View Source Form bindings
Form Events
To handle form changes and submissions, use the phx-change
and phx-submit
events. In general, it is preferred to handle input changes at the form level,
where all form fields are passed to the LiveView's callback given any
single input change. For example, to handle real-time form validation and
saving, your form would use both phx-change
and phx-submit
bindings.
Let's get started with an example:
<.form for={@form} phx-change="validate" phx-submit="save">
<.input type="text" field={@form[:username]} />
<.input type="email" field={@form[:email]} />
<button>Save</button>
</.form>
.form
is the function component defined in Phoenix.Component.form/1
,
we recommend reading its documentation for more details on how it works
and all supported options. .form
expects a @form
assign, which can
be created from a changeset or user parameters via Phoenix.Component.to_form/1
.
input/1
is a function component for rendering inputs, most often
defined in your own application, often encapsulating labelling,
error handling, and more. Here is a simple version to get started with:
attr :field, Phoenix.HTML.FormField
attr :rest, include: ~w(type)
def input(assigns) do
~H"""
<input id={@field.id} name={@field.name} value={@field.value} {@rest} />
"""
end
The
CoreComponents
moduleIf your application was generated with Phoenix v1.7, then
mix phx.new
automatically imports many ready-to-use function components, such as.input
component with built-in features and styles.
With the form rendered, your LiveView picks up the events in handle_event
callbacks, to validate and attempt to save the parameter accordingly:
def render(assigns) ...
def mount(_params, _session, socket) do
{:ok, assign(socket, form: to_form(Accounts.change_user(%User{})))}
end
def handle_event("validate", %{"user" => params}, socket) do
form =
%User{}
|> Accounts.change_user(params)
|> Map.put(:action, :insert)
|> to_form()
{:noreply, assign(socket, form: form)}
end
def handle_event("save", %{"user" => user_params}, socket) do
case Accounts.create_user(user_params) do
{:ok, user} ->
{:noreply,
socket
|> put_flash(:info, "user created")
|> redirect(to: ~p"/users/#{user}")}
{:error, %Ecto.Changeset{} = changeset} ->
{:noreply, assign(socket, form: to_form(changeset))}
end
end
The validate callback simply updates the changeset based on all form input
values, then convert the changeset to a form and assign it to the socket.
If the form changes, such as generating new errors, render/1
is invoked and the form is re-rendered.
Likewise for phx-submit
bindings, the same callback is invoked and
persistence is attempted. On success, a :noreply
tuple is returned and the
socket is annotated for redirect with Phoenix.LiveView.redirect/2
to
the new user page, otherwise the socket assigns are updated with the errored
changeset to be re-rendered for the client.
You may wish for an individual input to use its own change event or to target
a different component. This can be accomplished by annotating the input itself
with phx-change
, for example:
<.form for={@form} phx-change="validate" phx-submit="save">
...
<.input field={@form[:email]} phx-change="email_changed" phx-target={@myself} />
</.form>
Then your LiveView or LiveComponent would handle the event:
def handle_event("email_changed", %{"user" => %{"email" => email}}, socket) do
...
end
Note: only the individual input is sent as params for an input marked with phx-change
.
phx-feedback-for
For proper form error tag updates, the error tag must specify which
input it belongs to. This is accomplished with the phx-feedback-for
attribute,
which specifies the name (or id, for backwards compatibility) of the input it belongs to.
Failing to add the phx-feedback-for
attribute will result in displaying error
messages for form fields that the user has not changed yet (e.g. required
fields further down on the page).
For example, your MyAppWeb.CoreComponents
may use this function:
def input(assigns) do
~H"""
<div phx-feedback-for={@name}>
<input
type={@type}
name={@name}
id={@id || @name}
value={Phoenix.HTML.Form.normalize_value(@type, @value)}
class={[
"phx-no-feedback:border-zinc-300 phx-no-feedback:focus:border-zinc-400",
"border-zinc-300 focus:border-zinc-400 focus:ring-zinc-800/5",
]}
{@rest}
/>
<.error :for={msg <- @errors}><%%= msg %></.error>
</div>
"""
end
def error(assigns) do
~H"""
<p class="phx-no-feedback:hidden">
<Heroicons.exclamation_circle mini class="mt-0.5 h-5 w-5 flex-none fill-rose-500" />
<%= render_slot(@inner_block) %>
</p>
"""
end
Now, any DOM container with the phx-feedback-for
attribute will receive a
phx-no-feedback
class in cases where the form fields has yet to receive
user input/focus. Using new CSS rules or tailwindcss variants allows you
errors to be shown, hidden, and styled as feedback changes.
