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{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE TemplateHaskell #-}
module QBar.Core where
import QBar.Pango
import Control.Exception (catch, finally, IOException)
import Control.Monad (forever)
import Control.Concurrent (threadDelay)
import Control.Concurrent.Async
import Control.Concurrent.Event as Event
import Control.Concurrent.MVar
import Data.Aeson.TH
import qualified Data.ByteString.Lazy.Char8 as C8
import qualified Data.HashMap.Lazy as HM
import Data.Int (Int64)
import Data.Maybe (fromMaybe, catMaybes)
import qualified Data.Text.Lazy as T
import qualified Data.Text.Lazy.Encoding as E
import qualified Data.Text.Lazy.IO as TIO
import Numeric (showHex)
import Pipes
import Pipes.Concurrent
import qualified Pipes.Prelude as PP
import System.Exit
import System.IO
import System.Process.Typed (shell, withProcessWait, setStdin, setStdout, getStdout, closed, createPipe, readProcessStdout)
import Data.Colour.RGBSpace
clickAction :: Maybe (Click -> IO ())
instance Show BlockOutput where
show BlockOutput{values} = show values
} deriving Show
$(deriveJSON defaultOptions ''Click)
data PushMode = PushMode
data PullMode = PullMode
data CachedMode = CachedMode
-- |Block that 'yield's an update whenever the block should be changed
type PushBlock = Producer BlockOutput IO PushMode
-- |Block that generates an update on 'yield'. Should only be pulled when an update is required.
type PullBlock = Producer BlockOutput IO PullMode
-- |Cached block. Always 'yield's the latest update, so it should only be pulled when the bar is rendered.
type CachedBlock = Producer BlockOutput IO CachedMode
class IsBlock a where
toCachedBlock :: BarUpdateChannel -> a -> CachedBlock
instance IsBlock PushBlock where
toCachedBlock = cachePushBlock
instance IsBlock CachedBlock where
toCachedBlock _ = id
class IsBlockMode a where
exitBlock :: Producer BlockOutput IO a
instance IsBlockMode PushMode where
exitBlock = return PushMode
instance IsBlockMode PullMode where
exitBlock = return PullMode
instance IsBlockMode CachedMode where
exitBlock = return CachedMode
data BarUpdateChannel = BarUpdateChannel (IO ())
type BarUpdateEvent = Event.Event
type BarConfiguration = BarUpdateChannel -> Producer CachedBlock IO ()
defaultColor :: T.Text
defaultColor = "#969896"
activeColor :: T.Text
activeColor = "#ffffff"
updatingColor :: T.Text
--updatingColor = "#444444"
updatingColor = "#96989677"
createBlock :: T.Text -> BlockOutput
createBlock text = setColor defaultColor $ BlockOutput {
values = HM.singleton "full_text" text,
clickAction = Nothing
}
createErrorBlock = setColor "ff0000" . createBlock
setValue :: T.Text -> T.Text -> BlockOutput -> BlockOutput
setValue key val block = block {
values = HM.insert key val (values block)
}
getValue :: T.Text -> BlockOutput -> Maybe T.Text
getValue key block = HM.lookup key (values block)
adjustValue :: (T.Text -> T.Text) -> T.Text -> BlockOutput -> BlockOutput
adjustValue f k block = block {
values = HM.adjust f k (values block)
}
shortText :: T.Text -> BlockOutput -> BlockOutput
fullText :: T.Text -> BlockOutput -> BlockOutput
getFullText = fromMaybe "" . getValue "full_text"
setColor :: T.Text -> BlockOutput -> BlockOutput
setBlockName :: T.Text -> BlockOutput -> BlockOutput
pangoMarkup = setValue "markup" "pango"
adjustText :: (T.Text -> T.Text) -> BlockOutput -> BlockOutput
adjustText f = adjustValue f "full_text" . adjustValue f "short_text"
coloredText :: T.Text -> T.Text -> T.Text
coloredText color text = "<span color='" <> color <> "'>" <> text <> "</span>"
addIcon :: T.Text -> BlockOutput -> BlockOutput
addIcon icon block = prefixIcon "full_text" $ prefixIcon "short_text" block
where
prefixIcon = adjustValue ((icon <> " ") <>)
removePango block
| getValue "markup" block == Just "pango" = adjustText removePangoFromText $ block {
values = HM.delete "markup" (values block)
