Phoenix LiveView v0.15.0 Phoenix.LiveView behaviour View Source
LiveView provides rich, real-time user experiences with server-rendered HTML.
The LiveView programming model is declarative: instead of saying "once event X happens, change Y on the page", events in LiveView are regular messages which may cause changes to its state. Once the state changes, LiveView will re-render the relevant parts of its HTML template and push it to the browser, which updates itself in the most efficient manner. This means developers write LiveView templates as any other server-rendered HTML and LiveView does the hard work of tracking changes and sending the relevant diffs to the browser.
At the end of the day, a LiveView is nothing more than a
process that receives events as messages and updates its
state. The state itself is nothing more than functional
and immutable Elixir data structures. The events are either
internal application messages (usually emitted by Phoenix.PubSub
)
or sent by the client/browser.
LiveView is first rendered statically as part of regular HTTP requests, which provides quick times for "First Meaningful Paint", in addition to helping search and indexing engines. Then a persistent connection is established between client and server. This allows LiveView applications to react faster to user events as there is less work to be done and less data to be sent compared to stateless requests that have to authenticate, decode, load, and encode data on every request. The flipside is that LiveView uses more memory on the server compared to stateless requests.
Use cases
There are many use cases where LiveView is an excellent fit right now:
Handling of user interaction and inputs, buttons, and forms - such as input validation, dynamic forms, autocomplete, etc;
Events and updates pushed by server - such as notifications, dashboards, etc;
Page and data navigation - such as navigating between pages, pagination, etc can be built with LiveView using the excellent live navigation feature set. This reduces the amount of data sent over the wire, gives developers full control over the LiveView life-cycle, while controlling how the browser tracks those changes in state;
There are also use cases which are a bad fit for LiveView:
- Animations - animations, menus, and general UI events that do not need the server in the first place are a bad fit for LiveView. Those can be achieved without LiveView in multiple ways, such as with CSS and CSS transitions, using LiveView hooks, or even integrating with UI toolkits designed for this purpose, such as Bootstrap, Alpine.JS, and similar.
Life-cycle
A LiveView begins as a regular HTTP request and HTML response, and then upgrades to a stateful view on client connect, guaranteeing a regular HTML page even if JavaScript is disabled. Any time a stateful view changes or updates its socket assigns, it is automatically re-rendered and the updates are pushed to the client.
You begin by rendering a LiveView typically from your router.
When LiveView is first rendered, the mount/3
callback is invoked
with the current params, the current session and the LiveView socket.
As in a regular request, params
contains public data that can be
modified by the user. The session
always contains private data set
by the application itself. The mount/3
callback wires up socket
assigns necessary for rendering the view. After mounting, render/1
is invoked and the HTML is sent as a regular HTML response to the
client.
After rendering the static page, LiveView connects from the client
to the server where stateful views are spawned to push rendered updates
to the browser, and receive client events via phx-
bindings. Just like
the first rendering, mount/3
is invoked with params, session,
and socket state, where mount assigns values for rendering. However
in the connected client case, a LiveView process is spawned on
the server, pushes the result of render/1
to the client and
continues on for the duration of the connection. If at any point
during the stateful life-cycle a crash is encountered, or the client
connection drops, the client gracefully reconnects to the server,
calling mount/3
once again.
Example
Before writing your first example, make sure that Phoenix LiveView
is properly installed. If you are just getting started, this can
be easily done by running mix phx.new my_app --live
. The phx.new
command with the --live
flag will create a new project with
LiveView installed and configured. Otherwise, please follow the steps
in the installation guide before continuing.
A LiveView is a simple module that requires two callbacks: mount/3
and render/1
:
defmodule MyAppWeb.ThermostatLive do
# If you generated an app with mix phx.new --live,
# the line below would be: use MyAppWeb, :live_view
use Phoenix.LiveView
def render(assigns) do
~L"""
Current temperature: <%= @temperature %>
"""
end
def mount(_params, %{"current_user_id" => user_id}, socket) do
temperature = Thermostat.get_user_reading(user_id)
{:ok, assign(socket, :temperature, temperature)}
end
end
The render/1
callback receives the socket.assigns
and is responsible
for returning rendered content. You can use Phoenix.LiveView.Helpers.sigil_L/2
to inline LiveView templates.
