form_for
:
<%= form_for @person do |f| %>
<%= f.label :first_name %>:
<%= f.text_field :first_name %><br />
<%= f.label :last_name %>:
<%= f.text_field :last_name %><br />
<%= f.submit %>
<% end %>
The HTML generated for this would be (modulus formatting):
<form action="/people" class="new_person" id="new_person" method="post">
<input name="authenticity_token" type="hidden" value="NrOp5bsjoLRuK8IW5+dQEYjKGUJDe7TQoZVvq95Wteg=" />
<label for="person_first_name">First name</label>:
<input id="person_first_name" name="person[first_name]" type="text" /><br />
<label for="person_last_name">Last name</label>:
<input id="person_last_name" name="person[last_name]" type="text" /><br />
<input name="commit" type="submit" value="Create Person" />
</form>
As you see, the HTML reflects knowledge about the resource in several spots, like the path the form should be submitted to, or the names of the input fields.
In particular, thanks to the conventions followed in the generated field
names, the controller gets a nested hash params[:person]
with
the person attributes set in the form. That hash is ready to be passed to
Person.create
:
if @person = Person.create(params[:person])
# success
else
# error handling
end
Interestingly, the exact same view code in the previous example can be used
to edit a person. If @person
is an existing record with name
“John Smith” and ID 256, the code above as is would yield instead:
<form action="/people/256" class="edit_person" id="edit_person_256" method="post">
<input name="_method" type="hidden" value="patch" />
<input name="authenticity_token" type="hidden" value="NrOp5bsjoLRuK8IW5+dQEYjKGUJDe7TQoZVvq95Wteg=" />
<label for="person_first_name">First name</label>:
<input id="person_first_name" name="person[first_name]" type="text" value="John" /><br />
<label for="person_last_name">Last name</label>:
<input id="person_last_name" name="person[last_name]" type="text" value="Smith" /><br />
<input name="commit" type="submit" value="Update Person" />
</form>
Note that the endpoint, default values, and submit button label are
tailored for @person
. That works that way because the involved
helpers know whether the resource is a new record or not, and generate HTML
accordingly.
The controller would receive the form data again in
params[:person]
, ready to be passed to
Person#update
:
if @person.update(params[:person])
# success
else
# error handling
end
That's how you typically work with resources.
- C
- D
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- F
- H
- L
- M
- N
- P
- R
- S
- T
- U
- W
Returns a checkbox tag tailored for accessing a specified attribute
(identified by method
) on an object assigned to the template
(identified by object
). This object must be an instance object
(@object) and not a local object. It's intended that
method
returns an integer and if that integer is above zero,
then the checkbox is checked. Additional options on the input tag can be
passed as a hash with options
. The checked_value
defaults to 1 while the default unchecked_value
is set to 0
which is convenient for boolean values.
Gotcha
The HTML specification says unchecked check boxes are not successful, and
thus web browsers do not send them. Unfortunately this introduces a gotcha:
if an Invoice
model has a paid
flag, and in the
form that edits a paid invoice the user unchecks its check box, no
paid
parameter is sent. So, any mass-assignment idiom like
@invoice.update(params[:invoice])
wouldn't update the flag.
To prevent this the helper generates an auxiliary hidden field before the very check box. The hidden field has the same name and its attributes mimic an unchecked check box.
This way, the client either sends only the hidden field (representing the check box is unchecked), or both fields. Since the HTML specification says key/value pairs have to be sent in the same order they appear in the form, and parameters extraction gets the last occurrence of any repeated key in the query string, that works for ordinary forms.
Unfortunately that workaround does not work when the check box goes within an array-like parameter, as in
<%= fields_for "project[invoice_attributes][]", invoice, index: nil do |form| %>
<%= form.check_box :paid %>
...
<% end %>
because parameter name repetition is precisely what Rails seeks to distinguish the elements of the array. For each item with a checked check box you get an extra ghost item with only that attribute, assigned to “0”.
In that case it is preferable to either use check_box_tag
or
to use hashes instead of arrays.
