import Control.Concurrent (forkIO, threadDelay)
import Control.Monad (forever, when)
+import Data.Aeson (decode)
+import Data.List ((\\))
+import Data.Monoid ((<>))
+import Data.Time.LocalTime (TimeZone, getCurrentTimeZone)
import System.Exit (ExitCode(..), exitWith)
-import System.Time (getClockTime)
import System.IO (hPutStrLn, stderr)
import CommandLine
-import ExitCodes
-import Mail
+import Configuration (Cfg(..), default_config, merge_optional)
+import ExitCodes (exit_no_usernames)
+import qualified OptionalConfiguration as OC
+import Mail (
+ Message(..),
+ default_headers,
+ print_sendmail_result,
+ rfc822_now,
+ sendmail
+ )
import Twitter.Http
import Twitter.Status
import Twitter.User
--- |The length of all calls to sleep (or threadDelay), in seconds.
-heartbeat :: Int
-heartbeat = 600
-
--- |A wrapper around threadDelay which takes seconds instead of
--- microseconds as its argument.
+-- | A wrapper around threadDelay which takes seconds instead of
+-- microseconds as its argument.
thread_sleep :: Int -> IO ()
thread_sleep seconds = do
let microseconds = seconds * (10 ^ (6 :: Int))
threadDelay microseconds
--- |Given a 'Message', 'Status', and date, update that message's body
+-- | Given a 'Message', 'Status', and date, update that message's body
-- and subject with the information contained in the status. Adds a
-- /Date: / header, and returns the updated message.
-message_from_status :: Message -> String -> Status -> Message
-message_from_status message date status =
- message { subject = "Twat: " ++ (screen_name (user status)),
- body = (pretty_print status),
- headers = ((headers message) ++ ["Date: " ++ date])}
-
-
--- |This is the main recursive loop. It takes a username, a
--- latest_status_id, and optionally a 'Message' as arguments. The
--- latest_status_id is the last status (that we know of) to be posted
--- to username's Twitter account. If we find any newer statuses when
--- we check, they are printed and optionally emailed (if a 'Message'
--- was supplied). Then, the process repeats.
-recurse :: String -> Integer -> (Maybe Message) -> IO ()
-recurse username latest_status_id maybe_message = do
- thread_sleep heartbeat
- xmldata <- get_user_new_statuses username latest_status_id
-
- -- Parsing an empty result can blow up. Just pretend there are
- -- no new statuses in that case.
- let new_statuses = case xmldata of
- Just xml -> parse_statuses xml
- Nothing -> []
-
- case (length new_statuses) of
- 0 ->
- recurse username latest_status_id maybe_message
- _ -> do
- let new_latest_status_id = get_max_status_id new_statuses
- mapM (putStrLn . pretty_print) new_statuses
-
- case maybe_message of
- Nothing -> do
- recurse username new_latest_status_id maybe_message
- return ()
- Just message -> do
- date <- getClockTime
- let messages = map (message_from_status message (show date)) new_statuses
- sendmail_results <- mapM sendmail messages
- mapM print_sendmail_result sendmail_results
- recurse username new_latest_status_id maybe_message
- return ()
-
-
--- |Try continually to download username's timeline, and determine the
--- latest status id to be posted once we have done so.
-get_latest_status_id :: String -> IO Integer
-get_latest_status_id username = do
- xmldata <- get_user_timeline username
-
- let initial_statuses = case xmldata of
- Just xml -> parse_statuses xml
- Nothing -> []
-
- case (length initial_statuses) of
+message_from_status :: Maybe TimeZone -> Message -> String -> Status -> Message
+message_from_status mtz message default_date status =
+ message { subject = "Twat: " ++ (screen_name (user status)),
+ body = (pretty_print mtz status),
+ headers = ((headers message) ++ ["Date: " ++ date])}
+ where
+ date =
+ case created_at status of
+ Nothing -> default_date
+ Just c -> utc_time_to_rfc822 mtz c
+
+-- | If the given Message is not Nothing, send a copy of it for every
+-- Status in the list.