Next, decide where you want to use your LiveView.
You can serve the LiveView directly from your router (recommended):
defmodule MyAppWeb.Router do
use Phoenix.Router
import Phoenix.LiveView.Router
scope "/", MyAppWeb do
live "/thermostat", ThermostatLive
end
end
Note: the above assumes there is plug :put_root_layout
call
in your router that configures the LiveView layout. This call is
automatically included by mix phx.new --live
and described in
the installation guide. If you don't want to configure a root layout,
you must pass layout: {MyAppWeb.LayoutView, "app.html"}
as an
option to the live
macro above.
Alternatively, you can live_render
from any template:
<h1>Temperature Control</h1>
<%= live_render(@conn, MyAppWeb.ThermostatLive) %>
Or you can live_render
your view from any controller:
defmodule MyAppWeb.ThermostatController do
...
import Phoenix.LiveView.Controller
def show(conn, %{"id" => id}) do
live_render(conn, MyAppWeb.ThermostatLive)
end
end
When a LiveView is rendered, all of the data currently stored in the
connection session (see Plug.Conn.get_session/1
) will be given to
the LiveView.
It is also possible to pass additional session information to the LiveView through a session parameter:
# In the router
live "/thermostat", ThermostatLive, session: %{"extra_token" => "foo"}
# In a view
<%= live_render(@conn, MyAppWeb.ThermostatLive, session: %{"extra_token" => "foo"}) %>
Notice the :session
uses string keys as a reminder that session data
is serialized and sent to the client. So you should always keep the data
in the session to a minimum. For example, instead of storing a User struct,
you should store the "user_id" and load the User when the LiveView mounts.
Once the LiveView is rendered, a regular HTML response is sent. In your app.js file, you should find the following:
import {Socket} from "phoenix"
import LiveSocket from "phoenix_live_view"
let csrfToken = document.querySelector("meta[name='csrf-token']").getAttribute("content")
let liveSocket = new LiveSocket("/live", Socket, {params: {_csrf_token: csrfToken}})
liveSocket.connect()
After the client connects, mount/3
will be invoked inside a spawned
LiveView process. At this point, you can use connected?/1
to
conditionally perform stateful work, such as subscribing to pubsub topics,
sending messages, etc. For example, you can periodically update a LiveView
with a timer:
defmodule DemoWeb.ThermostatLive do
use Phoenix.LiveView
...
def mount(_params, %{"current_user_id" => user_id}, socket) do
if connected?(socket), do: Process.send_after(self(), :update, 30000)
case Thermostat.get_user_reading(user_id) do
{:ok, temperature} ->
{:ok, assign(socket, temperature: temperature, user_id: user_id)}
{:error, _reason} ->
{:ok, redirect(socket, to: "/error")}
end
end
def handle_info(:update, socket) do
Process.send_after(self(), :update, 30000)
{:ok, temperature} = Thermostat.get_reading(socket.assigns.user_id)
{:noreply, assign(socket, :temperature, temperature)}
end
end
We used connected?(socket)
on mount to send our view a message every 30s if
the socket is in a connected state. We receive the :update
message in the
handle_info/2
callback, just like in an Elixir GenServer
, and update our
socket assigns. Whenever a socket's assigns change, render/1
is automatically
invoked, and the updates are sent to the client.
Colocating templates
In the examples above, we have placed the template directly inside the LiveView:
defmodule MyAppWeb.ThermostatLive do
use Phoenix.LiveView
def render(assigns) do
~L"""
Current temperature: <%= @temperature %>
"""
end
For larger templates, you can place them in a file in the same directory
and same name as the LiveView. For example, if the file above is placed
at lib/my_app_web/live/thermostat_live.ex
, you can also remove the
render/1
definition above and instead put the template code at
lib/my_app_web/live/thermostat_live.html.leex
.
Alternatively, you can keep the render/1
callback but delegate to an
existing Phoenix.View
module in your application. For example:
defmodule MyAppWeb.ThermostatLive do
use Phoenix.LiveView
def render(assigns) do
Phoenix.View.render(MyAppWeb.PageView, "page.html", assigns)
end
end
In all cases, each assign in the template will be accessible as @assign
.