# Let's say that @post.validated? is 1:
check_box("post", "validated")
# => <input name="post[validated]" type="hidden" value="0" />
# <input checked="checked" type="checkbox" id="post_validated" name="post[validated]" value="1" />
# Let's say that @puppy.gooddog is "no":
check_box("puppy", "gooddog", {}, "yes", "no")
# => <input name="puppy[gooddog]" type="hidden" value="no" />
# <input type="checkbox" id="puppy_gooddog" name="puppy[gooddog]" value="yes" />
check_box("eula", "accepted", { class: 'eula_check' }, "yes", "no")
# => <input name="eula[accepted]" type="hidden" value="no" />
# <input type="checkbox" class="eula_check" id="eula_accepted" name="eula[accepted]" value="yes" />
Returns a #text_field of type “color”.
color_field("car", "color")
# => <input id="car_color" name="car[color]" type="color" value="#000000" />
Returns a #text_field of type “date”.
date_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="date" />
The default value is generated by trying to call “to_date” on the object's value, which makes it behave as expected for instances of DateTime and ActiveSupport::TimeWithZone. You can still override that by passing the “value” option explicitly, e.g.
@user.born_on = Date.new(1984, 1, 27)
date_field("user", "born_on", value: "1984-05-12")
# => <input id="user_born_on" name="user[born_on]" type="date" value="1984-05-12" />
You can create values for the “min” and “max” attributes by passing instances of Date or Time to the options hash.
date_field("user", "born_on", min: Date.today)
# => <input id="user_born_on" name="user[born_on]" type="date" min="2014-05-20" />
Alternatively, you can pass a String formatted as an ISO8601 date as the values for “min” and “max.”
date_field("user", "born_on", min: "2014-05-20")
# => <input id="user_born_on" name="user[born_on]" type="date" min="2014-05-20" />
Returns a #text_field of type “datetime”.
datetime_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="datetime" />
The default value is generated by trying to call strftime
with
“%Y-%m-%dT%T.%L%z” on the object's value, which makes it behave as
expected for instances of DateTime and ActiveSupport::TimeWithZone.
@user.born_on = Date.new(1984, 1, 12)
datetime_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="datetime" value="1984-01-12T00:00:00.000+0000" />
You can create values for the “min” and “max” attributes by passing instances of Date or Time to the options hash.
datetime_field("user", "born_on", min: Date.today)
# => <input id="user_born_on" name="user[born_on]" type="datetime" min="2014-05-20T00:00:00.000+0000" />
Alternatively, you can pass a String formatted as an ISO8601 datetime with UTC offset as the values for “min” and “max.”
datetime_field("user", "born_on", min: "2014-05-20T00:00:00+0000")
# => <input id="user_born_on" name="user[born_on]" type="datetime" min="2014-05-20T00:00:00.000+0000" />
Returns a #text_field of type “datetime-local”.
datetime_local_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="datetime-local" />
The default value is generated by trying to call strftime
with
“%Y-%m-%dT%T” on the object's value, which makes it behave as expected
for instances of DateTime and ActiveSupport::TimeWithZone.
@user.born_on = Date.new(1984, 1, 12)
datetime_local_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="datetime-local" value="1984-01-12T00:00:00" />
You can create values for the “min” and “max” attributes by passing instances of Date or Time to the options hash.
datetime_local_field("user", "born_on", min: Date.today)
# => <input id="user_born_on" name="user[born_on]" type="datetime-local" min="2014-05-20T00:00:00.000" />
Alternatively, you can pass a String formatted as an ISO8601 datetime as the values for “min” and “max.”
datetime_local_field("user", "born_on", min: "2014-05-20T00:00:00")
# => <input id="user_born_on" name="user[born_on]" type="datetime-local" min="2014-05-20T00:00:00.000" />
Returns a #text_field of type “email”.
email_field("user", "address")
# => <input id="user_address" name="user[address]" type="email" />
Creates a scope around a specific model object like #form_for, but doesn't create the form tags themselves. This makes #fields_for suitable for specifying additional model objects in the same form.
Although the usage and purpose of fields_for
is similar to
form_for
's, its method signature is slightly different.
Like form_for
, it yields a FormBuilder object associated with a particular
model object to a block, and within the block allows methods to be called
on the builder to generate fields associated with the model object. Fields
may reflect a model object in two ways - how they are named (hence how
submitted values appear within the params
hash in the
controller) and what default values are shown when the form the fields
appear in is first displayed. In order for both of these features to be
specified independently, both an object name (represented by either a
symbol or string) and the object itself can be passed to the method
separately -
<%= form_for @person do |person_form| %>
First name: <%= person_form.text_field :first_name %>
Last name : <%= person_form.text_field :last_name %>
<%= fields_for :permission, @person.permission do |permission_fields| %>
Admin? : <%= permission_fields.check_box :admin %>
<% end %>
<%= person_form.submit %>
<% end %>
In this case, the checkbox field will be represented by an HTML
input
tag with the name
attribute
permission[admin]
, and the submitted value will appear in the
controller as params[:permission][:admin]
. If
@person.permission
is an existing record with an attribute
admin
, the initial state of the checkbox when first displayed
will reflect the value of @person.permission.admin
.
