- let regexes = map cidr_to_regex cidrs
- putStrLn $ alternate regexes
- Reduce -> do
- mapM (putStrLn . show) (combine_all cidrs)
- return ()
+ let regexes = map cidr_to_regex valid_cidrs
+ putStrLn $ alternate regexes
+ Reduce ->
+ mapM_ print (combine_all valid_cidrs)
+ Dupe ->
+ mapM_ print dupes
+ where
+ dupes = valid_cidrs \\ (combine_all valid_cidrs)
+ Diff -> do
+ mapM_ putStrLn deletions
+ mapM_ putStrLn additions
+ where
+ dupes = valid_cidrs \\ (combine_all valid_cidrs)
+ deletions = map (\s -> '-' : (show s)) dupes
+ newcidrs = (combine_all valid_cidrs) \\ valid_cidrs
+ additions = map (\s -> '+' : (show s)) newcidrs
+ List -> do
+ let combined_cidrs = combine_all valid_cidrs
+ let addrs = concatMap enumerate combined_cidrs
+ mapM_ print addrs
+ Reverse -> do
+ let combined_cidrs = combine_all valid_cidrs
+ let addrs = concatMap enumerate combined_cidrs
+ let addr_bytestrings = map (BS.pack . show) addrs
+ ptrs <- lookup_ptrs addr_bytestrings
+ let pairs = zip addr_bytestrings ptrs
+ _ <- parallel (map (putStrLn . show_pair) pairs)
+ return ()
+
+ stopGlobalPool
+
+ where
+ show_pair :: (Domain, Maybe [Domain]) -> String
+ show_pair (s, mds) =
+ (BS.unpack s) ++ ": " ++ results
+ where
+ space = BS.pack " "
+ results =
+ case mds of
+ Nothing -> ""
+ Just ds -> BS.unpack $ BS.intercalate space ds