import StartApp
import Html exposing (..)
import Html.Attributes exposing (href, class, style)
import Effects exposing (Effects, Never)
import Task exposing (Task)
import Material
import Material.Scheme
import Material.Button as Button
-- MODEL
type alias Model =
{ count : Int
, mdl : Material.Model Action
-- Boilerplate: mdl is the Model store for any and all MDL components you need.
}
model : Model
model =
{ count = 0
, mdl = Material.model
-- Boilerplate: Always use this initial MDL model store.
}
-- ACTION, UPDATE
type Action
= Increase
| Reset
| MDL (Material.Action Action)
-- Boilerplate: Action for MDL actions (ripple animations etc.).
update : Action -> Model -> (Model, Effects Action)
update action model =
case Debug.log "" action of
Increase ->
( { model | count = model.count + 1 }
, Effects.none
)
Reset ->
( { model | count = 0 }
, Effects.none
)
{- Boilerplate: MDL action handler. It should always look like this, except
you can of course choose to put its saved model someplace other than
model.mdl.
-}
MDL action' ->
let (mdl', fx) =
Material.update MDL action' model.mdl
in
( { model | mdl = mdl' } , fx )
-- VIEW
type alias Mdl = Material.Model Action
{- We construct the instances of the Button component that we need, one
for the increase button, one for the reset button. First, the increase
button. The arguments are:
- An instance id (the `0`). Every component that uses the same model collection
(model.mdl in this file) must have a distinct instance id.
- An Action creator (`MDL`), lifting MDL actions to your Action type.
- A button view (`flat`).
- An initial model (`(Button.model True)`---a button with a ripple animation.
- A list of observations you want to make of the button (final argument).
In this case, we hook up Click events of the button to the `Increase` action
defined above.
-}
increase : Button.Instance Mdl Action
increase =
Button.instance 0 MDL Button.flat (Button.model True)
[ Button.fwdClick Increase ]
{- Next, the reset button. This one has id 1, does not ripple, and forwards its
click event to our Reset action.
-}
reset : Button.Instance Mdl Action
reset =
Button.instance 1 MDL Button.flat (Button.model False)
[ Button.fwdClick Reset ]
{- Notice that we did not have to add increase and reset separately to model.mdl,
and we did not have to add to our update actions to handle their internal events.
-}
view : Signal.Address Action -> Model -> Html
view addr model =
div
[ style
[ ("margin", "auto")
, ("padding-left", "5%")
, ("padding-right", "5%")
]
]
[ text ("Current count: " ++ toString model.count )
, increase.view addr model.mdl [] [ text "Increase" ]
, reset.view addr model.mdl [] [ text "Reset" ]
-- Note that we use the .view function of our component instances to
-- actually render the component.
]
|> Material.Scheme.top
{- The remainder of this file is Elm/StartApp boilerplate.
-}
-- SETUP
init : (Model, Effects.Effects Action)
init = (model, Effects.none)
inputs : List (Signal.Signal Action)
inputs =
[
]
app : StartApp.App Model
app =
StartApp.start
{ init = init
, view = view
, update = update
, inputs = inputs
}
main : Signal Html
main =
app.html
-- PORTS
port tasks : Signal (Task Never ())
port tasks =
app.tasks