ihaskell-widgets-0.2.3.3: src/IHaskell/Display/Widgets/Int/BoundedIntRange/IntRangeSlider.hs
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE TypeSynonymInstances #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
module IHaskell.Display.Widgets.Int.BoundedIntRange.IntRangeSlider
( -- * The IntRangeSlider Widget
IntRangeSlider
-- * Constructor
, mkIntRangeSlider
) where
-- To keep `cabal repl` happy when running from the ihaskell repo
import Prelude
import Control.Monad (void)
import Data.Aeson
import Data.IORef (newIORef)
import qualified Data.Scientific as Sci
import qualified Data.Vector as V
import Data.Vinyl (Rec(..), (<+>))
import IHaskell.Display
import IHaskell.Eval.Widgets
import IHaskell.IPython.Message.UUID as U
import IHaskell.Display.Widgets.Types
import IHaskell.Display.Widgets.Common
-- | 'IntRangeSlider' represents an IntRangeSlider widget from IPython.html.widgets.
type IntRangeSlider = IPythonWidget 'IntRangeSliderType
-- | Create a new widget
mkIntRangeSlider :: IO IntRangeSlider
mkIntRangeSlider = do
-- Default properties, with a random uuid
wid <- U.random
let boundedIntAttrs = defaultBoundedIntRangeWidget "IntSliderView" "IntSliderModel"
sliderAttrs = (Orientation =:: HorizontalOrientation)
:& (ShowRange =:: True)
:& (ReadOut =:: True)
:& (SliderColor =:: "")
:& RNil
widgetState = WidgetState $ boundedIntAttrs <+> sliderAttrs
stateIO <- newIORef widgetState
let widget = IPythonWidget wid stateIO
-- Open a comm for this widget, and store it in the kernel state
widgetSendOpen widget $ toJSON widgetState
-- Return the widget
return widget
instance IHaskellDisplay IntRangeSlider where
display b = do
widgetSendView b
return $ Display []
instance IHaskellWidget IntRangeSlider where
getCommUUID = uuid
comm widget val _ =
case nestedObjectLookup val ["sync_data", "value"] of
Just (Array values) ->
case map (\(Number x) -> Sci.coefficient x) $ V.toList values of
[x, y] -> do
void $ setField' widget IntPairValue (x, y)
triggerChange widget
_ -> pure ()
_ -> pure ()