---------------------------------------------------------------------- --- The Curry string classifier is a simple tool to process strings containing --- Curry source code. The source string is classified into the following --- categories: --- --- * moduleHead - module interface, imports, operators --- --- * code - the part where the actual program is defined --- --- * big comment - parts enclosed in {- ... -} --- --- * small comment - from "--" to the end of a line --- --- * text - a string, i.e. text enclosed in "..." --- --- * letter - the given string is the representation of a character --- --- * meta - containing information for meta programming --- --- For an example to use the state scanner cf. addtypes, the tool --- to add function types to a given program. --- --- @author Bernd Brassel --- @version April 2005 --- @category meta ---------------------------------------------------------------------- module CurryStringClassifier (Tokens,Token(..), scan, plainCode, unscan, isSmallComment, isBigComment, isComment, isText, isLetter, isCode, isModuleHead, isMeta, readScan,testScan) where import Char(isDigit,isSpace) --- The different categories to classify the source code. data Token = SmallComment String | BigComment String | Text String | Letter String | Code String | ModuleHead String | Meta String type Tokens = [Token] --- test for category "SmallComment" isSmallComment x = case x of SmallComment _ -> True _ -> False --- test for category "BigComment" isBigComment x = case x of BigComment _ -> True _ -> False --- test if given token is a comment (big or small) isComment x = isSmallComment x || isBigComment x --- test for category "Text" (String) isText x = case x of Text _ -> True _ -> False --- test for category "Letter" (Char) isLetter x = case x of Letter _ -> True _ -> False --- test for category "Code" isCode x = case x of Code _ -> True _ -> False --- test for category "ModuleHead", ie imports and operator declarations isModuleHead x = case x of ModuleHead _ -> True _ -> False --- test for category "Meta", ie between {+ and +} isMeta x = case x of Meta _ -> True _ -> False weaveIntoCode :: (Tokens -> Tokens) -> Tokens -> Tokens weaveIntoCode f ts = let (cs,ncs) = unweaveCode ts in weave (f cs,ncs) unweaveCode :: Tokens -> (Tokens,Tokens) unweaveCode [] = ([],[]) unweaveCode (t:ts) = let (cs,ncs) = unweaveCode ts in if isCode t then (t:cs,ncs) else (cs,t:ncs) weave xys = case xys of ([],[]) -> [] ([],[y]) -> [y] ([x],[]) -> [x] (x:xs,y:ys) -> x:y:weave (xs,ys) --- Divides the given string into the six categories. --- For applications it is important to know whether a given part of --- code is at the beginning of a line or in the middle. The state scanner --- organizes the code in such a way that every string categorized as --- "Code" always starts in the middle of a line. scan :: [Char] -> Tokens scan s = modHead id (stateScan 1 (Code x) x s) where x free stateScan :: Int -> Token -> [Char] -> [Char] -> Tokens stateScan _ token x "" | x=:="" = [token] stateScan _ (Code co) x [c] | x=:=[c] = maybeCode co [] stateScan _ (Text t) x [c] | x=:="" = if c=='\"' then [Text t] else error "File ended while scanning string." stateScan _ (BigComment _) x [_] | x=:="" = error "File ended while expecting -}" stateScan _ (Meta _) x [_] | x=:="" = error "File ended while expecting +}" stateScan line (Code co) x (c:c':cs) | c=='\"' = (x=:="") &> (maybeCode co (stateScan line (Text y) y (c':cs))) | c=='-' && c'=='-' = let (comment,rest) = span (/='\n') cs in (x=:="") &> maybeCode co (SmallComment comment : (stateScan line (Code y) y rest)) | c=='{' && c'=='-' = (x=:="") &> maybeCode co (stateScan line (BigComment y) y cs) | c=='{' && c'=='+' = (x=:="") &> maybeCode co (stateScan line (Meta y) y cs) | c'=='\'' && elem c (infixIDs++delimiters) = (x=:=[c]) &> maybeCode co $ case cs of '\\':l:'\'':rest -> Letter ['\\',l] : (stateScan line (Code y) y rest) '\\':a:b:d:'\'':rest -> if all isDigit [a,b,d] then Letter ['\\',a,b,d] : (stateScan line (Code y) y rest) else error $ "Improperly terminated character found in line " ++ show line l:'\'':rest -> Letter [l] : (stateScan line (Code y) y rest) _ -> error $ "Improperly terminated character in line "++show line | c=='\n' = (x=:=c:y) &> stateScan (line+1) (Code co) y (c':cs) | otherwise = (x=:=c:y) &> stateScan line (Code co) y (c':cs) where y free stateScan line (BigComment co) x (c:c':cs) | c=='-' && c'=='}' = (x=:="") &> BigComment co : (stateScan line (Code y) y cs) | c=='\n' = (x=:=c:y) &> stateScan (line+1) (BigComment co) y (c':cs) | otherwise = (x=:=c:y) &> stateScan line (BigComment co) y (c':cs) where y free stateScan line (Meta co) x (c:c':cs) | c=='+' && c'=='}' = (x=:="") &> Meta co : (stateScan line (Code y) y cs) | c=='\n' = (x=:=c:y) &> stateScan (line+1) (Meta co) y (c':cs) | otherwise = (x=:=c:y) &> stateScan line (Meta co) y (c':cs) where y free stateScan line (Text t) x (c:c':cs) | c == '\"' = (x=:="") &> Text t : (stateScan line (Code y) y (c':cs)) | c == '\\' = (x=:=c:c':y) &> stateScan line (Text t) y cs | elem c toBeEscaped = error $ "unescaped "++c:" encountered in line " ++ show line | otherwise = (x=:=c:y) &> stateScan line (Text t) y (c':cs) where y free modHead :: ([Char] -> [Char]) -> Tokens -> Tokens modHead fs (Code c : ts) = case break (\x->x=='\n'||x=='\r') c of ("","") -> modHead fs ts ("",n:rest) -> modHead (fs . (n:)) (Code rest : ts) (line,"") -> if any (lineBeginsWith line) headers then ModuleHead (fs line) : (modHeadInLine id ts) else maybeMo (fs "") (Code c:ts) (line,n:rest)-> if any (lineBeginsWith line) headers then modHead (fs . (line++) . (n:)) (Code rest:ts) else maybeMo (fs "") (Code c : ts) modHead fs (BigComment c : ts) = maybeMo (fs "") (BigComment c : (modHead id ts)) modHead fs (SmallComment c : ts) = maybeMo (fs "") (SmallComment c : (modHead id ts)) modHead fs (Meta c : ts) = maybeMo (fs "") (Meta c : ts) modHead fs [] = maybeMo (fs "") [] modHeadInLine :: ([Char] -> [Char]) -> Tokens -> Tokens modHeadInLine fs [] = maybeMo (fs "") [] modHeadInLine fs (Code c : ts) = case break (\x->x=='\n'||x=='\r') c of (line,n:rest) -> modHead (fs . (line++) . (n:)) (Code rest : ts) _ -> modHead fs (Code c : ts) modHeadInLine fs (BigComment c : ts) = maybeMo (fs "") (BigComment c : (modHeadInLine id ts)) modHeadInLine fs (SmallComment c : ts) = maybeMo (fs "") (SmallComment c : (modHeadInLine id ts)) modHeadInLine fs (Meta c : ts) = maybeMo (fs "") (Meta c : ts) headers :: [[Char]] headers = [" ","import","infix","infixl","infixr","module"] lineBeginsWith :: [Char] -> [Char] -> Bool lineBeginsWith line s | length line < lens = False | otherwise = line==s || let (s',rest) = splitAt (length s) line in s==s' && (null rest || isSep (head rest)) where lens = length s isSep :: Char -> Bool isSep c = isSpace c || elem c infixIDs || elem c "([{" infixIDs :: String infixIDs = "~!@#$%^&*+-=<>?./|\\:" delimiters :: String delimiters = " ([{,}])" toBeEscaped :: [Char] toBeEscaped = "\\\n\r\t\"" maybeCode :: [Char] -> Tokens -> Tokens maybeCode s ts = {-if s=="" then ts else-} Code s:ts maybeMo s ts = if s=="" then ts else ModuleHead s:case ts of Code c:ts' -> Code ('\n':c):ts' _ -> ts --- Yields the program code without comments --- (but with the line breaks for small comments). plainCode :: Tokens -> String plainCode (ModuleHead s:ts) = case ts of Code c : ts' -> s++drop 1 c++plainCode ts' _ -> s++plainCode ts plainCode (Code s:ts) = s++plainCode ts plainCode (Text s:ts) = '\"':s++'\"':plainCode ts plainCode (Letter s:ts) = '\'':s++'\'':plainCode ts plainCode (BigComment _:ts) = plainCode ts plainCode (SmallComment _:ts) = plainCode ts plainCode (Meta s:ts) = "{+"++s++"+}"++plainCode ts plainCode [] = "" --- Inverse function of scan, i.e., unscan (scan x) = x. --- unscan is used to yield a program after changing the list of tokens. unscan :: Tokens -> String unscan (ModuleHead s:ts) = s++case ts of (Code (_:c):ts') -> unscan (Code c:ts') _ -> unscan ts unscan (Code s:ts) = s++unscan ts unscan (Text s:ts) = '\"':s++'\"':unscan ts unscan (Letter s:ts) = '\'':s++'\'':unscan ts unscan (BigComment s:ts) = "{-"++s++"-}"++unscan ts unscan (SmallComment s:ts) = "--"++s++unscan ts unscan (Meta s:ts) = "{+"++s++"+}"++unscan ts unscan [] = "" --- return tokens for given filename readScan :: [Char] -> IO Tokens readScan fn = readFile fn >>= return . scan --- test whether (unscan . scan) is identity testScan :: [Char] -> IO () testScan fn = do c <- readFile fn print (unscan (scan c)==c) testWeave :: [Char] -> IO () testWeave fn = do c <- readFile fn print (unscan (weave (unweaveCode (scan c)))==c)