Move most of the report functionality into its own module.

[mailbox-count.git] / src / Main.hs

diff --git a/src/Main.hs b/src/Main.hs
index af0911394cc8c84f260a48de5a0dae9d870d4c4e..b52bf504c02da2592670be05e44c1102a04dd413 100644 (file)
--- a/src/Main.hs
+++ b/src/Main.hs
@@ -1,178 +1,14 @@
-{-# LANGUAGE PatternGuards #-}
-
 module Main
 where
 
-import Data.List ( foldl' )
-import qualified Data.Map as Map ( Map, alter, empty )
-import Data.Maybe ( catMaybes )
 import Data.Monoid ( (<>) )
-import Database.HDBC (
-  IConnection,
-  SqlValue,
-  disconnect,
-  safeFromSql,
-  quickQuery )
 import Database.HDBC.PostgreSQL ( connectPostgreSQL )
 import System.Console.CmdArgs ( def )
 
 import CommandLine ( get_args )
 import Configuration ( Configuration(..), merge_optional )
 import qualified OptionalConfiguration as OC ( from_rc )
-
-type Domain = String
-type Username = String
-type Count = Int
-
--- | A wrapper around a (domain, count) pair to keep things type-safe.
-data DomainCount = DomainCount Domain Count
-
-instance Show DomainCount where
-  -- | Display a DomainCount in the form \"domain: count\".
-  --
-  --   Examples:
-  --
-  --   >>> let dc = DomainCount "example.com" 100
-  --   >>> show dc
-  --   "example.com: 100"
-  --
-  show (DomainCount domain count) = domain ++ ": " ++ (show count)
-
-
--- | A wrapper around a (domain, user) pair to keep things type-safe.
-data DomainUser =
-  DomainUser Domain Username
-  deriving (Show)
-
-
--- | In the detailed report, we store the usernames as a map from a
---   domain name to a list of usernames. This type synonym is the type
---   of that map.
-type DomainUserMap = Map.Map Domain [Username]
-
-
--- | Convert a list of [SqlByteString, SqlInt32] to 'DomainCount's. If
---   the conversion doesn't work for some reason (bad data, not enough
---   columns, etc.), we return 'Nothing'.
---
---   Examples:
---
---   >>> import Database.HDBC ( iToSql, toSql )
---
---   >>> list_to_domain_count [toSql "example.com", iToSql 100]
---   Just example.com: 100
---
---   >>> list_to_domain_count [toSql "example.com"]
---   Nothing
---
---   >>> list_to_domain_count [toSql "example.com", toSql "example.com"]
---   Nothing
---
-list_to_domain_count :: [SqlValue] -> Maybe DomainCount
-list_to_domain_count (domain:count:_)
-  | Right d <- safeFromSql domain,
-    Right c <- safeFromSql count = Just $ DomainCount d c
-list_to_domain_count _ =
-  Nothing
-
-
--- | Convert a list of [SqlByteString, SqlByteString] to 'DomainUser's. If
---   the conversion doesn't work for some reason (bad data, not enough
---   columns, etc.), we return 'Nothing'.
---
---   Examples:
---
---   >>> import Database.HDBC ( toSql )
---   >>>
---   >>> list_to_domain_user [toSql "example.com", toSql "user1"]
---   Just (DomainUser "example.com" "user1")
---
---   >>> list_to_domain_user [toSql "example.com"]
---   Nothing
---
-list_to_domain_user :: [SqlValue] -> Maybe DomainUser
-list_to_domain_user (domain:user:_)
-  | Right d <- safeFromSql domain,
-    Right u <- safeFromSql user = Just $ DomainUser d u
-list_to_domain_user _ =
-  Nothing
-
-
-report_summary :: IConnection a => a -> IO String
-report_summary conn = do
-  list_rows <- quickQuery conn query []
-  let maybe_domain_counts = map list_to_domain_count list_rows
-  let domain_counts = catMaybes maybe_domain_counts
-  return $ header ++ (concatMap show domain_counts)
-  where
-    header = "mailbox-count summary report" ++
-             "----------------------------"
-
-    query = "SELECT domain,COUNT(username) " ++
-            "FROM mailbox " ++
-            "GROUP BY domain "++
-            "ORDER BY domain;"
-
-
--- | Construct a Domain -> [Username] (a DomainUserMap) map from a
---   list of 'DomainUser's. We do this with a fold over the list of
---   'DomainUser's, appending each new user to the list associated
---   with the domain that the user is paired with.
---
---   The [Username] lists (the values stored in the map) are kept in
---   the same order as they are given.
---
---   Examples:
---
---   >>> let du1 = DomainUser "example.com" "user1"
---   >>> let du2 = DomainUser "example.com" "user2"
---   >>> let du3 = DomainUser "example.net" "user3"
---   >>> construct_domain_user_map [du1,du2,du3]
---   fromList [("example.com",["user1","user2"]),("example.net",["user3"])]
---
---   >>> construct_domain_user_map [du2,du1,du3]
---   fromList [("example.com",["user2","user1"]),("example.net",["user3"])]
---
-construct_domain_user_map :: [DomainUser] -> DomainUserMap
-construct_domain_user_map dus =
-  foldl' append_this_du Map.empty dus
-  where
-    append_func :: Username -> (Maybe [Username]) -> (Maybe [Username])
-    append_func user maybe_userlist =
-      case maybe_userlist of
-        Just userlist -> Just (userlist ++ [user])
-        Nothing       -> Just [user]
-
-    append_this_du :: DomainUserMap -> DomainUser -> DomainUserMap
-    append_this_du du_map (DomainUser domain user) =
-      Map.alter (append_func user) domain du_map
-
-
-report_detail :: IConnection a => a -> IO String
-report_detail conn = do
-  list_rows <- quickQuery conn query []
-  let maybe_domain_users = map list_to_domain_user list_rows
-  let domain_users = catMaybes maybe_domain_users
-  let domain_users_map = construct_domain_user_map domain_users
-  return ""
-  where
-    query = "SELECT domain,username " ++
-            "FROM mailbox " ++
-            "ORDER BY domain;"
-
-
-report_both :: IConnection a => a -> IO String
-report_both conn = do
-  rs <- report_summary conn
-  rd <- report_detail conn
-  return (rs ++ rd)
-
-report :: IConnection a => a -> Bool -> Bool -> IO String
-report conn do_both do_detail =
-  if do_both
-  then (report_both conn)
-  else if do_detail then (report_detail conn) else (report_summary conn)
-
+import Report ( report )
 
 connection_string :: Configuration -> String
 connection_string cfg =
@@ -209,4 +45,4 @@ main = do
   conn <- connectPostgreSQL (connection_string cfg)
   r <- report conn (both cfg) (detail cfg)
   putStrLn r
-  disconnect conn
+--  disconnect conn