Often this can be simplified by passing just the name of the model object
to fields_for
-
<%= fields_for :permission do |permission_fields| %>
Admin?: <%= permission_fields.check_box :admin %>
<% end %>
…in which case, if :permission
also happens to be the name of
an instance variable @permission
, the initial state of the
input field will reflect the value of that variable's attribute
@permission.admin
.
Alternatively, you can pass just the model object itself (if the first
argument isn't a string or symbol fields_for
will realize
that the name has been omitted) -
<%= fields_for @person.permission do |permission_fields| %>
Admin?: <%= permission_fields.check_box :admin %>
<% end %>
and fields_for
will derive the required name of the field from
the class of the model object, e.g. if
@person.permission
, is of class Permission
, the
field will still be named permission[admin]
.
Note: This also works for the methods in FormOptionHelper and DateHelper that are designed to work with an object as base, like FormOptionHelper#collection_select and ActionView::Helpers::DateHelper#datetime_select.
Nested Attributes Examples
When the object belonging to the current scope has a nested attribute writer for a certain attribute, #fields_for will yield a new scope for that attribute. This allows you to create forms that set or change the attributes of a parent object and its associations in one go.
Nested attribute writers are normal setter methods named after an
association. The most common way of defining these writers is either with
accepts_nested_attributes_for
in a model definition or by
defining a method with the proper name. For example: the attribute writer
for the association :address
is called
address_attributes=
.
Whether a one-to-one or one-to-many style form builder will be yielded depends on whether the normal reader method returns a single object or an array of objects.
One-to-one
Consider a Person class which returns a single Address from the
address
reader method and responds to the
address_attributes=
writer method:
class Person
def address
@address
end
def address_attributes=(attributes)
# Process the attributes hash
end
end
This model can now be used with a nested #fields_for, like so:
<%= form_for @person do |person_form| %>
...
<%= person_form.fields_for :address do |address_fields| %>
Street : <%= address_fields.text_field :street %>
Zip code: <%= address_fields.text_field :zip_code %>
<% end %>
...
<% end %>
When address is already an association on a Person you can use
accepts_nested_attributes_for
to define the writer method for
you:
class Person < ActiveRecord::Base
has_one :address
accepts_nested_attributes_for :address
end
If you want to destroy the associated model through the form, you have to
enable it first using the :allow_destroy
option for
accepts_nested_attributes_for
:
class Person < ActiveRecord::Base
has_one :address
accepts_nested_attributes_for :address, allow_destroy: true
end
Now, when you use a form element with the _destroy
parameter,
with a value that evaluates to true
, you will destroy the
associated model (eg. 1, '1', true, or 'true'):
<%= form_for @person do |person_form| %>
...
<%= person_form.fields_for :address do |address_fields| %>
...
Delete: <%= address_fields.check_box :_destroy %>
<% end %>
...
<% end %>
One-to-many
Consider a Person class which returns an array of Project
instances from the projects
reader method and responds to the
projects_attributes=
writer method:
class Person
def projects
[@project1, @project2]
end
def projects_attributes=(attributes)
# Process the attributes hash
end
end
Note that the projects_attributes=
writer method is in fact
required for #fields_for
to correctly identify :projects
as a collection, and the
correct indices to be set in the form markup.
When projects is already an association on Person you can use
accepts_nested_attributes_for
to define the writer method for
you:
class Person < ActiveRecord::Base
has_many :projects
accepts_nested_attributes_for :projects
end
This model can now be used with a nested fields_for. The block given to the nested #fields_for call will be repeated for each instance in the collection:
<%= form_for @person do |person_form| %>
...
<%= person_form.fields_for :projects do |project_fields| %>
<% if project_fields.object.active? %>
Name: <%= project_fields.text_field :name %>
<% end %>
<% end %>
...
<% end %>
It's also possible to specify the instance to be used:
<%= form_for @person do |person_form| %>
...
<% @person.projects.each do |project| %>
<% if project.active? %>
<%= person_form.fields_for :projects, project do |project_fields| %>
Name: <%= project_fields.text_field :name %>
<% end %>
<% end %>
<% end %>
...
<% end %>
Or a collection to be used:
<%= form_for @person do |person_form| %>
...
<%= person_form.fields_for :projects, @active_projects do |project_fields| %>
Name: <%= project_fields.text_field :name %>
<% end %>
...