You can learn more about assigns and LiveEEx templates in their own guide.
Bindings
Phoenix supports DOM element bindings for client-server interaction. For example, to react to a click on a button, you would render the element:
<button phx-click="inc_temperature">+</button>
Then on the server, all LiveView bindings are handled with the handle_event
callback, for example:
def handle_event("inc_temperature", _value, socket) do
{:ok, new_temp} = Thermostat.inc_temperature(socket.assigns.id)
{:noreply, assign(socket, :temperature, new_temp)}
end
Binding | Attributes |
---|---|
Params | phx-value-* |
Click Events | phx-capture-click , phx-click |
Focus/Blur Events | phx-window-focus , phx-window-blur , phx-focus , phx-blur |
Key Events | phx-window-keyup , phx-window-keydown , phx-keyup , phx-keydown |
Form Events | phx-auto-recover , phx-trigger-action , phx-disable-with , phx-feedback-for , phx-submit , phx-change |
Rate Limiting | phx-throttle , phx-debounce |
DOM Patching | phx-update |
JS Interop | phx-hook |
Compartmentalizing markup and events with render
, live_render
, and live_component
We can render another template directly from a LiveView template by simply
calling render
:
render SomeView, "child_template.html", assigns
Where SomeView
is a regular Phoenix.View
, typically defined in
lib/my_app_web/views/some_view.ex
and "child_template.html" is defined
at lib/my_app_web/templates/some_view/child_template.html.leex
. As long
as the template has the .leex
extension and all assigns are passed,
LiveView change tracking will also work across templates.
When rendering a child template, any of the phx-*
events in the child
template will be sent to the LiveView. In other words, similar to regular
Phoenix templates, a regular render
call does not start another LiveView.
This means render
is useful for sharing markup between views.
If you want to start a separate LiveView from within a LiveView, then you
can call live_render/3
instead of render/3
. This child LiveView runs
in a separate process than the parent, with its own mount
and handle_event
callbacks. If a child LiveView crashes, it won't affect the parent. If the
parent crashes, all children are terminated.
When rendering a child LiveView, the :id
option is required to uniquely
identify the child. A child LiveView will only ever be rendered and mounted
a single time, provided its ID remains unchanged. Updates to a child session
will be merged on the client, but not passed back up until either a crash and
re-mount or a connection drop and recovery. To force a child to re-mount with
new session data, a new ID must be provided.
Given that a LiveView runs on its own process, it is an excellent tool for creating
completely isolated UI elements, but it is a slightly expensive abstraction if
all you want is to compartmentalize markup and events. For example, if you are
showing a table with all users in the system, and you want to compartmentalize
this logic, rendering a separate LiveView
for each user, then using a process
per user would likely be too expensive. For these cases, LiveView provides
Phoenix.LiveComponent
, which are rendered using live_component/3
:
<%= live_component(@socket, UserComponent, id: user.id, user: user) %>
Components have their own mount
and handle_event
callbacks, as well as their
own state with change tracking support. Components are also lightweight as they
"run" in the same process as the parent LiveView
. However, this means an error
in a component would cause the whole view to fail to render. See Phoenix.LiveComponent
for a complete rundown on components.
To sum it up:
render
- compartmentalizes markuplive_component
- compartmentalizes state, markup, and eventslive_render
- compartmentalizes state, markup, events, and error isolation
Endpoint configuration
LiveView accepts the following configuration in your endpoint under
the :live_view
key:
:signing_salt
(required) - the salt used to sign data sent to the client:hibernate_after
(optional) - the idle time in milliseconds allowed in the LiveView before compressing its own memory and state. Defaults to 15000ms (15 seconds)
Guides
LiveView has many guides to help you on your journey.
Server-side
These guides focus on server-side functionality:
- Assigns and LiveEEx
- Error and exception handling
- Live Layouts
- Live Navigation
- Security considerations of the LiveView model
- Telemetry
- Uploads
- Using Gettext for internationalization
Client-side
These guides focus on LiveView bindings and client-side integration:
Link to this section Summary
Functions
Uses LiveView in the current module to mark it a LiveView.
Allows an upload for the provided name.
Adds key value pairs to socket assigns.
Assigns a value into the socket only if it does not exist.
Cancels an upload for the given entry.
