{-# LANGUAGE OverloadedStrings, PatternSynonyms, ViewPatterns #-}
module Internal.Load(load, load', back, next, parseAbsoluteURI) where
import Internal
import Control.Concurrent.MVar
import System.Timeout (timeout)
import Control.Monad.IO.Class
import Data.Aeson
import Data.Text (Text, pack)
import qualified Data.Text as Txt
import Data.Text.Lazy (fromStrict)
import GHC.Generics
import Data.Maybe (fromMaybe)
import qualified Data.ByteString.Lazy as B (toStrict)
import qualified Data.HashMap.Strict as HM
import Network.URI as URI
import Network.URI.Fetch as URI
import Network.URI.Charset (convertCharset)
import qualified Text.HTML.DOM as HTML
import qualified Text.XML as XML
import qualified Data.Map as M
mime = words "text/html text/xml application/xml application/xhtml+xml text/plain"
load' :: Internal.Session -> URI -> IO ()
load' session uri = modifyMVar_ session $ \session' -> maybeTimeout session' uri $ do
resp@(redirected, _, _) <- fetchURL' (loader session') mime uri
return $ session' { currentURL = redirected, document = parseDocument resp, knownEls = HM.empty }
maybeTimeout :: Session' -> URI -> IO Session' -> IO Session'
maybeTimeout session uri act | currentURL session /= uri, Just delay <- pageLoad $ timeouts session =
-- WebDriver deals in terms of milliseconds, I think?, Haskell deals in terms of microseconds.
fromMaybe session <$> timeout (delay * 1000) act
maybeTimeout _ _ act = act
---
load :: Internal.Session -> URI -> IO ()
load session uri = do
modifyMVar_ session $ return . inner
load' session uri
where
inner session'@Session {backStack = backStack', currentURL = currentURL' } =
session' { backStack = currentURL' : backStack' }
back :: Internal.Session -> IO ()
back session = do
uri <- modifyMVar session $ return . inner
load' session uri
where
inner session'@Session { backStack = b:bs, currentURL = n, nextStack = ns } =
(session' { backStack = bs, nextStack = n:ns }, b)
next :: Internal.Session -> IO ()
next session = do
uri <- modifyMVar session $ return . inner
load' session uri
where
inner session'@Session { backStack = bs, currentURL = b, nextStack = n:ns } =
(session' { backStack = b:bs, nextStack = ns }, n)
---
parseDocument (uri, "html/x-error\t", resp) = parseDocument (uri, "text/html", resp)
parseDocument (_, "text/html", Left text) = HTML.parseLT $ fromStrict text
parseDocument (_, "text/html", Right bytes) = HTML.parseLBS bytes
parseDocument (uri, mime, resp) | mime /= mime' = parseDocument (uri, mime', resp)
where mime' = takeWhile (/= ';') mime
parseDocument (_, _, Left text)
| Right doc <- XML.parseText XML.def $ fromStrict text = doc
| otherwise = pageForText text
parseDocument (_, _, Right bytes) | Right doc <- XML.parseLBS XML.def bytes = doc
parseDocument (_, 't':'e':'x':'t':'/':_, Right bytes) = pageForText $ utf8' bytes -- charset wasn't specified, so assume utf-8.
parseDocument (_, mime, Right _) = pageForText $ pack ('(':mime ++ " binary data)")
pageForText txt = XML.Document {
XML.documentPrologue = XML.Prologue [] Nothing [],
XML.documentRoot = XML.Element {
XML.elementName = "pre",
XML.elementAttributes = M.empty,
XML.elementNodes = [XML.NodeContent txt]
},
XML.documentEpilogue = []
}
utf8' bytes = convertCharset "utf-8" $ B.toStrict bytes
--------
---- Gemini implementation
--------
-- Copied from css-syntax.
pattern (:.) :: Char -> Txt.Text -> Txt.Text
pattern x :. xs <- (Txt.uncons -> Just (x, xs))
infixr 5 :.
el name text = XML.Element name M.empty [XML.NodeContent text]
parseGemini :: Maybe String -> Txt.Text -> XML.Document
parseGemini lang txt = XML.Document {
XML.documentPrologue = XML.Prologue [] Nothing [],
XML.documentRoot = XML.Element {
XML.elementName = "body",
XML.elementAttributes = M.fromList [
("lang", Txt.pack lang') | Just langs <- [lang], lang' <- [csv langs]],
XML.elementNodes = map XML.NodeElement $ parseGemini' $ Txt.lines txt
},
XML.documentEpilogue = []
}
csv (',':_) = ""
csv (c:rest) = c:csv rest
csv "" = ""
parseGemini' :: [Txt.Text] -> [XML.Element]
parseGemini' (('#':.'#':.'#' :. '#':.'#':.'#':.line):lines) =
el "h6" line : parseGemini' lines
parseGemini' (('#':.'#':.'#' :. '#':.'#':.line):lines) =
el "h5" line : parseGemini' lines
parseGemini' (('#':.'#':.'#' :. '#':.line):lines) =
el "h4" line : parseGemini' lines
parseGemini' (('#':.'#':.'#':.line):lines) = el "h3" line : parseGemini' lines
parseGemini' (('#':.'#':.line):lines) = el "h2" line : parseGemini' lines
parseGemini' (('#':.line):lines) = el "h1" line : parseGemini' lines
-- Not properly structured, but still sounds fine...
parseGemini' (('*':.line):lines) = el "li" line : parseGemini' lines
parseGemini' (('>':.line):lines) = el "blockquote" line : parseGemini' lines
parseGemini' (('=':.'>':.line):lines)
| (url:text@(_:_)) <- Txt.words line = (el "a" $ Txt.unwords text) {
XML.elementAttributes = M.insert "href" url M.empty
} : parseGemini' lines
| otherwise = (el "a" $ Txt.strip line) {
XML.elementAttributes = M.insert "href" (Txt.strip line) M.empty
} : parseGemini' lines
parseGemini' (('`':.'`':.'`':.line):lines) = el "p" line : go lines
where
go (('`':.'`':.'`':._):lines) = parseGemini' lines
go (_:lines) = go lines
go [] = []
parseGemini' ("```":lines) = go [] lines
where
go texts (('`':.'`':.'`':._):lines) =
el "pre" (Txt.unlines texts) : parseGemini' lines
go texts (line:lines) = go (texts ++ [line]) lines
go texts [] = []
parseGemini' (line:lines) = el "p" line : parseGemini' lines
parseGemini' [] = []