<% end %>
If you want to destroy any of the associated models through the form, you
have to enable it first using the :allow_destroy
option for
accepts_nested_attributes_for
:
class Person < ActiveRecord::Base
has_many :projects
accepts_nested_attributes_for :projects, allow_destroy: true
end
This will allow you to specify which models to destroy in the attributes
hash by adding a form element for the _destroy
parameter with
a value that evaluates to true
(eg. 1, '1', true, or
'true'):
<%= form_for @person do |person_form| %>
...
<%= person_form.fields_for :projects do |project_fields| %>
Delete: <%= project_fields.check_box :_destroy %>
<% end %>
...
<% end %>
When a collection is used you might want to know the index of each object
into the array. For this purpose, the index
method is
available in the FormBuilder object.
<%= form_for @person do |person_form| %>
...
<%= person_form.fields_for :projects do |project_fields| %>
Project #<%= project_fields.index %>
...
<% end %>
...
<% end %>
Note that #fields_for
will automatically generate a hidden field to store the ID of the record.
There are circumstances where this hidden field is not needed and you can
pass include_id: false
to prevent #fields_for from rendering
it automatically.
Returns a file upload input tag tailored for accessing a specified
attribute (identified by method
) on an object assigned to the
template (identified by object
). Additional options on the
input tag can be passed as a hash with options
. These options
will be tagged onto the HTML as an HTML element attribute as in the example
shown.
Using this method inside a form_for
block will set the
enclosing form's encoding to multipart/form-data
.
Options
-
Creates standard HTML attributes for the tag.
-
:disabled
- If set to true, the user will not be able to use this input. -
:multiple
- If set to true, *in most updated browsers* the user will be allowed to select multiple files. -
:accept
- If set to one or multiple mime-types, the user will be suggested a filter when choosing a file. You still need to set up model validations.
Examples
file_field(:user, :avatar)
# => <input type="file" id="user_avatar" name="user[avatar]" />
file_field(:post, :image, :multiple => true)
# => <input type="file" id="post_image" name="post[image]" multiple="true" />
file_field(:post, :attached, accept: 'text/html')
# => <input accept="text/html" type="file" id="post_attached" name="post[attached]" />
file_field(:post, :image, accept: 'image/png,image/gif,image/jpeg')
# => <input type="file" id="post_image" name="post[image]" accept="image/png,image/gif,image/jpeg" />
file_field(:attachment, :file, class: 'file_input')
# => <input type="file" id="attachment_file" name="attachment[file]" class="file_input" />
Creates a form that allows the user to create or update the attributes of a specific model object.
The method can be used in several slightly different ways, depending on how
much you wish to rely on Rails to infer automatically from the model how
the form should be constructed. For a generic model object, a form can be
created by passing form_for
a string or symbol representing
the object we are concerned with:
<%= form_for :person do |f| %>
First name: <%= f.text_field :first_name %><br />
Last name : <%= f.text_field :last_name %><br />
Biography : <%= f.text_area :biography %><br />
Admin? : <%= f.check_box :admin %><br />
<%= f.submit %>
<% end %>
The variable f
yielded to the block is a FormBuilder object that incorporates the
knowledge about the model object represented by :person
passed
to form_for
. Methods defined on the FormBuilder are used to generate fields bound
to this model. Thus, for example,
<%= f.text_field :first_name %>
will get expanded to
<%= text_field :person, :first_name %>
which results in an HTML <input>
tag whose
name
attribute is person[first_name]
. This means
that when the form is submitted, the value entered by the user will be
available in the controller as params[:person][:first_name]
.
For fields generated in this way using the FormBuilder, if :person
also
happens to be the name of an instance variable @person
, the
default value of the field shown when the form is initially displayed (e.g.
in the situation where you are editing an existing record) will be the
value of the corresponding attribute of @person
.