+send_messages :: Cfg -> Maybe TimeZone -> Maybe Message -> [Status] -> IO ()
+send_messages cfg mtz maybe_message statuses =
+ case maybe_message of
+ Nothing -> return ()
+ Just message -> do
+ default_date <- rfc822_now
+ let mfs = message_from_status mtz message default_date
+ let messages = map mfs statuses
+ sendmail_results <- mapM sendmail' messages
+ _ <- mapM print_sendmail_result sendmail_results
+ return ()
+ where
+ sendmail' = sendmail (sendmail_path cfg)
+
+-- | Display the number of skipped replies if ignore_replies is true
+-- and verbose is enabled.
+mention_replies :: Cfg -> [Status] -> IO ()
+mention_replies cfg ss = do
+ let replies = filter reply ss
+ when ((ignore_replies cfg) && (verbose cfg)) $ do
+ let countstr = show $ length replies
+ putStrLn $ "Ignoring " ++ countstr ++ " replies."
+
+
+-- | Display the number of skipped retweets if ignore_retweets is true
+-- and verbose is enabled.
+mention_retweets :: Cfg -> [Status] -> IO ()
+mention_retweets cfg ss = do
+ let retweets = filter retweeted ss
+ when ((ignore_retweets cfg) && (verbose cfg)) $ do
+ let countstr = show $ length retweets
+ putStrLn $ "Ignoring " ++ countstr ++ " retweets."
+
+
+
+-- | Filter out replies/retweets based on the configuration.
+filter_statuses :: Cfg -> [Status] -> [Status]
+filter_statuses cfg ss =
+ good_statuses
+ where
+ replies = filter reply ss
+ retweets = filter retweeted ss
+
+ good_statuses' = if (ignore_replies cfg)
+ then ss \\ replies
+ else ss
+
+ good_statuses = if (ignore_retweets cfg)
+ then good_statuses' \\ retweets
+ else good_statuses'
+
+
+
+-- | This is the main recursive loop. It takes a the configuration, a
+-- username, a latest_status_id, and optionally a 'Message' as
+-- arguments. The latest_status_id is the last status (that we know
+-- of) to be posted to username's Twitter account. If we find any
+-- newer statuses when we check, they are printed and optionally
+-- emailed (if a 'Message' was supplied). Then, the process repeats.
+recurse :: Cfg -> String -> Integer -> (Maybe Message) -> IO ()
+recurse cfg username latest_status_id maybe_message = do
+ thread_sleep (heartbeat cfg)
+ timeline <- get_user_new_statuses cfg username latest_status_id
+
+ -- FIXME
+ let Just new_statuses = decode timeline :: Maybe Timeline
+
+ case (length new_statuses) of
+ 0 ->
+ do_recurse latest_status_id
+ _ -> do
+
+ mention_replies cfg new_statuses
+ mention_retweets cfg new_statuses
+
+ let good_statuses = filter_statuses cfg new_statuses
+
+ tz <- getCurrentTimeZone
+ let mtz = Just tz
+ mapM_ (putStrLn . (pretty_print mtz)) good_statuses
+
+ send_messages cfg mtz maybe_message good_statuses
+
+ let new_latest_status_id = get_max_status_id new_statuses
+ do_recurse new_latest_status_id
+
+ where
+ -- This lets us write all of these parameters once rather
+ -- than... more than once.
+ do_recurse :: Integer -> IO ()
+ do_recurse lsi = recurse cfg username lsi maybe_message
+
+
+-- | Try continually to download username's timeline, and determine the
+-- latest status id to be posted once we have done so.
+get_latest_status_id :: Cfg -> String -> IO Integer
+get_latest_status_id cfg username = do
+ let delay = heartbeat cfg
+ timeline <- get_user_timeline cfg username
+ let Just initial_timeline = decode timeline :: Maybe Timeline
+
+ case (length initial_timeline) of
0 -> do
-- If the HTTP part barfs, try again after a while.
putStrLn ("Couldn't retrieve " ++ username ++ "'s timeline. Retrying...")