Number inputs
Number inputs are a special case in LiveView forms. On programmatic updates, some browsers will clear invalid inputs. So LiveView will not send change events from the client when an input is invalid, instead allowing the browser's native validation UI to drive user interaction. Once the input becomes valid, change and submit events will be sent normally.
<input type="number">
This is known to have a plethora of problems including accessibility, large numbers are converted to exponential notation, and scrolling can accidentally increase or decrease the number.
One alternative is the inputmode
attribute, which may serve your application's needs
and users much better. According to Can I Use?,
the following is supported by 86% of the global market (as of Sep 2021):
<input type="text" inputmode="numeric" pattern="[0-9]*">
Password inputs
Password inputs are also special cased in Phoenix.HTML
. For security reasons,
password field values are not reused when rendering a password input tag. This
requires explicitly setting the :value
in your markup, for example:
<.input field={f[:password]} value={input_value(f[:password].value)} />
<.input field={f[:password_confirmation]} value={input_value(f[:password_confirmation].value)} />
Nested inputs
Nested inputs are handled using .inputs_for
function component. By default
it will add the necessary hidden input fields for tracking ids of Ecto associations.
<.inputs_for :let={fp} field={f[:friends]}>
<.input field={fp[:name]} type="text">
</.inputs_for>
File inputs
LiveView forms support reactive file inputs,
including drag and drop support via the phx-drop-target
attribute:
<div class="container" phx-drop-target={@uploads.avatar.ref}>
...
<.live_file_input upload={@uploads.avatar} />
</div>
See Phoenix.Component.live_file_input/1
for more.
Submitting the form action over HTTP
The phx-trigger-action
attribute can be added to a form to trigger a standard
form submit on DOM patch to the URL specified in the form's standard action
attribute. This is useful to perform pre-final validation of a LiveView form
submit before posting to a controller route for operations that require
Plug session mutation. For example, in your LiveView template you can
annotate the phx-trigger-action
with a boolean assign:
<.form :let={f} for={@changeset}
action={Routes.reset_password_path(@socket, :create)}
phx-submit="save"
phx-trigger-action={@trigger_submit}>
Then in your LiveView, you can toggle the assign to trigger the form with the current fields on next render:
def handle_event("save", params, socket) do
case validate_change_password(socket.assigns.user, params) do
{:ok, changeset} ->
{:noreply, assign(socket, changeset: changeset, trigger_submit: true)}
{:error, changeset} ->
{:noreply, assign(socket, changeset: changeset)}
end
end
Once phx-trigger-action
is true, LiveView disconnects and then submits the form.
Recovery following crashes or disconnects
By default, all forms marked with phx-change
and having id
attribute will recover input values automatically after the user has
reconnected or the LiveView has remounted after a crash. This is
achieved by the client triggering the same phx-change
to the server
as soon as the mount has been completed.
Note: if you want to see form recovery working in development, please
make sure to disable live reloading in development by commenting out the
LiveReload plug in your endpoint.ex
file or by setting code_reloader: false
in your config/dev.exs
. Otherwise live reloading may cause the current page
to be reloaded whenever you restart the server, which will discard all form
state.
For most use cases, this is all you need and form recovery will happen
without consideration. In some cases, where forms are built step-by-step in a
stateful fashion, it may require extra recovery handling on the server outside
of your existing phx-change
callback code. To enable specialized recovery,
provide a phx-auto-recover
binding on the form to specify a different event
to trigger for recovery, which will receive the form params as usual. For example,
imagine a LiveView wizard form where the form is stateful and built based on what
step the user is on and by prior selections:
<form id="wizard" phx-change="validate_wizard_step" phx-auto-recover="recover_wizard">
On the server, the "validate_wizard_step"
event is only concerned with the
current client form data, but the server maintains the entire state of the wizard.