}
| otherwise = block
where
removePangoFromText :: T.Text -> T.Text
removePangoFromText text =
case parsePango text of
Left _ -> text
Right parsed -> removeFormatting parsed
modify :: (BlockOutput -> BlockOutput) -> Pipe BlockOutput BlockOutput IO r
autoPadding :: Pipe BlockOutput BlockOutput IO r
autoPadding = autoPadding' 0 0
where
autoPadding' :: Int64 -> Int64 -> Pipe BlockOutput BlockOutput IO r
autoPadding' fullLength shortLength = do
block <- await
let values' = (values block)
let fullLength' = T.length $ HM.lookupDefault "" "full_text" values'
let shortLength' = T.length $ HM.lookupDefault "" "short_text" values'
let values'' = HM.adjust (<> (T.take (fullLength - fullLength') $ T.repeat ' ')) "full_text" values'
let values''' = HM.adjust (<> (T.take (shortLength - shortLength') $ T.repeat ' ')) "short_text" values''
yield block { values = values''' }
autoPadding' (max fullLength fullLength') (max shortLength shortLength')
cacheFromInput :: Input BlockOutput -> CachedBlock
cacheFromInput input = fmap (\_ -> CachedMode) $ fromInput input
-- | Create a shared interval. Takes a BarUpdateChannel to signal bar updates and an interval (in seconds).Data.Maybe
-- Returns an IO action that can be used to attach blocks to the shared interval and an async that contains a reference to the scheduler thread.
sharedInterval :: BarUpdateChannel -> Int -> IO (PullBlock -> CachedBlock, Async ())
sharedInterval barUpdateChannel seconds = do
clientsMVar <- newMVar ([] :: [(MVar PullBlock, Output BlockOutput)])
task <- async $ forever $ do
threadDelay $ seconds * 1000000
-- Updates all client blocks
-- If send returns 'False' the clients mailbox has been closed, so it is removed
modifyMVar_ clientsMVar (fmap catMaybes . mapConcurrently runAndFilterClient)
-- Then update the bar
updateBar barUpdateChannel
return (addClient clientsMVar, task)
where
runAndFilterClient :: (MVar PullBlock, Output BlockOutput) -> IO (Maybe (MVar PullBlock, Output BlockOutput))
runAndFilterClient client = do
result <- runClient client
return $ if result then Just client else Nothing
runClient :: (MVar PullBlock, Output BlockOutput) -> IO Bool
runClient (blockProducerMVar, output) =
modifyMVar blockProducerMVar $ \blockProducer -> do
result <- next blockProducer
case result of
Left _ -> return (exitBlock, False)
Right (blockOutput, blockProducer') -> do
success <- atomically $ send output blockOutput {
clickAction = Just (updateClickHandler blockOutput)
}
if success
then return (blockProducer', True)
else return (exitBlock, False)
updateClickHandler :: BlockOutput -> Click -> IO ()
-- Give user feedback that the block is updating
let outdatedBlock = setColor updatingColor $ removePango block
void $ atomically $ send output $ outdatedBlock
-- Notify bar about changed block state to display the feedback
updateBar barUpdateChannel
-- Run a normal block update to update the block to the new value
void $ runClient (blockProducerMVar, output)
-- Notify bar about changed block state, this is usually done by the shared interval handler
updateBar barUpdateChannel
addClient :: MVar [(MVar PullBlock, Output BlockOutput)] -> PullBlock -> CachedBlock
addClient clientsMVar blockProducer = do
-- Spawn the mailbox that preserves the latest block
(output, input) <- lift $ spawn $ latest emptyBlock
blockProducerMVar <- lift $ newMVar blockProducer
-- Generate initial block and send it to the mailbox
lift $ void $ runClient (blockProducerMVar, output)
-- Register the client for regular updates
lift $ modifyMVar_ clientsMVar $ \ clients -> return ((blockProducerMVar, output):clients)
-- Return a block producer from the mailbox
blockScript :: FilePath -> PullBlock
blockScript path = forever $ yield =<< (lift $ blockScriptAction)
blockScriptAction :: IO BlockOutput
blockScriptAction = do
-- The exit code is used for i3blocks signaling but ignored here (=not implemented)