The rightmost argument to form_for
is an optional hash of
options -
-
:url
- The URL the form is to be submitted to. This may be represented in the same way as values passed tourl_for
orlink_to
. So for example you may use a named route directly. When the model is represented by a string or symbol, as in the example above, if the:url
option is not specified, by default the form will be sent back to the current url (We will describe below an alternative resource-oriented usage ofform_for
in which the URL does not need to be specified explicitly). -
:namespace
- A namespace for your form to ensure uniqueness of id attributes on form elements. The namespace attribute will be prefixed with underscore on the generated HTML id. -
:method
- The method to use when submitting the form, usually either “get” or “post”. If “patch”, “put”, “delete”, or another verb is used, a hidden input with name_method
is added to simulate the verb over post. -
:authenticity_token
- Authenticity token to use in the form. Use only if you need to pass custom authenticity token string, or to not add authenticity_token field at all (by passingfalse
). Remote forms may omit the embedded authenticity token by settingconfig.action_view.embed_authenticity_token_in_remote_forms = false
. This is helpful when you're fragment-caching the form. Remote forms get the authenticity token from themeta
tag, so embedding is unnecessary unless you support browsers without JavaScript. -
:remote
- If set to true, will allow the Unobtrusive JavaScript drivers to control the submit behavior. By default this behavior is an ajax submit. -
:enforce_utf8
- If set to false, a hidden input with name utf8 is not output. -
:html
- Optional HTML attributes for the form tag.
Also note that form_for
doesn't create an exclusive scope.
It's still possible to use both the stand-alone FormHelper methods and methods from FormTagHelper. For example:
<%= form_for :person do |f| %>
First name: <%= f.text_field :first_name %>
Last name : <%= f.text_field :last_name %>
Biography : <%= text_area :person, :biography %>
Admin? : <%= check_box_tag "person[admin]", "1", @person.company.admin? %>
<%= f.submit %>
<% end %>
This also works for the methods in FormOptionHelper and DateHelper that are designed to work with an object as base, like FormOptionHelper#collection_select and ActionView::Helpers::DateHelper#datetime_select.
form_for with a model object
In the examples above, the object to be created or edited was represented
by a symbol passed to form_for
, and we noted that a string can
also be used equivalently. It is also possible, however, to pass a model
object itself to form_for
. For example, if @post
is an existing record you wish to edit, you can create the form using
<%= form_for @post do |f| %>
...
<% end %>
This behaves in almost the same way as outlined previously, with a couple
of small exceptions. First, the prefix used to name the input elements
within the form (hence the key that denotes them in the params
hash) is actually derived from the object's class, e.g.
params[:post]
if the object's class is Post
.
However, this can be overwritten using the :as
option, e.g. -
<%= form_for(@person, as: :client) do |f| %>
...
<% end %>
would result in params[:client]
.
Secondly, the field values shown when the form is initially displayed are
taken from the attributes of the object passed to form_for
,
regardless of whether the object is an instance variable. So, for example,
if we had a local variable post
representing an
existing record,
<%= form_for post do |f| %>
...
<% end %>
would produce a form with fields whose initial state reflect the current
values of the attributes of post
.
Resource-oriented style
In the examples just shown, although not indicated explicitly, we still
need to use the :url
option in order to specify where the form
is going to be sent. However, further simplification is possible if the
record passed to form_for
is a resource, i.e. it
corresponds to a set of RESTful routes, e.g. defined using the
resources
method in config/routes.rb
. In this
case Rails will simply infer the appropriate URL from the record itself.
For example,
<%= form_for @post do |f| %>
...
<% end %>
is then equivalent to something like:
<%= form_for @post, as: :post, url: post_path(@post), method: :patch, html: { class: "edit_post", id: "edit_post_45" } do |f| %>
...
<% end %>
And for a new record
<%= form_for(Post.new) do |f| %>
...
<% end %>
is equivalent to something like:
<%= form_for @post, as: :post, url: posts_path, html: { class: "new_post", id: "new_post" } do |f| %>
...
<% end %>
However you can still overwrite individual conventions, such as:
<%= form_for(@post, url: super_posts_path) do |f| %>
...
<% end %>
You can also set the answer format, like this:
<%= form_for(@post, format: :json) do |f| %>
...
<% end %>
For namespaced routes, like admin_post_url
:
<%= form_for([:admin, @post]) do |f| %>
...
<% end %>
If your resource has associations defined, for example, you want to add comments to the document given that the routes are set correctly:
<%= form_for([@document, @comment]) do |f| %>
...
<% end %>
Where @document = Document.find(params[:id])
and
@comment = Comment.new
.
Setting the method
You can force the form to use the full array of HTTP verbs by setting
method: (:get|:post|:patch|:put|:delete)
in the options hash. If the verb is not GET or POST, which are natively supported by HTML forms, the form will be set to POST and a hidden input called _method will carry the intended verb for the server to interpret.