Clears the flash.
Clears a key from the flash.
Returns true if the socket is connected.
Consumes the uploaded entries.
Consumes an individual uploaded entry.
Revokes a previously allowed upload from allow_upload/3
.
Accesses the connect info from the socket to use on connected mount.
Accesses the connect params sent by the client for use on connected mount.
Pushes an event to the client to be consumed by hooks.
Annotates the socket for navigation within the current LiveView.
Annotates the socket for navigation to another LiveView.
Adds a flash message to the socket to be displayed.
Annotates the socket for redirect to a destination path.
Asynchronously updates a Phoenix.LiveComponent
with new assigns.
Similar to send_update/2
but the update will be delayed according to the given time_in_milliseconds
.
Returns true if the socket is connected and the tracked static assets have changed.
Returns the transport pid of the socket.
Updates an existing key in the socket assigns.
Returns the completed and in progress entries for the upload.
Link to this section Types
Specs
unsigned_params() :: map()
Link to this section Functions
Uses LiveView in the current module to mark it a LiveView.
use Phoenix.LiveView,
namespace: MyAppWeb,
container: {:tr, class: "colorized"},
layout: {MyAppWeb.LayoutView, "live.html"}
Options
:namespace
- configures the namespace theLiveView
is in:container
- configures the container theLiveView
will be wrapped in:layout
- configures the layout theLiveView
will be rendered in
Allows an upload for the provided name.
Options
:accept
- Required. A list of unique file type specifiers or the atom :any to allow any kind of file. For example,[".jpeg"]
,:any
, etc.:max_entries
- The maximum number of selected files to allow per file input. Defaults to 1.:max_file_size
- The maximum file size in bytes to allow to be uploaded. Defaults 8MB. For example,12_000_000
.:chunk_size
- The chunk size in bytes to send when uploading. Defaults64_000
.:chunk_timeout
- The time in milliseconds to wait before closing the upload channel when a new chunk has not been received. Defaults10_000
.:external
- The 2-arity function for generating metadata for external client uploaders. See the Uploads section for example usage.:progress
- The optional 3-arity function for receiving progress events:auto_upload
- Instructs the client to upload the file automatically on file selection instead of waiting for form submits. Default false.
Raises when a previously allowed upload under the same name is still active.
Examples
allow_upload(socket, :avatar, accept: ~w(.jpg .jpeg), max_entries: 2)
allow_upload(socket, :avatar, accept: :any)
For consuming files automatically as they are uploaded, you can pair auto_upload: true
with
a custom progress function to consume the entries as they are completed. For example:
allow_upload(socket, :avatar, accept: :any, progress: &handle_progress/3, auto_upload: true)
defp handle_progress(:avatar, entry, socket) do
if entry.done? do
uploaded_file =
consume_uploaded_entry(socket, entry, fn %{} = meta ->
...
end)
{:noreply, put_flash(socket, :info, "file #{uploaded_file.name} uploaded")
else
{:noreply, socket}
end
end
See assign/3
.
Adds key value pairs to socket assigns.
A single key value pair may be passed, or a keyword list or a map of assigns may be provided to be merged into existing socket assigns.
Examples
iex> assign(socket, :name, "Elixir")
iex> assign(socket, name: "Elixir", logo: "💧")
iex> assign(socket, %{name: "Elixir"})
Assigns a value into the socket only if it does not exist.
Useful for lazily assigning values and referencing parent assigns.
Referencing parent assigns
When a LiveView is mounted in a disconnected state, the Plug.Conn
assigns
will be available for reference via assign_new/3
, allowing assigns to
be shared for the initial HTTP request. The Plug.Conn
assigns will not be
available during the connected mount. Likewise, nested LiveView children have
access to their parent's assigns on mount using assign_new
, which allows
assigns to be shared down the nested LiveView tree.
Examples
# controller
conn
|> assign(:current_user, user)
|> LiveView.Controller.live_render(MyLive, session: %{"user_id" => user.id})
# LiveView mount
def mount(_params, %{"user_id" => user_id}, socket) do
{:ok, assign_new(socket, :current_user, fn -> Accounts.get_user!(user_id) end)}
end
Cancels an upload for the given entry.