- thread_sleep heartbeat
- get_latest_status_id username
- _ -> return (get_max_status_id initial_statuses)
+ thread_sleep delay
+ get_latest_status_id cfg username
+ _ -> return (get_max_status_id initial_timeline)
--- |This function wraps two steps. First, we need to find the latest
--- status id posted by username. Once we have that, we can begin the
--- recursive loop that checks for updates forever. The message
--- argument is optional and is passed to recurse in case the updates
--- should be emailed.
-run_twat :: Maybe Message -> String -> IO ()
-run_twat message username = do
- latest_status_id <- get_latest_status_id username
- recurse username latest_status_id message
+-- | This function wraps two steps. First, we need to find the latest
+-- status id posted by username. Once we have that, we can begin the
+-- recursive loop that checks for updates forever. The message
+-- argument is optional and is passed to recurse in case the updates
+-- should be emailed.
+run_twat :: Cfg -> Maybe Message -> String -> IO ()
+run_twat cfg msg username = do
+ latest_status_id <- get_latest_status_id cfg username
+ recurse cfg username latest_status_id msg
return ()
+
+-- | Take advantage of the Maybe monad to only return a message when
+-- we have both a "to" and "from" address.
+construct_message :: Cfg -> Maybe Message
+construct_message cfg = do
+ to_addr <- to_address cfg
+ from_addr <- from_address cfg
+ return $ make_msg to_addr from_addr
+ where
+ make_msg t f = Message { headers = default_headers,
+ body = "",
+ subject = "",
+ to = t,
+ from = f }
+
-- |The main function just parses the command-line arguments and then
-- forks off calls to 'run_twat' for each supplied username. After
-- forking, main loops forever.
main :: IO ()
main = do
- errors <- parse_errors
+ -- And a Cfg object.
+ rc_cfg <- OC.from_rc
+ cmd_cfg <- apply_args
- -- If there were errors parsing the command-line options,
- -- print them and exit.
- when (not (null errors)) $ do
- hPutStrLn stderr (concat errors)
- putStrLn help_text
- exitWith (ExitFailure exit_args_parse_failed)
+ -- Merge the config file options with the command-line ones,
+ -- prefering the command-line ones.
+ let opt_config = rc_cfg <> cmd_cfg
- -- Next, check to see if the 'help' option was passed to the
- -- program. If it was, display the help, and exit successfully.
- help_opt_set <- help_set
- when help_opt_set $ do
- putStrLn help_text
- exitWith ExitSuccess
+ -- Finally, update a default config with any options that have been
+ -- set in either the config file or on the command-line.
+ let cfg = merge_optional default_config opt_config
- usernames <- parse_usernames
+ when (null $ usernames cfg) $ do
+ hPutStrLn stderr "ERROR: no usernames supplied."
+ _ <- show_help
+ exitWith (ExitFailure exit_no_usernames)
-- If we have both a "To" and "From" address, we'll create a
-- message object to be passed to all of our threads.
- to_address <- to_email_address
- from_address <- from_email_address
- let message = case to_address of
- Nothing -> Nothing
- Just toaddr ->
- case from_address of
- Nothing -> Nothing
- Just fromaddr ->
- Just (Message { headers = [],
- body = "",
- subject = "",
- to = toaddr,
- from = fromaddr })
+ let message = construct_message cfg
-- Execute run_twat on each username in a new thread.
- mapM (forkIO . (run_twat message)) usernames
+ let run_twat_curried = run_twat cfg message
+ _ <- mapM (forkIO . run_twat_curried) (usernames cfg)
- forever $ do
+ _ <- forever $
-- This thread (the one executing main) doesn't do anything,
-- but when it terminates, so do all the threads we forked.
-- As a result, we need to keep this thread on life support.
- thread_sleep heartbeat
+ thread_sleep (heartbeat cfg)
return ()