Unobtrusive JavaScript
Specifying:
remote: true
in the options hash creates a form that will allow the unobtrusive
JavaScript drivers to modify its behavior. The expected default behavior is
an XMLHttpRequest in the background instead of the regular POST
arrangement, but ultimately the behavior is the choice of the JavaScript
driver implementor. Even though it's using JavaScript to serialize the
form elements, the form submission will work just like a regular submission
as viewed by the receiving side (all elements available in
params
).
Example:
<%= form_for(@post, remote: true) do |f| %>
...
<% end %>
The HTML generated for this would be:
<form action='http://www.example.com' method='post' data-remote='true'>
<input name='_method' type='hidden' value='patch' />
...
</form>
Setting HTML options
You can set data attributes directly by passing in a data hash, but all other HTML options must be wrapped in the HTML key. Example:
<%= form_for(@post, data: { behavior: "autosave" }, html: { name: "go" }) do |f| %>
...
<% end %>
The HTML generated for this would be:
<form action='http://www.example.com' method='post' data-behavior='autosave' name='go'>
<input name='_method' type='hidden' value='patch' />
...
</form>
Removing hidden model id's
The #form_for method automatically includes the model id as a hidden field in the form. This is used to maintain the correlation between the form data and its associated model. Some ORM systems do not use IDs on nested models so in this case you want to be able to disable the hidden id.
In the following example the Post model has many Comments stored within it in a NoSQL database, thus there is no primary key for comments.
Example:
<%= form_for(@post) do |f| %>
<%= f.fields_for(:comments, include_id: false) do |cf| %>
...
<% end %>
<% end %>
Customized form builders
You can also build forms using a customized FormBuilder class. Subclass FormBuilder and override or define some more helpers, then use your custom builder. For example, let's say you made a helper to automatically add labels to form inputs.
<%= form_for @person, url: { action: "create" }, builder: LabellingFormBuilder do |f| %>
<%= f.text_field :first_name %>
<%= f.text_field :last_name %>
<%= f.text_area :biography %>
<%= f.check_box :admin %>
<%= f.submit %>
<% end %>
In this case, if you use this:
<%= render f %>
The rendered template is people/_labelling_form
and the local
variable referencing the form builder is called
labelling_form
.
The custom FormBuilder class is automatically merged with the options of a nested #fields_for call, unless it's explicitly set.
In many cases you will want to wrap the above in another helper, so you could do something like the following:
def labelled_form_for(record_or_name_or_array, *args, &block)
options = args.extract_options!
form_for(record_or_name_or_array, *(args << options.merge(builder: LabellingFormBuilder)), &block)
end
If you don't need to attach a form to a model instance, then check out ActionView::Helpers::FormTagHelper#form_tag.
Form to external resources
When you build forms to external resources sometimes you need to set an authenticity token or just render a form without it, for example when you submit data to a payment gateway number and types of fields could be limited.
To set an authenticity token you need to pass an
:authenticity_token
parameter
<%= form_for @invoice, url: external_url, authenticity_token: 'external_token' do |f|
...
<% end %>
If you don't want to an authenticity token field be rendered at all
just pass false
:
<%= form_for @invoice, url: external_url, authenticity_token: false do |f|
...
<% end %>
# File actionview/lib/action_view/helpers/form_helper.rb, line 422 def form_for(record, options = {}, &block) raise ArgumentError, "Missing block" unless block_given? html_options = options[:html] ||= {} case record when String, Symbol object_name = record object = nil else object = record.is_a?(Array) ? record.last : record raise ArgumentError, "First argument in form cannot contain nil or be empty" unless object object_name = options[:as] || model_name_from_record_or_class(object).param_key apply_form_for_options!(record, object, options) end html_options[:data] = options.delete(:data) if options.has_key?(:data) html_options[:remote] = options.delete(:remote) if options.has_key?(:remote) html_options[:method] = options.delete(:method) if options.has_key?(:method) html_options[:enforce_utf8] = options.delete(:enforce_utf8) if options.has_key?(:enforce_utf8) html_options[:authenticity_token] = options.delete(:authenticity_token) builder = instantiate_builder(object_name, object, options) output = capture(builder, &block) html_options[:multipart] ||= builder.multipart? html_options = html_options_for_form(options[:url] || {}, html_options) form_tag_with_body(html_options, output) end
Returns a hidden input tag tailored for accessing a specified attribute
(identified by method
) on an object assigned to the template
(identified by object
). Additional options on the input tag
can be passed as a hash with options
. These options will be
tagged onto the HTML as an HTML element attribute as in the example shown.