Examples
<%= for entry <- @uploads.avatar.entries do %>
...
<button phx-click="cancel-upload" phx-value-ref="<%= entry.ref %>">cancel</button>
<% end %>
def handle_event("cancel-upload", %{"ref" => ref}, socket) do
{:noreply, cancel_upload(socket, :avatar, ref)}
end
Clears the flash.
Examples
iex> clear_flash(socket)
Clears a key from the flash.
Examples
iex> clear_flash(socket, :info)
Returns true if the socket is connected.
Useful for checking the connectivity status when mounting the view.
For example, on initial page render, the view is mounted statically,
rendered, and the HTML is sent to the client. Once the client
connects to the server, a LiveView is then spawned and mounted
statefully within a process. Use connected?/1
to conditionally
perform stateful work, such as subscribing to pubsub topics,
sending messages, etc.
Examples
defmodule DemoWeb.ClockLive do
use Phoenix.LiveView
...
def mount(_params, _session, socket) do
if connected?(socket), do: :timer.send_interval(1000, self(), :tick)
{:ok, assign(socket, date: :calendar.local_time())}
end
def handle_info(:tick, socket) do
{:noreply, assign(socket, date: :calendar.local_time())}
end
end
Consumes the uploaded entries.
Raises when there are still entries in progress. Typically called when submitting a form to handle the uploaded entries alongside the form data. For form submissions, it is guaranteed that all entries have completed before the submit event is invoked. Once entries are consumed, they are removed from the upload.
Examples
def handle_event("save", _params, socket) do
uploaded_files =
consume_uploaded_entries(socket, :avatar, fn %{path: path}, _entry ->
dest = Path.join("priv/static/uploads", Path.basename(path))
File.cp!(path, dest)
Routes.static_path(socket, "/uploads/#{Path.basename(dest)}")
end)
{:noreply, update(socket, :uploaded_files, &(&1 ++ uploaded_files))}
end
Consumes an individual uploaded entry.
Raises when the entry is still in progress. Typically called when submitting a form to handle the uploaded entries alongside the form data. Once entries are consumed, they are removed from the upload.
This is a lower-level feature than consume_uploaded_entries/3
and useful
for scenarios where you want to consume entries as they are individually completed.
Examples
def handle_event("save", _params, socket) do
case uploaded_entries(socket, :avatar) do
{[_|_] = entries, []} ->
uploaded_files = for entry <- entries do
consume_uploaded_entry(socket, entry, fn %{path: path} ->
dest = Path.join("priv/static/uploads", Path.basename(path))
File.cp!(path, dest)
Routes.static_path(socket, "/uploads/#{Path.basename(dest)}")
end)
end
{:noreply, update(socket, :uploaded_files, &(&1 ++ uploaded_files))}
_ ->
{:noreply, socket}
end
end
Revokes a previously allowed upload from allow_upload/3
.
Examples
disallow_upload(socket, :avatar)
Accesses the connect info from the socket to use on connected mount.
Connect info are only sent when the client connects to the server and
only remain available during mount. nil
is returned when called in a
disconnected state and a RuntimeError
is raised if called after mount.
Examples
First, when invoking the LiveView socket, you need to declare the
connect_info
you want to receive. Typically, it includes at least
the session but it may include other keys, such as :peer_data
.
See Phoenix.Endpoint.socket/3
:
socket "/live", Phoenix.LiveView.Socket,
websocket: [connect_info: [:peer_data, session: @session_options]]
Those values can now be accessed on the connected mount as
get_connect_info/1
:
def mount(_params, _session, socket) do
if info = get_connect_info(socket) do
{:ok, assign(socket, ip: info.peer_data.address)}
else
{:ok, assign(socket, ip: nil)}
end
end
Accesses the connect params sent by the client for use on connected mount.
Connect params are only sent when the client connects to the server and
only remain available during mount. nil
is returned when called in a
disconnected state and a RuntimeError
is raised if called after mount.
Reserved params
The following params have special meaning in LiveView:
- "_csrf_token" - the CSRF Token which must be explicitly set by the user when connecting
- "_mounts" - the number of times the current LiveView is mounted. It is 0 on first mount, then increases on each reconnect. It resets when navigating away from the current LiveView or on errors
- "_track_static" - set automatically with a list of all href/src from tags with the "phx-track-static" annotation in them. If there are no such tags, nothing is sent
Examples
def mount(_params, _session, socket) do
{:ok, assign(socket, width: get_connect_params(socket)["width"] || @width)}
end
Pushes an event to the client to be consumed by hooks.
