{-# LANGUAGE PatternGuards, RecordWildCards #-} module System.Console.CmdArgs.Implicit.Global(global) where import System.Console.CmdArgs.Implicit.Local import System.Console.CmdArgs.Implicit.Reform import System.Console.CmdArgs.Implicit.Type import System.Console.CmdArgs.Explicit import System.Console.CmdArgs.Text import System.Console.CmdArgs.Default import Control.Arrow import Control.Monad import Data.Char import Data.Function import Data.Generics.Any import Data.List import Data.Maybe global :: Prog_ -> Mode (CmdArgs Any) global x = setReform (reform y) $ setHelp y $ setProgOpts x $ collapse $ assignGroups y where y = assignNames $ extraFlags x setProgOpts :: Prog_ -> Mode a -> Mode a setProgOpts p m = m{modeExpandAt = not $ progNoAtExpand p ,modeGroupModes = fmap (setProgOpts p) $ modeGroupModes m} --------------------------------------------------------------------- -- COLLAPSE THE FLAGS/MODES UPWARDS collapse :: Prog_ -> Mode (CmdArgs Any) collapse x | length ms == 1 = (snd $ head ms){modeNames=[progProgram x]} | length auto > 1 = err "prog" "Multiple automatic modes" | otherwise = (head $ map zeroMode auto ++ map (emptyMode . snd) ms) {modeNames=[progProgram x], modeGroupModes=grouped, modeHelp=progHelp x} where grouped = Group (pick Nothing) [] [(g, pick $ Just g) | g <- nub $ mapMaybe (modeGroup . fst) ms] pick x = [m | (m_,m) <- ms, modeGroup m_ == x] ms = map (id &&& collapseMode) $ progModes x auto = [m | (m_,m) <- ms, modeDefault m_] -- | A mode devoid of all it's contents emptyMode :: Mode (CmdArgs Any) -> Mode (CmdArgs Any) emptyMode x = x {modeCheck = \x -> if cmdArgsHasValue x then Left "No mode given and no default mode" else Right x ,modeGroupFlags = groupUncommonDelete $ modeGroupFlags x ,modeArgs=([],Nothing), modeHelpSuffix=[]} -- | A mode whose help hides all it's contents zeroMode :: Mode (CmdArgs Any) -> Mode (CmdArgs Any) zeroMode x = x {modeGroupFlags = groupUncommonHide $ modeGroupFlags x ,modeArgs = let zeroArg x = x{argType=""} in map zeroArg *** fmap zeroArg $ modeArgs x ,modeHelpSuffix=[]} collapseMode :: Mode_ -> Mode (CmdArgs Any) collapseMode x = applyFixups (map flagFixup $ modeFlags_ x) $ collapseArgs [x | x@Arg_{} <- modeFlags_ x] $ collapseFlags [x | x@Flag_{} <- modeFlags_ x] $ modeMode x applyFixups :: [Fixup] -> Mode (CmdArgs Any) -> Mode (CmdArgs Any) applyFixups xs m = m{modeCheck = either Left (Right . fmap fix) . modeCheck m} where fix a = foldr ($) a [x | Fixup x <- xs] collapseFlags :: [Flag_] -> Mode (CmdArgs Any) -> Mode (CmdArgs Any) collapseFlags xs x = x{modeGroupFlags = Group (pick Nothing) [] [(g, pick $ Just g) | g <- groups]} where pick x = map flagFlag $ filter ((==) x . flagGroup) xs groups = nub $ mapMaybe flagGroup xs collapseArgs :: [Flag_] -> Mode (CmdArgs Any) -> Mode (CmdArgs Any) collapseArgs [] x = x collapseArgs xs x = x{modeCheck=chk, modeArgs = ([], Just $ flagArg upd hlp)} where argUpd = argValue . flagArg_ (ord,rep) = orderArgs xs mn = length $ dropWhile (isJust . flagArgOpt) $ reverse ord chk v | not $ cmdArgsHasValue v = Right v | n < mn = Left $ "Requires at least " ++ show mn ++ " arguments, got " ++ show n | otherwise = foldl f (addOptArgs n v) (drop n ord) where n = getArgsSeen v f (Right v) arg = argUpd arg (fromJust $ flagArgOpt arg) v f x _ = x -- if we have repeating args which is also opt, translate that here addOptArgs n v | Just x <- rep, Just o <- flagArgOpt x, Just n <= findIndex (isNothing . flagArgPos) (ord ++ [x]) = argUpd x o v | otherwise = Right v hlp = unwords $ a ++ map (\x -> "["++x++"]") b where (a,b) = splitAt mn $ map (argType . flagArg_) $ ord ++ maybeToList rep upd s v | n < length ord = argUpd (ord !! n) s v2 | Just x <- rep = argUpd x s v2 | otherwise = Left $ "expected at most " ++ show (length ord) where n = getArgsSeen v v2 = incArgsSeen v -- return the arguments in order, plus those at the end orderArgs :: [Flag_] -> ([Flag_], Maybe Flag_) orderArgs args = (f 0 ord, listToMaybe rep) where (rep,ord) = span (isNothing . flagArgPos) $ sortBy (compare `on` flagArgPos) args f i [] = [] f i (x:xs) = case fromJust (flagArgPos x) `compare` i of LT -> f i xs EQ -> x : f (i+1) xs GT -> take 1 rep ++ f (i+1) (x:xs) --------------------------------------------------------------------- -- DEAL WITH GROUPS assignGroups :: Prog_ -> Prog_ assignGroups p = assignCommon $ p{progModes = map (\m -> m{modeFlags_ = f Nothing $ modeFlags_ m}) $ progModes p} where f grp [] = [] f grp (x@Flag_{}:xs) = x{flagGroup=grp2} : f grp2 xs where grp2 = flagGroup x `mplus` grp f grp (x:xs) = x : f grp xs assignCommon :: Prog_ -> Prog_ assignCommon p = p{progModes = [m{modeFlags_ = [if isFlag_ f && show (flagFlag f) `elem` com then f{flagGroup = Just commonGroup} else f | f <- modeFlags_ m]} | m <- progModes p]} where com = map head $ filter ((== length (progModes p)) . length) $ group $ sort [show $ flagFlag f | m <- progModes p, f@Flag_{flagGroup=Nothing} <- modeFlags_ m] commonGroup = "Common flags" groupSplitCommon :: Group a -> ([a], Group a) groupSplitCommon (Group unnamed hidden named) = (concatMap snd com, Group unnamed hidden uni) where (com,uni) = partition ((==) commonGroup . fst) named groupCommonHide x = let (a,b) = groupSplitCommon x in b{groupHidden = groupHidden b ++ a} groupUncommonHide x = let (a,b) = groupSplitCommon x in Group [] (fromGroup b) [(commonGroup,a) | not $ null a] groupUncommonDelete x = let a = fst $ groupSplitCommon x in Group [] [] [(commonGroup,a) | not $ null a] --------------------------------------------------------------------- -- ADD EXTRA PIECES extraFlags :: Prog_ -> Prog_ extraFlags p = p{progModes = map f $ progModes p} where f m = m{modeFlags_ = modeFlags_ m ++ flags} grp = if length (progModes p) > 1 then Just commonGroup else Nothing wrap x = def{flagFlag=x, flagExplicit=True, flagGroup=grp} flags = changeBuiltin_ (progHelpArg p) (wrap $ flagHelpFormat $ error "flagHelpFormat undefined") ++ changeBuiltin_ (progVersionArg p) (wrap $ flagVersion vers) ++ [wrap $ flagNumericVersion $ \x -> x{cmdArgsVersion = Just $ unlines v} | Just v <- [progNumericVersionOutput p]] ++ changeBuiltin_ (fst $ progVerbosityArgs p) (wrap loud) ++ changeBuiltin_ (snd $ progVerbosityArgs p) (wrap quiet) [loud,quiet] = flagsVerbosity verb vers x = x{cmdArgsVersion = Just $ unlines $ progVersionOutput p} verb v x = x{cmdArgsVerbosity = Just v} changeBuiltin :: Maybe Builtin_ -> Flag a -> [Flag a] changeBuiltin Nothing _ = [] changeBuiltin (Just Builtin_{..