-- I am trying to replace i3blocks scripts with native haskell blocks, so I do not need it
(exitCode, output) <- readProcessStdout $ shell path
case exitCode of
ExitSuccess -> return $ case map E.decodeUtf8 (C8.lines output) of
(text:short:color:_) -> setColor color $ shortText short $ createScriptBlock text
(text:short:_) -> shortText short $ createScriptBlock text
(text:_) -> createScriptBlock text
[] -> createScriptBlock "-"
(ExitFailure nr) -> return $ createErrorBlock $ "[" <> (T.pack $ show nr) <> "]"
createScriptBlock text = pangoMarkup $ setBlockName (T.pack path) $ createBlock text
startPersistentBlockScript :: BarUpdateChannel -> FilePath -> CachedBlock
-- This is only using 'CachedBlock' because the code was already written and tested
-- This could probably be massively simplified by using the new 'pushBlock'
startPersistentBlockScript barUpdateChannel path = do
(output, input, seal) <- lift $ spawn' $ latest $ emptyBlock
initialDataEvent <- lift $ Event.new
task <- lift $ async $ do
let processConfig = setStdin closed $ setStdout createPipe $ shell path
finally (
catch (
withProcessWait processConfig $ \ process -> do
let handle = getStdout process
runEffect $ (fromHandle handle) >-> signalFirstBlock initialDataEvent >-> toOutput output
)
( \ e ->
-- output error
runEffect $ (yield $ createErrorBlock $ "[" <> (T.pack $ show (e :: IOException)) <> "]") >-> signalFirstBlock initialDataEvent >-> toOutput output
)
)
(atomically seal)
lift $ link task
lift $ Event.wait initialDataEvent
signalFirstBlock :: Event.Event -> Pipe BlockOutput BlockOutput IO ()
signalFirstBlock event = do
-- Await first block
await >>= yield
lift $ Event.set event
-- Replace with cat
cat
fromHandle :: Handle -> Producer BlockOutput IO ()
fromHandle handle = forever $ do
line <- lift $ TIO.hGetLine handle
yield $ pangoMarkup $ createBlock line
lift $ updateBar barUpdateChannel
pangoColor :: RGB Double -> T.Text
pangoColor (RGB r g b) =
let r' = hexColorComponent r
g' = hexColorComponent g
b' = hexColorComponent b
in "#" <> r' <> g' <> b'
where
hexColorComponent :: Double -> T.Text
hexColorComponent val = paddedHexComponent $ T.pack $ showHex (max 0 $ min 255 $ (truncate (val * 255) :: Int)) ""
paddedHexComponent hex =
let len = 2 - T.length hex
padding = if len == 1 then "0" else ""
in padding <> hex
updateBar :: BarUpdateChannel -> IO ()
updateBar (BarUpdateChannel updateAction) = updateAction
cachePushBlock :: BarUpdateChannel -> PushBlock -> CachedBlock
cachePushBlock barUpdateChannel pushBlock =
lift (next pushBlock) >>= either (\_ -> exitBlock) withInitialBlock
withInitialBlock :: (BlockOutput, PushBlock) -> CachedBlock
withInitialBlock (initialBlockOutput, pushBlock') = do
(output, input, seal) <- lift $ spawn' $ latest $ Just initialBlockOutput
-- The async could be used to stop the block later, but for now we are just linking it to catch exceptions
lift $ link =<< async (sendProducerToMailbox output seal pushBlock')
terminateOnMaybe $ fromInput input
sendProducerToMailbox :: Output (Maybe BlockOutput) -> STM () -> PushBlock -> IO ()
sendProducerToMailbox output seal pushBlock' = do
void $ runEffect $ for pushBlock' (sendOutputToMailbox output)
atomically $ void $ send output Nothing
updateBar barUpdateChannel
sendOutputToMailbox :: Output (Maybe BlockOutput) -> BlockOutput -> Effect IO ()
sendOutputToMailbox output blockOutput = lift $ do
-- The void is discarding the boolean result that indicates if the mailbox is sealed
-- This is ok because a cached block is never sealed from the receiving side
atomically $ void $ send output $ Just blockOutput
updateBar barUpdateChannel
terminateOnMaybe :: Producer (Maybe BlockOutput) IO () -> Producer BlockOutput IO CachedMode
terminateOnMaybe p = do
eitherMaybeValue <- lift $ next p
case eitherMaybeValue of
Right (Just value, newP) -> yield value >> terminateOnMaybe newP