To recover in this scenario, you can specify a recovery event, such as "recover_wizard"
above, which would wire up to the following server callbacks in your LiveView:
def handle_event("validate_wizard_step", params, socket) do
# regular validations for current step
{:noreply, socket}
end
def handle_event("recover_wizard", params, socket) do
# rebuild state based on client input data up to the current step
{:noreply, socket}
end
To forgo automatic form recovery, set phx-auto-recover="ignore"
.
Resetting Forms
To reset a LiveView form, you can use the standard type="reset"
on a
form button or input. When clicked, the form inputs will be reset to their
original values, and Phoenix will hide errors for phx-feedback-for
elements.
After the form is reset, a phx-change
event is emitted with the _target
param
containing the reset name
. For example, the following element:
<form phx-change="changed">
...
<button type="reset" name="reset">Reset</button>
</form>
Can be handled on the server differently from your regular change function:
def handle_event("changed", %{"_target" => ["reset"]} = params, socket) do
# handle form reset
end
def handle_event("changed", params, socket) do
# handle regular form change
end
JavaScript client specifics
The JavaScript client is always the source of truth for current input values. For any given input with focus, LiveView will never overwrite the input's current value, even if it deviates from the server's rendered updates. This works well for updates where major side effects are not expected, such as form validation errors, or additive UX around the user's input values as they fill out a form.
For these use cases, the phx-change
input does not concern itself with disabling
input editing while an event to the server is in flight. When a phx-change
event
is sent to the server, the input tag and parent form tag receive the
phx-change-loading
CSS class, then the payload is pushed to the server with a
"_target"
param in the root payload containing the keyspace of the input name
which triggered the change event.
For example, if the following input triggered a change event:
<input name="user[username]"/>
The server's handle_event/3
would receive a payload:
%{"_target" => ["user", "username"], "user" => %{"username" => "Name"}}
The phx-submit
event is used for form submissions where major side effects
typically happen, such as rendering new containers, calling an external
service, or redirecting to a new page.
On submission of a form bound with a phx-submit
event:
- The form's inputs are set to
readonly
- Any submit button on the form is disabled
- The form receives the
"phx-submit-loading"
class
On completion of server processing of the phx-submit
event:
- The submitted form is reactivated and loses the
"phx-submit-loading"
class - The last input with focus is restored (unless another input has received focus)
- Updates are patched to the DOM as usual
To handle latent events, the <button>
tag of a form can be annotated with
phx-disable-with
, which swaps the element's innerText
with the provided
value during event submission. For example, the following code would change
the "Save" button to "Saving...", and restore it to "Save" on acknowledgment:
<button type="submit" phx-disable-with="Saving...">Save</button>
You may also take advantage of LiveView's CSS loading state classes to
swap out your form content while the form is submitting. For example,
with the following rules in your app.css
:
.while-submitting { display: none; }
.inputs { display: block; }
.phx-submit-loading .while-submitting { display: block; }
.phx-submit-loading .inputs { display: none; }
You can show and hide content with the following markup:
<form phx-change="update">
<div class="while-submitting">Please wait while we save our content...</div>
<div class="inputs">
<input type="text" name="text" value={@text}>
</div>
</form>
Additionally, we strongly recommend including a unique HTML "id" attribute on the form. When DOM siblings change, elements without an ID will be replaced rather than moved, which can cause issues such as form fields losing focus.
Triggering phx-
form events with JavaScript
Often it is desirable to trigger an event on a DOM element without explicit user interaction on the element. For example, a custom form element such as a date picker or custom select input which utilizes a hidden input element to store the selected state.
In these cases, the event functions on the DOM API can be used, for example
to trigger a phx-change
event:
document.getElementById("my-select").dispatchEvent(
new Event("input", {bubbles: true})
)
When using a client hook, this.el
can be used to determine the element as
outlined in the "Client hooks" documentation.
It is also possible to trigger a phx-submit
using a "submit" event:
document.getElementById("my-form").dispatchEvent(
new Event("submit", {bubbles: true, cancelable: true})
)