Examples
hidden_field(:signup, :pass_confirm)
# => <input type="hidden" id="signup_pass_confirm" name="signup[pass_confirm]" value="#{@signup.pass_confirm}" />
hidden_field(:post, :tag_list)
# => <input type="hidden" id="post_tag_list" name="post[tag_list]" value="#{@post.tag_list}" />
hidden_field(:user, :token)
# => <input type="hidden" id="user_token" name="user[token]" value="#{@user.token}" />
Source: on GitHub
|Returns a label tag tailored for labelling an input field for a specified
attribute (identified by method
) on an object assigned to the
template (identified by object
). The text of label will
default to the attribute name unless a translation is found in the current
I18n locale (through
helpers.label.<modelname>.<attribute>) or you specify it
explicitly. Additional options on the label tag can be passed as a hash
with options
. These options will be tagged onto the HTML as an
HTML element attribute as in the example shown, except for the
:value
option, which is designed to target labels for #radio_button tags (where
the value is used in the ID of the input tag).
Examples
label(:post, :title)
# => <label for="post_title">Title</label>
You can localize your labels based on model and attribute names. For example you can define the following in your locale (e.g. en.yml)
helpers:
label:
post:
body: "Write your entire text here"
Which then will result in
label(:post, :body)
# => <label for="post_body">Write your entire text here</label>
Localization can also be based purely on the translation of the attribute-name (if you are using ActiveRecord):
activerecord:
attributes:
post:
cost: "Total cost"
label(:post, :cost)
# => <label for="post_cost">Total cost</label>
label(:post, :title, "A short title")
# => <label for="post_title">A short title</label>
label(:post, :title, "A short title", class: "title_label")
# => <label for="post_title" class="title_label">A short title</label>
label(:post, :privacy, "Public Post", value: "public")
# => <label for="post_privacy_public">Public Post</label>
label(:post, :terms) do
'Accept <a href="/terms">Terms</a>.'.html_safe
end
# => <label for="post_terms">Accept <a href="/terms">Terms</a>.</label>
Returns a #text_field of type “month”.
month_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="month" />
The default value is generated by trying to call strftime
with
“%Y-%m” on the object's value, which makes it behave as expected for
instances of DateTime and ActiveSupport::TimeWithZone.
@user.born_on = Date.new(1984, 1, 27)
month_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="date" value="1984-01" />
Returns an input tag of type “number”.
Options
-
Accepts same options as number_field_tag
Returns an input tag of the “password” type tailored for accessing a
specified attribute (identified by method
) on an object
assigned to the template (identified by object
). Additional
options on the input tag can be passed as a hash with options
.
These options will be tagged onto the HTML as an HTML element attribute as
in the example shown. For security reasons this field is blank by default;
pass in a value via options
if this is not desired.
Examples
password_field(:login, :pass, size: 20)
# => <input type="password" id="login_pass" name="login[pass]" size="20" />
password_field(:account, :secret, class: "form_input", value: @account.secret)
# => <input type="password" id="account_secret" name="account[secret]" value="#{@account.secret}" class="form_input" />
password_field(:user, :password, onchange: "if ($('#user_password').val().length > 30) { alert('Your password needs to be shorter!'); }")
# => <input type="password" id="user_password" name="user[password]" onchange="if ($('#user_password').val().length > 30) { alert('Your password needs to be shorter!'); }"/>
password_field(:account, :pin, size: 20, class: 'form_input')
# => <input type="password" id="account_pin" name="account[pin]" size="20" class="form_input" />
aliases #telephone_field
Returns a radio button tag for accessing a specified attribute (identified
by method
) on an object assigned to the template (identified
by object
). If the current value of method
is
tag_value
the radio button will be checked.
To force the radio button to be checked pass checked: true
in
the options
hash. You may pass HTML options there as well.
# Let's say that @post.category returns "rails":
radio_button("post", "category", "rails")
radio_button("post", "category", "java")
# => <input type="radio" id="post_category_rails" name="post[category]" value="rails" checked="checked" />
# <input type="radio" id="post_category_java" name="post[category]" value="java" />
radio_button("user", "receive_newsletter", "yes")
radio_button("user", "receive_newsletter", "no")
# => <input type="radio" id="user_receive_newsletter_yes" name="user[receive_newsletter]" value="yes" />
# <input type="radio" id="user_receive_newsletter_no" name="user[receive_newsletter]" value="no" checked="checked" />
Returns an input tag of type “range”.