Note: events will be dispatched to all active hooks on the client who are
handling the given event
. Scoped events can be achieved by namespacing
your event names.
Examples
{:noreply, push_event(socket, "scores", %{points: 100, user: "josé"})}
Annotates the socket for navigation within the current LiveView.
When navigating to the current LiveView, handle_params/3
is
immediately invoked to handle the change of params and URL state.
Then the new state is pushed to the client, without reloading the
whole page while also maintaining the current scroll position.
For live redirects to another LiveView, use push_redirect/2
.
Options
:to
- the required path to link to. It must always be a local path:replace
- the flag to replace the current history or push a new state. Defaultsfalse
.
Examples
{:noreply, push_patch(socket, to: "/")}
{:noreply, push_patch(socket, to: "/", replace: true)}
Annotates the socket for navigation to another LiveView.
The current LiveView will be shutdown and a new one will be mounted
in its place, without reloading the whole page. This can
also be used to remount the same LiveView, in case you want to start
fresh. If you want to navigate to the same LiveView without remounting
it, use push_patch/2
instead.
Options
:to
- the required path to link to. It must always be a local path:replace
- the flag to replace the current history or push a new state. Defaultsfalse
.
Examples
{:noreply, push_redirect(socket, to: "/")}
{:noreply, push_redirect(socket, to: "/", replace: true)}
Adds a flash message to the socket to be displayed.
Note: While you can use put_flash/3
inside a Phoenix.LiveComponent
,
components have their own @flash
assigns. The @flash
assign
in a component is only copied to its parent LiveView if the component
calls push_redirect/2
or push_patch/2
.
Note: You must also place the Phoenix.LiveView.Router.fetch_live_flash/2
plug in your browser's pipeline in place of fetch_flash
to be supported,
for example:
import Phoenix.LiveView.Router
pipeline :browser do
...
plug :fetch_live_flash
end
Examples
iex> put_flash(socket, :info, "It worked!")
iex> put_flash(socket, :error, "You can't access that page")
Annotates the socket for redirect to a destination path.
Note: LiveView redirects rely on instructing client
to perform a window.location
update on the provided
redirect location. The whole page will be reloaded and
all state will be discarded.
Options
:to
- the path to redirect to. It must always be a local path:external
- an external path to redirect to
Asynchronously updates a Phoenix.LiveComponent
with new assigns.
The component that is updated must be stateful (the :id
in the assigns must
match the :id
associated with the component) and the component must be
mounted within the current LiveView.
When the component receives the update, the optional
preload/1
callback is invoked, then
the updated values are merged with the component's assigns and
update/2
is called for the updated
component(s).
While a component may always be updated from the parent by updating some
parent assigns which will re-render the child, thus invoking
update/2
on the child component,
send_update/2
is useful for updating a component that entirely manages its
own state, as well as messaging between components mounted in the same
LiveView.
Note: send_update/2
cannot update a LiveComponent that is mounted in a
different LiveView. To update a component in a different LiveView you must
send a message to the LiveView process that the LiveComponent is mounted
within (often via Phoenix.PubSub
).
Examples
def handle_event("cancel-order", _, socket) do
...
send_update(Cart, id: "cart", status: "cancelled")
{:noreply, socket}
end
Similar to send_update/2
but the update will be delayed according to the given time_in_milliseconds
.
Examples
def handle_event("cancel-order", _, socket) do
...
send_update_after(Cart, [id: "cart", status: "cancelled"], 3000)
{:noreply, socket}
end
Returns true if the socket is connected and the tracked static assets have changed.
This function is useful to detect if the client is running on an outdated version of the marked static files. It works by comparing the static paths sent by the client with the one on the server.
Note: this functionality requires Phoenix v1.5.2 or later.
