While dragging and dropping a list item, the mouse events, the ghost element's positioning and the list sorting are handled internally by this module. Here is a basic demo, we will use it as an illustration throughout this page.
The first step is to create a System
object which holds all the information related to the drag and drop features.
Using this object you can wire up the module's internal model, subscriptions, commands, and update
into your model, subscriptions, commands, and update respectively.
Next, when you write your view
functions, you will need to bind the drag and drop events to the list items,
and also style them according to their current state.
The System
object gives you access to events and to detailed information about the drag source and drop target items.
Finally, you will need to render a ghost element to be used for dragging display.
You can add position styling attributes to this element using theSystem
object.
type alias DragIndex =
Int
type alias DropIndex =
Int
type alias DragElementId =
String
type alias DropElementId =
String
type alias Position =
{ x : Float
, y : Float
}
{ model : Model
, subscriptions : Model -> Platform.Sub.Sub msg
, commands : Model -> Platform.Cmd.Cmd msg
, update : Msg -> Model -> List a -> ( Model
, List a )
, dragEvents : DragIndex -> DragElementId -> List (Html.Attribute msg)
, dropEvents : DropIndex -> DropElementId -> List (Html.Attribute msg)
, ghostStyles : Model -> List (Html.Attribute msg)
, info : Model -> Maybe Info
}
A System
encapsulates:
the internal model, subscriptions, commands, and update,
the bindable events and styles, and
the Info
object.
Later we will learn more about the Info object and the System fields.
create : Config a -> (Msg -> msg) -> System a msg
Creates a System
object according to the configuration.
Suppose we have a list of fruits:
type alias Fruit =
String
data : List Fruit
data =
[ "Apples", "Bananas", "Cherries", "Dates" ]
Now the System
is a wrapper type around the list item and our message types:
system : DnDList.System Fruit Msg
system =
DnDList.create config MyMsg
Internal message type. It should be wrapped within our message constructor:
type Msg
= MyMsg DnDList.Msg
{ beforeUpdate : DragIndex -> DropIndex -> List a -> List a
, movement : Movement
, listen : Listen
, operation : Operation
}
Represents the System
's configuration.
beforeUpdate
: This is a hook and gives you access to your list before it will be sorted.
The first number is the drag index, the second number is the drop index.
The Towers of Hanoi uses this hook to update the disks' tower
attribute.
movement
: The dragging can be constrained to horizontal or vertical axis only, or it can be set to free.
This demo config shows the different movements in action.
listen
: The items can listen for drag events or for drop events.
In the first case the list will be sorted again and again while the mouse moves over the different drop target items.
In the second case the list will be sorted only once on that drop target where the mouse was finally released.
operation
: Different kinds of sort operations can be performed on the list.
You can start to analyze them with
sorting on drag
and sorting on drop.
This is our configuration with a void beforeUpdate
:
config : DnDList.Config Fruit
config =
{ beforeUpdate = \_ _ list -> list
, movement = DnDList.Free
, listen = DnDList.OnDrag
, operation = DnDList.Rotate
}
Represents the mouse dragging movement. This demo config shows the different movements in action.
Free
: The ghost element follows the mouse pointer.
Horizontal
: The ghost element can only move horizontally.
Vertical
: The ghost element can only move vertically.
Represents the event for which the list sorting is available.
OnDrag
: The list will be sorted when the ghost element is being dragged over a drop target item.
OnDrop
: The list will be sorted when the ghost element is dropped on a drop target item.
Represents the list sort operation. Detailed comparisons can be found here: sorting on drag and sorting on drop.
InsertAfter
: The drag source item will be inserted after the drop target item.
InsertBefore
: The drag source item will be inserted before the drop target item.
Rotate
: The items between the drag source and the drop target items will be circularly shifted.
Swap
: The drag source and the drop target items will be swapped.
Unaltered
: The list items will keep their initial order.
{ dragIndex : DragIndex
, dropIndex : DropIndex
, dragElementId : DragElementId
, dropElementId : DropElementId
, dragElement : Browser.Dom.Element
, dropElement : Browser.Dom.Element
, startPosition : Position
, currentPosition : Position
}
Represents the information about the drag source and the drop target items.
It is accessible through the System
's info
field.
dragIndex
: The index of the drag source.
dropIndex
: The index of the drop target.
dragElementId
: HTML id of the drag source.
dropElementId
: HTML id of the drop target.
dragElement
: Information about the drag source as an HTML element, see Browser.Dom.Element
.
dropElement
: Information about the drop target as an HTML element, see Browser.Dom.Element
.
startPosition
: The x, y position of the ghost element when dragging started.
currentPosition
: The x, y position of the ghost element now.