}) x = [x {flagNames = builtinNames ++ if builtinExplicit then [] else flagNames x ,flagHelp = fromMaybe (flagHelp x) builtinHelp}] changeBuiltin_ :: Maybe Builtin_ -> Flag_ -> [Flag_] changeBuiltin_ Nothing _ = [] changeBuiltin_ (Just b) x = [x{flagFlag=y, flagGroup = builtinGroup b `mplus` flagGroup x} | y <- changeBuiltin (Just b) $ flagFlag x] setHelp :: Prog_ -> Mode (CmdArgs Any) -> Mode (CmdArgs Any) setHelp p = mapModes0 add "" where mapModes0 f pre m = f pre $ mapModes1 f pre m mapModes1 f pre m = m{modeGroupModes = fmap (mapModes0 f (pre ++ head (modeNames m) ++ " ")) $ modeGroupModes m} add pre m = changeHelp p m $ \hlp txt x -> x{cmdArgsHelp=Just $ showText txt $ msg hlp} where msg hlp = helpText (progHelpOutput p) hlp (prepare m{modeNames = map (pre++) $ modeNames m}) prepare = mapModes1 (\_ m -> m{modeGroupFlags = groupCommonHide $ modeGroupFlags m}) "" changeHelp :: Prog_ -> Mode a -> (HelpFormat -> TextFormat -> a -> a) -> Mode a changeHelp p m upd = m{modeGroupFlags = fmap f $ modeGroupFlags m} where hlp = changeBuiltin (progHelpArg p) $ flagHelpFormat upd f flg = if concatMap flagNames hlp == flagNames flg then head hlp else flg setReform :: (a -> Maybe [String]) -> Mode a -> Mode a setReform f m = m{modeReform = f, modeGroupModes = fmap (setReform f) $ modeGroupModes m} --------------------------------------------------------------------- -- ASSIGN NAMES assignNames :: Prog_ -> Prog_ assignNames x = x{progModes = map f $ namesOn fromMode toMode $ progModes x} where fromMode x = Names (modeNames $ modeMode x) [asName $ ctor $ cmdArgsValue $ modeValue $ modeMode x | not $ modeExplicit x] toMode xs x = x{modeMode = (modeMode x){modeNames=["["++head xs++"]" | modeDefault x] ++ xs}} fromFlagLong x = Names (flagNames $ flagFlag x) [asName $ fromMaybe (flagField x) (flagEnum x) | not $ flagExplicit x] fromFlagShort x = Names ns $ nub [take 1 s | not $ flagExplicit x, all ((/=) 1 . length) ns, s <- ns] where ns = flagNames $ flagFlag x toFlag xs x = x{flagFlag = (flagFlag x){flagNames=xs}} f x = x{modeFlags_ = rest ++ namesOn fromFlagShort toFlag (namesOn fromFlagLong toFlag flgs)} where (flgs,rest) = partition isFlag_ $ modeFlags_ x isFlag_ Flag_{} = True isFlag_ _ = False asName s = map (\x -> if x == '_' then '-' else toLower x) $ if last s == '_' then init s else s -- have are already assigned, want are a list of ones I might want data Names = Names {have :: [String], want :: [String]} -- error out if any name is by multiple have's, or one item would get no names names :: [Names] -> [[String]] names xs | not $ null bad = err "repeated names" $ unwords bad where bad = duplicates $ concatMap have xs names xs | any null res = err "no available name" "?" | otherwise = res where bad = concatMap have xs ++ duplicates (concatMap want xs) res = map (\x -> have x ++ (want x \\ bad)) xs duplicates :: Eq a => [a] -> [a] duplicates xs = nub $ xs \\ nub xs namesOn :: (a -> Names) -> ([String] -> a -> a) -> [a] -> [a] namesOn f g xs = zipWith g (names $ map f xs) xs