To use this functionality, the first step is to annotate which static files
you want to be tracked by LiveView, with the phx-track-static
. For example:
<link phx-track-static rel="stylesheet" href="<%= Routes.static_path(@conn, "/css/app.css") %>"/>
<script defer phx-track-static type="text/javascript" src="<%= Routes.static_path(@conn, "/js/app.js") %>"></script>
Now, whenever LiveView connects to the server, it will send a copy src
or href
attributes of all tracked statics and compare those values with
the latest entries computed by mix phx.digest
in the server.
The tracked statics on the client will match the ones on the server the huge majority of times. However, if there is a new deployment, those values may differ. You can use this function to detect those cases and show a banner to the user, asking them to reload the page. To do so, first set the assign on mount:
def mount(params, session, socket) do
{:ok, assign(socket, static_change: static_changed?(socket))}
end
And then in your views:
<%= if @static_changed? do %>
<div id="reload-static">
The app has been updated. Click here to <a href="#" onclick="window.location.reload()">reload</a>.
</div>
<% end %>
If you prefer, you can also send a JavaScript script that immediately reloads the page.
Note: only set phx-track-static
on your own assets. For example, do
not set it in external JavaScript files:
<script defer phx-track-static type="text/javascript" src="https://ajax.googleapis.com/ajax/libs/jquery/3.4.1/jquery.min.js"></script>
Because you don't actually serve the file above, LiveView will interpret the static above as missing, and this function will return true.
Returns the transport pid of the socket.
Raises ArgumentError
if the socket is not connected.
Examples
iex> transport_pid(socket)
#PID<0.107.0>
Updates an existing key in the socket assigns.
The update function receives the current key's value and returns the updated value. Raises if the key does not exist.
Examples
iex> update(socket, :count, fn count -> count + 1 end)
iex> update(socket, :count, &(&1 + 1))
Returns the completed and in progress entries for the upload.
Examples
case uploaded_entries(socket, :photos) do
{[_ | _] = completed, []} ->
# all entries are completed
{[], [_ | _] = in_progress} ->
# all entries are still in progress
end
Link to this section Callbacks
Specs
handle_call( msg :: term(), {pid(), reference()}, socket :: Phoenix.LiveView.Socket.t() ) :: {:noreply, Phoenix.LiveView.Socket.t()} | {:reply, term(), Phoenix.LiveView.Socket.t()}
Specs
handle_cast(msg :: term(), socket :: Phoenix.LiveView.Socket.t()) :: {:noreply, Phoenix.LiveView.Socket.t()}
Specs
handle_event( event :: binary(), unsigned_params(), socket :: Phoenix.LiveView.Socket.t() ) :: {:noreply, Phoenix.LiveView.Socket.t()} | {:reply, map(), Phoenix.LiveView.Socket.t()}
Specs
handle_info(msg :: term(), socket :: Phoenix.LiveView.Socket.t()) :: {:noreply, Phoenix.LiveView.Socket.t()}
Specs
handle_params( unsigned_params(), uri :: String.t(), socket :: Phoenix.LiveView.Socket.t() ) :: {:noreply, Phoenix.LiveView.Socket.t()}
Specs
mount( unsigned_params() | :not_mounted_at_router, session :: map(), socket :: Phoenix.LiveView.Socket.t() ) :: {:ok, Phoenix.LiveView.Socket.t()} | {:ok, Phoenix.LiveView.Socket.t(), keyword()}
The LiveView entry-point.
For each LiveView in the root of a template, mount/3
is invoked twice:
once to do the initial page load and again to establish the live socket.
It expects three parameters:
params
- a map of string keys which contain public information that can be set by the user. The map contains the query params as well as any router path parameter. If the LiveView was not mounted at the router, this argument is the atom:not_mounted_at_router
session
- the connection sessionsocket
- the LiveView socket
It must return either {:ok, socket}
or {:ok, socket, options}
, where
options
is one of:
:temporary_assigns
- a keyword list of assigns that are temporary and must be reset to their value after every render. Note that once the value is reset, it won't be re-rendered again until it is explicitly assigned:layout
- the optional layout to be used by the LiveView
Specs
render(assigns :: Phoenix.LiveView.Socket.assigns()) :: Phoenix.LiveView.Rendered.t()
Specs
terminate(reason, socket :: Phoenix.LiveView.Socket.t()) :: term() when reason: :normal | :shutdown | {:shutdown, :left | :closed | term()}