{-# LANGUAGE OverloadedStrings #-} module Network.XMPP.Monad where import Control.Applicative((<$>)) import Control.Monad import Control.Monad.IO.Class import Control.Monad.Trans.Class import Control.Monad.Trans.Resource import Control.Monad.Trans.State import Data.ByteString as BS import Data.Text(Text) import Data.Conduit import Data.Conduit.Binary as CB import Data.Conduit.Hexpat as CH import Data.Conduit.List as CL import Data.Conduit.Text as CT import Data.Conduit.TLS import Data.XML.Pickle import Data.XML.Types --import Text.XML.Stream.Parse as XP import Text.XML.Stream.Render as XR import Text.XML.Stream.Elements import qualified Data.Text as Text import Network.XMPP.Types import Network.XMPP.Marshal import Network.XMPP.Pickle import System.IO pushN :: Element -> XMPPMonad () pushN x = do sink <- gets sConPush lift . sink $ elementToEvents x push :: Stanza -> XMPPMonad () push = pushN . pickleElem stanzaP pushOpen :: Element -> XMPPMonad () pushOpen e = do sink <- gets sConPush lift . sink $ openElementToEvents e return () pulls :: Sink Event (ResourceT IO) a -> XMPPMonad a pulls snk = do source <- gets sConSrc lift $ source $$ snk pullE :: XMPPMonad Element pullE = pulls elementFromEvents pullPickle :: Show b => PU [Node] b -> XMPPMonad b pullPickle p = unpickleElem p <$> pullE pull :: XMPPMonad Stanza pull = pullPickle stanzaP xmppFromHandle :: Handle -> Text -> Text -> Maybe Text -> XMPPMonad a -> IO (a, XMPPState) xmppFromHandle handle hostname username resource f = runResourceT $ do liftIO $ hSetBuffering handle NoBuffering raw <- bufferSource $ CB.sourceHandle handle src <- bufferSource $ raw $= CH.parseBS defaultParseOptions let st = XMPPState src raw (\xs -> CL.sourceList xs $$ XR.renderBytes def =$ CB.sinkHandle handle) (BS.hPut handle) (Just handle) def False hostname username resource runStateT f st