{-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE TypeSynonymInstances #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module IHaskell.Display.Widgets.Int.BoundedInt.IntSlider ( -- * The IntSlider Widget IntSlider -- * Constructor , mkIntSlider ) 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 Data.Vinyl (Rec(..), (<+>)) import IHaskell.Eval.Widgets import IHaskell.IPython.Message.UUID as U import IHaskell.Display (IHaskellWidget(..)) import IHaskell.Display.Widgets.Types import IHaskell.Display.Widgets.Common import IHaskell.Display.Widgets.Layout.LayoutWidget import IHaskell.Display.Widgets.Style.DescriptionStyle -- | 'IntSlider' represents an IntSlider widget from IPython.html.widgets. type IntSlider = IPythonWidget 'IntSliderType -- | Create a new widget mkIntSlider :: IO IntSlider mkIntSlider = do -- Default properties, with a random uuid wid <- U.random layout <- mkLayout dstyle <- mkDescriptionStyle let boundedIntAttrs = defaultBoundedIntWidget "IntSliderView" "IntSliderModel" layout $ StyleWidget dstyle sliderAttrs = (StepInt =:: Just 1) :& (Orientation =:: HorizontalOrientation) :& (ReadOut =:: True) :& (ReadOutFormat =:: "d") :& (ContinuousUpdate =:: True) :& (Disabled =:: False) :& 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 IHaskellWidget IntSlider where getCommUUID = uuid comm widget val _ = case nestedObjectLookup val ["state", "value"] of Just (Number value) -> do void $ setField' widget IntValue (Sci.coefficient value) triggerChange widget _ -> pure ()