You can check the Info
object to decide what to render when there is an ongoing dragging,
and what to render when there is no dragging:
itemView : DnDList.Model -> Int -> Fruit -> Html.Html Msg
itemView dnd index item =
...
case system.info dnd of
Just _ ->
-- Render when there is an ongoing dragging.
Nothing ->
-- Render when there is no dragging.
Or you can determine the current drag source item using the Info
object:
maybeDragItem : DnDList.Model -> List Fruit -> Maybe Fruit
maybeDragItem dnd items =
system.info dnd
|> Maybe.andThen
(\{ dragIndex } ->
items
|> List.drop dragIndex
|> List.head
)
Or you can control over generating styles for the dragged ghost element. For example adding an offset to the position:
type alias Offset =
{ x : Int
, y : Int
}
customGhostStyle : DnDList.Model -> DnDList.Info -> Offset -> List (Html.Attribute msg)
customGhostStyle dnd { element } offset =
let
px : Int -> String
px x =
String.fromInt x ++ "px"
translate : Int -> Int -> String
translate x y =
"translate3d(" ++ px x ++ ", " ++ px y ++ ", 0)"
in
case system.info dnd of
Just { currentPosition, startPosition } ->
[ Html.Attribute.style "transform" <|
translate
(round element.x + offset.x)
(round (currentPosition.y - startPosition.y + element.y) + offset.y)
]
Nothing ->
[]
Represents the internal model of the current drag and drop features.
It will be Nothing
if there is no ongoing dragging.
You should set it in your model and initialize through the System
's model
field.
type alias Model =
{ dnd : DnDList.Model
, items : List Fruit
}
initialModel : Model
initialModel =
{ dnd = system.model
, items = data
}
subscriptions
is a function to access the browser events during the dragging.
subscriptions : Model -> Sub Msg
subscriptions model =
system.subscriptions model.dnd
commands
is a function to access the DOM for the drag source and the drop target as HTML elements.
update : Msg -> Model -> ( Model, Cmd Msg )
update message model =
case message of
MyMsg msg ->
let
updatedModel = ...
in
( updatedModel
, system.commands updatedModel
)
update
is a function which returns an updated internal Model
and the sorted list for your model.
update : Msg -> Model -> ( Model, Cmd Msg )
update message model =
case message of
MyMsg msg ->
let
( dnd, items ) =
system.update msg model.dnd model.items
in
( { model | dnd = dnd, items = items }
, system.commands dnd
)
dragEvents
is a function which wraps all the events up for the drag source items.
This and the following example will show us how to use auxiliary items and think about them in two different ways:
itemView : DnDList.Model -> Int -> Fruit -> Html.Html Msg
itemView dnd index item =
let
itemId : String
itemId =
"id-" ++ item
in
case system.info dnd of
Just _ ->
-- Render when there is an ongoing dragging.
Nothing ->
Html.p
(Html.Attributes.id itemId
:: system.dragEvents index itemId
)
[ Html.text item ]
dropEvents
is a function which wraps all the events up for the drop target items.
itemView : DnDList.Model -> Int -> Fruit -> Html.Html Msg
itemView dnd index item =
let
itemId : String
itemId =
"id-" ++ item
in
case system.info dnd of
Just { dragIndex } ->
if dragIndex /= index then
Html.p
(Html.Attributes.id itemId
:: system.dropEvents index itemId
)
[ Html.text item ]
else
Html.p
[ Html.Attributes.id itemId ]
[ Html.text "[---------]" ]
Nothing ->
-- Render when there is no dragging.
ghostStyles
is a function which wraps up the positioning styles of the ghost element.
The ghost element has absolute position relative to the viewport.
ghostView : DnDList.Model -> List Fruit -> Html.Html Msg
ghostView dnd items =
let
maybeDragItem : Maybe Fruit
maybeDragItem =
system.info dnd
|> Maybe.andThen
(\{ dragIndex } ->
items
|> List.drop dragIndex
|> List.head
)
in
case maybeDragItem of
Just item ->
Html.div
(system.ghostStyles dnd)
[ Html.text item ]
Nothing ->
Html.text ""
The following CSS will be added:
{
position: fixed;
left: 0;
top: 0;
transform: translate3d(the vector is calculated from the dragElement and the mouse position in pixels);
height: the dragElement's height in pixels;
width: the dragElement's width in pixels;
pointer-events: none;
}
See Info.