Options
-
Accepts same options as range_field_tag
Returns an input of type “search” for accessing a specified attribute
(identified by method
) on an object assigned to the template
(identified by object_name
). Inputs of type “search” may be
styled differently by some browsers.
search_field(:user, :name)
# => <input id="user_name" name="user[name]" type="search" />
search_field(:user, :name, autosave: false)
# => <input autosave="false" id="user_name" name="user[name]" type="search" />
search_field(:user, :name, results: 3)
# => <input id="user_name" name="user[name]" results="3" type="search" />
# Assume request.host returns "www.example.com"
search_field(:user, :name, autosave: true)
# => <input autosave="com.example.www" id="user_name" name="user[name]" results="10" type="search" />
search_field(:user, :name, onsearch: true)
# => <input id="user_name" incremental="true" name="user[name]" onsearch="true" type="search" />
search_field(:user, :name, autosave: false, onsearch: true)
# => <input autosave="false" id="user_name" incremental="true" name="user[name]" onsearch="true" type="search" />
search_field(:user, :name, autosave: true, onsearch: true)
# => <input autosave="com.example.www" id="user_name" incremental="true" name="user[name]" onsearch="true" results="10" type="search" />
Returns a #text_field of type “tel”.
telephone_field("user", "phone")
# => <input id="user_phone" name="user[phone]" type="tel" />
Returns a textarea opening and closing tag set tailored for accessing a
specified attribute (identified by method
) on an object
assigned to the template (identified by object
). Additional
options on the input tag can be passed as a hash with options
.
Examples
text_area(:post, :body, cols: 20, rows: 40)
# => <textarea cols="20" rows="40" id="post_body" name="post[body]">
# #{@post.body}
# </textarea>
text_area(:comment, :text, size: "20x30")
# => <textarea cols="20" rows="30" id="comment_text" name="comment[text]">
# #{@comment.text}
# </textarea>
text_area(:application, :notes, cols: 40, rows: 15, class: 'app_input')
# => <textarea cols="40" rows="15" id="application_notes" name="application[notes]" class="app_input">
# #{@application.notes}
# </textarea>
text_area(:entry, :body, size: "20x20", disabled: 'disabled')
# => <textarea cols="20" rows="20" id="entry_body" name="entry[body]" disabled="disabled">
# #{@entry.body}
# </textarea>
Returns an input tag of the “text” type tailored for accessing a specified
attribute (identified by method
) on an object assigned to the
template (identified by object
). Additional options on the
input tag can be passed as a hash with options
. These options
will be tagged onto the HTML as an HTML element attribute as in the example
shown.
Examples
text_field(:post, :title, size: 20)
# => <input type="text" id="post_title" name="post[title]" size="20" value="#{@post.title}" />
text_field(:post, :title, class: "create_input")
# => <input type="text" id="post_title" name="post[title]" value="#{@post.title}" class="create_input" />
text_field(:session, :user, onchange: "if ($('#session_user').val() === 'admin') { alert('Your login cannot be admin!'); }")
# => <input type="text" id="session_user" name="session[user]" value="#{@session.user}" onchange="if ($('#session_user').val() === 'admin') { alert('Your login cannot be admin!'); }"/>
text_field(:snippet, :code, size: 20, class: 'code_input')
# => <input type="text" id="snippet_code" name="snippet[code]" size="20" value="#{@snippet.code}" class="code_input" />
Returns a #text_field of type “time”.
The default value is generated by trying to call strftime
with
“%T.%L” on the objects's value. It is still possible to override that
by passing the “value” option.
Options
-
Accepts same options as time_field_tag
Example
time_field("task", "started_at")
# => <input id="task_started_at" name="task[started_at]" type="time" />
You can create values for the “min” and “max” attributes by passing instances of Date or Time to the options hash.
time_field("task", "started_at", min: Time.now)
# => <input id="task_started_at" name="task[started_at]" type="time" min="01:00:00.000" />
Alternatively, you can pass a String formatted as an ISO8601 time as the values for “min” and “max.”
time_field("task", "started_at", min: "01:00:00")
# => <input id="task_started_at" name="task[started_at]" type="time" min="01:00:00.000" />
Returns a #text_field of type “url”.
url_field("user", "homepage")
# => <input id="user_homepage" name="user[homepage]" type="url" />
Returns a #text_field of type “week”.
week_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="week" />
The default value is generated by trying to call strftime
with
“%Y-W%W” on the object's value, which makes it behave as expected for
instances of DateTime and ActiveSupport::TimeWithZone.
@user.born_on = Date.new(1984, 5, 12)
week_field("user", "born_on")
# => <input id="user_born_on" name="user[born_on]" type="date" value="1984-W19" />